224th ECS Meeting: Meeting Program

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San Francisco Travel Association photo by Mark Gibson.

San Francisco Travel Association photo.

224 th

ECS MEETING

San Francisco Travel Association photo by P. Fuszard.

San Francisco, CA San Francisco Travel Association photo by Carol Simowitz.

October 27—November 1, 2013 Hilton San Francisco

San Francisco Travel Association photo.

meeting program


ECS Officers and Board of Directors Officers Jeffrey Fergus, Chair, High Temperature Materials Division

Tetsuya Osaka, President Paul Kohl, Sr. Vice-President Daniel Scherson, 2nd Vice-President

Shinji Fujimoto, Chair, Corrosion Division

Krishnan Rajeshwar, 3rd Vice-President

Fernando Garzon, Past President Andrew Hoff, Chair, Electronics & Photonics Division

Hariklia Deligianni, Secretary Christina Bock, Treasurer

Paul Kohl, Sr. Vice-President

Roque J. Calvo, Executive Director

Oano Leonte, Chair, Dielectric Science & Technology Division

Board of Directors

Bor Yann Liaw, Chair, Battery Division

Christina Bock, Treasurer Gerardine Botte, Chair, Industrial Electrochemistry & Electrochemical Engineering Division James Burgess, Chair, Organic & Biological Electrochemistry Division

Robert Mantz, Chair, Physical & Analytical Electrochemistry Division Tetsuya Osaka, President and Board Chair Krishnan Rajeshwar, 3rd Vice-President Daniel Scherson, 2nd Vice-President

Roque J. Calvo, Executive Director

Stuart Swirson, Nonprofit Financial Professional

Michael Carter, Chair, Sensor Division John Collins, Chair, Luminescence and Display Materials Division Hariklia Deligianni, Secretary

Adam Weber, Chair, Energy Technology Division R. Bruce Weisman, Chair, Fullerenes, Nanotubes, & Carbon Nanostructures Division Giovanni Zangari, Chair, Electrodeposition Division

ECS Staff Roque J. Calvo, Executive Director

Heather McAlinn, Publications Production Assistant

Mary Yess, Deputy Executive Director and Publisher

Winnie Mutch, Web Manager

Dinia Agrawala, Interface Production Manager

Anna Olsen, Constituent Services Associate

Karen Chmielewski, Finance Associate

Karen Baliff Ornstein, Associate Director of Marketing

Paul Cooper, Editorial Manager

Stephanie Plassa, Director of Meetings and Exhibits

Dan Fatton, Director of Development

Elizabeth Schademann, Publications Production Assistant

Annie Goedkoop, Director of Publications Andrea Guenzel, Journals Publications Assistant Paul Grote, Director of Finance

Stacy Schlags, Meetings Coordinator Keith Schlesinger, Technical Programs Coordinator

Mary Hojlo, Constituent Services Assistant Colleen Klepser, Executive Administrator

Beth Anne Stuebe, Conference Publications Production Assistant

Christie Knef, Development Manager

Logan Streu, Publications Assistant

John Lewis, Associate Director of Conference Publications

All recycled paper. Printed in USA.

ECS — The Electrochemical Society 65 South Main Street, Pennington, NJ 08534, USA 1.609.737.1902 ecs@electrochem.org l www.electrochem.org


224 th ECS MEETING featuring the

2013

San Francisco Travel Association photo by P. Fuszard.

San Francisco Travel Association photo.

2013 ECS Welcomes You to San Francisco

O

n behalf of the Officers, Board of Directors, and Staff of ECS, it is my pleasure to welcome you to the exciting city of San Francisco for the 224th ECS Meeting. Whether you are at an ECS meeting for the first time, or have had the privilege of attending many ECS meetings, we hope that your time in San Francisco will be a perfect opportunity to get together with colleagues and associates from around the world, discuss important research, and discover new initiatives. This major international conference at the Hilton San Francisco will include more than 50 topical symposia consisting of over 2,800 technical presentations, and feature the third international ECS Electrochemical Energy Summit (E2S), which is fast becoming a tradition at ECS meetings. You are invited to participate in the technical program as well as many other social events during six days of presentations and networking opportunities. E2S and ECS Short Courses help launch the meeting on Sunday, October 27. Tetsuya Osaka Two days of special events are devoted to E2S, with a featured symposium that explores the energy– ECS President water nexus, the intersection of two critical resource issues. Events on Sunday include an afternoon program with three invited speakers, all experts in energy issues, along with a dynamic Energy Research Group Showcase, a Poster Session, and a reception. E2S events on Monday will be devoted to the Energy–Water Nexus Symposium (A3), and The ECS Lecture. Presented by Professor Mark S. Wrighton, this plenary speech will address “America’s Energy Future: Science, Engineering, and Policy Challenges.” Other Monday highlights include the Olin Palladium Award Lecture, “Mathematical Modeling of Lithium Ion Cells and Batteries,” presented by Ralph E. White, and the Carl Wagner Memorial Award Lecture, by Marc T. M. Koper. Dr. Koper will speak on “Multiple Proton-coupled Electron Transfer in Electrocatalysis: Theory vs. Experiment.” We also hope you plan time to attend the Technical Exhibit and General Society and Student Poster Sessions. An added feature of this meeting is a special Meet & Greet Book Signing and Giveaway, celebrating the publication of Lithium Batteries, edited by Bruno Scrosati, K. M. Abraham, Walter van Schalkwijk, and Jusef Hassoun. Don’t miss your chance to chat with some of the editors and win a signed edition of this new ECS sponsored monograph – see your Meeting Registration badge sheet for details. This Meeting Program includes a wealth of information – please feel free to stop by the ECS Registration area if you have any more questions. P.S. Don’t forget – this meeting is wired! Download the ECS Meeting App from the Apple App Store or Android Market, and take advantage of the new Online Meeting Scheduler (see page 3 for details).

Program Guide ADA Accessibility................................................................2 Author Index.....................................................................244 Award Winners.............................................................. 10-15 Committees, Boards & Other Meetings................................7 Companion Registrant Program............................................3 ECS Student Chapters.........................................................29 ECS Committees.................................................................30 ECS Division Officers........................................................28 ECS Sections.......................................................................28 ECS Transactions for San Francisco 2013............................8 Editorial Boards..................................................................27 Electrochemical Energy Summit (E2S)........................ 16-17 Featured Speakers.................................................................9 Floor Plan............................................................................19 General Meeting Information...............................................8 Hotel Information..................................................................2 Key Locations.......................................................................2 Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Meeting App..........................................................................3 Meeting Events-at-a-Glance.................................................5 Meeting Overview................................................................6 Officers & Staff........................................ Inside Front Cover Photography and Recording..................................................2 Poster Sessions................................................................5, 30 Presenter Information..........................................................32 Professional Development Series.......................................32 Registration Hours................................................................2 Session Chair Information..................................................32 Short Courses and Tutorials................................................31 Special &Ticketed Events.....................................................6 Sponsors..............................................................................25 Symposium Topics and Organizers.....................................34 Technical Exhibit.......................................................... 20-24 Technical Sessions..............................................................36 Wireless Network..................................................................3 1


General Meeting Information and Meeting Registration

T

he 224th ECS Meeting will be held in the heart of San Francisco, at the meeting headquarters hotel, the Hilton San Francisco (333 O’Farrell Street, San Francisco, CA 94102). Key Locations in the Hilton San Francisco Hotel Meeting Registration................................... East Lounge, Ballroom Level

Information/Message Center...................... East Lounge, Ballroom Level ECS Headquarters Office..................... California Room, Ballroom Level AV Tech Table...........................Located outside select symposium rooms Technical Exhibit............................................................... Grand Ballroom

Registration Information Meeting Registration—The meeting registration area will be located in the Hilton San Francisco Hotel, in the East Lounge, Ballroom Level. Registration will open on Saturday evening and the technical sessions will be conducted Sunday through Friday. Registration Hours Saturday, October 26.................................................................1600-1900h Sunday, October 27...................................................................0700-1900h Monday, October 28..................................................................0700-1900h Tuesday, October 29..................................................................0700-1730h Wednesday, October 30.............................................................0800-1600h Thursday, October 31................................................................0800-1600h Friday, November 1...................................................................0800-1200h Lost Badge or Ticket There will be a $30 charge for reprinting lost badges or tickets. Admittance will not be granted to ticketed events without the actual ticket. Tickets must be reprinted at Registration during scheduled hours and cannot be reprinted at the event itself. ADA Accessibility Special accommodations for disabled attendees will be handled on an individual basis provided that adequate notice is given to the ECS headquarters office. Permissions Granted to ECS ECS reserves the right to electronically record any or all meetingrelated events. By registering for and/or attending an ECS meeting you are granting ECS permission to use any recording or photography made of you at any meeting event or anywhere within the meeting venue. Speaker Indemnification The ideas and opinions expressed in the technical sessions, conferences, and any handout materials provided are those of the presenter. They are not those of The Electrochemical Society (ECS), nor can any endorsement by ECS be claimed.

Meeting Registration Who must pay the registration fee? All meeting participants, including invited speakers, are required to pay the appropriate registration fees. Short Course registrants who wish to attend the meeting in addition to their Short Course are required to pay the meeting registration fee in addition to the Short Course fee. 2

Early-Bird Registration The deadline for Early-Bird registration is September 27, 2013. Regular registration rates are in effect online after September 27, 2013 and at the meeting. Register online at www.electrochem. org, or download the registration form from the website and fax your completed form to 1.609.737.2743. If you send a registration by fax, please do not send another copy by e-mail, as this may result in duplicate charges. Early-Bird and post-September 27th registration payments must be made in U.S. Dollars via Visa, MasterCard, American Express, Discover Card, check, or money order payable to ECS. Registration Fees ALL PARTICIPANTS AND ATTENDEES ARE REQUIRED TO PAY THE APPROPRIATE REGISTRATION FEE LISTED BELOW. Early-Bird Regular Rate ECS Member..................................................$450............................$550 Nonmember....................................................$620............................$720 ECS Student Member.....................................$160............................$260 Student Nonmember.......................................$195............................$295 One Day ECS Member..................................$280............................$380 One Day Nonmember....................................$370............................$470 Nontechnical Registrant.................................$ 25............................$ 30 ECS Emeritus or Honorary Member...............Gratis..........................Gratis Refunds Written requests for Registration refunds will be honored only if received by October 21, 2013. All refunds are subject to a 10% processing fee and requests for refunds must be made in writing and e-mailed to customer.service@electrochem.org. Refunds will not be processed until AFTER the meeting. Financial Assistance Financial assistance is limited and generally governed by the symposium organizers. Individuals may inquire directly to the organizers of the symposium in which they are presenting their paper to see if funding is available. Individuals requiring an official letter of invitation should write to the ECS headquarters office; such letters will not imply any financial responsibilities of ECS. ECS Meeting Abstracts Meeting Abstracts are always right at hand and as always, are FREE with registration. Registrants may easily access them through wireless Internet, which will be available at the meeting; view them on the ECS Meeting App; or download them directly from the 224th ECS Meeting website. Paper editions of meeting abstracts are no longer distributed; attendees who require paper should download the abstracts and print them in advance of the meeting.

Photography and Recording is not permitted— By attending the ECS meeting, you agree that you will not record any meeting-related activity, without the express, written consent from ECS. Recording means any audio, visual, or photographic methods. REC Meeting-related activity means any presentation (oral or poster) or social event directly related to the meeting. You may photograph your own personal, non-meeting related activity, but you must obtain permission from all involved parties before photographs can be taken of other people or displays at the meeting or exhibit. Press representatives must receive media credentials and recording permission from the ECS Headquarters Office. If you violate this policy, you will be removed from the meeting. Your registration will be revoked and you will lose all access to the meeting. In this case, you will not receive a refund of the registration fees. ECS also reserves the right to deny your attendance at future ECS or ECS sponsored meetings.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Travel Companions/Nontechnical Registrants

Travel companions of attendees are invited to register for the 224th ECS Meeting as a “Nontechnical Registrant.” The nontechnical registrant registration is $25 until September 27, and $30 after September 27, and includes admission to non-ticketed social events; use of an exclusive Get-Together Lounge with beverage service and light refreshments, Monday through Friday, 0800-1000h; and a special “Welcome to San Francisco” orientation presented by San Francisco Travel on Monday, October 28 at 0900h in the lounge. Please note that online registration is not available for Nontechnical Registrants. To register a Travel Companion/Nontechnical Registrant, please contact ECS Headquarters before the meeting, or stop by Registration at meeting.

Meeting Tools Online Meeting Scheduler! The Online Meeting Scheduler has been provided for your convenience and easy reference. It includes times and locations for all technical sessions, committee meetings, and special events, and can also be accessed from the meeting app! Visit the San Francisco website or meeting app to build your schedule now!

Wireless Network

ECS is pleased to provide a complimentary wireless network! For the duration of the meeting, ECS will be providing a wireless network for your use. This complimentary service is available in designated areas of the Hilton. To use the wireless network, please connect to “PrincetonAppliedResearch” and then open your Web browser. You will then be prompted to enter the password listed below. Network Name (SSID).................. PrincetonAppliedResearch Access Code.................................. connects (all lowercase) Other wireless Internet access is also available in some public areas of the Hilton. You will not need to log in to those networks as they are provided on a complimentary basis by the hotel, though you may be required to be a guest of the hotel to access them.

Have a Smartphone?

STAY CONNECTED with the

ECS Mobile APP! • Log-in! Your username is the e-mail address you used when you registered for the meeting. The password is the record number you received on your electronic receipt or when you picked up your registration materials. • Schedule presentations and events to attend, look up speakers, access the abstracts, and tweet your commentary and more! • If you “opt in,” it will allow other people at the meeting to contact you through the app via the e-mail address you provided at registration. Go to the “Settings” icon to change and save your options. • All meeting registrants are automatically listed as attendees in the app. To “opt out” of having your name listed, please notify an ECS employee in the Registration area. My Kaywa QR-Code

http://ecssanfrancisco.quickmobile.mobi/

Letters of Invitation—Individuals requiring an official letter of invitation should complete the electronic form at http:// www.electrochem.org/visa_application and your letter will be emailed to you within 3 business days. Such letters will not imply any financial responsibility of ECS.

DOWNLOADING the ECS App is EASY–

Letters of Attendance—Individuals requiring an official letter of attendance should see an ECS Representative in the Registration Area.

http://kaywa.me/V9yVL

ECS — The Electrochemical Society 65 South Main Street, Bldg. D Pennington, NJ 08534-2839, USA Phone: 609-737-1902 l Fax: 609-737-2743 ecs@electrochem.org l www.electrochem.org

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Complimentary Wireless Network Please connect to “PrincetonAppliedResearch” and then open your Web browser. You will then be prompted to enter the password listed below: Download the Kaywa QR Code Reader (App Store &Android Market) and scan your code!

Network Name (SSID).......PrincetonAppliedResearch Access Code........................connects (all lowercase)

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Take advantage of this one-time only membership opportunity before you leave the meeting and save up to $98. Saying “YES!” to “MUST

HAVE” ECS Membership is Quick and Easy …

• Stop by the Tech Connect Corner (near the Registration area) and sign-up online for your FREE membership or • Log on to www.electrochem.org/free_membership from your personal computer, laptop, tablet, or phone or • Visit the Registration Area for more details.

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Meeting ProgramMeeting October 27–November 1, 2013 *One-year ECS membership available NOW to all qualified non-member Attendees! l

l

San Francisco, CA


Meeting Events-at-a-Glance Sunday, October 27 0800h ���������Technical Sessions begin (check Technical Program for exact time) 0900h ���������Short Courses 1400h ���������Professional Development Series: Essential Elements for Employment Success 1500h ���������ECS Electrochemical Energy Summit (E2S)

Monday, October 28 0800h ���������Technical Sessions begin (check Technical Program for exact time) 0800h ���������ECS Electrochemical Energy Summit (E2S), featuring the Energy–Water Nexus Symposium (A3) 0800h ���������Professional Development Series: Essential Elements for Employment Success 0930h ���������Technical Session Coffee Break 1200h ���������Professional Development Series: Résumé Review 1400h ���������2013 Olin Palladium Award Lecture: ‟Mathematical Modeling of Lithium Ion Cells and Batteries” by Ralph White 1450h ���������2013 Carl Wagner Memorial Award Lecture: ‟Multiple Proton-coupled Electron Transfer in Electrocatalysis: Theory vs. Experiment” by Marc T. M. Koper 1700h ���������The ECS Lecture–‟America’s Energy Future: Science, Engineering, and Policy Challenges” by Mark S. Wrighton 1830h ���������Student Mixer (by invitation only; contact meetings@electrochem.org for details)

Tuesday, October 29

0930h ���������Technical Session–Coffee Break 1300h ���������Technical Exhibit 1700h ���������ECS Publications–Author Information Session 1800h ���������Technical Exhibit; General and Student Poster Sessions

Wednesday, October 30 0800h ���������Technical Sessions begin (check Technical Program for exact time) 0800h ��������� Professional Development Series: Résumé Review 0900h ��������� Technical Exhibit 0930h ��������� Technical Session Coffee Break in Exhibit Hall 1800h ��������� Student Poster Awards Presentation in Exhibit Hall 1800h ��������� Technical Exhibit and General Poster Session 1830h ��������� Author Meet & Greet/Book Signing and Giveaway Event celebrating the publication of Lithium Batteries, edited by Bruno Scrosati, K. M. Abraham, Walter van Schalkwijk, and Jusef Hassoun, ECS Booth #410,412; Technical Exhibit – Enter to win a signed edition!

Thursday, October 31 0800h ���������Technical Sessions begin (check Technical Program for exact time) 0900h ��������� Technical Exhibit 0930h ��������� Technical Session Coffee Break in Exhibit Hall

Friday, November 1 0800h ���������Technical Sessions begin (check Technical Program for exact time)

0800h ���������Technical Sessions begin (check Technical Program for exact time) 0800h ���������Professional Development Series: Résumé Review

ECS Student Mixer Students are invited to join distinguished members and staff of ECS for an evening of fun and networking, complimentary beverages and refreshments. Always one of the most popular events of the meeting, the student mixer is by invitation-only and will be held on Monday, October 28 from 1830-2030h. Registered students will receive an e-mail invitation with details of the mixer. Please remember to bring your badge, confirmation e-mail, and formal identification (passport or drivers license); proof of age is required. Please contact meetings@electrochem.org for more information.

ECS Publications–Author Information Session We encourage all authors to come and meet ECS Editors and Staff at this important new event. This session, which will provide you with information about how to get your work published in the best publications for electrochemistry and solid state science and technology, will be held on Tuesday, October 29 from 1700-1800h, in Yosemite B, Tower 2, Ballroom Level. Please see more event details on page 15.

Great News about ECS Meeting Abstracts! ECS Meeting Abstracts are always right at hand—and as always, are FREE with registration. Registrants may easily access them through wireless Internet, which will be available at the meeting; view them on the Meeting App; or download them directly from the 224th ECS Meeting website.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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IT ADM ONE

74 2090

74 2090

Special & Ticketed Events All tickets are nonrefundable and should be purchased in advance because seating is limited. Tickets are priced as the following: Luncheons: $27 (Early-bird, through September 27); $32, after September 27 Receptions: $14 (Early-bird, through September 27); $16, after September 27 Other Events: price as noted

Sunday, October 27

Tuesday, October 29

1500h ���������ECS Electrochemical Energy Summit (E2S); Continental 7/8/9, Tower 3, Ballroom Level (no ticket required) 1730h ���������E2S - Energy Research Group Showcase & Poster Session; Continental 4/5/6, Tower 3, Ballroom Level (no ticket required) 1900h ���������Electronics & Photonics Division Award Reception & General Meeting; Imperial A, Tower 2, Ballroom Level (no ticket required)

Monday, October 28 0800h ���������ECS Electrochemical Energy Summit (E2S) featuring the Energy–Water Nexus Symposium (A3); Franciscan D, Tower 1, Ballroom Level

1215h ���������Battery Division Luncheon & Business Meeting; Plaza Room A, Tower 2, Lobby Level 1215h ���������Corrosion Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level 1215h ���������High Temperature Materials Division Luncheon & Business Meeting; Taylor, Tower 3, 6th Floor 1215h ���������Sensor Division Luncheon & Business Meeting; Powell, Tower 3, 6th Floor 1800h ���������Corrosion Division Award Reception; Union Square 8, Tower 3, 4th Floor 1800h ���������Europe Section, Gerischer Award Reception; Vista Lounge, Tower 1, 45th Floor (no ticket required)

Wednesday, October 30

1800h ���������Luminescence & Display Materials Division Reception and General Business Meeting; Imperial A, Tower 2, Ballroom Level (no ticket required)

1215h ���������Electrodeposition Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level

1830h ���������D5 Symposium Reception in Honor of Clive Clayton; Golden Gate 1, Tower 3, Lobby Level

1900h ���������Battery Division Award Reception; Vista Lounge, Tower 1, 45th Floor

224th ECS Meeting Highlight ECS celebrates the publication of Lithium Batteries—Advanced Technologies and Applications

Meet, greet, and chat with some of the editors! Plus, enter to win* a signed copy of Lithium Batteries When: Wednesday, October 30, 2013, 1830h Where: ECS Booth in the 224th ECS Meeting Technical Exhibit *No purchase is necessary but you must be present to win. Official rules available upon request to ecs@electrochem.org.

*You must be present at the Meet and Greet Book Signing & Giveaway to be eligible to win­­­. Please check your meeting badge sheet for your book giveaway entry ticket.

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Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Committees, Boards, and Other Meetings Sunday, October 27 1500h ���������Electronics & Photonics Division Subcommittee on Compound Semiconductors; Union Square 8, Tower 3, 4th Floor 1500h ���������Electronics & Photonics Division Subcommittee on ULSI Science & Technology; Union Square 9, Tower 3, 4th Floor 1530h ���������Interface Advisory Board; Union Square 10, Tower 3, 4th Floor 1600h ���������Electronics & Photonics Division Symposium Planning & Technical Directions Subcommittee; Union Square 8, Tower 3, 4th Floor 1700h ���������Industrial Electrochemistry and Electrochemical Engineering Division Symposium Planning Committee; Union Square 10, Tower 3, 4th Floor 1700h ���������Dielectric Science & Technology Division Governing Body / Long Range Planning Committee & Symposium Planning Meeting; Union Square 13, Tower 3, 4th Floor 1700h ���������Physical & Analytical Electrochemistry Division Symposium Planning Committee; Union Square 9, Tower 3, 4th Floor 1730h ���������Fuel Cell Subcommittee; Union Square 8, Tower 3, 4th Floor 1730h ���������Corrosion Division Executive Committee; Green Room, Tower 2, Grand Ballroom Level 1800h ���������Battery Division Executive Committee & Symposium Planning Subcommittee; Union Square 5/6, Tower 3, 4th Floor 1900h ���������Sensor Division Executive Committee; Union Square 1/2, Tower 3, 4th Floor 2000h ���������Electronics & Photonics Division Executive Committee; Union Square 10, Tower 3, 4th Floor 2030h ���������Nominating Committee; Union Square 4, Tower 3, 4th Floor

Monday, October 28 0700h ���������High Temperature Materials Division Executive Committee; Powell, Tower 3, 6th Floor 0700h ���������Industrial Electrochemistry & Electrochemical Engineering Division Executive Committee; Sutter, Tower 3, 6th Floor 0700h ���������Physical & Analytical Electrochemistry Division Executive Committee; Union Square 8, Tower 3, 4th Floor 0700h ���������SSS&T Editorial Board; Union Square 9, Tower 3, 4th Floor 1000h ���������Ethical Standards Committee; Union Square 7, Tower 3, 4th Floor 1330h ���������Education Committee; Union Square 8, Tower 3, 4th Floor 1500h ���������ECS Transactions Editorial Board; Golden Gate 5, Tower 3, Lobby Level 1500h ���������Individual Membership Committee / Division / Section Representatives; Union Square 9, Tower 3, 4th Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

1500h ���������New Technology Subcommittee; Union Square 10, Tower 3, 4th Floor 1630h ���������Luminescence & Display Materials Division Executive Committee; Imperial A, Tower 2, Ballroom Level 1800h ���������Europe Section Executive Committee; Union Square 10, Tower 3, 4th Floor 1900h ���������Europe Section Meeting; Golden Gate 8, Tower 3, Lobby Level 1900h ���������Electrodeposition Division Executive Committee; Union Square 7, Tower 3, 4th Floor 1900h ���������Energy Technology Division Executive Committee; Franciscan C, Tower 1, Ballroom Level

Tuesday, October 29 0700h ���������ES&T Editorial Board; Boardroom, Tower 2, Ballroom Level 0700h ���������Symposium Subcommittee; Powell, Tower 3, 6th Floor 0730h ���������Council of Past Presidents; Union Square 10, Tower 3, 4th Floor 0730h ���������Sponsorship Committee; Union Square 9, Tower 3, 4th Floor 0930h ���������Publications Subcommittee; Union Square 8, Tower 3, 4th Floor 1215h ���������Battery Division Luncheon & Business Meeting; Plaza Room A, Tower 2, Lobby Level (ticket required) 1215h ���������Corrosion Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level (ticket required) 1215h ���������High Temperature Materials Division Luncheon & Business Meeting; Taylor, Tower 3, 6th Floor (ticket required) 1215h ���������Sensor Division Luncheon & Business Meeting; Powell, Tower 3, 6th Floor (ticket required) 1600h ���������Honors & Awards Committee; Union Square 10, Tower 3, 4th Floor 1700h ���������ECS Publications–Author Information Session; Yosemite B, Tower 2, Ballroom Level

Wednesday, October 30 0730h ���������Technical Affairs Committee; Boardroom, Tower 2, Ballroom Level 1000h ���������Ways & Means Committee; Union Square 8, Tower 3, 4th Floor 1215h ���������Electrodeposition Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level (ticket required)

Thursday, October 31 0830h ���������Board of Directors Meeting; Yosemite A/B, Tower 2, Ballroom Level

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Volume 58– S a n F r a n c i s c o , C a l i f o r n i a from the San Francisco meeting, October 27—November 1, 2013 The following issues of ECS Transactions are from symposia held during the San Francisco meeting. All issues are available in electronic (PDF) editions, which may be purchased by visiting http://ecsdl.org/ECST/. Some issues are also available in soft or hard cover editions. Please visit the ECS website for all issue pricing and ordering information. (All prices are in U.S. dollars; M = ECS member price; NM = nonmember price.)

Available Issues Vol. 58

No. 1

Polymer Electrolyte Fuel Cells 13 (PEFC 13) CD/USB........................ M $212.00, NM $265.00

Vol. 58 No. 2

Electrochemical Synthesis of Fuels 2 HC ................................M $141.00, NM $177.00

Vol. 58 No. 3

High Temperature Experimental Techniques and Measurements HC ..............................M $92.00, NM $115.00

Vol. 58 No. 4

Gallium Nitride and Silicon Carbide Power Technologies 3 HC..............................M $127.00, NM $159.00

Vol. 58 No. 5

Nonvolatile Memories 2 HC.............................M $94.00, NM $117.00

Vol. 58 No. 6

Semiconductor Cleaning Science and Technology (SCST) 13) HC.............................M $102.00, NM $127.00

Vol. 58 No. 7

Semiconductors, Dielectrics, and Metals for Nanoelectronics 11 HC ...........................M $117.00, NM $147.00

Vol. 58 No. 8

State-of-the-Art Program on Compound Semiconductors (SOTAPOCS) 55 -and- LowDimensional Nanoscale Electronic and Photonic Devices 6 HC.............................M $114.00, NM $143.00

Vol. 58 No. 9

ULSI Process Integration 8 HC.............................M $92.00, NM $115.00

Vol. 58 No. 10

Atomic Layer Deposition Applications 9 HC.............................M $92.00, NM $115.00

Vol. 58 No. 11

Photovoltaics for the 21st Century 9 SC.............................TBD

Forthcoming Issues SAN A0

Special Lectures - 224th ECS Meeting

SAN A1

Student Posters (General) - 224th ECS Meeting

SAN A2

SAN D1

Corrosion Posters (General) - 224th ECS Meeting

SAN G1

Alkaline Electrolyzers

SAN G2

Synthesis and Electrochemical Engineering General) - 224th ECS Meeting

SAN D2

Atmospheric Corrosion

Nanotechnology (General) - 224rd ECS Meeting

SAN D3

Degradation of Carbon Structural Materials

SAN H1

SAN A3

The Energy Water Nexus

SAN D4

SAN B1

Energy Technology/Battery--Joint Session (General) - 224th ECS Meeting

Mass Transport Phenomena in Localized Corrosion

Carbon Nanostructures 4 - Fullerenes to Graphene

SAN I1

SAN D5

Physical and Analytical Electrochemistry (General) - 224th ECS Meeting

SAN B2

Battery Chemistries Beyond Lithium Ion

Oxide Films: A Symposium in Honor of Clive Clayton on his 65th Birthday

SAN I2

Battery Safety

SAN I3

SAN B4

Computational Science of Battery Materials

Biodegradable and Bioabsortable Metals and Materials

Invitational Symposium in Honor of Adam Heller on his 80th Birthday

SAN B3

SAN D6 SAN E1

Photoelectrochemistry and Photoassisted Electrocatalysis

SAN I4

SAN B5

Electrochemical Capacitors: Fundamentals to Applications

Solid State Topics (General) - 224th ECS Meeting

SAN E7

Physical and Electrochemistry in Ionic Liquids 3

SAN I5

Electrode Processes 8

SAN B8

Intercalation Compounds for Rechargable Batteries

Processing, Materials, and Integration of Damascene and 3D Interconnects 5

SAN F1

SAN J1

Sensors, Actuators, and Microsystems (General) - 224th ECS Meeting

SAN B9

Interfacial Phenomena in Battery Systems

Current Trends in Electrodeposition An Invited Symposium

SAN F2

SAN J2

Impedance Techniques, Diagnostics, and Sensing Applications

SAN B10

Lithium-Ion Batteries

Emerging Materials and Processes for Energy Conversion and Storage

Stationary and Large-scale Electrical Energy Storage Systems 3

SAN F3

Fundamentals and Applications of Electrophoretic Deposition

SAN J3

SAN B12

Luminescence and Display Materials Fundamentals and Applications

SAN F4

Fundamentals of Electrochemical Growth - From UPD to Microstructures 3

SAN J4

Microfluidic MEMS/NEMS, Sensors and Devices

SAN F5

Emerging Opportunities in Electrochemical Deposition for Nanofabrication

SAN J6

Sensors for Agriculture

Ordering Information To order any of these recently-published titles, please visit the ECS Digital Library, http://ecsdl.org/ECST/ Email: customerservice@electrochem.org 8

Meeting Program l October 27–November 1, 2013 l San Francisco,09/09/13 CA


Featured Speakers Plenary Session and ECS Lecture Monday, October 28, 2013, 1700h Grand Ballroom A, Tower 2, Grand Ballroom Level

America’s Energy Future: Science, Engineering, and Policy Challenges by Mark S. Wrighton Mark S. Wrighton was named the 14th Chancellor of Washington University in St. Louis in 1995, following more than two decades at the Massachusetts Institute of Technology, where he was Professor of Chemistry, head of the department, and later Provost. Chancellor Wrighton earned a bachelor’s degree in chemistry from Florida State University and a PhD in chemistry from the California Institute of Technology. Active in public and professional affairs, he has served on numerous governmental panels, including service as Vice Chair of the NRC Committee on America’s Energy Future.

ECS Olin Palladium Award Lecture Monday, October 28, 2013, 1400h Grand Ballroom A, Tower 2, Grand Ballroom Level

Mathematical Modeling of Lithium Ion Cells and Batteries by Ralph E. White Ralph E. White is a Professor of Chemical Engineering and a Distinguished Scientist at the University of South Carolina. He received his PhD from the University of California at Berkeley in 1977 under the direction of Professor John Newman. Dr. White taught at Texas A&M University for almost 16 years before moving to the University of South Carolina where he has served as the Chair of the Department of Chemical Engineering and the Dean of the college. Dr. White has authored or coauthored more than 320 peer-reviewed journal articles, primarily on electrochemical systems, and has graduated 50 PhD and 38 MS students. Currently, he and members of his research group are working on projects on batteries and numerical methods. Dr. White is a former Treasurer of ECS, and he is a Fellow of ECS, American

ECS Carl Wagner Memorial Award Lecture Monday, October 28, 2013, 1450h Grand Ballroom A, Tower 2, Grand Ballroom Level

Multiple Proton-coupled Electron Transfer in Electrocatalysis: Theory vs. Experiment by Marc T. M. Koper Marc T. M. Koper is Professor of Surface Chemistry and Catalysis at Leiden University, The Netherlands. He received his PhD in 1994 from Utrecht University, The Netherlands, in the field of electrochemistry with a thesis on electrochemical oscillations. He was an EU Marie Curie postdoctoral fellow at the University of Ulm, Germany and a Fellow of Royal Netherlands Academy of Arts and Sciences (KNAW) at Eindhoven University of Technology, before moving to Leiden University in 2005. Dr. Koper has also been a visiting professor at Hokkaido University, Japan. He is the recipient of various research grants of the Netherlands Organization

In 2007 the National Research Council convened a committee to study America’s Energy Future, and the report from the committee became public in the spring of 2009. This presentation will include a summary of important events and issues that have arisen since the report was issued, including expansion of the use of natural gas in the United States, the devastating impact from the tsunami in Japan at the Tokyo Electric Power Company’s plant in Fukushima, international tensions surrounding the photovoltaic industry, and a rise in CO2 concentration in the global atmosphere above the 400 ppm level in 2013. Efforts are being made to assure that America’s future energy needs are met at an affordable cost while minimizing adverse effects on the environment. However, to achieve this goal, many challenges must be overcome in a number of critical areas, many of which must be addressed by the science and engineering community. Other challenges require leadership on local, state, national, and international policy. The challenges and opportunities to meet America’s future energy needs will be summarized.

Institute of Chemical Engineers, and AAAS. He has received several awards including the 2000 AESF Scientific Achievement Award for mathematical modeling of the electrodeposition of alloys. A physics-based model of a lithium ion cell can be used to make predictions of the voltage of the cell as a function of time for charge and discharge given the design parameters and operating conditions of the cell. Such a model enables cell designers to determine the effect of changing design parameters on cell performance before building the cell. This model can also be used to design a thermal management system to ensure that the heat generated in the cell is removed before causing overheating and thermal runaway of the cell. It could also be used to make predictions about the life of the cell given information about the anticipated operational conditions. This physics-based model of a lithium ion cell could also be extended to include multiple spatial dimensions to predict the temperature distribution in a lithium ion cell for a given set of conditions. It is now possible to use such physic-based models of lithium ion cells to simulate the performance of lithium ion battery packs. These physics-based battery pack models can be used to design thermal management systems, balancing circuits to extend the life of the battery packs, and control algorithms to ensure successful operation of the battery pack over the life of the pack. A review of the development of physics-based lithium ion cell and battery pack models will be presented.

of Scientific Research (NWO), including a VICI grant in 2005 and a TOP grant in 2011. He was the recipient of a Japan Society for the Promotion of Science (JSPS) Long-Term Fellowship Award in 2011, and the Hellmut Fischer Medal of the German Society for Chemical Technology (DECHEMA) in 2012. This talk will outline a simple but general theoretical analysis for multiple proton-electron transfer reactions, based on the microscopic theory of proton-coupled electron transfer reactions, recent developments in the thermodynamic theory of multi-step electron transfer reactions, and the experimental realization that many multiple proton-coupled electron transfer reactions feature decoupled proton-electron steps in their mechanism. It is shown that decoupling of proton and electron transfer leads to a strong pH dependence of the overall catalytic reaction, implying an optimal pH for high catalytic turnover, and an associated optimal catalyst at the optimal pH. When more than one catalytic intermediate is involved, scaling relationships between intermediates may dictate the optimal catalyst and limit the extent of reversibility that may be achievable for a multiple proton-electron-transfer reaction. These scaling relationships follow from a valence-bond-type binding of intermediates to the catalyst surface. The theory is discussed in relation to the experimental results for a number of redox reactions that are of importance for sustainable energy conversion, primarily focusing on their pH dependence.


Award Winners See pages 9 for biographies of the Olin Palladium award winner and the Carl Wagner Memorial award winner.

Hector Abruña, Emile M. Chamot Professor of Chemistry, is the Director of the Energy Materials Center at Cornell (emc2) and the Center for Molecular Interfacing (cmi). He completed his graduate studies with Royce W. Murray and Thomas J. Meyer at the University of North Carolina at Chapel Hill in 1980 and was a postdoctoral research associate with Allen J. Bard at the University of Texas at Austin. After a brief stay at the University of Puerto Rico, he came to Cornell in 1983. He was Chair of the Department of Chemistry and Chemical Biology from 2004-2008. Dr. Abruña has received numerous awards including a Presidential Young Investigator Award, Sloan Fellowship, J. S. Guggenheim Fellowship and J. W. Fulbright Senior Fellow, the Electrochemistry Award for the American Chemical Society (2008), and the C. N. Reilley Award in Electrochemistry for 2007. He was elected Fellow of the American Association for the Advancement of Science in 2007, member of the American Academy of Arts and Sciences in 2007, and Fellow of the International Society of Electrochemistry in 2008. He received the ECS Physical and Analytical Electrochemistry Division David C. Grahame Award in 2009, the Faraday Medal of the Royal Society in 2011, and in 2013, the Brian Conway Prize of the International Society of Electrochemistry. Dr. Abruña is the coauthor of 400 publications and has presented over 500 invited lectures worldwide. Out of the 43 students that, to date, have obtained a PhD under his direction, 12 have gone on to faculty positions.

Gary Hunter is the technical lead for the Chemical Species Gas Sensors Team and the lead for Intelligent System Hardware in the Sensors and Electronics Branch at NASA Glenn Research Center. Since his arrival at NASA Glenn, he has been involved with the design, fabrication, and testing of sensors, especially chemical species gas sensors. He has worked closely with academia and industry in developing a range of sensor technologies and sensor systems using a number of different sensor materials and sensing approaches. This work has included the use of both micro- and nanotechnology as well as the integration of sensor technology into smart systems. Dr. Hunter’s contributions range from research to technical management in fields including engine emissions, environmental monitoring, breath monitoring, fire detection, leak detection, and high temperature wireless sensors. He has been involved with development projects ranging from: producing a sensor for detecting fuel leaks for use on launch vehicles, a Venus seismometer to work on the planet’s surface, and a new fabrication method for sensors based on nanotechnology. Dr. Hunter has been active in the application of the resulting sensor technology both in NASA and industry. In 1995, he was co-recipient of an R&D 100 for the development of an Automated Hydrogen Leak Detection System used on the Ford automotive assembly line. The technology he has developed has been chosen, demonstrated, or applied in applications such as the Space Shuttle, NASA Helios Vehicle, International Space Station, Jet Engine Test Stands, and the Ford U Car. In 2005, he was co-recipient of an R&D 100 for a fire detection system that showed a zero false alarm rate in FAA testing. In 2011, Dr. Hunter received the NASA Glenn Research Center Abe Silverstein Medal for pioneering research and commercialization of chemical gas sensor microsystems for NASA missions. He has served as Chair of the ECS Sensor Division, organized a number of symposia, taught short courses on chemical sensing, and has a significant number of papers, talks, and invited talks.

Nancy Dudney is a distinguished researcher in the Materials Science and Technology Division at Oak Ridge National Laboratory. She received degrees from the College of William and Mary (BS, chemistry) and MIT (PhD, ceramic materials science and engineering) and began work at Oak Ridge National Laboratory as a Wigner Research Fellow in the Solid State Division. Dr. Dudney’s research interests include: lithium battery materials and architectures, thin film and composite electrolytes, thin film materials for batteries, and mixed ionic-electronic conduction in oxides. She helped pioneer the development of commercial thin-film lithium batteries and continues to utilize thin film processing and materials in her research toward the stabilization of battery interfaces. Her goal is to promote development of safe and efficient batteries for vehicles and renewable energy. Dr. Dudney is an inventor with 12 issued and 11 pending patents. She authored more than 150 peer-reviewed journal publications and book chapters. Her inventions won four R&D 100 awards and three awards of Excellence in Technology Transfer by Federal Laboratory Consortium. Recognition was also awarded by the Association of Women in Science and YMCA’s Tribute to Women. Dr. Dudney is a dedicated ECS member and served various positions from member-at-large to chair on the executive board at the Battery Division. She organized numerous symposia and conferences. She also served for three decades as associate editor for the Journal of the American Ceramic Society. Her tireless service to professional societies facilitates the communications in the research community.

Jiri (Art) Janata is Georgia Research Alliance Eminent Scholar in the School of Chemistry and Biochemistry, Georgia Institute of Science and Technology. Between 1991 and 1997, he was an Associate Director of Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, in Richland, Washington. Prior to that appointmen. Dr. Janata was Professor of Materials Science and Professor of Bioengineering at the University of Utah for seventeen years. He came to Utah after leading an analytical development group at Corporate Laboratory of Imperial Chemical Industries, Ltd., in England for eight years. Born in Czechoslovakia. Prof. Janata received his PhD degree in analytical chemistry from the Charles University (Prague) in 1965. His academic training included postdoc position at the University of Michigan with Harry B. Mark Jr. Dr. Janata has over 230 peer-reviewed publications to his credit, over 20 patents and 22 contributed book chapters. The main area of his research, chemical sensors, has been summarized in the popular graduate textbook Principles of Chemical Sensors, first published by Academic Press in 1989 and again in 2010 by Springer, as the updated 2nd Edition. In the course of his academic career, Professor Janata trained over 80 PhD and numerous MSc and postdoctoral students. He held visiting professorships at Universität der Bundeswehr, EPFL Lausanne, Tokyo Institute of Technology, ETH Zurich and at the Weizmann Institute, Israel. He is recipient of Senior Scientist Prize from the Alexander von Humboldt Foundation, Creativity Award from the National

2013 Class of ECS Fellows Established in 1989, the designation of Fellow of The Electrochemical Society is awarded for individual contributions and leadership in the achievement of science and technology in the area of electrochemistry and solid state sciences and current active participation in affairs of ECS.

10

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Science Foundation (USA), and in 1994, was the first ECS Sensor Division Outstanding Research Award. In 2001, Dr. Janata was named an Honorary Member of the Czech Learned Society. Besides organizing numerous professional meetings, he has chaired three Gordon Research Conferences on Chemical Sensors and Interfaces, Energy and Environment and Electrochemistry, respectively. In 1995, he was the Plenary Speaker at the Electrochemical Society Meeting in Reno. Dr. Janata’s general interests include interfacial chemistry and radioanalytical chemistry. His current hot topic is the synthesis of new materials for chemical sensors and catalysis, based on composites of organic semiconductors and atomic metals. Johna Leddy holds a BA from Rice University, a PhD from the University of Texas, and completed a postdoctoral appointment in the Fuel Cell Program at Los Alamos National Labs. She was Assistant Professor at Queens College, Graduate Program of the City University of New York. In 1991, she moved to the Chemistry Department, University of Iowa where she has thus far mentored 15 PhD graduates. Their work on magnetoelectrocatalysis in fuel cells, batteries, solar cells, breath sensors, electrochemical ammonia generation with cyanobacteria, and sonoelectrochemistry have generated numerous patents and patent applications. Dr. Leddy’s research interests include magnetic effects on electron transfer reactions and electrocatalysis. Magnetoelectrocatalysis improves energy storage and generation systems that include batteries, fuel cells, hydride storage, dye sensitized solar cells, and photogeneration of hydrogen on p-Si. Magnetic fields facilitate electron transfer reactions for adsorbates such as CO oxidation on platinum. Magnetic microparticles on and in electrodes are used to introduce magnetic fields. Models for magnetic effects on electron transfer characterize results of temperature dependent experiments. In essence, to transfer an electron, it is necessary to transfer the charge and the spin. Magnetic fields interact with the spin. Other research interests include physical manipulation of electrocatalysis with sound energy, electrochemical energy systems, voltammetric characterization of films on electrodes, electroanalysis, and electrochemical modeling. Dr. Leddy has been actively involved with ECS. She has served on the Executive Committee of the Physical and Analytical Electrochemistry Division (PAED) and more than half of the Standing Committees of the Society. She recently completed a term as Secretary of the Society. Professor Leddy has also served as President of the Society for Electroanalytical Chemistry. Shelley Minteer is a USTAR Professor in both the Departments of Chemistry and Materials Science and Engineering at the University of Utah. She received her PhD in Analytical Chemistry at the University of Iowa in 2000 under the direction of Professor Johna Leddy. After receiving her PhD, she spent 11 years as a faculty member in the Department of Chemistry at Saint Louis University before moving to the University of Utah in 2011. During both her time at Saint Louis University and University of Utah, Dr. Minteer has been involved with ECS, including roles as Chair, Vice-Chair, Secretary-Treasurer, and Member-at-Large of the Physical and Analytical Electrochemistry Division (PAED), as well as being a member of the Honors & Awards Committee, the New Technology Subcommittee, and the Symposium Planning Subcommittee. She is currently a Technical Editor for the Journal of The Electrochemical Society and ECS Electrochemistry Letters. Professor Minteer has published more than 150 publications and over 250 presentations at national and international conferences. She has won several awards including the Missouri Inventor of the

Year, International Society of Electrochemistry Tajima Prize, and the Society of Electroanalytical Chemists’ Young Investigator Award. In 2003, she cofounded Akermin, Inc. with her previous graduate student, which has focused on the commercialization of her biobattery technology and has moved on to carbon capture technology. Her research interests are focused on electrocatalysis and bioanalytical electrochemistry. She has expertise in bioelectrochemistry and bioelectrocatalysis for biosensors and biofuel cells. Sanjeev Mukerjee is a professor in the Department of Chemistry and Chemical Biology, Northeastern University, where he has been since September 1998. He also heads the newly-created center for Renewable Energy Technology at Northeastern University and its subset the Laboratory for Electrochemical Advanced Power (LEAP). Dr. Mukerjee’s research on charge transfer dynamics at both two and three dimensional electrochemical interfaces encompasses materials development, in situ synchrotron spectroscopy and electroanalytical methods. In addition, new computational initiatives are in progress involving both molecular modeling and simulation of multiple electron scattering in the context of in situ synchrotron XANES method. The current projects of the group include materials development for new electrocatalysts, polymer electrolyte membranes, and high energy density (and capacity) cathode materials for aqueous and non-aqueous storage cells. Fundamental understanding of structure property relationships are in concert with applications. In this context two startup companies which the group helped found, Encite Corp, Burlington, MA and Protonex Corp., Westboro, MA are notable. In addition, partnerships with de Nora, and BASF, Proton Onsite and Automotive Fuel Cell Corporation (Canada) are ongoing for developing a number of fuel cell and electrolyzer technologies. Federal funding comes from the Army Research Office, Department of Energy, National Science Foundation, Air Force Office of Scientific Research and National Institute of Technology-Advanced Technology Program. Professor Mukerjee is an author of 106 peerreviewed publications with an h-factor of 45. Elizabeth Opila is an associate professor in materials science and engineering at the University of Virginia in Charlottesville, where she has been since 2010. Prior to that, she was Materials Research Engineer at the NASA Glenn Research Center in Cleveland, OH for 19 years, where she worked primarily on ceramics for applications in turbine engines, rocket engines, hot structures for thermal protections systems, and other power and propulsion applications. Dr. Opila’s primary research focus includes understanding thermodynamics and kinetics of material degradation reactions in extreme environments, development of life prediction methodology based on understanding of fundamental chemical reaction mechanisms, and materials development for protection of materials from extreme environments. Additional research areas of interest include defect chemistry of functional oxides. Dr. Opila received her BS in ceramic engineering from the University of Illinois, her MS in materials science from the University of California Berkeley, and her PhD in materials science from the Massachusetts Institute of Technology. She is currently a consultant for the NASA Engineering and Safety Center–Materials Technical Discipline Team. She is a member of ECS and past chair of the High Temperature Materials Division. She is also a member of the American Ceramic Society, TMS (The Minerals, Metals & Materials Society), and the Materials Research Society. She has over 100 publications as well as six patents. (continued on next page)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Award Winners–ECS Fellows (continued from previous page)

Jan Robert Selman is currently the University Distinguished Research Professor at the Illinois Institute of Technology (IIT), Chicago. He has served on the faculty of IIT since 1975 and retired from teaching in 2002. He received his Ingenieur (chem.tech.) diploma in 1961 in chemical technology from Delft Technical University in the Netherlands, and completed graduate studies in chemical engineering at the University of Wisconsin at Madison (MS, 1962) and the University of California at Berkeley (PhD, 1971). After working at Argonne National Laboratory in high-temperature batteries, he joined IIT and established a graduate research program focusing on high temperature batteries and fuel cells (in particular MCFC and SOFC). Since retirement from teaching, his research is focused on fundamentals of wetting by molten carbonate and on the technology of the Direct Carbon Fuel Cell (DCFC), as well as SOFC component fabrication issues. [In the experimental part of this work he is cooperating closely with Dr. John Cooper (Direct Energy, Inc.), and professors Philip Nash and Leon Shaw (IIT)]. More than 30 doctoral dissertations, 40 master’s theses, and 150 journal articles were a result of Professors Selman’s research program at IIT, and most of his former graduate students are now working in energy research, industry, or on the faculty of colleges or universities. With his group he authored or coauthored more than 150 scholarly articles (of which 45 are in the Journal of The Electrochemical Society or other ECS publications). He coedited 12 books or proceedings volumes. The most notable of his contributions to electrochemistry and electrochemical engineering have been in molten carbonate fuel cell technology and engineering, and in the thermal analysis and heat management of lithium-ion batteries. He is co-inventor on a dozen U.S. patents, among which are basic patents for thermal management of lithium-ion batteries by phase change materials. He works together with his former student and colleague Said Al-Hallaj (UIC, Chicago) on commercializing heat management and thermal run-away control of lithium-ion batteries (AllCell Technologies LLC). Prof. Selman’s contributions within ECS were recognized earlier by the Energy Technology Research Award (2002) and his international contributions by the Grove Medal 2010 in Fuel Cell Science and Technology. Kalpathy Sundaram is a senior professor and the graduate coordinator in the Department of Electrical and Computer Engineering at the University of Central Florida. He received his BSc (Special) degree in physics from University of Kerala, India, in 1970. He received the BE degree in electrical and communication engineering from Indian Institute of Science, Bangalore, in 1973, and completed his MTech and PhD degrees in electrical engineering from Indian Institute of Technology, Bombay, in 1975 and 1980 respectively. In 1981, Professor Sundaram joined McMaster University, Hamilton, Canada, as Post-Doctoral Research Fellow. He joined the Opto-Electronics Inc., Oakville, Canada, as a Research Scientist in 1984. Later in 1987, he joined the Department of Electrical and Computer Engineering at the University of Central Florida. Spanning more than two decades of continuous research, Professor Sundaram has provided the foundation of thin film technology for low dielectric constant and high-k dielectric materials. His technical contributions in non-traditional low-k materials such as silicon carbon nitride (SiCN), silicon carbon boron nitride (SiCBN), and boron carbon nitride (BCN) are cited as the original works. In addition, his research contribution in the area of non-traditional high-k materials such as SiN, SiON and CeO2 for metal-oxide-semiconductors (MOS) structures are well known and highly regarded by both academic and industrial researchers and engineers for solving fundamental problems in high-k materials. In particular, his contributions to the 12

systematic comparison of work functions for various combinations of Pt-Ru binary alloys for replacement of the poly-Si gate in p-MOS with a high-k gate dielectrics and studies on zinc oxide (ZnO) films for transparent conducting electrode applications in photovoltaics are highly considered by both the national and international scientific and engineering communities. Professor Sundaram has served in various leadership roles in the Dielectric Science and Technology Division of ECS including Award Chair, Treasurer, Secretary, Vice-Chair, and Chair. Professor Sundaram has published more than 130 papers. His efforts in education have resulted in three University for Excellence in Teaching awards given by the Board of Trustees and the IEEE Region three Outstanding Engineering Educator Award. Enrico Traversa is currently a professor of materials science and engineering at the King Abdullah University of Science and Technology (KAUST). He received his “Laurea” (Italian Doctoral Degree) Summa cum Laude, in chemical engineering from the University of Rome La Sapienza in 1986. Professor Traversa joined the University of Rome Tor Vergata in 1988, and since 2000, is a professor of materials science and technology (now on leave of absence). During his tenure at the University, he was the Director of the PhD Course of Materials for Health, Environment and Energy from 2001-2008. From 2009 to 2012, Dr. Traversa was a principal investigator at the International Research Center for Materials Nanoarchitectonics (MANA) at the National Institute for Materials Science (NIMS), Tsukuba, Japan, leading a unit on Sustainability Materials. In 20122013, he was the Director of the Department of Fuel Cell Research at the International Center for Renewable Energy, Xi’an Jiaotong University, China. Professor Traversa is an author of more than 490 scientific papers (more than 300 of them published in refereed international journals) and 16 patents, and edited 28 books and special journal issues. He is listed in the Essential Science Indicators/Web of Science as a highlycited researcher, both in the Materials Science and Engineering categories, and his h-index is 42. Elected in 2007 in the World Academy of Ceramics, Dr. Traversa was also elected to its Advisory Board (2010-2014). In 2011, he was recipient of the Ross Coffin Purdy Award of the American Ceramic Society for the best paper on ceramics published in 2010. He was recipient of a “1000 Talent” Scholarship from the Government of China in 2011. He served on several ECS committees, and was Chair of the High Temperature Materials Division (2009-2011). From 2003 to 2009, he was Member of the International Relations Committee of the Materials Research Society (MRS). He is currently Editor-inChief of Materials for Renewable and Sustainable Energy and an Associate Editor for the Journal of Nanoparticle Research. He is one of the Volume Organizers of MRS Bulletin for 2014. Martin Winter has been researching in the field of electrochemical energy storage and conversion for more than 20 years. His focus has been on the development of new materials, components, and cell designs for batteries and supercapacitors, in particular lithium-ion batteries. Professor Winter is professor of applied materials science for electrochemical energy storage and conversion at the Institute of Physical Chemistry at Münster University, Germany. The full professorship developed from an endowed professorship funded by the companies Volkswagen, Evonik Industries, and Rockwood Lithium from 2008 to 2012. Currently, Professor Winter is the scientific head of the MEET Battery Research Center at Münster University. MEET (Münster Electrochemical Energy Technology) combines outstanding equipment with an international team of about 130 scientists working on the research and development of innovative electrochemical energy storage devices.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Professor Winter graduated from Münster University. After obtaining his PhD, he worked as post-doctoral research fellow at the Paul Scherrer Institute in Switzerland and later as University Assistant at the University of Technology (TU) in Graz, Austria. Martin Winter then held a full professorship at the Institute of Chemical Technology of Inorganic Materials at the TU Graz. In 2008, he returned to Münster and initialized the process of founding the MEET Battery Research Center. Professor Winter has been a member of ECS since 1997, a (JES) Associate Editor, from 2004-11, and since 2011, is a technical editor for the Journal of The Electrochemical Society and ECS Electrochemical Letters. He is also the spokesperson of the Innovation Alliance LIB 2015, which was initialized by the German Federal Ministry of Education and Research. He is now an associate of the National Platform E-Mobility (NPE), which consults to the German chancellor and government. Dr. Winter is also the head of the research council of the Battery Forum Germany, which advises the German Ministry of Science and Education in the field of electrochemical energy storage. Professor Winter has received the ECS Battery Technology Award and the Research Award of the International Battery Materials Association, among other honors. He has published more than 350 articles in journals, books and proceedings, filed 26 patents and 40 patent applications, and been invited to give more than 300 keynote and plenary presentations during his scientific career.

2012 Norman Hackerman Young Author Awards The Norman Hackerman Young Author Awards were established in 1928 for the two best papers published in the Journal of The Electrochemical Society—one for a paper in the field of electrochemical science and technology, and the other for solid state science and technology. In the category of Electrochemical Science &Technology (EST), the winners were K. Sykes Mason and Kiersten C. Horning, for “Investigation of a Silicotungstic Acid Functionalized Carbon on Pt Activity and Durability for the Oxygen Reduction Reaction” (JES, Vol. 159, No. 12, p. F871). Kelly “Sykes” Mason, completed his bachelor’s degree in chemical and biochemical engineering at the Colorado School of Mines (CSM) in May of 2010. He continued into the graduate program for chemical engineering at CSM to research Pt-based fuel cell cathode catalysts, specifically with regards to catalyst support functionalization with heteropoly acid. He will be graduating in December 2013 and is currently exploring possible career paths. Kiersten Horning began attending Colorado School of Mines (CSM) in the fall of 2010, where she studied to obtain a chemical engineering degree. In her sophomore year, she started working as a research assistant for Kelly S. Mason, a graduate student in Andrew Herring’s Electrochemistry group. After being trained in microscopy, she analyzed Mason’s fuel cell catalysts. She left CSM and will begin studying nutritional science at Colorado State University this fall. In the category of Solid State Science & Technology (SSST), the winner was Balavinayagam Ramalingam, for “Multi-Layer Pt Nanoparticle Embedded High Density Non-Volatile Memory Devices” (JES, Vol. 159, No. 4, p. H393).

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Balavinayagam Ramalingam (Bala) is currently pursuing a PhD in electrical and computer engineering at the University of Missouri, Columbia (UMC) under the guidance of Shubhra Gangopadhyay. His research focuses on the development of sub-2 nm platinum nanoparticles for varied applications. He has identified a unique technique in the sputtering process; where use of low metal atom density regions result in ultra-fine metal nanoparticles with homogeneous size distribution. He has also worked on probing these nanoparticles for size dependent properties in solid state devices and electronic sensors. Over four years, his work has aided in publishing nine articles in renowned journals. He also worked toward developing intelli switch for radar applications, with Justin Legarsky at UMC, and received his master’s degree in 2009. He earned his bachelor’s degree in engineering from India in 2007. Before resuming graduate school he joined the Indian Space Research Organization (ISRO) as a research assistant.

Battery Division Research Award Doron Aurbach is a professor in the department of chemistry, a Senate member, and the director of the Clean-Tech Center at the BarIlan University Institute of Nanotechnology and Advanced Materials (BINA). He is the leader of the Israel National Research Center for Electrochemical Propulsion (INREP), which includes 14 research groups from four leading academic institutions. He leads the electrochemistry group (more than 40 people), which is the largest group of its kind at BIU and in Israel. He also serves as the chair of Israel National Labs Accreditation Authority. He was the chair of the Department of Chemistry during 2001-2005. Professor Aurbach has directed more than 20 post-doctoral fellows, and 35 PhD students, and 45 MSc students have received their degrees under his supervision, several of whom have already developed very successful academic careers. He has published more than 430 papers in leading electrochemistry, materials science, and physical chemistry journals. He is a Fellow of ECS (since 2008), ISE (since 2010), and MRS (since 2012), and serves the electrochemistry and power sources R&D community as technical or associate editor of three journals: Journal of The Electrochemical Society, ECS Electrochemistry Letters, and Journal of Solid State Electrochemistry. Dr. Aurbach has won several prizes, including the Kolthoff prize for excellence in chemistry (2013), the Israel Chemical Society (ICS) Prize of Excellence (2012), Landau Prize for Green Chemistry (2011), the Edwards Company Prize of the Israel Vacuum Society (IVS) for Research Excellence (2007), and the Technology Award of the ECS Battery Division (2005). The scope of Professor Aurbach’s research includes all aspects of non-aqueous electrochemistry, and many kinds of batteries: Li, Li ion, Mg, metal (Li,Al) air, Li sulfur and lead acid systems, super and pseudo capacitors, electronically conducting polymers, and water desalination by electrochemical means. The research work is systematic, includes intensive mechanistic studies and makes use of a very wide scope of electrochemical, microscopic, spectroscopic and structural techniques in order to reach full understanding of the correlation among surface chemistry, morphology, and structure of complicated electrochemical systems, related to the field of power sources. (continued on next page)

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Award Winners

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Battery Division Technology Award Karim Zaghib received his MS (1987) and PhD (1990), both in electrochemistry, from the Institut National Polytechnique de Grenoble, France under the direction of Bernadette Nguyen. In 2002, he received the HDR (Habilitation a Diriger la Recherche) in materials science from the Université de Pierre et Marie Curie, Paris, France. From 1986 to 1990, Dr. Zaghib developed Al-Mn alloys as negative electrodes in molten salts for Li-ion batteries and Cu/Zn reaction displacement. In 1990, Dr. Zaghib published a new method to enhance the electrodeposition of metals. From 1990-1995, he was a post-doctoral fellow investigating chemical lithiation of graphite under a Saft-DGA contract. Then from 1992 to 1995, Dr. Zaghib was guest researcher for the Japanese Ministry of International Trade and Industry (METI); and in 1995 he was instrumental in introducing Liion technology to HydroQuébec, where he is currently the Director of the Conversion and Storage of Energy Department. At Hydro-Québec, Dr. Zaghib initiated research collaborations, with Michel Armand on new materials and solid polymer electrolytes, and with Kim Kinoshita at LBNL to understand the oxidation and irreversible capacity loss of a range of particle sizes of natural graphite. During the past 18 years, Dr. Zaghib has actively collaborated with John Goodenough (University of Texas, Austin), and Christian Julien and Alain Mauger (Paris 6 University, France) to develop the olivine LiFePO4 and Li-Ti-O electrode materials for Liion batteries. His current research activities include developing new battery technologies beyond Li-ion, such as solid state ( Li-S, Li-air, Na, Mg, Ca) batteries. Dr. Zaghib has published 240 refereed papers and has 164 international patents. In addition, he has served as editor or coeditor of 17 books. He was organizer or co-organizer of 50 symposia, meetings, workshops. In June 2010, he was the General Chair of the International Meeting on Lithium Batteries (IMLB) in Montréal, Québec. Dr. Zaghib is very active in ECS, and served as the Chair of the Energy Technology Division (2007-2009). Dr. Zaghib has received the International Electric Research Exchange (IERE) Research Award (2008) in Iguaçu, Brazil, the International Battery Association (IBA) Research Award (January 2010), and was an elected ECS Fellow in 2011.

Corrosion Division H. H. Uhlig Award Mário Ferreira received his degree in chemical engineering from Instituto Superior Técnico (Technical University of Lisbon), Portugal, and his PhD in corrosion science and engineering from UMIST–The University of Manchester Institute of Science and Technology, UK, in 1981. In 1993, he received his “Agregaçãoˮ (Habilitation) title in chemical engineering, from Instituto Superior Técnico. He was a professor at Instituto Superior Tecnico from 1981 to 2001, when he moved to University of Aveiro where he is currently full professor of the Department of Materials and Ceramic Engineering (DEMaC). In 2011, he was nominated Director of DEMaC. From 2001 to 2009, he was also adjunct full professor of the chemical engineering department of Instituto Superior Técnico. Between 20032007, Dr. Ferreira served as Deputy Director-General for Higher Education in Portugal. Dr. Ferreira is a member of several scientific societies, including ECS, the Portuguese Order of Engineers, Portuguese Materials Society, Portuguese Society of Electrochemistry (cofounder), Institute of Corrosion (UK), International Society of Electrochemistry, National Association of Corrosion Engineers (NACE), and

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Matsumae International Foundation (Japan). He is also a member of the European Federation of Corrosion, currently serving as a member of its Board of Administrators, and of the International Corrosion Council where he is the Portuguese delegate. Dr. Ferreira’s main scientific interests are focused on the study of materials degradation, protection self-healing coatings, semiconducting properties of passive films, development of advanced materials, and ecological processes for surface treatments. He has edited four scientific books, published 10 book chapters and more than 250 articles on scientific journals (h-index = 43), and has presented more than 300 communications at conferences. He was responsible for 55 R&D projects, totally or for the Portuguese participation, cofinanced by several national entities, by the European Commission (namely Framework Programmes), and NATO. He served in different scientific and advisory committees related to teaching and science management at national and international levels.

Electrodeposition Division Research Award Daniel Lincot graduated from the French engineering School ESPCI-Paristech. He started his research in the field of photovoltaics, in 1978, with a PhD in the field of cadmium telluride solar cells at the solid state physics laboratory of CNRS. After his PhD, he joined CNRS in 1980 as permanent researcher in the laboratory of electrochemistry and analytical chemistry of Ecole Nationale Supérieure de Chimie de Paris (Chimie-Paristech) and carried out a Doctorat es Sciences in the field of semiconductor's photelectrochemistry. At CNRS, Dr. Lincot also focused on the electrodeposition of semicondutors thin films with cadmium telluride, copper indium gallium diselenide and zinc oxide, with a focus on mechanistic studies in relation with material’s properties. He also carried out research on chemical bath deposition of sulfide semiconductors. These methods were successfully applied in the field of photovoltaics and led to the creation of the Institute of Research and Development of Photovoltaic Energy in 2005, which is now one of the most advanced research centers in the field of thin film photovoltaics. Dr. Lincot received the silver medal of CNRS in 2004. In 2011, he received the Charles Eichner Prize of the French Society of Metallurgy and Materials (SF2M) for his achievments. He has published about 250 papers in international journals, given about 200 invited conferences, and deposited numerous patents.

High Temperature Materials Division J. Bruce Wagner, Jr. Award Paul E. Gannon grew up in Montana and earned BS and PhD degrees in chemical engineering at Montana State University (MSU) in 2002 and 2007, respectively. During his degree programs, he also held undergraduate and post-graduate research fellowships at Pacific Northwest National Laboratory in Richland, Washington, and worked as a research associate at Arcomac Surface Engineering, LLC in Bozeman, Montana. In 2008, he accepted a faculty position in the Chemical and Biological Engineering (ChBE) department at MSU, where he has remained since. At MSU Paul founded and directs the High-Temperature Materials Laboratory (HTML) within the ChBE department. The HTML supports both fundamental and applied research into the behavior of materials in extreme environments relevant to energy conversion systems. Projects include: high-temperature corrosion of metallic, ceramic and composite components within fuel cells, gas turbines, boilers, batteries and related systems; high-temperature corrosion protection via thin film surface coatings; and, high-temperature corrosion within ultra-purity poly-crystalline silicon production environments–upstream of photovoltaic and other semiconductor device manufacturing. Since 2008, the HTML at MSU has supported a full-time research engineer, one post-doc, six graduate students, six Meeting Program l October 27–November 1, 2013 l San Francisco, CA


international visiting students, and over 30 undergraduate students. The HTML has also generated over $1.2M in research funding from various federal, state and industry sources, and published over 20 research manuscripts in peer-reviewed journals. Dr. Gannon has instructed over 1,200 students at MSU since 2009. He developed and instructs a 200-level university science core course, “Energy and Sustainability”, which grew from 48 to 180 students per semester. He authored a textbook to facilitate this course, and similar courses elsewhere entitled, Introduction to Energy, Environment and Sustainability, 2nd Ed., published by Kendall Hunt in 2013. He also instructs “Chemical Engineering Thermodynamics” and “Materials Properties and Structures.” Dr. Gannon earned the MSU Excellence Award for Undergraduate Research Mentorship in 2011, a Certificate of Teaching Enhancement in 2012, and was nominated for the MSU Provost’s Awards for Excellence in Teaching and Undergraduate Research Mentoring in 2012 and 2013. He has also been a longstanding member of the ECS High Temperature Materials Division, and recently initiated an ECS student chapter at MSU.

Europe Section Heinz Gerischer Award Arthur J. Nozik is a Senior Research Fellow Emeritus (as of 2012) at the U.S. DOE National Renewable Energy Laboratory (NREL), a Research Professor in the Department of Chemistry and Biochemistry at the University of Colorado, Boulder, and a founding Fellow of the NREL/University of Colorado Renewable and Sustainable Energy Institute. He served as Associate Director of a DOE LANL/NREL Energy Frontier Research Center (Center for Advanced Solar Photophysics) from 2009 to 2012. Between 2006 and 2009 he was scientific director of the Colorado Center for Revolutionary Solar Photoconversion.

Dr. Nozik received a BChE from Cornell in 1959 and a PhD in Physical Chemistry from Yale in 1967. Before joining NREL in 1978, then known as the Solar Energy Research Institute (SERI), he conducted basic materials chemistry research in industry. Dr. Nozik’s research interests include size quantization effects in semiconductor nanocrystals and quantum wells, including multiple exciton generation from a single photon in quantum dots and via singlet fission in molecules; next generation solar photon conversion to electricity and solar fuels; photogenerated hot carrier effects and relaxation dynamics photomaterials; photoelectrochemistry of semiconductor-molecule interfaces; photoelectrochemical energy conversion; photocatalysis; optical, magnetic, and electrical properties of solids; and Mössbauer spectroscopy. Dr. Nozik has published over 250 papers and book chapters in these fields, written or edited five books, holds eleven U.S. patents, and has delivered over 350 invited talks at universities, conferences, and symposia. He has served on numerous scientific review and advisory panels, chaired and organized many international and national conferences, workshops, and symposia. He has received several awards in solar energy research, including the 2011 ACS Gustavus Esselen Award at Harvard University, the 2008 Eni Award (hosted by the President of Italy), and the 2002 ECS Energy Technology Division Research Award. Dr. Nozik has been a Senior Editor of The Journal of Physical Chemistry (1993-2005) and is on the editorial advisory board of the Journal of Energy and Environmental Sciences and Nanoenergy. A Special Festschrift Issue of The Journal of Physical Chemistry honoring Dr. Nozik’s scientific career appeared in the December 21, 2006 issue. He is a Fellow of the American Physical Society, the American Association for the Advancement of Science, and the Royal Society of Chemistry; he is also a member of ECS, the American Chemical Society, and the Materials Research Society.

Meet ECS Editors and Staff at the ECS Publications — Author Information Session Tuesday, October 29, 2013, 1700-1800h ECS Fall Meeting, San Francisco, CA Yosemite B, Tower 2, Ballroom Level

Questions? ECS has answers for you…

Fall—Winter 2012

VOL. 21, NOS. 3-4 Fall–Winter 2012

IN THIS ISSUE 3 From the Editor:

Biomimetic or Bioinspired?

9 From the President:

Weathering the Storm

…Discover the easy way to submit your abstract and navigate the new submission system. …See how to submit your meeting presentation to ECS Transactions. …Learn about ECS journals’ continuous publication model—your article, online, fast! …Determine which ECS peer-reviewed journals are best for your latest research …Hear about the latest Focus Issues for the ECS journals. …Get an inside view on how Interface articles are selected. …Learn about (and suggest topics for) upcoming ECS monographs. …Find out more about becoming a reviewer for the ECS journals.

11 Pennington Corner: The Weston Legacy

13 Redcat: ECS Launches

Networking and Research Site for Scientists

17 Candidates for Society Office

19 PRiME, Honolulu, Hawaii: Meeting Highlights

58 Tech Highlights 61 Conducting Polymers

and Their Applications

63 Novel MEMS Devices Based on Conductive Polymers

67 Nanoparticle-doped

Electrically-conducting Polymers for Flexible Nano-Micro Systems

S pecial i SSu e

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VOL. 21, NO. 3-4

Conducting Polymers and Their Applications

71 Electrochemical Assay

of GSTP1-related DNA Sequence for Prostrate Cancer Screening

88 ECS Summer Fellowship Reports

107 San Francisco, CA: Call for Papers

Come to the Author Information Session during the ECS fall meeting in San Francisco where you’ll get the answers to these and many more questions. We’ll help you to get your work published in the best publications for electrochemistry and solid state science and technology.

Journal of The Electrochemical Society (JES) l ECS Journal of Solid State Science and Technology (JSS) ECS Electrochemistry Letters (EEL) l ECS Solid State Letters (SSL) l Electrochemical and Solid-State Letters (ESL) Meeting Program l October 27–November 1, 2013 l San Francisco, CA ECS Transactions (ECST) l ECS Meeting Abstracts l Interface 15


San Francisco Travel Association photo by P. Fuszard.

2013 224th ECS Meeting Summit: October 27-28, 2013 Hilton San Francisco

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his two-day summit is designed to foster an exchange between leading policy makers and energy experts about societal needs and technological energy solutions.

Sunday, October 27 Programs and Events

Afternoon, starting at 1500h Robert Glass, Senior Scientist in the Physical and Life Sciences Directorate at Lawrence Livermore National Laboratory, will introduce three invited speakers and coordinate corresponding Questions & Answers.

Speakers Congressman Jerry McNerney, (invited), 9th District of California, is the only renewable energy expert in Congress and sits on the U.S. House Committee on Energy & Commerce, as well as several subcommittees.

Heather Cooley, Co-Director of the Pacific Institute’s Water Program, will speak about The Water–Energy Nexus: Opportunities and Challenges.

Meredith Younghein, State Water Resources Control Board and the Energy Division of the California Public Utilities Commission, will focus on Program and Policy Innovations at the Water–Energy Nexus.

Early evening, 1730h-1830h Energy Research Group Showcase, Student Poster Session, and Reception with light refreshments An up-close look at the research that professional groups and students are conducting in all areas of energy efficiency. With an estimated 65% of the work of the ECS community focused on sustainability issues, our researchers and engineers play an important and relevant role in discovering solutions for current energy challenges.

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Meeting Program www.electrochem.org

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October 27–November 1, 2013 l San Francisco, CA


Monday, October 28

The Energy–Water Nexus Symposium (A3) The morning program will include invited speakers who will examine the role of electrochemistry in addressing the energy–water nexus, from policy considerations to scientific breakthroughs. Moderators Eric Wachsman, Director of the University of Maryland Energy Research Center (UMD), is the William L. Crentz Centennial Chair in Energy Research with appointments in both the Department of Materials Science and Engineering and the Department of Chemical Engineering at UMD. Carl Hensman joined the Water, Sanitation, and Hygiene team within the Global Development Program of the Bill & Melinda Gates Foundation in January 2012. Prior to joining the foundation, Dr. Hensman was an Energy Program Manager for King County, Washington (Seattle) focusing on resource recovery in the Wastewater Treatment Division.

Speakers and Presentations Water and Energy Nexus Mike Hightower, Distinguished Member of the Technical Staff, Energy Surety Engineering and Analysis Department at Sandia National Laboratories.

Effects of Climate Change on Water Availability Antonio Busaliacchi, Earth System Science Interdisciplinary Center, University of Maryland, and Presidential Rank Meritorious Executive Award recipient.

Technical and Economic Opportunities for Water Purification and Sensing for WHO Development Goals Amul Tevar, U.S. Department of Energy and ARPA-E Fellow.

Development of a Self-Contained, PV-Powered Domestic Toilet and Wastewater Treatment System Michael Hoffman, California Institute of Technology, and 2012 Distinguished Visiting Fellow of the Royal Academy of Engineering, Global Vision Scholar at Tsinghua University. Energy–Water Nexus Research and NSF Bruce Hamilton, Program Director, National Science Foundation (NSF), and recipient of the NSF Director's Award for Meritorious Service.

The mid-day program will include a panel discussion and complimentary lunch with the moderators and invited speakers. The early evening program will include the Plenary Session & The ECS Lecture

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

The afternoon program will include all of the scheduled A3 Technical Sessions.

America’s Energy Future: Science, Engineering, and Policy Challenges Mark S. Wrighton, 14th Chancellor of Washington University, St. Louis, and Past Provost of the Massachusetts Institute of Technology.

Visit www.electrochem.org/e2s for complete biographies and more information.

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Your Article. Online. FAST! Quality peer review. Continuous publication. No page charges. u ECS—the only nonprofit society publisher in its field. u High-impact research and technical content areas. u Authors do not pay page charges. u Immediate and worldwide dissemination of content to more than 1,000 academic, research, and corporate libraries. u Visibility and discoverability on a leadingedge, innovative platform. u FOCUS ISSUES devoted to critical, highprofile research that offer state-of-the-science summaries and perspectives.

Get published FAST! Submit your manuscript now at

ecsjournals.msubmit.net

The Electrochemical Society

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Leading the world in electrochemistry and solid state science and technology for more than 110 years

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www.electrochem.org

May 12-16, 2013

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Toronto, ON, Canada

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www.ecsdl.org

Meeting Program l October 27–November 1, 2013 l San Francisco, CA 1


Floor Plan—Hilton San Francisco

TECHNICAL EXHIBIT & POSTER SESSION

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Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Technical Exhibit The ECS Technical Exhibit is always the talk-of-the-meeting—technical exhibits offer a popular networking opportunity as attendees gather together with colleagues and meet new contacts. The exhibitors in San Francisco will showcase instruments, materials, systems, publications, and software, and other products and services, and many will provide demonstrations. Complimentary coffee breaks are scheduled on Wednesday and Thursday at 0930h in the Exhibit Hall. In addition, the Poster Sessions and receptions will be held in the Exhibit Hall on Tuesday and Wednesday evenings, beginning at 1800h.

Exhibit Hours Grand Ballroom, Grand Ballroom Level Tuesday, October 29 Daytime...................................................................... 1300-1600h Evening, includes the General & Student Poster Sessions and Reception................................... 1800-2000h Wednesday, October 30 Daytime, includes morning Coffee Break.................. 0900-1400h Evening, includes the General Poster Session and Reception............................................................. 1800-2000h Thursday, October 31 ................................................... 0900-1200h includes morning Coffee Break

ECS Welcomes our Exhibitors* Agilent Technologies Booth 303 Joan Horwitz joan_horwitz@agilent.com 4330 W Chandler Blvd. Chandler, AZ 85226 1.480.256.5900 USA www.agilent.com

The Agilent 5500 AFM is the only commercially available scientificgrade AFM system specifically engineered from the ground up for advanced electrochemistry at the nanoscale (sub-10-nm resolution). The modular platform design incorporates EC-STM & EC-AFM with true built-in environmental isolation chamber giving researchers comprehensive control of gaseous environments for in-situ experiments.

ALS CO., LTD. Booth 113 Katsunobu Yamamoto yamamoto@bas.co.jp 1-28-12, Mukojima Sumida-Ku, Tokyo, 131-0033 +81.3.3624.3387 Japan www.als-japan.com

ALS Co., Ltd. provides researchers with a wide range of products including Bipotentiostats, Electrochemical Quartz Crystal Microbalances (EQCM), Ring-Disk Electrode apparatus (RRDE-3A) and Spectrometry instruments (SEC2000). We are also dealing with various kinds of Spectroelectrochemical cells (SEC-C & SEC-2F), Electrodes for conductivity measurement and Electrodes for EC measurement same as their related items. We sincerely hope that you will absolutely enjoy our cost-effective and highly quality products with our sincere-integrity support.

Applied Spectra Inc. Booth 202 Lisa Riddel accounting@appliedspectra.com 46665 Fremont Blvd. Fremont, CA 94538 1.510.657.7679 USA www.appliedspectra.com

Applied Spectra, Inc. (ASI) is a leading supplier of analytical instruments based on laser ablation technology. Our J200 LIBS (Laser Induced Breakdown Spectroscopy), LA (Laser Ablation), and Tandem LA – LIBS instrument offers rapid elemental and isotopic analysis without sample preparation. ASI’s innovative analytical products are accelerating material characterization research for thin film solar cells, Li ion batteries, LCD displays, and LED & other light emitting devices. ASI’s products are also helping our industry customers implement efficient and effective QC monitoring for their manufacturing processes. Our instruments are accompanied by unrivaled technical support via our staff’s more than 80 years’ experience in LIBS and LA-ICP-MS analysis.

Arbin Instruments Booth 404 Stephen Parker stephen.p@arbin.com 762 Peach Creek Cut Off. College Station, TX 77845 1.979.690.2751 USA www.arbin.com

Arbin has over 20 years of experience as a manufacturer of multichanneled potentiostat/galvanostat testing systems for battery and electrochemical research. Compared to traditional potentiostats, Arbin can offer many testing channels per system, the ability to reach much higher power as your research scales up, and the software flexibility required to write custom test profiles for evaluating materials and simulating actual battery applications. We continue to lead the way in innovation and customer support.

Beijing Mikrouna Booth 414 Sam Cai caioyuling@mikrouna.cn Dongbeiwang West Rd. Beijing +86.10.6858.8245 China www.mikrouna.cn

As a fast-growing high-tech company, Mikrouna designs and manufactures controlled inert atmosphere glove box systems and gas purifications systems to maintain less than 1ppm of O2 and H2O for handling air sensitive material. Mikrouna has 15 years of manufacturing experience; with a factory set up in Gloucester MA for glove box assembly and technical service, Mikrouna offers custom Glove Boxes tailored to individual requirements. Mikrouna’s high-quality products, cost-effective pricing and excellent service offer great benefits for US clients.

*Exhibitors at press time. 20

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Bio-Logic

ESL ElectroScience

Booths 110,112,114

Booth 215

David Carey david.carey@bio-logic.us 9050 Executive Park Drive, Suite 105C Knoxville, TN, 37923 1.865.769.3800 USA www.bio-logic.us

Drew Chambers dchambers@electroscience.com 416 E Church Rd. King of Prussia, PA 19406 1.610.272.6759 USA www.electroscience.com

Bio-Logic is the exclusive provider of EC-Lab Electrochemical Measurement Instruments. The EC-Lab family of products includes modular single-channel (SP-50/150/200/300) and multi-channel (VSP/ VMP3/VSP-300/VMP-300) potentiostats/galvanostats, High current potentiostats (HCP-803/1005) and easy to use software with a complete line of electrochemical accessories. At ECS, we will proudly have on display the most powerful multi-channel potentiostat on the market. The VMP-300 is capable of having up to 16 independent potentiostats in one chassis, with optional current boosters of 1A/48V, 2A/30V, 4A/14V or 10A/5V, measuring currents down to 5 fA, voltages down to 750 nV, performing EIS experiments up to 7 MHz, analog and digital filtering, and true floating mode operation. All of this at a great economical price/ performance. Come to booths 133, 134, & 135 and see our exciting line of products.

ESL ElectroScience specializes in providing solutions to enable customers to take technologies from concept through high volume production using thick film pastes and ceramic tapes. ESL products can be found in hybrid microcircuits, multilayer microelectronics, transformers, thick film heaters, sensors, and fuel cells. Founded in 1962, ESL ElectroScience has continued to create manufacturable solutions for the past 50 years.

ChemTrace Booth 203 Surjany Russell surjany.Russell@chemTrace.com 44050 Fremont Blvd. Fremont, CA 94538 1.510.687.8012 USA www.ChemTrace.com

Founded in 1993, ChemTrace provides state–of–the–art analytical services and problem solving expertise to improve current technologies in semiconductor, solar, and medical device manufacturing. We understand the needs of our customers and create a customized approach to problem solving analytical solutions. Clients’ needs are fulfilled by the combined experience of our highly qualified chemists, engineers, and technologists. Our personnel interacts closely and regularly with our engineers, internal laboratory and R&D staff, field operators, chemists and physicists to provide accurate and reliable information on the composition, characterization and trace level impurities of samples sent to our laboratory for analysis.

ECS Booths 410, 412 Dan Fatton dan.fatton@electrochem.org 65 South Main Street, Bldg. D Pennington, NJ 08534 1.609.737.1902 USA www.electrochem.org

For more than 110 years, ECS, an international nonprofit, educational organization, has led the advancement of electrochemistry and solidstate science and technology research. ECS membership includes more than 9,000 scientists in over 70 countries, and approximately 100 corporations and government labs. Bridging the gaps in academia, research, and engineering, ECS provides an unparalleled forum for the integration of these areas of science and technology through its technical meetings and publications, and networking opportunities.

EL-CELL GmbH Booth 107 Johannes Hinckeldeyn Johannes.Hinckeldeyn@el-cell.com Tempowerkring 8 Hamburg 21079 +49.40.790.12.733 Germany www.el-cell.com

Evans Analytical Group Booth 307 Cindy Gentile cgentile@eaglabs.com 810 Kifer Rd. Sunnyvale, CA 94086 1.408.530.3500 USA www.eag.com

Evans Analytical Group (EAG) is the global leader in materials characterization and surface analysis services. Measurements available include: SEM, TEM, GDMS, ICP-MS, XRD, Auger, XPS, TOF-SIMS, and XRF. EAG provides fast turn-around time, superior data quality and excellent results from over 15 labs in the US, Europe and Asia.

Gamry Instruments Booths 204 & 206 Wanda Dasch wdasch@gamry.com 734 Louis Drive Warminster, PA 18974 1.215.682.9330 USA www.gamry.com

Gamry Instruments designs and manufacturers a variety of electrochemical instrumentation and accessories. Our full line of single and multichannel potentiostats/galvanostats/ZRAs/FRAs, EQCM, multiplexer, and spectroelectrochemical equipment will be on display. Anyone doing materials research or battery development, corrosion science, sensor development or fundamental physical electrochemical research should stop by our booth for a demonstration. Come find out why Gamry is the best value in electrochemical instrumentation.

Gelest Inc. Literature Display Gabrielle Lockwood info@gelest.com 11 E. Steel Rd. Morrisville, PA 19067 1.215.547.1015 USA www.gelest.com

Gelest, Inc. is headquartered in Morrisville, Pennsylvania, and is recognized worldwide as an innovator, manufacturer and supplier of commercial and research quantities of organosilicon compounds, metalorganic compounds and silicones. Gelest serves advanced technology markets through a materials science-driven approach. The company provides focused technical development and application support for semiconductors, optical materials, pharmaceutical synthesis, diagnostics and separation science, specialty polymeric materials and cosmetics: “Gelest – Enabling Your Technology.” (continued on next page)

EL-CELL supplies scientists and industry with lab-scale electrochemical equipment for battery electrode manufacture and testing. The main focus is on Li-ion battery chemistry. Within this area, EL-CELL offers a wide range of products and services; different kind of test cells, tools, consumables, on-site trainings and turn-key solutions for battery research. Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Technical Exhibit

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Heka Electronics Booth 402 Janie Dolzer marketing@heka.com 643 Hwy 14 Chester, NS B0J 1J0 1.902.624.0606 Canada www.heka.com

For over forty years, HEKA has been among the market leaders in patch clamp systems and a major player in electrochemistry equipment. Throughout these years there have been many changes in research, instrumentation and software. HEKA's goal has always been to drive this progress and shape those changes, while remaining committed to our most important business partner, our customer. Recent product launches include the Imaging Extension Software, the ElProScan Advanced Scanning Electrochemistry Microscopes, and the iTEV 90 Computerized Two-electrode Clamp Amplifier. HEKA's established portfolio of patch clamp and electrochemistry systems, interfaces and software enjoys increasing popularity in the scientific community.

Horiba Scientific Booth 201 Diane Surine diane.surine@horiba.com 3880 Park Ave. Edison, NJ 08820 1.732.494.8660 USA www.horiba.com

HORIBA Scientific, world leader in spectroscopic instrumentation, offers elemental analyzers, GD-OES Spectrometers, and products for Raman, steady-state and lifetime Fluorescence, Photoluminescence, XRF, spectroscopic ellipsometry, atomic emission spectroscopy, optical components, gratings and high performance CCDs. We specialize in Glow Discharge and Raman spectrometers and their application for analysis of Li Ion batteries.

Ivium Technologies Booth 306 Pete Peterson info@ivium.us 961687 Gateway Blvd., Suite 201D Fernandina Beach, FL, 32034 1.800.303.3885 USA www.ivium.us

Ivium Technologies designs and manufactures instrumentation for the most demanding electrochemical applications. We will be demonstrating the pocketSTAT™ Potentiostat – a handheld potentiostat capable of all DC electrochemical techniques and EIS. We are exhibiting the Vertex™, the CompactStat™, and the IviumStat™ Potentiostats in San Francisco. The Vertex is an affordable instrument for research and teaching applications. The IviumStat™ -- with a maximum current of 10 Amps -- is a general purpose instrument for the widest breadth of electrochemical applications. For the convenience of portability, check out the CompactStat™, a researchgrade Potentiostat powered from the USB Port of your Notebook Computer. We will also be showing the nStat™ MultiChannel Potentiostat for labs that require maximum sample throughput.

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Maccor, Inc. Booths 100 & 102 Mark Hulse m.hulse@maccor.com 4322 S 49th W Ave. Tulsa, OK, 74107 1.918.446.1874 USA www.maccor.com

Maccor, Inc. is The Right Choice for all of your energy storage testing needs. The founders of Maccor designed and built their first computer based automated test system in 1983 for use in the development of a re-chargeable Lithium battery. Many consider Maccor to be the pioneer of the modern commercial battery test industry. Maccor’s strong nucleus of engineers experienced in emerging battery technologies and computer control systems has enabled the company to experience continued and rapid growth. Today, Maccor designs and manufactures an extensive range of automated test equipment, cell formation systems, recertification equipment, and materials research equipment for all energy storage devices. Maccor’s range of equipment not only provides standard discharge and cycle testing but is capable of sophisticated drive cycle tests (i.e. FUDS, HPPC, US06 Drive Profile, etc.) and electrochemical experiments (i.e. Cyclic Voltammetry, Galvanostatic Intermittent Titration Test, Potentiostatic Intermittent Titration Test, etc.) along with sophisticated pulse testing, together with high-speed data acquisition and the option of interfacing with smart battery packs. In addition 3-electrode and AC impedance experiments can be performed. Today Maccor has over 1,500 systems in operation in more than 45 countries.

Materials Research Society Literature Display www.mrs.org

The Materials Research Society (MRS) is an organization of almost 16,000 materials researchers from academia, industry and government that promotes communication for the advancement of interdisciplinary materials research to improve the quality of life. MRS members are professionals from physics, chemistry, biology, mathematics and engineering—the full spectrum of materials research. Headquartered in Warrendale, Pennsylvania (USA), MRS membership now spans over 80 countries, with more than 40% of members residing outside the United States. In addition to its communications and publications portfolio, MRS organizes high-quality scientific meetings, attracting over 13,000 attendees annually and facilitating interactions among a wide range of experts from the cutting edge of the global materials community. MRS is also a recognized leader in education outreach and advocacy for scientific research.

Metrohm USA Booths 104 & 106 Karen Poe info@metrohmusa.com 6555 Pelican Creek Circle Riverview, FL, 33578 1.813.316.4700 USA www.metrohmusa.com

Metrohm featuring AUTOLAB electrochemistry systems with modular and dedicated designs, and advanced control software which provide a flexible foundation that can easily grow with your application needs. Options include low current, impedance, EQCM, multiplexing, high and low speed scanning, and variety of cells, electrodes and accessories for research needs.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


MTI Corporation

Pine Research Instrumentation

Booths 213 & 312

Booths 109 & 116

Mel Jiang mel@mtixtl.com 860 South 19th Street Richmond, CA 94804 1.510.525.3070 USA www.mtixtl.com

Jenny Garry jgarry@pineinst.com 2741 Campus Walk Ave., Bldg. 100 Durham, NC, 27705 1.919.782.8320 USA www.pineinst.com/echem

Since 1995 MTI has been providing a total solution for materials research labs, such as crystal substrates, cutter, polisher, high temperature box/tube furnaces, pressing machine, CIP, film coaters, glove boxes, high vacuum system, RTP furnaces, multi-channel gas mixing system as well as compact XRD and equipment for battery research.

Pine Research Instrumentation manufactures a full line of electrochemical products. Researchers in both academic and industrial settings appreciate the use of our modulated speed rotator and rotating electrodes. Our potentiostat line features the new WaveDriver Bipotentiostat/Galvanostat benchtop system. This has a simple USB interface to a PC and features all traditional electrochemical techniques. All Pine potentiostats operate with our powerful AfterMath Data Organizer software. AfterMath controls the instrument but also integrates features such as MSR rotator control, easy to use analysis tools, specialized electrochemical techniques, and intuitive graphing control options.

Onda Corporation Booth 400 Petrie Yam py@ondacorp.com 1290 Hammerwood Ave. Sunnyvale, CA 94086 1.408.745.0383 USA www.ondacorp.com

Onda Corporation is the global leader in ultrasound measurement instrumentation and services. Decades of engineering have culminated into a suite of measurement instruments used to acoustically characterize and control complex industrial and medical devices, including advanced ultrasonic and megasonic cleaning systems. Beyond its product line, Onda also offers a broad range of services that include the design, development, manufacturing, and testing to support and accelerate your ultrasound needs.

Palm Sens BV Booth 207 Conrad Chapman conrad@palmsens.com Wijde Begijrestraut 27 Utrecht AW3512 +31.302.459211 Netherlands www.palmsens.com

With over 10 years of experience and innovation we specialize in making small, portable potentiostats and servicing OEM markets. Our main products are:

Princeton Applied Research/Solartron Analytical Booths 101, 103, & 105 Ari Tampasis aritampasis@ametek.com 801 South Illinois Ave. Oak Ridge, TN 37830 1.865.483.2122 USA www.princetonappliedresearch.com

Princeton Applied Research is a leading manufacturer of laboratory instruments utilized for investigations in the field of electrochemistry, which includes batteries, fuel cells, corrosion, sensors and general physical chemistry. In business more than 50 years, we offer customers the benefit of knowledge, expertise, products, and solutions to support their particular research interest. Solartron Analytical is the global leader in Electrochemical Impedance Spectroscopy, providing more than 60 years of instrumentation development expertise for materials and electrochemical research. Solartron Analytical instruments and accessories are advancing the research into the physical and electrochemical properties of batteries, fuel cells, organic coatings, corrosion inhibitors, and sensors, as well as the characterization of materials for dielectrics, solar cells, display technologies, ferroelectrics, and composites.

ProSys Inc.

• The PalmSens: Potentiostat/galvanostat with ZRA and

Booth 406

• The EmStat: Smallest potentiostat available in the market. • The MultiEmStat: Has up to 12 individually or

Kathryn Theodore kytc@prosysmeg.com 1745 Dell Ave. Campbell, CA 95008 1.408.871.2500 USA www.prosysmeg.com

now EIS.

simultaneously controllable potentiostats.

PEC North America Inc. Booth 212 Peter Ulrix Peter.ulrix@peccorp.com 2385 NW Executive Center Drive #100 Boca Raton, FL 33431 1.561.962.2824 USA www.peccorp.com

ProSys, Inc. designs and manufactures single wafer, Batch, and custom Megasonic systems and components for OEM’s and end users. Applications include high end cleaning and surface preparation as well as Megasonic enhanced development, etching, and fluid conversion. Our technology features advanced RF controls, multiple frequencies, continuous or pulsed operation Direct Megasonics with data logging software. (continued on next page)

PEC delivers the building blocks for the development and manufacturing of large format cells, modules and battery packs for automotive, aerospace and defense applications. PEC’s offerings include R&D test equipment and automated cell finishing lines automating all process steps after the electrolyte filling (soaking, formation, grading, degassing, ageing, stand loss, sorting…).

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

23


Redcat

Tanaka Kikinzoku Kogyo K. K.

Booths 311 & 313

Booth 315

www.redcatresearch.org

Yoshikazu Sato YO-SATO@ml.tanaka.co.jp 2-14, Nagatoro, Hiratsuka Kanagawa, 254-0021 +81.463.22.4324 Japan www.pro.tanaka.co.jp/en

Redcat is the essential online tool and meeting place for everyone in electrochemistry and solid state science and technology...

• • • •

Browse + search cutting-edge research Meet + connect with peers Contribute + share your contents and ideas Connect with future employers + employees on the Redcat jobs site Redcat is your Web of Connections...Redcat is yours – OWN IT!

RheoSense, Inc.

Tanaka Kikinzoku Group has contributed to the society through the continuous pursuit of the inherent possibilities of precious metals for over 120 years. Our activities are sales of Precious Metals (Platinum, Gold, Silver, and others). We also manufacture sales of Industrial Precious Metal Products.

Toshima Manufacturing Co., Ltd.

Booth 205

Booth 301

Seonggi Baek sbaek@rheosense.com 2678 Bishop Dr Suite 270 San Ramon, CA 94583 1.925.866.3801 USA www.rheosense.com

Hidefumi Motobayashi motobayashi@material-sys.com 1414, Shimonomoto, Higashimatsuyama-shi Saitama, 355-0036 +81.493.24.6774 Japan www.material-sys.com

RheoSense is a global high-tech company based in Silicon Valley. Our innovative m-VROC & microVISC instruments feature patented Viscometer/Rheometer-on-a-Chip (VROC) technology. Utilizing state-of-the-art MEMS and microfluidics breakthroughs that redefine the viscometry industry, our instruments offer the smallest sample volume per measurement coupled with exceptional ease-of-use and accuracy. RheoSense instruments have been rigorously tested, approved, and adopted worldwide by Fortune Global 500 companies and leading research universities.

We Toshima Manufacturing Co., Ltd. are the manufacturer of sputtering target for several categories of electron field like Battery, Energy, Optoelectrics, Ferroelectrics, Superconductor. We have nearly 20 years of business history providing materials for above fields. We always challenge in provide new type material and believe it makes you satisfactory.

Scribner Associates, Inc. Booth 200 Jason Scribner jason@scribner.com 150 E Connecticut Ave. Southern Pines, NC 28387 1.910.695.8884 USA www.scribner.com

Scribner Associates specializes in advanced analytical hardware and software for electrochemical research and development. Our software packages such as ZPlot, ZView, MultiStat and CorrWare are recognized world-wide as the gold standard for instrument control and data analysis. On display will be the Model 850e Fuel Cell Test System, a turn-key instrument for PEM, DMFC and SOFC R&D. The 850e features multiple current ranges for high accuracy over a wide dynamic range, automated humidifier bypass valves for wet/dry cycling, automatic humidifier water fill, manual or automated inlet selector valves, integrated potentiostat functions, and accurate dew point control up to 5 SLM. The 850e is now CE certified. Scribner is pleased to introduce the Model 580 8-Channel Battery Cycler. The 580 is specifically designed for battery and capacitor discharge cycling and offers CC, CV, CP, and CR modes, 6 current ranges, cell resistance by HFR, 5-wire terminal measurement, and comes with user friendly software for instrument control and data analysis. All of our products are available for quick delivery and are backed by comprehensive technical support.

Stanford Research Systems

Vigor Gas Purification Technologies Booth 314 Dan Vizine dvizine@verizon.net 88 Broadmoor Dr. Tonawanda, NY 14150 716.693.5744 USA www.pro.tanaka.co.jp/en

Vigor Gas Purification Technologies is a manufacturer of advanced design gloveboxes and gas purification equipment. Our state of the art features and the extremely low leakage rate of our gloveboxes, due to our patented seal technology, set us apart from other manufacturers. We are currently offering exceptional discounts to encourage you to experience our advanced gloveboxes.

ULVAC Technologies Booth 304 Evan Sohm esohm@us.ulvac.com 401 Griffin Brook Dr. Methuen, MA 01844 1.978.686.7550 USA www.ulvac.com

Nanoparticle catalysts made using the ULVAC APD arc plasma deposition system show superior electrochemical performance compared to commercially available catalysts. Size controlled and stable nanoparticles are easily produced onto various powder or membrane substrates using only 1/10th the amount of precious metal with this dry, in-vacuum coating process.

Booth 300 Janie Du janied@SRS.com 1290-D Reamwood Dr. Sunnyvale, CA 94089 1.408.744.9040 USA www.thinkSRS.com

Stanford Research Systems (SRS) will exhibit our EC301 potentiostat/ galvanostat , QCM200 5MHz quartz crystal microbalance, and SR780 dynamic signal analyzer for EIS. The EC301 features 30V/1A compliance, ±15V polarization range, and 1 MHz control loop bandwidth. Instrument control is via Ethernet, GPIB, or its comprehensive front panel. Fully featured software is included. 24

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


ECS Thanks our

Sponsors

for their Generous Support

Gold Sponsors

Silver Sponsor

Bronze Sponsors

For more information on sponsorship opportunities with ECS, please contact Dan Fatton, Director of Development, 609.737.1902 ext. 115 or dan.fatton@electrochem.org.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

25


Your article. Online. FAST! More than 100,000 articles in all areas of electrochemistry and solid state science and technology from the only nonprofit publisher in its field.

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• Flexible subscription options available to academic and corporate libraries and other institutions.

VOL. 21, NOS. 3-4 Fall–Winter 2012

IN THIS ISSUE 3 From the Editor:

Biomimetic or Bioinspired?

9 From the President:

Weathering the Storm

11 Pennington Corner: The Weston Legacy

13 Redcat: ECS Launches

Networking and Research Site for Scientists

17 Candidates for Society Office

19 PRiME, Honolulu, Hawaii: Meeting Highlights

58 Tech Highlights 61 Conducting Polymers

and Their Applications

63 Novel MEMS Devices Based on Conductive Polymers

67 Nanoparticle-doped

Electrically-conducting Polymers for Flexible Nano-Micro Systems

S pecial i SSu e

www.electrochem.org 26

VOL. 21, NO. 3-4

www.ecsdl.org

If you haven’t visited the ECS Digital Library recently, please do so today!

o n ...

Conducting Polymers and Their Applications

71 Electrochemical Assay

of GSTP1-related DNA Sequence for Prostrate Cancer Screening

88 ECS Summer Fellowship Reports

107 San Francisco, CA: Call for Papers

Not an ECS member yet? Start taking advantage of member benefits right now!

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Leading the world in electrochemistry and solid state science and technology for more than 110 years


ECS Editorial Boards Electrochemical Science & Technology (EST)

Nick Wu, Sensor Division Representative

Robert Savinell, Editor

Andrew Hillier, Physical & Analytical Electrochemistry Division Representative

Gerald S. Frankel, Technical Editor Thomas F. Fuller, Technical Editor Charles L. Hussey, Technical Editor Shelley D. Minteer, Technical Editor Rangachary Mukundan, Technical Editor

Andrew Hoff, Electronics and Photonics Division Representative Luis Echegoyen, Fullerenes, Nanotubes, and Carbon Nanostructures Division Representative Bor Yann Liaw, Battery Division Representative

Dennis G. Peters, Technical Editor

Durga Misra, Dielectric Science and Technology Division Representative

John Weidner, Technical Editor

Mani Manivannan, Energy Technology Division Representative

Martin Winter, Technical Editor

Shinji Fujimoto, Corrosion Division Representative

Doron Aurbach, Associate Editor

John Staser, Industrial Electrochemistry & Electrochemical Engineering Division Representative

Thierry Brousse, Associate Editor Raymond J. Gorte, Associate Editor Takayuki Homma, Associate Editor Venkat Srinivasan, Associate Editor

Solid State Science & Technology (SSST) Dennis W. Hess, Editor Jennifer A. Bardwell, Technical Editor Stefan De Gendt, Technical Editor

Giovanni Zangari, Electrodeposition Division Representative

ECS Transactions Jeffrey W. Fergus, Editor D. Noel Buckley, Electronics and Photonics Division Representative James Burgess, Organic and Biological Electrochemistry Division Representative Bryan A. Chin, Sensor Division Representative

Francis D’Souza, Technical Editor

Hugh De Long, Physical and Analytical Electrochemistry Division Representative

Yue Kuo, Technical Editor

James M. Fenton, Energy Technology Division Representative

Kailash C. Mishra, Technical Editor Rangachary Mukundan, Technical Editor

Turgut Gur, High Temperature Materials Division Representative

George Celler, Associate Editor

Robert Kostecki, Battery Division Representative

Interface

Kailash C. Mishra, Luminescence and Display Materials Division Representative

Krishnan Rajeshwar, Editor

Durgamadhab Misra, Dielectric Science and Technology Division Representative

Xiao-Dong Zhou, High Temperature Materials Division Representative

Elizabeth Podlaha-Murphy, Electrodeposition Division Representative

James Burgess, Organic and Biological Electrochemistry Division Representative

Sanna Virtanen, Corrosion Division Representative

Uwe Happek, Luminescence and Display Materials Division Representative

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

John Weidner, Industrial Electrochemistry and Electrochemical Engineering Division Representative R. Bruce Weisman, Fullerenes, Nanotubes and Carbon Nanostructures Division Representative

27


ECS Division Officers Battery

Fullerenes, Nanotubes, and Carbon Nanostructures

Bor Yann Liaw, Chair Robert Kostecki, Vice-Chair Christopher Johnson, Secretary Marca Doeff, Treasurer

R. Bruce Weisman, Chair Luis Echegoyen, Vice-Chair Slava V. Rotkin, Secretary Dirk Guldi, Treasurer

Corrosion

High Temperature Materials

Shini Fujimoto, Chair Rudy Buchheit, Vice-Chair Barbara A. Shaw, Secretary/Treasurer

Jeffrey Fergus, Chair Timothy Armstrong, Sr. Vice-Chair Xiao-Dong Zhou, Jr., Vice-Chair Gregory Jackson, Secretary/Treasurer

Dielectric Science and Technology Oana Leonte, Chair Dolf Landheer, Vice-Chair Vimal Desai Chaitanaya, Secretary Yaw Obeng, Treasurer

Industrial Electrochemistry and Electrochemical Engineering Gerardine Botte, Chair Venkat Subramanian, Vice-Chair E. Jennings Taylor, Secretary/Treasurer

Electrodeposition Giovanni Zangari, Chair Elizabeth Podlaha-Murphy, Vice-Chair Stanko Brankovic, Secretary Philippe Vereecken, Treasurer

Luminescence and Display Materials John Collins, Chair Baldassare Di Bartolo, Vice-Chair Anant A. Setlur, Secretary Madis Raukas, Treasurer

Electronics and Photonics Andrew Hoff, Chair Mark Overberg, Vice-Chair Edward Stokes, 2nd Vice-Chair Junichi Murota, Secretary Fan Ren, Treasurer

Organic and Biological Electrochemistry James Burgess, Chair Mekki Bayachou, Vice-Chair Graham Cheek, Secretary/Treasurer

Energy Technology

Physical and Analytical Electrochemistry

Adam Weber, Chair Scott Calabrese Barton, Vice-Chair Andrew Herring, Secretary Vaidyanathan Subramanian, Treasurer

Robert Mantz, Chair Pawel Kulesza, Vice-Chair Andrew Hillier, Secretary Alanah Fitch, Treasurer

Sensor Michael Carter, Chair Bryan Chin, Vice-Chair Nianqiang (Nick) Wu, Secretary Ajit Khosla, Treasurer

ECS Sections

28

D. Noel Buckley, Chair, Europe Section

Jason McLafferty, Chair, Pittsburgh Section

Candace Chan, Chair, Arizona Section

Sanjeev Mukerjee, Chair, New England Section

Isolda Costa, Chair, Brazil Section

Giselle Sandi, Chair, Chicago Section

Ignacio Gonzalez, Chair, Mexico Section

Irina Serebrennikova, Chair, Cleveland Section

Peter J. Hesketh, Chair, Georgia Section

Kimber Stamm Masias, Chair, Detroit Section

Takashi Ito, Chair, Japan Section

Yung-Eun Sung, Chair, Korea Section

Kallarackel Jacob, Chair, India Section

Jaroslaw Syzdek, Chair, San Francisco Section

Larry Krause, Chair, Twin Cities Section

Eric Wachsman, Chair, National Capital Section

Zi Feng Ma, Chair, China Section

Harovel Wheat, Chair, Texas Section

Daniel Mandler, Chair, Israel Section

Nae-Lih Wu, Chair, Taiwan Section

Janine Mauzeroll, Chair, Canada Section

Jose Zagal, Chair, Chile Section

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


ECS Student Chapters Atlanta Student Chapter at Georgia Tech, founded 2008, Peter J. Hesketh, Faculty Advisor Auburn University Student Chapter, founded 2007, Jeffrey Fergus, Faculty Advisor

Indiana University Student Chapter, founded 2012, Lane Baker and Dennis Peters, Faculty Advisors Kerala, India Student Chapter at CUSAT, founded 2008, M. K. Jayaraj, Faculty Advisor

Boston Student Chapter (Harvard University, MIT, Northeastern University), founded 2009, Eugene Smotkin, Faculty Advisor

Lahore, Pakistan Student Chapter, founded 2008, Inam Ul Haque, Faculty Advisor

Technical University Brno Student Chapter, founded 2006, Jiri Vondrak, Faculty Advisor

University of Maryland Student Chapter, founded 2011, Eric Wachsman, Faculty Advisor

Calgary Student Chapter, founded 2011, Viola Birss, Faculty Advisor

Montréal Student Chapter, founded 2010, Steen B. Schougaard, Faculty Advisor

University of California - Berkeley Student Chapter, founded 2006, John Newman, Faculty Advisor

New York Capital Region Student Chapter, founded 2006, Dan Lewis, Faculty Advisor

The California State University Fullerton Division Student Chapter, founded 2012, John Haan, Faculty Advisor

The Ohio State University Student Chapter, founded 2006, Anne Co, Faculty Advisor

University of California - Riverside Student Chapter, founded 2011, Alexander Balandin, Faculty Advisor University of Central Florida Student Chapter, founded 2000, Kalpathy Sundaram, Faculty Advisor

Ohio University Student Chapter, founded 2011, Gerardine Botte, Faculty Advisor Research Triangle Student Chapter, founded 2009, Wesley Henderson, Faculty Advisor

Central Illinois Student Chapter, founded 2008, Andrzej Wieckowski, Faculty Advisor

South Brazilian Student Chapter (Univ. Fed. do Rio Grande do Sul), founded 2010, Luis Frederico P. Dick, Faculty Advisor

University of Cincinnati Student Chapter, founded 2007, Marc Cahay, Faculty Advisor

University of South Carolina Student Chapter, founded 2010, Xiao-Dong Zhou, Faculty Advisor

ECS Cleveland Section and Ernest B. Yeager Center for Electrochemical Sciences Joint Student Chapter, founded 2005, James D. Burgess, Faculty Advisor

Tel Aviv University Student Chapter, founded 2009, Eliezer Gileadi and Yosi ShachamDiamand, Faculty Advisors

Colorado School of Mines Student Chapter, founded 2012, Andrew Herring, Faculty Advisor

University of Texas at Austin Student Chapter, founded 2006, Ram Manthiram, Faculty Advisor

Drexel University Student Chapter, founded 2012, Yury Gogotsi, Faculty Advisor

University of Texas at Dallas Student Chapter, founded 2012, Moon Kim, Faculty Advisor

Florida International University Student Chapter, founded 2009, Chunlei Wang, Faculty Advisor

Tyndall National Institute Student Chapter, founded 2010, Alan O’Riordan, Faculty Advisor

University of Florida Student Chapter, founded 2005, Juan Nino, Faculty Advisor

Valley of the Sun – Central Arizona Student Chapter, founded 2013, Candace Chan, Faculty Advisor

Grand Valley State University Student Chapter, founded 2008, Cory M. DiCarlo, Faculty Advisor

University of Virginia Student Chapter, founded 2006, Rob Kelly, Faculty Advisor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

29


2013-2014 ECS Committees Executive Committee of the Board of Directors

Technical Affairs Committee

Tetsuya Osaka, Chair.......................................................................................................................Spring 2014 Paul Kohl................................................................................................... Senior Vice-President, Spring 2014 Daniel Scherson........................................................................................Second Vice-President, Spring 2015 Krishnan Rajeshwar..................................................................................... Third Vice-President, Spring 2016 Hariklia Deligianni.........................................................................................................Secretary, Spring 2016 Christina Bock .............................................................................................................. Treasurer, Spring 2014

Paul Kohl, Chair..........................................................................................Senior Vice President, Spring 2014 Tetsuya Osaka................................................................................................................President, Spring 2014 Fernando Garzon...................................................................................Immediate Past President, Spring 2014 Esther Takeuchi............................................................................... 2nd Immediate Past President, Spring 2014 Krishnan Rajeshwar................................................................. Chair, Symposium Subcommittee, Spring 2014 Daniel Scherson...................................................................... Chair, Publications Subcommittee, Spring 2014 Eric Wachsman................................................................. Chair, New Technology Subcommittee, Spring 2016

Board of Directors, Presidential Appointment Stuart Swirson ...............................................................................................................................Spring 2014

Audit Committee Peter Fedkiw, Chair.........................................................................................................................Spring 2014 Petr Vanýsek ..................................................................................................................................Spring 2014 Paul Natishan .................................................................................................................................Spring 2015 William Eggers................................................................................................................................Spring 2016 Stuart Swirson...........................................................................Nonprofit Financial Professional, Spring 2014

Education Committee Mark Orazem, Chair........................................................................................................................Spring 2017 Vimal Chaitanya Desai....................................................................................................................Spring 2014 Jeff Long ........................................................................................................................................Spring 2014 Randy Leising ................................................................................................................................Spring 2015 Chris Apblett ..................................................................................................................................Spring 2015 Kalpathy Sundaram ........................................................................................................................Spring 2016 Jeffry Kelber ...................................................................................................................................Spring 2016 Douglas Hansen .............................................................................................................................Spring 2017 A. Robert Hillman ...........................................................................................................................Spring 2017 Krishnan Rajeshwar .................................................................................... Third Vice-President, Spring 2014 Kevin Rhodes .............................................................. Chair, Individual Membership Committee, Spring 2016

Ethical Standards Committee Fernando Garzon, Chair .......................................................................Immediate Past President, Spring 2014 Jan Talbot .......................................................................................................................................Spring 2014 Johna Leddy ..................................................................................................................................Spring 2015 William Brown ...............................................................................................................................Spring 2016 Hariklia Deligianni ........................................................................................................Secretary, Spring 2014

Finance Committee Christina Bock, Chair .................................................................................................... Treasurer, Spring 2014 Nancy Missert.................................................................................................................................Spring 2014 Elizabeth Opila ...............................................................................................................................Spring 2014 Pete Peterson .................................................................................................................................Spring 2015 Plamen Atanassov ..........................................................................................................................Spring 2015 Paul Kohl .................................................................................................. Senior Vice-President, Spring 2014 Hariklia Deligianni.........................................................................................................Secretary, Spring 2016

Honors and Awards Committee Peter Pintauro, Chair ......................................................................................................................Spring 2015 Ralph White ...................................................................................................................................Spring 2014 D. Noel Buckley .............................................................................................................................Spring 2014 Francis D’Souza .............................................................................................................................Spring 2014 Kalpathy Sundaram ........................................................................................................................Spring 2015 Paul Natishan .................................................................................................................................Spring 2015 Joseph Stetter ................................................................................................................................Spring 2015 Jean St. Pierre ................................................................................................................................Spring 2016 Durga Misra ...................................................................................................................................Spring 2016 Masayoshi Watanabe .....................................................................................................................Spring 2016 Enrico Traversa ...............................................................................................................................Spring 2017 David Lockwood.............................................................................................................................Spring 2017 Vijay Ramani ..................................................................................................................................Spring 2017 Tetsuya Osaka................................................................................................................President, Spring 2014

Individual Membership Committee Kevin Rhodes, Chair ......................................................................................................................Spring 2016 Sri Narayan ....................................................................................................................................Spring 2014 Robert Savinell ...............................................................................................................................Spring 2014 David (Picheng) Huang ..................................................................................................................Spring 2015 Parag Banerjee ...............................................................................................................................Spring 2015 Elizabeth Podlaha-Murphy .............................................................................................................Spring 2016 Wataru Sugimoto ...........................................................................................................................Spring 2016 Hariklia Deligianni ........................................................................................................Secretary, Spring 2016

Nominating Committee Fernando Garzon, Chair .......................................................................Immediate Past President, Spring 2014 D. Noel Buckley .............................................................................................................................Spring 2014 Subash Singhal ..............................................................................................................................Spring 2014 Dennis Hess ...................................................................................................................................Spring 2014 Krishnan Rajeshwar..................................................................................... Third Vice-President, Spring 2014

Tellers of Election Robert Comizzoli, Chair .................................................................................................................Spring 2014 Ronald Enstrom .............................................................................................................................Spring 2014 William Ayers .................................................................................................................................Spring 2014 Craig Arnold ..................................................................................................................Alternate, Spring 2014 James Amick ..................................................................................................................Alternate, Spring 2014 Norman Goldsmith .........................................................................................................Alternate, Spring 2014

Ways and Means Committee Hariklia Deligianni, Chair...............................................................................................Secretary, Spring 2016 Robert Glass ..................................................................................................................................Spring 2014 Petr Vanýsek ..................................................................................................................................Spring 2014 Peter Fedkiw ..................................................................................................................................Spring 2015 Adam Weber ...................................................................................................................................Spring 2015 Paul Kohl................................................................................................... Senior Vice-President, Spring 2014 Daniel Scherson........................................................................................Second Vice-President, Spring 2014

Development Subcommittee of the Sponsorship Committee William Brown, Chair .....................................................................................................................Spring 2014 Bruno Scrosati ...............................................................................................................................Spring 2014 E. Jennings Taylor ....................................................................... Chair, Sponsorship Committee, Spring 2014 Tetsuya Osaka................................................................................................................President, Spring 2014 Roque Calvo...................................................................................................... Executive Director, Term as ED Dan Fatton...............................................................................................Director of Development, Term as DD

New Technology Subcommittee of the Technical Affairs Committee Eric Wachsman, Chair......................................................... High Temperature Materials Division, Spring 2016 Hariklia Deligianni.............................................................................. Electrodeposition Division, Spring 2014 Uwe Happek ........................................................Luminescence and Display Materials Division, Spring 2014 Rick Wise ..............................................................................Electronics and Photonics Division, Spring 2014 Xiao-Dong Zhou ................................................................ High Temperature Materials Division, Spring 2014 Ana Londergan .........................................................Dielectric Science and Technology Division, Spring 2015 Trung-Van Nguyen.......... Industrial Electrochemistry and Electrochemical Engineering Division, Spring 2015 Michael Carter ....................................................................................................Sensor Division, Spring 2015 Shelley Minteer .............................................. Physical and Analytical Electrochemistry Division, Spring 2015 Arumugam Manthiram ........................................................................................Battery Division, Spring 2016 Patrik Schmuki ...............................................................................................Corrosion Division, Spring 2016 Isao Taniguchi .................................................Organic and Biological Electrochemistry Division, Spring 2016 Phaedon Avouris ................................Fullerenes, Nanotubes, and Carbon Nanostructures Division, Spring 2016

Publications Subcommittee Daniel Scherson, Chair.............................................................................Second Vice-President, Spring 2014 Mary E. Yess..................................................................................................................Publisher, Term as Pub Robert Savinell.......................................................................................................EST Board Chair, 5/17/2017 Dennis W. Hess................................................................................................. SSST Board Chair, 12/31/2016 Krishnan Rajeshwar............................................................................................... Interface Editor, 12/31/2013 Jeffrey Fergus..........................................................................................ECS Transactions Editor, 12/31/2014 Subhash Singhal.............................................................................................................................Spring 2014 Johna Leddy...................................................................................................................................Spring 2014 Hubert Gasteiger.............................................................................................................................Spring 2015 James Fenton..................................................................................................................................Spring 2015 Hariklia Deligianni.........................................................................................................Secretary, Spring 2016

Symposium Subcommittee Krishnan Rajeshwar, Chair........................................................................... Third Vice-President, Spring 2014 Bor Yann Liaw ............................................................................................... Chair, Battery Division, Fall 2014 Shinji Fujimoto ........................................................................................ Chair, Corrosion Division, Fall 2014 Oana Leonte ...................................................Chair, Dielectric Science and Technology Division, Spring 2014 Giovanni Zangari ...........................................................................Chair, Electrodeposition Division, Fall 2013 Andrew Hoff ................................................................Chair, Electronics and Photonics Division, Spring 2015 Adam Weber............................................................................Chair, Energy Technology Division, Spring 2015 Bruce Weisman ................... Chair, Fullerenes, Nanotubes, and Carbon Nanostructures Division, Spring 2014 Jeffrey Fergus ...............................................................Chair, High Temperature Materials Division, Fall 2013 Gerardine Botte ..... Chair, Industrial Electrochemistry and Electrochemical Engineering Division, Spring 2014 John Collins ...................................................Chair, Luminescence and Display Materials Division, Fall 2013 James Burgess ..................................... Chair, Organic and Biological Electrochemistry Division, Spring 2015 Rob Mantz ............................................Chair, Physical and Analytical Electrochemistry Division, Spring 2015 Michael Carter .............................................................................................. Chair, Sensor Division, Fall 2014 Eric Wachsman................................................................. Chair, New Technology Subcommittee, Spring 2016

Society Historian

Sponsorship Committee

Zoltan Nagy ....................................................................................................................................Spring 2016

E. Jennings Taylor, Chair.................................................................................................................Spring 2016 Rob Sides ......................................................................................................................................Spring 2014 Michael Kubicsko ..........................................................................................................................Spring 2014 Ana Londergan ...............................................................................................................................Spring 2014 William Eggers ...............................................................................................................................Spring 2015 William Brown ...............................................................................................................................Spring 2015 Paul Trulove ...................................................................................................................................Spring 2015 Bruno Scrosati ...............................................................................................................................Spring 2016 Yukinari Kotani ...............................................................................................................................Spring 2016 Soo-Gil Park ..................................................................................................................................Spring 2016 Tetsuya Osaka ...............................................................................................................President, Spring 2014 Christina Bock............................................................................................................... Treasurer, Spring 2014 Roque J. Calvo........................................................................ ex officio-nonvoting, Term as Executive Director

Representatives to Other Societies

30

American Association for the Advancement of Science Roque J. Calvo.................................................................................................. Term as Executive Director Chemical Heritage Foundation Kathryn R. Bullock...................................................................................... Heritage Councilor, Spring 2014 Federation of Materials Societies Petr Vanýsek................................................................................................................. Trustee, Spring 2014 Roque J. Calvo............................................................................Advisory Board, Term as Executive Director

National Inventors Hall of Fame Peter Pintauro.......................................................................Chair, Honors & Awards Committee, Spring 2015

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Short Courses

S

ix Short Courses will be offered on Sunday, October 27, 2013, from 0900h to 1630h. The registration fee for the Short Courses is $425 for ECS Members and $520 for Nonmembers. Students may register for a Short Course at a 50% discount—ECS Student Members: $212.50, and Nonmember Students: $260. The Short Course registration fee includes participation in the course, text materials, continental breakfast, luncheon, and refreshment breaks; the Short Course Registration fee does not include or apply to the general Meeting Registration, and it is not applicable to any other activities of the meeting. Pre-registration for Short Courses is required—the deadline is September 27, 2013 Please visit the San Francisco meeting page of the ECS website for full course descriptions and instructor biographies: www.electrochem.org.

Short Course #1

Short Course #4

Advanced Impedance Spectroscopy Mark E. Orazem, Instructor

Operation and Exploitation of Electrochemical Capacitor Technology John R. Miller, Instructor

This course is intended for chemists, physicists, materials scientists, and engineers with an interest in applying electrochemical impedance techniques to study a broad variety of electrochemical processes. The course is best suited for an attendee who has some experience with making impedance measurements and wants to develop a deeper understanding of the technique. The attendee will develop a basic understanding of the technique, the sources of errors in impedance measurements, the manner in which experiments can be optimized to reduce these errors, and the use of regression to interpret measurements in terms of meaningful physical properties.

Short Course #2 Fundamentals of Electrochemistry: Basic Theory and Kinetic Methods Jamie Noël, Instructor This course, fully revised to include more practical examples and a more manageable volume of material, covers the basic theory and application of electrochemical science. It is targeted toward people with a physical sciences or engineering background who have not been trained as electrochemists, but who want to add electrochemical methods to their repertoire of research approaches. There are many fields in which researchers originally approach their work from another discipline but then discover that it would be advantageous to understand and use some electrochemical methods to complement the work that they are doing.

Short Course #3 Polymer Electrolyte Fuel Cells Hubert Gasteiger and Thomas Schmidt, Instructors This course develops the fundamental thermodynamics and electrocatalytic processes critical to polymer electrolyte fuel cells (PEFCs, including direct methanol and alkaline membrane FCs). In the first part, the instructors will discuss the relevant half-cell reactions, their thermodynamic driving forces, and their mathematical foundations in electrocatalysis theory (e.g., Butler-Volmer equations). In the second part of the course, the instructors will illuminate the different functional requirements of actual PEFC (incl. DMFC and AMFC) components and present basic in situ diagnostics (Pt surface area, shorting, H2 crossover, electronic resistance, etc.). This will be used to develop an in-depth understanding of the various voltage loss terms that constitute a polarization curve. Finally, the instructors will apply this learning to describe the principles of fuel cell catalyst activity measurements, the impact of uncontrolled-operation events (e.g., cell reversal), and the various effects of long-term materials degradation. To benefit most effectively from this course, registrants should have completed at least their first two years of a bachelor’s program in physics, chemistry, or engineering; or have several years of experience with PEFCs.

Electrochemical capacitors (ECs), often referred to by the product names supercapacitors or ultracapacitors, are receiving increased attention for use in power sources of many applications because they offer extraordinarily high reversibility, provide unexcelled power density, and have exceptional cycle-life. This tutorial is targeted at technologists interested in understanding and exploiting electrochemical capacitor technology. Basics are first covered that describe the nature and significance of electric double layer charge storage, the general design of such products, and the similarities and differences between these devices and traditional capacitors and batteries. The goal is to provide basic understanding, necessary tools, and sufficient operating information to allow direct and successful advancement and/or exploitation of electrochemical capacitor technology.

Short Course #5 Introduction to Solid Oxide Fuel Cell Science and Technology Stuart B. Adler and Nguyen Minh, Instructors The objective of the course is to provide an introduction to Solid Oxide Fuel Cell (SOFC) science & technology, with emphasis in the following areas: • Process/System Design and Integration • Stack Design • Cell Materials and Fabrication • Performance and Other Operating Characteristics • Cell Modeling and Diagnostics To benefit most effectively from the course attendees should have completed the first two years of a Bachelor’s program in physics, chemistry, engineering, or equivalent, and possess basic computer skills (spreadsheet calculations). Various course materials will be provided however, attendees should bring a laptop computer, hand calculator, writing implement, and note paper.

Short Course #6 Micro/Nanofabrication of Chemical and Biosensors Peter J. Hesketh, Gary W. Hunter, and Zoraida P. Aguilar, Instructors This course will cover micro/nanofabrication techniques for chemical and biosensors. Fabrication processes include physical vapor deposition, oxidation and diffusion in silicon, chemical vapor deposition, atomic layer deposition, plasma etching, in addition to photo and electron beam lithography. As nanotechnology is rapidly growing the methods for nanoscale fabrication of structures, including ion beam, electron beam, vapor-liquid-solid growth, and electroplating will be addressed.

Short Course Refund Policy: Written requests for Short Course refunds will be honored only if received at ECS headquarters by October 21, 2013. All refunds are subject to a 10% processing fee and requests for refunds must be made in writing and e-mailed to customer.service@electrochem.org. Refunds will not be processed until AFTER the meeting. All courses are subject to cancellation pending an appropriate number of advance registrants. Before making any flight or hotel reservations, please check to make sure the Short Course that you have selected is being offered.

For more information on future short courses, please visit

www.electrochem.org/short_courses Meeting Program l October 27–November 1, 2013 l San Francisco, CA

31


Professional Development Series and Career Opportunities John R. Susko, Instructor Several key professional development workshops will be presented October 27-30, 2013. These important workshops will provide attendees with up-to-date information on enhancing career opportunities. The professional development workshops are open to all registered attendees at no additional cost, and will be held in Franciscan B, Tower 1, Ballroom Level and the Green Room, Tower 2, Grand Ballroom Level. We also invite you to visit the Redcat booth in the Exhibit Hall or redcatresearch.org to discover the latest career opportunities in electrochemistry and solid state science and technology. Professional Development Series: Essential Elements for Employment Success—Landing your next job requires selective and effective networking, developing and submitting specifically targeted resumes and cover letters, locating relevant job opportunities and preparing for and participating in the job interview. This workshop will provide up-to-date information and tips for employment success. Sunday, October 27................................1400-1600h Monday, October28................................0800-1000h

Professional Development Series: Résumé Review—At a loss for words? Bring your résumé for a one-on-one session with an industry leader and expert on résumé development. You will walk away with a résumé that is sure to land you your next interview. Monday, October 28...............................1200-1600h Tuesday, October 29..............................0800-1200h Wednesday, October 30..........................0800-1200h

Information for Oral and Poster Presenters Oral Presentations and Audio-Visual

Oral presentations must be in English. Laptop computers and LCD projectors will be available in each symposium room for oral presentations. Authors are required to bring their presentation on a USB flash drive only. Speakers requiring special equipment must make written request to ECS headquarters (meetings@electrochem. org) no later than September 27, 2013, and appropriate arrangements will be made at the expense of the author.

Poster Presentations and Sessions

Poster presentations must be in English, on a board approximately 3 feet 10 inches high by 3 feet 10 inches wide (1.17 meters high by 1.17 meters wide), and correspond to the abstract number and day of presentation as detailed in the final program. Plan your display to fit on one upright panel as per the above dimensions. Present displayed information from left to right, starting at the top left of the panel. The paper title, number, names, and affiliations of all authors MUST be at the top of the display. The recommended print size for the title is approximately 1” to 2” (2.5 cm to 5 cm) high. Authors should minimize written text but use it when necessary to emphasize essential data and/or to stimulate discussion. All illustrations, drawings, charts, pictures, graphs, figures, and written text should be large enough to allow easy reading from a distance of 5′ (1.5 m). Matted and finished photographs are recommended to enhance visibility. Commercial advertisements or publicity will NOT be permitted in poster presentations. Authors violating this regulation will be asked to remove their presentations immediately. Please arrive approximately two to four hours before the start of your session to begin setting up your poster displays. Please do not begin setting up your poster until all the poster boards have been numbered. Pushpins and/or thumbtacks will be supplied. Authors are responsible for setting up their displays, for being present during the entire scheduled poster session, and for removing their displays at the conclusion of the poster session. No posters will be displayed without author participation. NO EXCEPTIONS WILL BE GRANTED. Authors are responsible for the security of their displays and all items of value. ECS will not assume any responsibility

32

for lost, stolen, or broken articles. Additional information or special requirements should be addressed to the individual symposium organizers prior to the meeting.

Student Poster Session

The Student Poster Session will be held as part of the Tuesday General Poster Session and Technical Exhibit. All meeting registrants are invited to attend. Formal presentations will begin at 1800h. Students may start setting up their presentations at 1300h in the Exhibit Hall (Grand Ballroom, Tower 2, Grand Ballroom Level); judging of the posters will begin at 1500h. Winners will be announced and given an award plaque on Wednesday at 1800h in the Exhibit Hall.

Tech Table

A Tech Table staffed by audio-visual technicians will be available Sunday through Friday, for any audio-visual assistance needed for oral presentations.

No Photography or Recording Allowed By attending the ECS meeting, you agree that you will not record any meeting-related activity, without the express, written consent from ECS. Recording means any audiovisual or photographic methods. Meeting-related activity means any presentation (oral or poster) or social event directly related to the meeting. You may photograph your own personal, non-meeting related activity, but you must obtain permission from all involved parties before photographs can be taken of other people or displays at the meeting or exhibit. Press representatives must receive media credentials and recording permission from the ECS Headquarters Office. If you violate this policy, you will be removed from the meeting. Your registration will be revoked and you will lose all access to the meeting. In this case, you will not receive a refund of the registration fees. ECS also reserves the right to deny your attendance at future ECS or ECS sponsored meetings.

Technical Session Co-Chair Information

Please check the ECS website or mobile app to find the most recent list of cancelled papers. ECS headquarters is located in the California Room, Tower 3, Ballroom Level, if you have any questions.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Meeting Program l October 27–November 1, 2013 l San Francisco, CA

e Electrochemical Society Series

33


Symposium Topics and Organizers A — General Topics A0 — Special Lectures (M) A1 — General Student Poster Session (T) – V. Subramanian, V. Chaitanya, M. P. Foley, and K. B. Sundaram All Divisions A2 — Nanotechnology General Session (Tu-W) – O. Leonte, Z. Aguilar, F. Chen, J. Li, and W. Mustain All Divisions / New Technology Subcommittee A3 — The Energy-Water Nexus (M-Th) – E. Wachsman, J. Burgess, M. Carter, C. Hensman, B. Y. Liaw, S. Minteer, W. Mustain, P. Natishan, and B. Stoner All Divisions / New Technology Subcommittee B — Batteries, Fuel Cells, and Energy Conversion B1 — Energy Technology/Battery Joint General Session (M-Th) – A. Manivannan, G. Amatucci, G. Jain, B. Y. Liaw, and S. R. Narayanan Battery Division / Energy Technology Division B2 — Battery Chemistries Beyond Lithium Ion (M-F) – C. Johnson, M. Doeff, A. Manthiram, S. Mukerjee, J. Muldoon, and K. Zaghib Battery Division / Energy Technology Division B3 — Battery Safety (W) – D. H. Doughty, G. Botte, and C. J. Orendorff Battery Division / Industrial Electrochemistry and Electrochemical Engineering Division B4 — Computational Science of Battery Materials (Tu-W) – S. Meng, D. Bedrov, L. Chen, K. Persson, M. S. Islam, and V. Subramanian Battery Division / Industrial Electrochemistry and Electrochemical Engineering Division / Physical and Analytical Electrochemistry Division

D3 — Degradation of Carbon Structural Materials (Tu) – D. Hansen and L. Hihara Corrosion Division / New Technology Subcommittee D4 — Mass Transport Phenomena in Localized Corrosion (M) – S. Lillard and R. Kelly Corrosion Division D5 — Oxide Films: A Symposium in Honor of Dr. Clive Clayton on his 65th birthday (M-W) – S. Fujimoto, D. Baer, D. Chidambaram, G. P. Halada, M. Jaime-Vasquez, and D. F. Roeper Corrosion Division D6 — Biodegradable and Bioabsorbable Metals and Materials (Tu) – R. Bucheit, M. Bayachou, and B. A. Shaw Corrosion Division E — Dielectric and Semiconductor Materials, Devices, and Processing E1 — Solid State Topics General Session (W) – K. Sundaram, X. Wang, O. Leonte, H. Iwai, R. Todi, and K. Shimamura Dielectric Science and Technology Division / Electronics and Photonics Division / Energy Technology Division E2 — Atomic Layer Deposition Applications 9 (W-F) – F. Roozeboom, S. D. Gendt, A. Delabie, J. W. Elam, A. Londergan, and O. Van Der Straten Dielectric Science and Technology Division / Electronics and Photonics Division E3 — GaN and SiC Power Technologies 3 (M-Th) – K. Shenai, M. Bakowski, M. Dudley, and N. Ohtani Electronics and Photonics Division / Dielectric Science and Technology Division

B5 — Electrochemical Capacitors: Fundamentals to Applications (M-Th) – T. Brousse, D. Bélanger, P. Kumta, J. Long, P. Simon, and W. Sugimoto Battery Division / Energy Technology Division

E4 — Low-Dimensional Nanoscale Electronics and Photonic Devices 6 (M-W) – M. Suzuki, S. Albin, M. Carter, L. J. Chou, Y. L. Chueh, S. Jin, M. H. Jo, and R. J. Martín-Palma Electronics and Photonics Division / Dielectric Science and Technology Division / Sensor Division

B6 — Electrochemical Synthesis of Fuels 2 (M-Th) – X. D. Zhou, G. Brisard, M. Mogensen, W. Mustain, J. Staser, and M. C. Williams High Temperature Materials Division / Energy Technology Division / Industrial Electrochemistry and Electrochemical Engineering Division / Physical and Analytical Electrochemistry Division

E5 — Nonvolatile Memories (M-W) – S. Shingubara, H. Akinaga, Z. Karim, Y. B. Kim, K. Kobayashi, K. J. Lee, B. Magyari-Kope, T. Ohyanagi, A. Sebastian, Y. Suzuki, and N. Takaura Dielectric Science and Technology Division / Electronics and Photonics Division

B7 — High Temperature Experimental Techniques and Measurements (Tu-W) – G. Jackson, A. Manivanan, T. Markus, E. Opila, P. Trulove, and R. Walker High Temperature Materials Division / Energy Technology Division / Physical and Analytical Electrochemistry Division

E6 — Photovoltaics for the 21st Century 9 (Tu) – M. Tao, C. Claeys, H. (Lili) Deligianni, J. M. Fenton, M. E. Overberg, J.G. Park, K. Rajeshwar, and M. Sunkara Dielectric Science and Technology Division / Electrodeposition Division / Electronics and Photonics Division / Energy Technology Division / Industrial SC Electrochemistry and Electrochemical Engineering Division

B8 — Intercalation Compounds for Rechargeable Batteries (Tu-F) – M. M. Doeff, S. Meng, C. Masquelier, A. Yamada, K. Zaghib, and G. G. Botte Battery Division / Industrial Electrochemistry and Electrochemical Engineering Division B9 — Interfacial Phenomena in Battery Systems (Tu-W) – R. Kostecki, Y. Xing, and N. Balke Battery Division / Physical and Analytical Electrochemistry Division B10— Lithium-ion Batteries (M-F) – R. V. Bugga, M. Smart, and A. Manthiram Battery Division B11— Polymer Electrolyte Fuel Cells 13 (Su-F) – H. Gasteiger, F. N. Büchi, C. Coutanceau, M. Edmundson, J. Fenton, T. Fuller, D. Hansen, D. Jones, R. Mantz, S. Mitsushima, S. R. Narayanan, K. A. Perry, V. Ramani, T. J. Schmidt, K. Shinohara, P. Strasser, K. Swider-Lyons, H. Uchida, and A. Weber Industrial Electrochemistry and Electrochemical Engineering Division / Battery Division / Corrosion Division / Energy Technology Division / Physical and Analytical Electrochemistry Division B12— Stationary and Large Scale Electrical Energy Storage Systems 3 (Tu-W) – T. V. Nguyen, S. Mukerjee, V. D. Noto, and B. Y. Liaw Battery Division / Energy Technology Division / Industrial Electrochemistry and Electrochemical Engineering Division D — Corrosion, Passivation, and Anodic Films D1 — Corrosion General Poster Session (Th) – R. Buchheit Corrosion Division D2 — Atmospheric Corrosion (W-Th) – D. Hansen, R. Calhoun, R. Kelly, C. Leygraf, and A. Nishikata Corrosion Division / Physical and Analytical Electrochemistry Division 34

E7 — Processing, Materials, and Integration of Damascene and 3D Interconnects 5 (M-W) – K. Kondo, R. Akolkar, D. P. Barkey, W. P. Dow, M. Hayase, M. Koyanagi, G. S. Mathad, P. Ramm, F. Roozeboom, and S. Shingubara Dielectric Science and Technology Division / Electrodeposition Division / Electronics and Photonics Division / High Temperature Materials Division E8 — Semiconductor Cleaning Science and Technology 13 (SCST 13) (M-W) – J. Ruzyllo, T. Hattori, P. Mertens, and R. E. Novak Electronics and Photonics Division E10— Semiconductors, Dielectrics, and Metals for Nanoelectronics - 11 (M-W) – S. Kar, M. Houssa, H. Jagannathan, K. Kita, D. Landheer, D. Misra, and S. V. Elshocht Dielectric Science and Technology Division / Electronics and Photonics Division E11 — State-of-the-Art Program on Compound Semiconductors (SOTAPOCS) 55 (M-Tu) – C. O’Dwyer, E. Douglas, J. H. He, and S. Jang Electronics and Photonics Division E12— ULSI Process Integration 8 (M-W) – C. Claeys, S. Deleonibus, H. Iwai, J. Murota, and M. Tao Electronics and Photonics Division F — Electrochemical / Chemical Deposition and Etching F1 — Current Trends in Electrodeposition - An Invited Symposium (W) – C. Bonhote Electrodeposition Division

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Symposium Topics and Organizers (continued) F2 — Emerging Materials and Processes for Energy Conversion and Storage (WTh) – Y. Fukunaka, H. (Lili) Deligianni, C. Johnson, T. V. Nguyen, and P. Vereecken Electrodeposition Division / Battery Division F3 — Fundamentals and Applications of Electrophoretic Deposition (M) – J. Talbot, J. Dickerson, and J. Fransaer Electrodeposition Division F4 — Fundamentals of Electrochemical Growth: From UPD to Microstructures 3 (Tu-Th) – S. Brankovic, Y. Fukunaka, T. Homma, M. Innocenti, and N. Vasiljevic Electrodeposition Division F5 — Emerging Opportunities in Electrochemical Deposition for Nanofabrication (M-W) – R. Akolkar, M. Anderson, M. Buck, and T. Moffat Electrodeposition Division / Physical and Analytical Electrochemistry Division G — Electrochemical Synthesis and Engineering G1 — Alkaline Electrolyzers (W) – G. Botte, K. Ayers, B. Y. Liaw, S. Mukerjee, and V. Ramani Industrial Electrochemistry and Electrochemical Engineering Division / Battery Division / Energy Technology Division / Physical and Analytical Electrochemistry Division G2 — Synthesis and Electrochemical Engineering General Session (W) – G. Botte and J. Staser Industrial Electrochemistry and Electrochemical Engineering Division H — Fullerenes, Nanotubes, and Carbon Nanostructures H1 — Carbon Nanostructures 4 - Fullerenes to Graphene (M-Tu) – D. Guldi, P. Atanassov, M. Carter, H. Martin, and K. Zaghib Fullerenes, Nanotubes, and Carbon Nanostructures Division / Dielectric Science and Technology Division / Energy Technology Division / Physical and Analytical Electrochemistry Division / Sensor Division I — Physical and Analytical Electrochemistry I1 — Physical and Analytical Electrochemistry Division General Session (M-Tu) – P. Kulesza Physical and Analytical Electrochemistry Division

I2 — Invitational Symposium in Honor of Adam Heller on his 80th Birthday (M-W) – S. C. Barton, P. Atanassov, E. J. Cairns, and S. Minteer Physical and Analytical Electrochemistry Division / Battery Division / Energy Technology Division / Organic and Biological Electrochemistry Division Photoelectrochemistry and Photoassisted Electrocatalysis (M-W) – I3 — T. Zawodzinski, E. McFarland, R. Subramanian, J. Turner, and H. Wang Physical and Analytical Electrochemistry Division I4 — Physical and Analytical Electrochemistry in Ionic Liquids 3 (M) – H. Delong, M. Carter, J. Fransaer, R. Mantz, and P. Trulove Physical and Analytical Electrochemistry Division / Battery Division / Electrodeposition Division / Sensor Division I5 — Processes 8 (Tu) – A. Hillier and J. Prakash Physical and Analytical Electrochemistry Division / Energy Technology Division J — Sensors and Displays: Principles, Materials, and Processing J1 — Sensors, Actuators, and Microsystems General Session (M-Tu) – M. Carter, Z. Aguilar, B. Chin, G. Hunter, and P. Sekhar Sensor Division J2 — Impedance Techniques, Diagnostics, and Sensing Applications (Tu) – V. Lvovich, D. Hansen, A. Khosla, M. E. Orazem, M. Smiechowski, and P. Vanýsek Sensor Division / Corrosion Division / Industrial Electrochemistry and Electrochemical Engineering Division / Physical and Analytical Electrochemistry Division J3 — Luminescence and Display Materials: Fundamentals and Applications (M-W) – J. Collins, U. Happek, C. Hunt, K. Mishra, and A. Setlur Luminescence and Display Materials Division J4 — Microfluidic MEMS/NEMS, Sensors and Devices (M-W) – P. Vanýsek, D. Cliffel, P. Hesketh, and A. Khosla Sensor Division / Physical and Analytical Electrochemistry Division / New Technology Subcommittee J6 — Sensors for Agriculture (Tu) – B. Chin, P. Hesketh, S. Minteer, and A. Simonian Sensor Division / Physical and Analytical Electrochemistry Division

SPECIAL OFFER! Purchase a hardcover copy of ECS Transactions Volume 58, Issues 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 with your San Francisco meeting registration and receive 10% off that issue’s list price! For ECS Members, the 10% discount will be on top of your regular Member discount for these issues. Any discounted books purchased must be picked up at the San Francisco meeting. The discount does not apply to electronic editions of these issues. This discount is not valid on any other issues of ECST, Monographs, or Proceedings Volumes purchased at the meeting.

ECS Transactions – Forthcoming Issues In addition to those symposia that have committed to publishing an issue of ECS Transactions (ECST), all other symposia potentially will be publishing an issue of ECST approximately 16 weeks after the San Francisco meeting. If you would like to receive information on any of these issues when they become available, please e-mail. Please include your name, e-mail address, and all issues in which you are interested.

ECS Transactions (ECST) – Symposia with issues available “at” the meeting are labeled with the following icons. Hard-cover (HC) editions will be available for purchase and pick-up at the meeting; or you may pre-order on the meeting registration form or when registering online. CD Compact Disc (CD) editions will be available for purchase

and pick-up at the meeting; or you may pre-order your CD ECST issue on the meeting registration form or when registering online. The CD edition of B11 (PEFC 13) will also include a 1 gigabyte USB drive containing the complete issue.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

SC Softcover (SC) editions will be available for purchase at the

meeting but will be shipped to you after the meeting ends. Please visit Meeting Registration or the ECS exhibit booth to order.

Electronic (PDF) editions will be available ONLY via the ECS Digital Library (www.ecsdl.org). Electronic editions of the San Francisco “at” meeting issues will be available for purchase beginning October 18, 2013. Please visit the ECS website for all issue pricing and ordering information for the electronic editions. 35


224th ECS Meeting Sunday, October 27 Code A0

Technical Symposia

AM

PM

Monday, October 28 AM

Special Lectures All Divisions

PM

Tuesday, AM

1400 Olin Palladium Award Address 1450 Carl Wagner Memorial Award Lecture 1700 ECS Lecture Grand Ballroom A, Tower 2, Grand Ballroom Level

A1

General Student Poster Session V. Subramanian, V. Chaitanya, M. Foley, K. Sundaram All Divisions

A2

Nanotechnology General Session O. M. Leonte, Z. Aguilar, F. Chen, J. Li, W. Mustain All Divisions, New Technology Subcommittee

A3

The Energy–Water Nexus E. Wachsman, J. Burgess, M. Carter, C. Hensman, B. Y. Liaw, S. Minteer, P. Natishan, B. Stoner All Divisions, New Technology Subcommittee

Abst 212-216 Franciscan D, Tower 1, Ballroom Level

Abst 217-220 Franciscan D, Tower 1, Ballroom Level

Abst 221-227 Franciscan D, Tower 1, Ballroom Level

B1

Energy Technology/Battery - Joint General Session A. Manivannan, G. Amatucci, G. Jain, B. Y. Liaw, S. Narayanan Battery, Energy Technology

Abst 251-261 Continental 4, Tower 3, Ballroom Level

Abst 262-270 Continental 4, Tower 3, Ballroom Level

Abst 271-282 Continental 4, Tower 3, Ballroom Level

36

Abst 149-160 Franciscan C, Tower 1, Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29 PM

Wednesday, October 30

Thursday, October 31

Friday, November 1

AM

AM

AM

PM

Abst 161-170 Franciscan C, Tower 1, Ballroom Level

Abst 171-182 Franciscan C, Tower 1, Ballroom Level

Abst 183-194 Franciscan C, Tower 1, Ballroom Level Post 195-211 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 228-230; Abst 231-233 Franciscan D, Tower 1, Ballroom Level

Abst 234-241 Franciscan D, Tower 1, Ballroom Level

Abst 242-246 Franciscan D, Tower 1, Ballroom Level

Abst 247-250 Franciscan D, Tower 1, Ballroom Level

Abst 283-292 Continental 4, Tower 3, Ballroom Level

Abst 293-301 Continental 4, Tower 3, Ballroom Level

Abst 302-309 Continental 4, Tower 3, Ballroom Level Post 310-341 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 342-352 Continental 4, Tower 3, Ballroom Level

PM

PM

Post 3-148 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

37


224th ECS Meeting Sunday, October 27 Code

38

Technical Symposia

B2

Battery Chemistries Beyond Lithium Ion C. Johnson, M. Doeff, A. Manthiram, S. Mukerjee, J. Muldoon, K. Zaghib Battery, Energy Technology

B3

Battery Safety D. H. Doughty, G. Botte, C. Orendorff Battery, Industrial Electrochemistry and Electrochemical Engineering

B4

Computational Science of Battery Materials S. Meng, D. O. Bedrov, L. Chen, K. Persson, M. Islam, V. Subramanian Battery, Industrial Electrochemistry and Electrochemical Engineering, Physical and Analytical Electrochemistry

AM

PM

Monday, October 28 AM

PM

Abst 353-362 Abst 372-380 Yosemite A, Yosemite Tower 2, A, Tower 2, Ballroom Level Ballroom Level Abst 363-371 Yosemite B, Tower 2, Ballroom Level

Tuesday, AM Abst 381-388 Yosemite B, Tower 2, Ballroom Level Abst 389-396 Yosemite A, Tower 2, Ballroom Level

Abst 555-563 Sutter Room, Tower 3, 6th Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1

PM

AM

PM

AM

PM

AM

Abst 397-406 Yosemite B, Tower 2, Ballroom Level Abst 407-414 Yosemite A, Tower 2, Ballroom Level

Abst 415-419 Yosemite B, Tower 2, Ballroom Level Abst 420-423 Franciscan B, Tower 1, Ballroom Level Abst 424-430 Yosemite A, Tower 2, Ballroom Level Abst 431-436 Yosemite C, Tower 2, Ballroom Level Abst 437-441 Franciscan A, Tower 1, Ballroom Level Abst 442-447 Yosemite B, Tower 2, Ballroom Level

Abst 448-456 Yosemite A, Tower 2, Ballroom Level Abst 457-460 Franciscan A, Tower 1, Ballroom Level Abst 461-464 Yosemite C, Tower 2, Ballroom Level Post 465-510 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 511-521 Yosemite A, Tower 2, Ballroom Level Abst 522-526 Yosemite B, Tower 2, Ballroom Level

Abst 527-532 Yosemite B, Tower 2, Ballroom Level

Abst 533-535 Yosemite A, Tower 2, Ballroom Level

Abst 536-544 Union Square 13, Tower 3, 4th Floor

Abst 545-551 Union Square 13, Tower 3, 4th Floor Post 552-554 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 575-583 Sutter Room, Tower 3, 6th Floor

Abst 584-594 Sutter Room, Tower 3, 6th Floor Post 595-598 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 564-574 Sutter Room, Tower 3, 6th Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

PM

39


224th ECS Meeting Sunday, October 27 Code

40

Technical Symposia

AM

PM

Monday, October 28

Tuesday,

AM

PM

AM

Abst 599-600; Abst 601-606 Union Square 19/20, Tower 3, 4th Floor

Abst 607-610; Abst 611-612 Union Square 19/20, Tower 3, 4th Floor

Abst 613-616; Abst 617-622 Union Square 19/20, Tower 3, 4th Floor

Abst 689-694 Union Square 1/2, Tower 3, 4th Floor

Abst 695-703 Union Square 1/2, Tower 3, 4th Floor

B5

Electrochemical Capacitors: Fundamentals to Applications T. Brousse, D. BĂŠlanger, P. Kumta, J. Long, P. Simon, W. Sugimoto Battery, Energy Technology

B6

Electrochemical Synthesis of Fuels 2 X.-D. Zhou, G. Brisard, M. Mogensen, W. Mustain, J. Staser, M. Williams High Temperature Materials, Energy Technology, Industrial Electrochemistry and Electrochemical Engineering, Physical and Analytical Electrochemistry

B7

High Temperature Experimental Techniques and Measurements G. Jackson, A. Manivannan, T. Markus, E. Opila, P. Trulove, R. Walker High Temperature Materials, Energy Technology, Physical and Analytical Electrochemistry

Abst 767-771 Union Square 17/18, Tower 3, 4th Floor

B8

Intercalation Compounds for Rechargeable Batteries M. Doeff, S. Meng, C. Masquelier, A. Yamada, K. Zaghib, G. Botte Battery, Industrial Electrochemistry and Electrochemical Engineering

Abst 803-812 Imperial A, Tower 2, Ballroom Level

B9

Interfacial Phenomena in Battery Systems R. Kostecki, Y. Xing, N. Balke Battery, Physical and Analytical Electrochemistry

Abst 901-909 Golden Gate 6, Tower 3, Lobby Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1 AM

PM

AM

PM

AM

PM

Abst 623-627; Abst 628-630 Union Square 19/20, Tower 3, 4th Floor

Abst 631-634; Abst 635-640 Union Square 19/20, Tower 3, 4th Floor

Abst 641-644; Abst 645-650 Union Square 19/20, Tower 3, 4th Floor Post 651-672 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 673-676; Abst 677-682 Union Square 19/20, Tower 3, 4th Floor

Abst 683-688 Union Square 19/20, Tower 3, 4th Floor

Abst 704-714 Union Square 1/2, Tower 3, 4th Floor

Abst 715-723 Union Square 1/2, Tower 3, 4th Floor

Abst 724-730 Union Square 1/2, Tower 3, 4th Floor Post 731-750 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 751-760 Union Square 1/2, Tower 3, 4th Floor

Abst 761-766 Union Square 1/2, Tower 3, 4th Floor

Abst 772-780 Union Square 17/18, Tower 3, 4th Floor

Abst 781-786 Union Square 17/18, Tower 3, 4th Floor

Abst 787-796 Union Square 17/18, Tower 3, 4th Floor Post 797-802 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 813-823 Imperial A, Tower 2, Ballroom Level

Abst 824, 826834 Imperial A, Tower 2, Ballroom Level

Abst 835-844 Imperial A, Tower 2, Ballroom Level Post 845-869 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 870-878 Imperial A, Tower 2, Ballroom Level

Abst 879-890 Imperial A, Tower 2, Ballroom Level

Abst 910-919 Golden Gate 6, Tower 3, Lobby Level

Abst 920-928 Golden Gate 6, Tower 3, Lobby Level

Abst 929-937 Golden Gate 6, Tower 3, Lobby Level Post 938-951 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

PM

Abst 891-900 Imperial A, Tower 2, Ballroom Level

41


224th ECS Meeting Sunday, October 27 Code

Technical Symposia

B10

Lithium-Ion Batteries R. Bugga, M. Smart, A. Manthiram Battery

B11

Polymer Electrolyte Fuel Cells 13 H. Gasteiger, F. BĂźchi, C. Coutanceau, M. Edmundson, J. Fenton, T. Fuller, D. Hansen, D. Jones, R. Mantz, S. Mitsushima, K. Perry, S. Narayanan, V. Ramani, T. Schmidt, K. Shinohara, P. Strasser, K. Swider-Lyons, H. Uchida, A. Weber Industrial Electrochemistry and Electrochemical Engineering, Battery, Corrosion, Energy Technology, Physical and Analytical Electrochemistry

B12

Stationary and Large-scale Electrical Energy Storage Systems 3 T. Nguyen, S. Mukerjee, V. Di Noto, B. Y. Liaw Battery, Energy Technology, Industrial Electrochemistry and Electrochemical Engineering

D1

Corrosion General Poster Session R. Buchheit Corrosion

42

AM

PM

Abst 1238Abst 12461245 1252 Continental 3, Continental 3, Tower 3, Tower 3, Ballroom Level Ballroom Level Abst 12531263 Continental 1, Tower 3, Ballroom Level

Monday, October 28

Tuesday,

AM

PM

AM

Abst 952-956 Continental 6, Tower 3, Ballroom Level Abst 957-961 Continental 5, Tower 3, Ballroom Level Abst 962-967 Continental 6, Tower 3, Ballroom Level Abst 968-973 Continental 5, Tower 3, Ballroom Level

Abst 974-978 Continental 6, Tower 3, Ballroom Level Abst 979-983 Continental 5, Tower 3, Ballroom Level

Abst 984-988 Continental 6, Tower 3, Ballroom Level Abst 989-993; Abst 994-1000 Continental 5, Tower 3, Ballroom Level Abst 1001-1007 Continental 6, Tower 3, Ballroom Level

Abst 12641268 Continental 1-3, Tower 3, Ballroom Level

Abst 12691271 Continental 1-3, Tower 3, Ballroom Level

Abst 1272-1280 Continental 2, Tower 3, Ballroom Level Abst 1281-1288 Golden Gate 4, Tower 3, Lobby Level Abst 1289-1298 Continental 1, Tower 3, Ballroom Level Abst 1299-1308 Continental 3, Tower 3, Ballroom Level Abst 1309-1317 Golden Gate 5, Tower 3, Lobby Level Abst 1658-1668 Golden Gate 8, Tower 3, Lobby Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1

PM

AM

PM

AM

PM

AM

PM

Abst 1008-1012 Continental 5, Tower 3, Ballroom Level Abst 1013-1018; Abst 1019-1024 Continental 6, Tower 3, Ballroom Level Abst 1025-1031 Continental 5, Tower 3, Ballroom Level Post 1032-1114 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 1115-1119 Continental 5, Tower 3, Ballroom Level Abst 1120-1124; Abst 1125-1131 Continental 6, Tower 3, Ballroom Level Abst 1132-1138 Continental 5, Tower 3, Ballroom Level

Abst 1139-1143 Continental 5, Tower 3, Ballroom Level Abst 1144-1149 Continental 6, Tower3, Ballroom Level Abst 1150-1154 Continental 5, Tower 3, Ballroom Level Abst 1155-1161 Continental 6, Tower 3, Ballroom Level

Abst 1162-1166 Continental 5, Tower 3, Ballroom Level Abst 1167-1171; Abst 1172-1177 Continental 6, Tower 3, Ballroom Level Abst 1178-1184 Continental 5, Tower 3, Ballroom Level

Abst 1185-1189 Continental 5, Tower 3, Ballroom Level Abst 1190-1195 Continental 6, Tower 3, Ballroom Level Abst 1196-1199 Continental 5, Tower 3, Grand Ballroom Abst 1200-1204 Continental 6, Tower 3, Ballroom Level

Abst 1205-1209 Continental 6, Tower 3, Ballroom Level Abst 1210-1214 Continental 5, Tower 3, Ballroom Level Abst 1215-1219 Continental 6, Tower 3, Ballroom Level Abst 1220-1225 Continental 5, Tower 3, Ballroom Level

Abst 12261230 Continental 5, Tower 3, Ballroom Level Abst 12311237 Continental 6, Tower 3, Ballroom Level

Abst 1318-1327 Continental 1, Tower 3, Ballroom Level Abst 1328-1337 Continental 2, Tower 3, Ballroom Level Abst 1338-1346 Golden Gate 4, Tower 3, Lobby Level Abst 1347-1356 Continental 3, Tower 3, Ballroom Level Abst 1357-1367 Golden Gate 5, Tower 3, Lobby Level

Abst 1368-1376 Continental 2, Tower 3, Ballroom Level Abst 1377-1385 Golden Gate 5, Tower 3 Lobby Level Abst 1386-1394 Golden Gate 4, Tower 3, Lobby Level Abst 1395-1405 Continental 3, Tower 3, Ballroom Level Abst 1406-1414 Continental 1 Tower 3, Ballroom Level

Abst 1415-1425 Abst 1541-1549 Continental 1, Continental 1, Tower 3, Tower 3, Ballroom Level Ballroom Level Abst 1426-1436 Abst. 1550-1559 Golden Gate 4, Continental 2, Tower 3, Tower 3, Lobby Level Ballroom Level Abst 1437-1446 Abst 1560-1568 Continental 3, Continental 3, Tower 3, Tower 3, Ballroom Level Ballroom Level Abst 1447-1455 Abst 1569-1576 Golden Gate 5, Golden Gate 5, Tower 3, Tower 3, Lobby Level Lobby Level Post 1456-1540 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 1577-1586 Continental 1, Tower 3, Ballroom Level Abst 1587-1597 Continental 3, Tower 3, Ballroom Level Abst 1598-1608 Golden Gate 5, Tower 3, Lobby Level Abst 1609-1620 Continental 2, Tower 3, Ballroom Level

Abst 1621-1626 Continental 1, Tower 3, Ballroom Level Abst 1627-1636 Continental 2, Tower 3, Ballroom Level Abst 1637-1647 Continental 3, Tower 3, Ballroom Level Abst 1648-1657 Continental 7, Tower 3, Ballroom Level

Abst 1669-1678 Golden Gate 8, Tower 3, Lobby Level

Abst 1679-1689 Golden Gate 8, Tower 3, Lobby Level

Abst 1690-1698 Golden Gate 8, Tower 3, Lobby Level

Post 1699-1722 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Abst 1723-1732 Union Square 3/4, Tower 3, 4th Floor

43


224th ECS Meeting Sunday, October 27

Monday, October 28

Code

Technical Symposia

D2

Atmospheric Corrosion D. Hansen, R. Calhoun, R. Kelly, C. Leygraf Corrosion, Physical and Analytical Electrochemistry

D3

Degradation of Carbon Structural Materials D. Hansen, L. Hihara Corrosion, New Technology Subcommittee

D4

Mass Transport Phenomena in Localized Corrosion R. S. Lillard, R. Kelly Corrosion

Abst 1768Abst 17771772; 1779; Abst 1773Abst 17801776 1785 Golden Gate 4, Golden Gate 4, Tower 3, Tower 3, Lobby Level Lobby Level

D5

Oxide Films: A Symposium in Honor of Clive Clayton on his 65th Birthday S. Fujimoto, D. Baer, D. Chidambaram, G. Halada, M. Jaime-Vasquez, D. Roeper Corrosion

Abst 1786Abst 17961789; 1803 Abst 1790Golden Gate 2, 1791; Tower 3, Abst 1792Lobby Level 1795 Golden Gate 2, Tower 3, Lobby Level

D6

Biodegradable and Bioabsorbable Metals and Materials R. Buchheit, B. Shaw Corrosion

E1

Solid State Topics General Session K. Sundaram, X. Wang, O. M. Leonte, H. Iwai, R. Todi, K. Shimamura Dielectric Science and Technology, Electronics and Photonics, Energy Technology

E2

Atomic Layer Deposition Applications 9 F. Roozeboom, S. De Gendt, A. Delabie, J. Elam, A. Londergan, O van der Straten Dielectric Science and Technology, Electronics and Photonics

44

AM

PM

AM

PM

Tuesday, AM

Abst 1763-1767 Golden Gate 1, Tower 3, Lobby Level

Abst 1804-1813 Golden Gate 2, Tower 3, Lobby Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29 PM

Abst 1814-1815; Abst 1816-1821 Golden Gate 2, Tower 3, Lobby Level

Wednesday, October 30 AM

PM

Thursday, October 31

Friday, November 1

AM

PM

AM

Abst 1876-1883 Continental 8, Tower 3, Ballroom Level

Abst 1884-1886; Abst 1887-1891 Continental 8, Tower 3, Ballroom Level

Abst 1733-1742 Union Square 15/16, Tower 3, 4th Floor

Abst 1743-1746; Abst 1752-1759; Abst 1747-1749; Abst 1760-1762 Abst 1750-1751 Union Square Union Square 15/16, 15/16, Tower 3, Tower 3, 4th Floor 4th Floor

Abst 1822-1831 Golden Gate 2, Tower 3, Lobby Level

Abst 1832-1837; Abst 1838-1841 Golden Gate 2, Tower 3, Lobby Level

PM

Abst 1842-1846 Golden Gate 1, Tower 3, Lobby Level Abst 1847-1853 Union Square 21, Tower 3, 4th Floor Post 1854-1856 Grand Ballroom, Tower 2, Grand Ballroom Level Absts 18571858; Abst 1859-1861 Continental 8, Tower 3, Ballroom Level Post 1862-1868 Grand Ballroom, Tower 2, Grand Ballroom Level Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Abst 1869-1875 Continental 8, Tower 3, Ballroom Level

45


224th ECS Meeting Sunday, October 27

Monday, October 28

Tuesday,

Code

Technical Symposia

E3

GaN and SiC Power Technologies 3 K. Shenai, M. Bakowski, M. Dudley, N. Ohtani Electronics and Photonics, Dielectric Science and Technology

Abst 18921896; Abst 18971902 Continental 9, Tower 3, Ballroom Level

Abst 1903Abst 1909-1914; 1908 Abst 1915-1920 Continental 9, Continental 9, Tower 3, Tower 3, Ballroom Level Ballroom Level

E4

Low-Dimensional Nanoscale Electronics and Photonic Devices 6 M. Suzuki, S. Albin, M. Carter, L.-J. Chou, Y-L Chueh, S. Jin, R. Martin-Palma Electronics and Photonics, Dielectric Science and Technology, Sensor

Abst 19551958 Yosemite C, Tower 2, Ballroom Level

Abst 1959Abst 1964-1966; 1963 Abst 1967-1971 Yosemite C, Yosemite C, Tower 2, Tower 2, Ballroom Level Ballroom Level

E5

Nonvolatile Memories S. Shingubara, H. Akinaga, Z. Karim, Y. Kim, K. Kobayashi, K.-J. Lee, B. Magyari-Kope, T. Ohyanagi, A. Sebastian, Y. Suzuki, N. Takaura Dielectric Science and Technology, Electronics and Photonics

E6

Photovoltaics for the 21st Century 9 M. Tao, C. Claeys, L. Deligianni, J. Fenton, M. E. Overburg, J.-G. Park, K. Rajeshwar, M. Sunkara Dielectric Science and Technology, Electrodeposition, Electronics and Photonics, Energy Technology, Industrial Electrochemistry and Electrochemical Engineering

E7

Processing, Materials, and Integration of Damascene and 3D Interconnects 5 K. Kondo, R. Akolkar, D. P. Barkey, W.-P. Dow, M. Hayase, M. Koyanagi, S. Mathad, P. Ramm, F. Roozeboom, S. Shingubara Dielectric Science and Technology, Electrodeposition, Electronics and Photonics, High Temperature Materials

46

AM

PM

AM

PM

AM

Abst 2026-2033 Union Square 12, Tower 3, 4th Floor

Abst 20522056 Union Square 21, Tower 3, 4th Floor

Abst 20572058; Abst 20592062 Union Square 21, Tower 3, 4th Floor

Abst 2063-2073 Union Square 21, Tower 3, 4th Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1 AM

PM

AM

PM

AM

Abst 1921-1927; Panel Session 1 Continental 9, Tower 3,Ballroom Level

Abst 1928-1933; Abst 1934-1940 Continental 9, Tower 3, Ballroom Level

Abst 1941-1944; Abst 1945-1948; Panel Session 2 Continental 9, Tower 3, Ballroom Level

Abst 1949-1954 Continental 9, Tower 3, Ballroom Level

Abst 1972-1975; Abst 1976-1979 Yosemite C, Tower 2, Ballroom Level

Abst 1980-1982; Abst 1983-1986 Powell Room, Tower 3, 6th Floor

Abst 1987-1989; Abst 1990-1994 Golden Gate 1, Tower 3, Lobby Level

PM

PM

Abst 1995-1998; Abst 2009-2013; Abst 2018-2021; Abst 1999-2003 Abst 2014-2017 Abst 2022-2025 Golden Gate 1, Golden Gate 1, Golden Gate 1, Tower 3, Tower 3, Tower 3, Lobby Level Lobby Level Lobby Level Post 2004-2008 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2034-2040 Union Square 12, Tower 3, 4th Floor Post 2041-2051 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2074; Abst 2085-2093 Abst 2075-2084 Union Square 21, Union Square 21, Tower 3, Tower 3, 4th Floor th 4 Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

47


224th ECS Meeting Sunday, October 27 Code

Technical Symposia

AM

PM

Monday, October 28

Tuesday,

AM

PM

AM

E8

Semiconductor Cleaning Science and Technology 13 (SCST 13) J. Ruzyllo, T. Hattori, P. Mertens, R. Novak Electronics and Photonics

Abst 2094; Abst 20952099 Continental 8, Tower 3, Ballroom Level

Abst 21002107 Continental 8, Tower 3, Ballroom Level

Abst 2108-2114 Continental 8, Tower 3, Ballroom Level

E10

Semiconductors, Dielectrics, and Metals for Nanoelectronics 11 S. Kar, M. Houssa, H. Jagannathan, K. Kita, D. Landheer, D. Misra, S. Van Eishocht Dielectric Science and Technology, Electronics and Photonics

Abst 21372144; Abst 21452146 Union Square 22, Tower 3, 4th Floor

Abst 21472152 Union Square 22, Tower 3, 4th Floor

Abst 2153-2156; Abst 2157-2160 Union Square 22, Tower 3, 4th Floor

E11

State-of-the-Art Program on Compound Semiconductors (SOTAPOCS) 55 C. O’Dwyer, E. Douglas, J.-H. He, S. Jang Electronics and Photonics

Abst 2192Abst 2199Abst 2203-2205; 2194; 2202 Abst 2206-2209 Abst 2195Golden Gate 7, Golden Gate 7, 2198 Tower 3, Tower 3, Golden Gate 7, Lobby Level Lobby Level Tower 3, Lobby Level

E12

ULSI Process Integration 8 C. Claeys, S. Deleonibus, H. Iwai, J. Murota, M. Tao Electronics and Photonics

Abst 22132214; Abst 22152217 Continental 7, Tower 3, Ballroom Level

F1

Current Trends in Electrodeposition An Invited Symposium C. Bonhôte Electrodeposition

F2

Emerging Materials and Processes for Energy Conversion and Storage Y. Fukunaka, L. Deligianni, C. Johnson, T. Nguyen, P. Vereecken Electrodeposition, Battery

F3

Fundamentals and Applications of Electrophoretic Deposition J. Talbot, J. Dickerson, J. Fransaer Electrodeposition

48

Abst 2218Abst 2223-2225; 2219; Abst 2226-2230 Abst 2220Continental 7, 2222 Tower 3, Continental 7, Ballroom Level Tower 3, Ballroom Level

Abst 22542259 Franciscan B, Tower 1, Ballroom Level

Abst 23022310 Franciscan A, Tower 1, Ballroom Level

Abst 23112316 Franciscan A, Tower 1, Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

PM

AM

Abst 2115-2118; Abst 2119-2124 Continental 8, Tower 3, Ballroom Level Post 2125-2128 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2129-2134; Abst 2135-2136 Continental 8, Tower 3, Ballroom Level

PM

Thursday, October 31

Friday, November 1

AM

PM

AM

Abst 2284-2293 Golden Gate 7, Tower 3, Lobby Level

Abst 2294-2301 Golden Gate 7, Tower 3, Lobby Level

PM

Abst 2161-2166 Abst 2177-2180; Abst 2184-2188; Union Square 22, Abst 2181-2183 Abst 2189-2191 Tower 3, Union Square 22, Union Square 4th Floor Tower 3, 22, Post 2167-2176 4th Floor Tower 3, Grand Ballroom, 4th Floor Tower 2, Grand Ballroom Level Post 2210-2212 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2231-2234; Abst 2235-2238 Continental 7, Tower 3, Ballroom Level

Abst 2239-2241; Abst 2242-2244 Continental 7, Tower 3, Ballroom Level

Abst 2245-2249 Continental 7, Tower 3, Ballroom Level

Abst 2250-2253 Franciscan B, Tower 1, Ballroom Level Post 2260-2272 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2273-2283 Golden Gate 7, Tower 3, Lobby Level

Post 2318-2320 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

49


224th ECS Meeting Sunday, October 27 Code

Technical Symposia

F4

Fundamentals of Electrochemical Growth - From UPD to Microstructures 3 S. Brankovic, Y. Fukunaka, T. Homma, M. Innocenti, N. Vasiljevic Electrodeposition

F5

Emerging Opportunities in Electrochemical Deposition for Nanofabrication R. Akolkar, M. Anderson, M. Buck, T. P. Moffat Electrodeposition, Physical and Analytical Electrochemistry

G1

Alkaline Electrolyzers G. Botte, K. Ayers, B. Y. Liaw, S. Mukerjee, V. Ramani Industrial Electrochemistry and Electrochemical Engineering, Battery, Energy Technology, Physical and Analytical Electrochemistry

G2

Synthesis and Electrochemical Engineering General Session G. Botte, J. Staser Industrial Electrochemistry and Electrochemical Engineering

H1

Carbon Nanostructures 4 Fullerenes to Graphene D. M. Guldi, P. Atanassov, M. Carter, H. Martin, K. Zaghib Fullerenes, Nanotubes and Carbon Nanostructures, Dielectric Science and Technology, Energy Technology, Physical and Analytical Electrochemistry, Sensor

I1

Physical and Analytical Electrochemistry Division General Session P. Kulesza Physical and Analytical Electrochemistry

50

AM

PM

Monday, October 28 AM

PM

Tuesday, AM Abst 2321-2324 Union Square 11, Tower 3, 4th Floor

Abst 23652373 Union Square 23/24, Tower 3, 4th Floor

Abst 24552465 Union Square 15/16, Tower 3, 4th Floor

Abst 23742378 Union Square 23/24, Tower 3, 4th Floor

Abst 2379-2387 Union Square 23/24, Tower 3, 4th Floor

Abst 24292436 Union Square 13, Tower 3, 4th Floor

Abst 2437-2448 Union Square 13, Tower 3, 4th Floor

Abst 24662472 Union Square 15/16, Tower 3, 4th Floor

Abst 2473-2483 Union Square 15/16, Tower 3, 4th Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29 PM

Wednesday, October 30 AM

PM

Abst 2325-2328; Abst 2340-2344; Abst 2329-2334 Abst 2345-2349 Union Square 11, Union Square 11, Tower 3, Tower 3, 4th Floor 4th Floor Post 2335-2339 Grand Ballroom, Tower 2, Grand Ballroom Level Abst 2388-2396 Union Square 23/24, Tower 3, 4th Floor Post 2397 Grand Ballroom, Tower 2, Grand Ballroom Level

Thursday, October 31

Friday, November 1

AM

AM

PM

PM

Abst 2350-2358 Abst 2359-2364 Union Square Union Square 11, 11, Tower 3, Tower 3, 4th Floor th 4 Floor

Abst 2398-2401 Union Square 23/24, Tower 3, 4th Floor

Abst 2402-2412 Union Square 25, Tower 3, 4th Floor

Abst 2413-2421 Post 2422-2428 Union Square 14, Grand Ballroom, Tower 3, Tower 2, 4th Floor Grand Ballroom Level Post 2449-2454 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2484-2491 Union Square 15/16, Tower 3, 4th Floor Post 2492-2501 Grand Ballroom, Tower 2, Grand Ballroom Level Meeting Program l October 27–November 1, 2013 l San Francisco, CA

51


224th ECS Meeting Sunday, October 27

Monday, October 28

Tuesday,

Code

Technical Symposia

I2

Invitational Symposium in Honor of Adam Heller on his 80th Birthday S. C. Barton, P. Atanassov, E. Cairns, S. Minteer Physical and Analytical Electrochemistry, Battery, Energy Technology, Organic and Biological Electrochemistry

Abst 2502Abst 25072506 2511 Golden Gate 3, Golden Gate 3, Tower 3, Tower 3, Lobby Level Lobby Level

I3

Photoelectrochemistry and Photoassisted Electrocatalysis T. Zawodzinski, E. McFarland, V. Subramanian, J. Turner, H. Wang Physical and Analytical Electrochemistry

Abst 25322535; Abst 25362539 Imperial B, Tower 2, Ballroom Level

Abst 2540Abst 2546-2549; 2545 Abst 2550-2554 Imperial B, Imperial B, Tower 2, Tower 2, Ballroom Level Ballroom Level

I4

Physical and Analytical Electrochemistry in Ionic Liquids 3 H. DeLong, M. Carter, J. Fransaer, R. Mantz, P. Trulove Physical and Analytical Electrochemistry, Battery, Electrodeposition, Sensor

Abst 25992604; Abst 26052609 Union Square 11 Tower 3, 4th Floor

Abst 26102614; Abst 26152617 Union Square 11 Tower 3, 4th Floor

I5

Processes 8 A. Hillier, J. Prakash Physical and Analytical Electrochemistry, Energy Technology

J1

Sensors, Actuators, and Microsystems General Session M. Carter, Z. Aguilar, B. Chin, G. Hunter, P. Sekhar Sensor

J2

Impedance Techniques, Diagnostics, and Sensing Applications V. Lvovich, D. Hansen, A. Khosla, M. Orazem, M. Smiechowski, P. Vanýsek Sensor, Corrosion, Industrial Electrochemistry and Electrochemical Engineering, Physical and Analytical Electrochemistry

52

AM

PM

AM

PM

AM Abst 2512-2519 Golden Gate 3, Tower 3, Lobby Level

Abst 2618-2627 Union Square 14, Tower 3, 4th Floor Abst 26322638; Abst 26392642 Union Square 25, Tower 3, 4th Floor

Abst 2643; Abst 26442646 Union Square 25, Tower 3, 4th Floor

Abst 2647-2656 Union Square 25, Tower 3, 4th Floor

Abst 2683-2688; Abst 2689-2692; Abst 2693-2694 Franciscan B, Tower 1, Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

PM

AM

Abst 2520-2526 Golden Gate 3, Tower 3, Lobby Level

Abst 2527-2531 Golden Gate 3, Tower 3, Lobby Level

Abst 2555-2558; Abst 2559-2563 Imperial B, Tower 2, Ballroom Level

Abst 2564-2568; Abst 2569-2573 Imperial B, Tower 2, Ballroom Level

PM

Thursday, October 31

Friday, November 1

AM

AM

PM

PM

Abst 2574-2582 Imperial B, Tower 2, Ballroom Level Post 2583-2598 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2628-2631 Union Square 14, Tower 3, 4th Floor Abst 2657-2665 Union Square 25, Tower 3, 4th Floor Post 2666-2682 Grand Ballroom, Tower 2, Grand Ballroom Level Abst 2695-2698; Abst 2699-2703 Franciscan B, Tower 1, Ballroom Level Post 2704-2706 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

53


224th ECS Meeting Sunday, October 27 Code

54

Technical Symposia

AM

PM

Monday, October 28

Tuesday,

AM

PM

AM

J3

Luminescence and Display Materials - Fundamentals and Applications J. Collins, U. Happek, C. Hunt, K. Mishra Luminescence and Display Materials

Abst 27072711 Union Square 3/4, Tower 3, 4th Floor

Abst 27122716 Union Square 3/4, Tower 3, 4th Floor

Abst 2717-2725 Union Square 3/4, Tower 3, 4th Floor

J4

Microfluidic MEMS/NEMS, Sensors and Devices P. Vanysek, D. Cliffel, P. Hesketh, A. Khosla Sensor, Physical and Analytical Electrochemistry, New Technology Subcommittee

Abst 27532757 Union Square 5/6, Tower 3, 4th Floor

Abst 27582763 Union Square 5/6, Tower 3, 4th Floor

Abst 2764-2772 Union Square 5/6, Tower 3, 4th Floor

J6

Sensors for Agriculture B. Chin, P. Hesketh, S. Minteer, A. Simonian Sensor, Physical and Analytical Electrochemistry

Abst 2805-2808 Franciscan A, Tower 1, Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

PM

AM

PM

Abst 2726-2732 Union Square 3/4, Tower 3, 4th Floor Post 2733-2744 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2745-2750 Union Square 3/4, Tower 3, 4th Floor

Abst 2751-2752 Union Square 3/4, Tower 3, 4th Floor

Abst 2773-2781 Union Square 5/6, Tower 3, 4th Floor

Abst 2782-2790 Union Square 5/6, Tower 3, 4th Floor

Abst 2791-2798 Union Square 5/6, Tower 3, 4th Floor Post 2799-2804 Grand Ballroom, Tower 2, Grand Ballroom Level

Thursday, October 31

Friday, November 1

AM

AM

PM

PM

Abst 2809-2810 Franciscan A, Tower 1, Ballroom Level Post 2811-2844 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

55


Sunday, October 27

Technical Sessions 11:20

1245

Sunday, October 27 Polymer Electrolyte Fuel Cells 13

Industrial Electrochemistry and Electrochemical Engineering / B11 Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square

D-01 Pt-based Cathode Catalysts 1 – 08:40 – 12:00 Co-Chair(s): Hiroyuki Uchida and Bryan S. Pivovar 08:40

09:00

09:20

1238

1239

1240

09:40 10:00 1241

10:20

10:40

11:00

56

1242

1243

1244

Standardizing Thin-Film Rotating Disk Electrode Measurements of the Oxygen Reduction Activity of Pt/C – Yannick Garsany (EXCET Inc), Junjie Ge, Jean StPierre, Richard Rocheleau (Hawaii Natural Energy Institute, University of Hawaii Manoa), and Karen Swider-Lyons (Naval Research Laboratory) Influence of Film Morphology On the Oxygen Reduction Reaction Activity in Rotating Disk Electrode Studies – Kazuma Shinozaki (Toyota Central R&D Labs, Inc, Colorado School of Mines), Bryan S Pivovar, and Shyam S Kocha (National Renewable Energy Laboratory) DFT-Based Theoretical Insights Into the Mechanism of the Oxygen Reduction Reaction On Pt(111) – Shengli Chen (Wuhan University) Intermission Spatially-Resolved Modeling of Electric Double Layers for the Oxygen Reduction Reaction in Water-Filled Platinum Electrodes – Iryna V Zenyuk (Mechanical Engineering,Carnegie Mellon University) and Shawn Litster (Mechanical Engineering, Carnegie Mellon University) Effect of Pt Particle Size and Shape On ORR Activity and Catalyst Durability – Pieter Levecque and Olaf Conrad (HySA/ Catalysis Centre of Competence - Centre for Catalysis Research - Department of Chemical Engineering - University of Cape Town) Reversible Nanoparticle Formation As a Potential Strategy for PEMFC Catalyst Regeneration – Roman Latsuzbaia, Emanuela Negro, and Ger Koper (Delft University of Technology) Carbon-supported Pt nanowires catalyst for oxygen reduction reaction in PEMFC – Bing Li (School of Automotive Studies)

Extended Surface Pt Electrocatalysts: Synthesis and Challenges in Fuel Cell Applications – Bryan S Pivovar, KC Neyerlin, Shaun M Alia, Brian A Larsen (National Renewable Energy Laboratory), Svitlana Pylypenko (Colorado School of Mines), David A Cullen (Oak Ridge National Laboratory), David R Diercks (Colorado School of Mines), and Shyam S Kocha (National Renewable Energy Laboratory)

D-02 Pt-based Cathode Catalysts 2 – 14:00 – 17:00 Co-Chair(s): Seiho Sugawara and Vojislav R. Stamenkovic 14:00

1246

14:20

1247

14:40

1248

15:20

1249

15:40 16:00 1250

16:20

1251

16:40

1252

Templated Vapor Synthesis and ThermallyInduced Evolution of Platinum-Group Metal Nanotubes – Robert W Atkinson III, Alexander B Papandrew, and Thomas A Zawodzinski (University of Tennessee) Pt Nano-Particle Performance for PEFC Reactions At Low Catalyst Loading and High Reactant Mass Transport – Christopher Mark Zalitis (Imperial College London), Denis Kramer (University of Southampton), Jonathan Sharman, Ed Wright (Johnson Matthey Plc), and Anthony Robert Kucernak (Imperial College London) Development of Advanced Electrocatalyst for Automotive Polymer Electrolyte Fuel Cells – Seiho Sugawara, Kazuki Arihara, Hiroyuki Tanaka, Tsukuru Ohwaki, Hisashi Mitsumoto, Toru Sekiba, and Kazuhiko Shinohara (Advanced Materials Laboratory, Nissan Research Center, Nissan Motor Co, Ltd.) Synthesis of Durable Platinum Catalyst for Proton Exchange Membrane Fuel Cells in Bicontinuous Microemulsion – Roman Latsuzbaia, Emanuela Negro, and Ger Koper (Delft University of Technology) Intermission Development of Ultra-Low Loading Pt Hybrid Catalyst for PEM Fuel Cells – Tianyuan Xie and Branko N Popov (University of South Carolina) Design of Highly Active and Durable Electrocatalysts By Tuning Nanostructure – Yijin Kang, Dongguo Li, Nenad M Markovic (Argonne National Laboratory), and Vojislav R Stamenkovic (Argonne National Lab) Atomistic Simulation of Interface Between Nafion Electrolyte and Pt Catalysts in PEFC – Xiangyang Zhou and Juanjuan Zhou (University of Miami)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


A-02 Modeling – 14:00 – 18:00 Co-Chair(s): John W. Van Zee, Brian P. Setzler and Akinori Fukushima 14:00

14:20

1253

1254

14:40

1255

15:00

1256

15:20

1257

15:40

1258

16:00 16:20 1259

Simulation of Catalyst Layer Formation – Toshihisa Munekata (Toyota Central R&D Labs, Inc), Joji Tomiyasu (TOYOTA Motor Corp), Takahisa Suzuki (Toyota Central R&D Labs, Inc), Atsushi Ida (TOYOTA Motor Corp), Shunsuke Yamakawa, Ryoji Asahi (Toyota Central R&D Labs, Inc), Makoto Fujiuchi (TOYOTA Motor Corp), and Yu Morimoto (Toyota Central R&D Labs, Inc) Pore-Scale Simulation of Water Vapor Generation, Condensation, and Transport in the Cathode of a Proton Exchange Membrane Fuel Cell – Li Chen (Xi’an Jiaotong University), Qinjun Kang (Los Alamos National Laboratory), Yaling He, Wenquan Tao (Xi’an Jiaotong University), and Piotr Zelenay (Los Alamos National Laboratory) Direct Simulation Monte Carlo Analysis of Gas Transport in Microporous Structure Based On X-Ray Computed Tomography – Ikuya Kinefuchi (Department of Mechanical Engineering, The University of Tokyo), Junpei Oyama, Koji Yokoyama, Norio Kubo (FC-Cubic), Takashi Tokumasu (Institute of Fluid Science, Tohoku University), and Yoichiro Matsumoto (Department of Mechanical Engineering, The University of Tokyo) Introducing OpenPNM: An Open Source Pore Network Modeling Framework for General Scientific Applications – Andreas Putz (Automotive Fuel Cell Corporation), James Hinebaugh (University of Toronto), Harold Day, Mahmoudreze Aghighi (McGill University), Aimy Bazylak (Thermofluids for Energy & Advanced Materials Lab, University of Toronto), and Jeffery T Gostick (McGill University) Molecular Dynamics Study for the Friction Coefficient Between a Water Droplet and a Solid Wall – Akinori Fukushima (Institute of Fluid Science, Tohoku University), Toshiki Mima, Ikuya Kinefuchi (Department of Mechanical Engineering, The University of Tokyo), and Takashi Tokumasu (Institute of Fluid Science, Tohoku University) Investigation of Transport Phenomena in PEMFC Through 1-D MacroHomogeneous Model – Brian P Setzler and Thomas F Fuller (School of Chemical & Biomolecular Engineering, Georgia Institute of Technology) Intermission Nonlinear Diffusion Analysis of the Voltage Signal of a Polymer Electrolyte Fuel Cell with Cathode Water Accumulation – Michael Burkholder (Carnegie Mellon University) and Shawn Litster (Mechanical Engineering, Carnegie Mellon University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

16:40

1260

17:00

1261

17:20

1262

17:40

1263

An Isothermal Model for Predicting Performance Loss in Pemfcs From Bop Leachates – Hyun-Seok Cho and John W Van Zee (University of Alabama) Effect of Oxygen Utilization On PEM Fuel Cell Performance Investigated By Numerical Simulation – Masakazu Yoneda, Haruki Motegi (Mizuho Information & Research Institute, Inc), Junji Inukai, and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Numerical Study of the Cathode Manifold Design for Enhancing the Performance of a 5KW PEM Fuel Cell – Hung-hsiao Liu (Department of Power Mechanical Engineering), Li-Chi Chao, RuiMing Zhang (Chung-Hsin Electric & Machinery MFG Corp), and Che-Wun Hong (Department of Power Mechanical Engineering, National Tsing Hua University) Mechanical Damage Propagation in Polymer Electrolyte Membrane Fuel Cells Under Humidity and Temperature Cycles – Roshanak Banan, Jean W Zu (University of Toronto), and Aimy Bazylak (Thermofluids for Energy & Advanced Materials Lab, University of Toronto)

57

Sunday, October 27

Continental 1, Tower 3, Ballroom Level, Hilton San Francisco Union Square


14:40

Monday, October 28

Monday, October 28

A0

218

15:20 15:40 219

Special Lectures

All Divisions Grand Ballroom A, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

16:20

220

Special Lectures – 14:00 – 15:50 14:00 14:10 1

14:50 15:00 2

15:40

A3

Introductory Remarks (2013 Olin Palladium Award Address) Mathematical Modeling of Lithium Ion Cells and Batteries – Ralph E White (University of South Carolina) Introductory Remarks (2013 Carl Wagner Memorial Award Lecture) Multiple Proton-coupled Electron Transfer in Electrocatalysis: Theory vs Experiment – Marc T M Koper (Leiden University) Concluding Remarks

213

09:40 10:00 214

11:20

215

216

12:00

Introductory Remarks Water and Energy Nexus – Michael Hightower (Sandia National Laboratories) Effects of Climate Change On Water Availability – Antonio J Busalacchi (Director, Earth System Science Interdisciplinary Center, Chair, Joint Scientific Committee, World Climate Research Programme) Break Technical and Economic Opportunities for Water Purification and Sensing for WHO Development Goals – Amul D Tevar, William R Regan, and Varun Mehra (US Dept of Energy) Development of a Self-Contained, PVPowered Domestic Toilet and Wastewater Treatment System – Michael Robert Hoffmann (California Institute of Technology) Energy-Water Nexus Research and NSF – Bruce K Hamilton (National Science Foundation) Panel Discussion

Health and Environmental Issues – 14:00 – 16:40 Co-Chair(s): Paul M. Natishan and Brian R. Stoner 14:00

58

Battery / Energy Technology Continental 4, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium Battery-Cathode 1 – 08:00 – 12:00 08:00

251

08:20

252

08:40

253

09:00

254

09:20

255

All Divisions / New Technology Subcommittee Franciscan D, Tower 1, Ballroom Level, Hilton San Francisco Union Square

08:10 08:20 212

10:40

Energy Technology/Battery–Joint General Session

The Energy Water Nexus

Energy-Water Plenary – 08:10 – 14:00 Co-Chair(s): Eric D. Wachsman and Carl Hensman

09:00

B1

217

Global climate change impacting natural water and infectious diseases: cholera as a case study – Daniela Ceccarelli and Rita Colwell (University of Maryland)

Water, Energy, and Soil Sustainability– Michael John Cooney (University of Hawaii) Break Practical levels of electricity from MFC stacks fed with urine – Ioannis Ieropoulos, Pablo Ledezma, Andrew Stinchcombe, Giacomo Scandroglio, Chris Melhuish, and John Greenman (University of the West of England) Development of An On-Site SelfContained Electrochemical Wastewater Treatment System With Hydrogen Production – Clement Cid, Kangwoo Cho, Yan Qu, Asghar Aryanfar, Daejung Kwon, and Michael Robert Hoffmann (California Institute of Technology)

Three Dimensional Simulation and Optimization of Microbatteries – Kyle Lange (Lawrence Livermore National Laboratory), Brad Trembacki (Lawrence Livermore National Laboratory, University of Texas - Austin), Michael Stadermann, Mathew Merrill, and Eric Duoss (Lawrence Livermore National Laboratory) Thermally Accelerated Life Testing for Rechargeable li-Ion Batteries – Hui Ye, Gaurav Jain, and Craig Schmidt (Medtronic Inc) Optimal Charging Profile for Mechanically Constrained Lithium Ion Batteries – Bharat Kumar Suthar (Washington University in St Louis), Venkatasailanathan Ramadesigan (Indian Institute of Technology, Bombay), Sumitava De (Washington University in St Louis), Richard D Braatz (Massachusetts Institute of Technology, Room 66-370, Cambridge, MA 02139), and Venkat R Subramanian (Washington University in St Louis) In Situ Synchrotron X-Ray Diffraction Study of the Heat Treated Electrolytic Manganese Dioxide Cathode Used in Primary Li/MnO2 Batteries – Scott W Donne and Wesley M Dose (University of Newcastle) In Situ Study of Electrochemically-Driven Phase Transitions in LiMnyFe1-YPO4 – Dorthe Bomholdt Ravnsbaek, Kai Xiang, Wenting Xing (Massachusetts Institute of Technology), Olaf J Borkiewicz (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), Kamilla Wiaderek (Argonne National Laboratory), Peter J Chupas, Karena W Chapman (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), and Yet-Ming Chiang (Massachusetts Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


10:20

10:40

11:00 11:20

11:40

Break Model Reformulation for Lithium-Ion Battery Simulation – Paul W C Northrop, Bharat Kumar Suthar, and Venkat R Subramanian (Washington University in St Louis) 257 Li2FexMnyCozSiO4 Nanoparticles Incorporated CNTs As a Novel High Capacity Cathode for Lithium Ion Batteries – Supil Raina, Shao Hua Hsu, Mesut Yilmaz, Serkan Akbulut, Weng Poo Kang (Vanderbilt University), and Jin Hua Huang (National Tsing Hua University) 258 Li2CoPO4f As Cathode Material for Lithium Secondary Battery – A Method to Achieve Two Lithium Ion Intercalation – Amaresh Samuthira Pandian, Kwang Jin Kim, and Yun Sung Lee (Faculty of Applied Chemical Engineering, Chonnam National University, Gwangju, South Korea) 259 Conversion Reactions in Li-FeF2 Cathodes – Stephen H Garofalini and Ying Ma (Rutgers University) 260 Characterization of Transport Properties of LiNi08Co015Al005O2 (NCA) – Ruhul Amin, Dorthe Bomholdt Ravnsbaek, and YetMing Chiang (Massachusetts Institute of Technology) 261 In Situ Hard x-Ray Nano-Imaging Study of Morphology Evolution for Battery Materials – Jiajun Wang, Yu-chen Karen Chen-Wiegart, and Jun Wang (Brookhaven National Laboratory)

15:20

15:40 16:00 267

16:20

268

16:40

269

17:00

270

Lithium Battery-Cathode 2 – 14:00 – 17:20 14:00

14:20

14:40

15:00

262 Novel in-Situ Neutron Diffraction Cell for Battery Materials – Jordi Jacas Biendicho (The ISIS facility, UK), Stephen Hull (The ISIS facility,UK), Gunnar Svensson (Stockholm University, Sweden), Sten Eriksson (Chalmers University, Sweden), and Dag Noreus (Stockholm University, Sweden) 263 Thermal Modelling of a Lithium-Ion Aqueous Battery – Desmond Adair, Gulnur Kalimuldina, and Zhumabay Bakenov (School of Engineering, Nazarbayev University) 264 Bismuth Ferrites As Electrodes for Lithium Batteries: An in Situ XRD and XANES Investigation – Wen Wen, Min Liu, Tieying Yang, Guangzhi Yin, Yueliang Gu, Xingyu Gao, Xingtai Zhou (Shanghai Institute of Applied Physics), Zhengliang Gong (Xiamen University), and Chuan Lin (General Electric Global Research CenterShanghai) 265 Electrochemical Characterization of CFx Material for An Internally Funded Project – Ganesan Nagasubramanian and Kyle R Fenton (Sandia National Laboratories)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

266

B2

Efficient Reformulation of Pressure Induced Solid Phase Diffusion in Coupled Electrochemical-Mechanical Models for Lithium Ion Batteries – Sumitava De, Bharat Kumar Suthar, and Venkat R Subramanian (Washington University in St Louis) Break Development of a Micro Four-Line Probe for the Measurement of Thin-Film Battery Electrode Conductivity – Bryson Lanterman, Josh Flygare, Andrew Cutler, Brian A Mazzeo, and Dean Wheeler (Brigham Young University) Structure-Property Relationships of Naphthalene Diimide Based Organic Electrodes – Ryan P Maloney, Geeta Vadehra, Bruce Dunn, and Miguel GarcíaGaribay (University of California - Los Angeles) Battery Analysis Using in Situ Synchrotron, Neutron and NMR Methods – Hajime Arai (Office of Society-Academia Collaboration for Innovation, Kyoto University), Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University), and Zempachi Ogumi (Office of Society-Academia Collaboration for Innovation, Kyoto University) SECM Dissolution Studies of Pasted Battery Cathodes in Ionic Liquid Electrolytes – Graeme Andrew Snook (CSIRO Process Science and Engineering), Thuy Diem Huynh, and Adam Samuel Best (CSIRO Energy Technology)

Battery Chemistries Beyond Lithium Ion Battery / Energy Technology Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Lithium Sulfur Batteries 1 – 08:00 – 12:00 Co-Chair(s): Chengdu Liang and Arumugam Manthiram 08:00

353

08:30

354

Understanding the Electrochemical Processes in Li-S Batteries By Operando Methods – Marine Cuisinier, PierreEtienne Cabelguen, Scott Evers, Mason Kolbeck (University of Waterloo), Arnd Garsuch (BASF SE), Trudy Bolin (X-ray Science Division, Argonne National Laboratory), Mahalingam Balasubramanian (Advance Photon Source, Argonne National Laboratory), and Linda F Nazar (University of Waterloo) High Efficiency Lithium Sulfur Batteries – Rui Xu (Argonne National Laboratory, University of Rochester), Ilias Belharouak (Argonne National Laboratory), James CM Li (University of Rochester), and Xiaofeng Zhang (Argonne National Laboratory)

59

Monday, October 28

09:40 10:00 256


Monday, October 28

09:00

09:20

09:40

355

356

357

10:00 10:20 358

10:40

11:00

359

360

Rock-Salt Type Li2TiS3 As New Positive Electrode Materials for Lithium-Metal Sulfides Secondary Batteries – Atsushi Sakuda (National Institute of Advanced Industrial Science and Technology (AIST)), Tomonari Takeuchi (National Institute of Advanced Industrial Science and Technology (AIST), National Institute of Advanced Industrial Science and Technology (AIST)), Kazuhiro Okamura (Kyoto University), Hironori Kobayashi, Hikari Sakaebe, Kuniaki Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST)), and Zempachi Ogumi (Office of Society-Academia Collaboration for Innovation, Kyoto University) A Fresh Look On Liquid-ElectrolyteLi/S-Batteries: Non- Equilibrium Thermodynamics Based Modeling of Transport and Reactions – Andreas Felix Hofmann (German Aerospace Agency (DLR) Institute of Technical Thermodynamics Stuttgart and Helmholtz Institute Ulm (HIU)) and Arnulf Latz (Helmholtz Institute for Electrochemical Energy Storage Ulm, Germany) Hydroxylated Graphene-Sulfur Nanocomposites for High-Rate LithiumSulfur Batteries – Chenxi Zu and Arumugam Manthiram (The University of Texas at Austin) Break Cathode and Anode Design for High Capacity Lithium-Sulfur Batteries With Enhanced Cycle Life – Holger Althues, Stefan Kaskel, Sören Thieme, and Jan Brückner (Fraunhofer IWS) High Performance Lithium/Sulfur Cells With Sulfur-Graphene Oxide Nanocomposite Cathodes and Ionic LiquidBased Electrolytes – Min-Kyu Song (The Molecular Foundry, Lawrence Berkeley National Laboratory, Department of Chemical and Biomolecular Engineering, University of California, Berkeley), Yuegang Zhang (Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences, Suzhou 215123, Materials Sciences Division and the Molecular Foundry, Lawrence Berkeley National Laboratory, Berkeley, California 94720, United States), and Elton J Cairns (Lawrence Berkeley National Laboratory, Environmental Energy Technologies Division, University of California, Berkeley, Department of Chemical and Biomolecular Engineering) Performance Booster: A Different Role of Polysulfide in Rechargeable Lithium-Sulfur Batteries – Shuru Chen, Fang Dai, Mikhail L Gordin, and Donghai Wang (Mechanical Engineering, The Pennsylvania State University)

11:20

361

11:40

362

Yosemite B, Tower 2, Ballroom Level, Hilton San Francisco Union Square Sodium-ion Batteries - Cathodes 1 – 08:15 – 11:40 Co-Chair(s): Christopher Johnson, Gabriel M. Veith and Michael D. Slater 08:15 08:20 363

08:40

364

09:00

365

09:20

366

09:40 10:00 367

60

Carbon-Coated Sulfur Nanowire Array for Lithium-Sulfur Battery – San Moon (Korea Advanced Insititute of Science and Technology, Korea Advanced Insititute of Science and Technology), Young Hwa Jung (KAIST), Wook Ki Jung (Korea Advanced Institute of Science and Technology (KAIST), Korea Advanced Institute of Science and Technology (KAIST)), and Do Kyung Kim (KAIST) Role of Polysulfides in Self-Healing Lithium-Sulfur Batteries – Ilias Belharouak, Rui Xu (Argonne National Laboratory), James CM Li (University of Rochester), Nancy Dietz, Javier Bareno, and Ira Bloom (Argonne National Laboratory)

Introductory Remarks Electrode Performance of Lithium Containing Layered Sodium Iron Manganese Oxides for Rechargeable NaIon Batteries – Kei Kubota, Takafumi Kaneko (Tokyo University of Science), Naoaki Yabuuchi (Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, Tokyo University of Science), Ryo Hara (Tokyo University of Science), and Shinichi Komaba (Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, Tokyo University of Science) Tailoring the Electrochemical Performance of P2- Na045Ni022Co011Mn066O2 as High Voltage Or High Capacity Cathode Material for Sodium-Ion Batteries – Daniel Buchholz, Luciana Gomes Chagas, Liming Wu (University of Muenster- Institute of Physical Chemistry, Battery Research Centre MEET), Martin Winter, and Stefano Passerini (MEET Battery Research Center, University of Muenster) Ordering in Na-Ion Intercalation Materials Studied By TEM and DFT Computations – Xin Li, Alexandra J Toumar, Xiaohua Ma, Shyue Ping Ong, and Gerbrand Ceder (Massachusetts Institute of Technology) Preparation and Characterization of Pure P2 and O3-Phase NaxMnxFe2/3-XO2 compounds – Elena Candida Gonzalo (CIC energiGUNE), Man Huon Han (CIC Energigune), Montserrat Casas-Cabanas (CIC energiGUNE), Vladimir Roddatis (CIC Energigune), Begoña Acebedo (CIC energiGUNE), and Teofilo Rojo (CIC Energigune, Universidad del Pais Vasco (UPV)) Break Low Cost Na-Ion Battery Technology – Jerry Barker, Richard John Heap, Noel Roche, Chaou Tan, Ruth Sayers, and Yang Liu (Faradion Limited)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


368

10:40

369

11:00

11:20

370

371

Synthesis and Crystal Structure of P-Type NaxMn065Co018Ni017O2 cathode Material With High Capacity – Riki Kataoka (National Institute of advanced industrial science and technology), Takashi Mukai, Kenshi Inoue, Akihiro Yoshizawa (National institute of advanced industrial science and technology), and Tetsuo Sakai (National institute of Advanced Industrial Science and Technology) A Reversible 388 V Single Plateau in Sodium-Ion Battery By Iso-Energetic Structural Rearrangement: Experiment and Theory – Soo Yeon Lim and Jang Wook Choi (Korea Advanced Institute of Science and Technology(KAIST)) Electrochemical Properties and Structural Changes of NaCuO2 for Sodium Secondary Batteries – Yoko Ono (NTT Energy and Environment Systems Laboratories) Comparative Electrochemistry of Sodium and Lithium Intercalation in Mixed-Alkali Transition Metal Oxide Cathodes: Insight Into Structure and Reactivity – Michael D Slater, Fulya Dogan, Eungje Lee, and Christopher Johnson (Argonne National Laboratory)

14:40

376

15:00 15:20 377

15:40

378

16:00

379

16:20

380

Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square Lithium Sulfur Batteries 2 – 13:20 – 16:40 Co-Chair(s): Ilias Belharouak and Donghai Wang 13:20

372

13:40

373

14:00

374

14:20

375

Lithium/Sulfur Gel Polymer Batteries With Nanostructured Sulfur/Carbon Composite Cathode – Zhumabay Bakenov (School of Engineering, Nazarbayev University), Zhao Yan, Yongguang Zhang, and Pu Chen (Department of Chemical Engineering, Uniwersity of Waterloo) Ionic Liquids As Electrolyte Additives for Li-S Battery Applications – Surya Moganty and Jonathan Lee (NOHMs Technologies) In-Operando Transmission X-Ray Microscopy Study On Dynamics of Sulfur Dissolution and Re-Deposition in Li-S Battery – Nae-Lih Wu, Chia-Nan Lin, Wen-Chin Chen (Department of Chemical Engineering, National Taiwan University), Yen-Fang Song (National Synchrotron Radiation Research Center, Taiwan), and Li-Duan Tsai (Industrial Technology Research Institute, Taiwan) Rechargeable Lithium-Sulfur Batteries With Binder-Free Carbon Nanotube Electrodes – Yongzhu Fu, Yu-Sheng Su, and Arumugam Manthiram (The University of Texas at Austin)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Investigation of Rechargeable LithiumSulfur Batteries By in-Situ Techniques – Natalia Andrea Cañas (University of Stuttgart, Institute for Thermodynamic and Thermal Engineering, German Aerospace Center (DLR), Institute of Technical Thermodynamics), KAndreas Friedrich, Norbert Wagner, Brigitta Pascucci (German Aerospace Center (DLR), Institute of Technical Thermodynamics), and Renate Hiesgen (University of Applied Sciences Esslingen) Break Superionic Cathode Materials for AllSolid-State Li-S Batteries – Chengdu Liang, Adam J Rondinone, and Nancy J Dudney (Oak Ridge National Laboratory) Next Generation Battery Electrochemistry Analyzed – a Validated Computational Model of the Lithium/Sulfur Cell – David N Fronczek (German Aerospace Center (DLR), Institute of Technical Thermodynamics, Lawrence Berkeley National Laboratory, Environmental Energy Technologies Division), Seong E Choi (University of California, Berkeley, Department of Chemical and Biomolecular Engineering, Lawrence Berkeley National Laboratory, Environmental Energy Technologies Division), Arnulf Latz (Helmholtz Institute for Electrochemical Energy Storage Ulm, Germany, Institute of Technical Thermodynamics, German Aerospace Center (DLR), Stuttgart, Germany), Wolfgang G Bessler (Offenburg University of Applied Sciences, Offenburg University of Applied Sciences), and Elton J Cairns (Lawrence Berkeley National Laboratory, Environmental Energy Technologies Division, University of California, Berkeley, Department of Chemical and Biomolecular Engineering) A New Lithium Sulfur Battery Using a Polymer Coated Separator and Carbon Encapsulated Lithium Sulfide – Henrik de Vries (Institute of Physical Chemistry and MEET Battery Research Centre, University of Münster, Institute of Physical Chemistry and MEET Battery Research Centre, University of Münster), Sangsik Jeong (Institute of Physical Chemistry and MEET Battery Research Centre, University of Münster), Mario Joost (MEET Battery Research Centre, University of Münster), Marlou Keller (Institute of Physical Chemistry and MEET Battery Research Centre, University of Münster), and Stefano Passerini (MEET Battery Research Center, University of Muenster) Capacity-Enhancing Polymer Coatings for Li-S Battery Cathodes – Matthew Lacey, Fabian Jeschull, Daniel Brandell (Department of Chemistry-Ångström Laboratory, Uppsala University), and Kristina Edström (Department of Chemistry - Ångström Laboratory, Uppsala University)

61

Monday, October 28

10:20


B5

Electrochemical Capacitors: Fundamentals to Applications

11:20

605

11:40

606

Battery / Energy Technology Union Square 19/20, Tower 3, 4th Floor, Hilton San Francisco Union Square

Monday, October 28

Devices 1 – 08:30 – 10:00 Co-Chair(s): Thierry Brousse 08:30 08:40 599

09:20

600

09:40

Welcoming Remarks Electrochemical Capacitor Power Performance At Low Temperature: Commercial Product Differences – John R Miller (JME, Inc, Case Western Reserve University) and Sue M Butler (JME, Inc) Improved Low Temperature Performance of Supercapacitors – Erik J Brandon, Marshall C Smart, William C West (Jet Propulsion Laboratory, California Institute of Technology), and Joe Gnanaraj (Yardney Technical Products) Break

Carbon Electrodes 1 – 14:00 – 16:00 Co-Chair(s): Daniel Bélanger and Soo-gil Park 14:00

607

14:40

608

15:00

609

15:20

610

Devices 2 – 10:00 – 12:00 Co-Chair(s): John R. Miller and Megan Bourg Sassin 10:00

601

10:20

602

10:40

603

11:00

604

Methods for Enhancing the Flowable Electrode Capacitance in the Electrochemical Flow Capacitor – Kelsey B Hatzell, Majid Beidaghi, Muhammed Boota, Christopher R Dennison, Emin Caglan Kumbur (Drexel University), and Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University) Asymmetrical Aqueous-Based Electrochemical Capacitors Using Modified-Carbon As Negative Electrode Material – Annaïg Le Comte (Département Chimie, Université du Québec à Montréal, Institut des Matériaux Jean Rouxel (IMN) - CNRS/University of Nantes), Thierry Brousse (Institut des Matériaux Jean Rouxel (IMN) - CNRS/ University of Nantes), and Daniel Bélanger (Département Chimie, Université du Québec à Montréal) Aqueous Asymmetric Electrochemical Capacitors: Fundamental Design and Practical Considerations En Route to Safe, High‑Performance Pulse Power – Megan Bourg Sassin, Jeffrey W Long, Hunter F Haddad (US Naval Research Laboratory), Jean Marie Wallace (Nova Research Inc), and Debra R Rolison (US Naval Research Laboratory) Application of Multistep Electrospinning Method for Preparation of Electrical Double-Layer Capacitor Half-Cells – Kerli Tõnurist, Ingrid Vaas, Alar Jänes, Thomas Thomberg, and Enn Lust (Institute of Chemistry, University of Tartu)

15:40 62

Electrochemical Properties Enhancement of Flexible Textile Based Supercapacitor – Tae Gwang Yun (Korea advanced institute of science and technology, Korea Institute of Machinery & Materials), Minsub Oh, Seungmin Hyun (Korea Institute of Machinery & Materials), and Seung Min Han (Graduate School of EEWS, Korea Advanced Institute of Science and Technology) Asymmetric Supercapacitor Containing Carbon Nanotube-Embedded Polyacrylonitrile-Based Carbon Nanofiber and δ-MnO2 As Electrodes – Chen-Hao Wang, Hsin-Cheng Hsu, and Jin-Hao Hu (Department of Materials Science and Engineering, National Taiwan University of Science and Technology)

CDCs From Silicon Carbide With Tunable Ordered Meso and Macroporosity for High-Power Supercapacitor – Pengcheng GAO (Institut Charles Gerhardt Montpellier UMR 5235 CNRS,Université Montpellier 2, cc1 502, 34095 Montpellier cedex 05, France, Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), Wan Yu Tsai (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France, Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France), Patrice Simon, Barbara Daffos (Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France, Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), Carlos R Perez, Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Pierre-Louis Taberna (Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France, Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), and Frederic Favier (Institut Charles Gerhardt Montpellier UMR 5235 CNRS,Université Montpellier 2, Montpellier, France, Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France) Electrochemical Modification of Carbon Fiber Electrode and Its Application to Capacitor – Soo-gil Park (Chungbuk National University) Electrodeposited Thin Films of Carbon for Use in Electrical Double Layer Capacitors – Scott W Donne and Madeleine F Dupont (University of Newcastle) D-Glucose Derived Micro/Mesoporous Carbons for Ultra-High Rate Supercapacitor Application – Thomas Thomberg, Tauno Tooming, Tavo Romann, Rasmus Palm, Alar Jänes, and Enn Lust (Institute of Chemistry, University of Tartu) Break

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


16:00

16:20

B6

611

612

Activated Biochar: A Green and LowCost Electrode Material for Capacitor Applications – Amir Mehdi Dehkhoda, Naoko Ellis (The University of British Columbia), and Elod Gyenge (Clean Energy Research Center, The University of British Columbia) Activated Carbon Synthesized From Banana Peel as Electrodes in Li-Ion Capacitors – Arenst Andreas Arie (Parahyangan Catholic University)

Lithium-Ion Batteries

B10 Battery Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium-Ion Batteries: Cathodes 1 - Li-rich NMC Oxides – 08:00 – 10:00 Co-Chair(s): Ratnakumar V. Bugga and Arumugam Manthiram 08:00

957

08:20

958

08:40

959

09:00

960

09:20

961

Electrochemical Synthesis of Fuels 2

High Temperature Materials / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Union Square 1/2, Tower 3, 4th Floor, Hilton San Francisco Union Square

Electrocatalysts: Activity, Selectivity, and Stability – 13:55 – 16:40 Co-Chair(s): Xiao-Dong Zhou and Gessie Brisard 13:55 14:00 689

14:40

15:00

690

691

15:20 15:40 692

16:00

16:20

693

694

Introductory Remarks (Invited) Catalysis for Sustainable Energy – Jens Nørskov (Stanford University, SUNCAT Center for Interface Science and Catalysis) Electrochemical Reduction of CO2 On Transition Metal Catalysts – Etosha Cave, Kendra Kuhl, David Abram, Toru Hatsukade, and Thomas Francisco Jaramillo (Stanford University) Surface Chemistry of Nafion-Immobilized Au25 Clusters for Use in Electrochemical Reduction of CO2 – Evan Michael Andrews and John Flake (LSU) Break Catalysts for the Electrochemical Reduction of CO2 to CO – Molly Jhong and Paul JA Kenis (Department of Chemical & Biomolecular Engineering, University of Illinois at UrbanaChampaign) Investigation of Copper Catalyst Degradation With Time for CO2 Reduction – Jared Benjamin Steed and Anne C Co (The Ohio State University) Stability Of The Morphology and Electrochemical Performance Of Sn-Based Electrodes For CO2 Electrolysis – Jingjie Wu and Xiao-Dong Zhou (University of South Carolina)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

09:40

Evidence of Slow Layered-toSpinel Phase Transformation in High Energy Xli[Li1/3Mn2/3]O2 - (1x) LiMn1/3Ni1/3Co1/3O2 Cathodes Accompanied By a Drastic Rise of Serial Resistance – Prasant Nayak, Mikhael D Levi, Judith Grinblat, Elena Levi, Doron Aurbach (Bar-Ilan University), and Yan Wu (General Motors Global R&D) Hysteresis and Voltage Fade in Lithiumand Manganese-Rich Transition Metal Oxide Electrodes – Kevin G Gallagher, Jason R Croy (Argonne National Laboratory), Mahalingam Balasubramanian (Advance Photon Source, Argonne National Laboratory), and Michael M Thackeray (Chemical Sciences and Engineering Division, Argonne National Laboratory) Hierarchical Functional Layers On HighCapacity Lithium-Excess Cathodes for Superior Lithium Ion Batteries – Jianqing Zhao, Saad Aziz, and Ying Wang (Louisiana State University) Electrochemical Characterization of Lithium and Manganese Rich Composite Material for Lithium Ion Batteries – Wenquan Lu (Argonne National Laboratory), Qingliu Wu (Argonne National Laboratory, Argonne National Laboratory), and Dennis W Dees (Argonne National Laboratory) Surface Modification of Li-Mn-Rich Li12Ni013Mn054Co013O2 Cathode Material By Atomic Layer Deposition – Xiaofeng Zhang, Ilias Belharouak, Yu Lei, Xiangbo Meng (Argonne National Laboratory), Rui Xu (University of Rochester), and Jeffrey W Elam (Argonne National Laboratory) Intermission

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Anodes 1 - Si Systems – 08:00 – 10:00 Co-Chair(s): Yi Cui 08:00

952

08:20

953

(2013 ECS Battery Division Technology Award Lecture) Lithium Metal Vs Li-Ion Batteries: Challenges and Opportunities – Karim Zaghib (Hydro-Quebec, Institut de Recherche d’Hydro-Québec) Robust Si Anode Design for Li-Ion Battery On Polyimide Substrate: Villus-Like Polymer/Si Core/Shell Hybrid NanoStructure – Min-Suk Jung (Seoul National University, Korea Institute of Science and Technology), In-Suk Choi (Korea Institute of Science and Technology), and Youngchang Joo (Seoul National University) 63

Monday, October 28

Carbon Electrodes 2 – 16:00 – 16:40 Co-Chair(s): Frederic Favier


Monday, October 28

08:40

954

09:00 09:20 955

09:40

956

Reversible High Capacity Si Nanocomposite Anodes Enabled By Molecular Layer Deposition – Daniela Molina Piper (University of Colorado at Boulder, National Renewable Energy Laboratory), Jonathan J Travis, Matthias Young (University of Colorado at Boulder), Seoung-Bum Son, Seul Cham Kim, Kyu Hwan Oh (Seoul National University), Steven M George (University of Colorado at Boulder), Chunmei Ban (National Renewable Energy Laboratory), and Se-Hee Lee (University of Colorado at Boulder) Intermission Fabrication and Characterization of Silicon Nanoparticles Embedded in Siox Matrix for Li-Ion Batteries – Soon sung Suh, Deok hyun Kim, Chang ui Jeong, Seung uk Kwon, Young ugk Kim, Jae hyuk Kim, Yo han Park, Yong chan You, and Sun ho Kang (SAMSUNG SDI) Three-Dimensional Silicon Anode Architectures Via Electrodeposition On Copper Foam Current Collectors – Fulya Dogan (Argonne National Laboratory), Duminda Sanjewaa (Clemson University), Lynn Trahey, and John T Vaughey (Argonne National Laboratory)

11:20

972

11:40

973

Nanoscale X-Ray Microscopy of High Voltage Lithium-Rich MNC Composite Cathodes With 2D/3D Chemical/ Elemental Sensitivity – Yijin Liu (SLAC National Accelerator Laboratory, USA), Surendra K Martha (Oak Ridge National Laboratory), Johanna Nelson (SLAC National Accelerator Laboratory, USA), Feifei Yang (University of Science and Technology of China, University of Science and Technology of China), Ziyu Wu (University of Science and Technology of China), Darius T Morris, Joy C Andrews, Piero A Pianetta (SLAC National Accelerator Laboratory, USA), and Jagjit Nanda (Oak Ridge National Laboratory) Ab initio study of doping effects on LiMnO2 and Li2MnO3 in OLO cathode for Li ion batteries – Fantai Kong, Roberto Pazos Longo (Materials Science & Engineering Dept of The University of Texas at Dallas), Min-Sik Park, Jaegu Yoon, Jin-Hwan Park (SAIT, SEC), SeokKwang Doo (Samsung Advanced Institute of Technology (SAIT)), and Kyeongjae Cho (Materials Science & Engineering Dept of The University of Texas at Dallas)

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium-Ion Batteries: Anodes 2 - Si Systems – 10:00 – 12:00 Co-Chair(s): Prashant N. Kumta and Ji-Guang Zhang

Lithium-Ion Batteries: Cathodes 2 - LMR-NMC and LMNO Spinel Cathodes – 10:00 – 12:00 Co-Chair(s): Khalil Amine and Zempachi Ogumi

10:00

962

10:20

963

10:40

964

11:00

965

10:00

10:20

968

969

10:40

970

11:00

971

64

Thermal Stability of High Voltage Spinel With Disordered and Ordered Phase – EnYuan Hu, Seong-Min Bak, Xi-Qian Yu, Yongning Zhou (Brookhaven National Lab), Kyung-Wan Nam, and Xiao-Qing Yang (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA) Analysis of Voltage Depression Mechanism After Charge-Discharge Cycling Tests for Li and Mn-Rich Cathode Materials – Yoshihiro Kadoma, Akari Matsutomo, Hisashi Watanabe (Iwate University), Yuki Takei, Keisuke Nomura, Masatsugu Nakano (Samsung R&D Institute Japan), and Koichi Ui (Iwate University) In Situ x-Ray Absorption Spectroscopy and First-Principles Calculations On Structural Changes of Li2MnO3 During Charge and Discharge Processes – Kei Kubobuchi, Masato Mogi, Masashi Matsumoto, Hideto Imai, and Takashi Matsumoto (NISSAN ARC Ltd.) Soft X-Ray Absorption Spectroscopic Studies of Spinel-Type Lithium Nickel Manganese Oxides for Li Rechargeable Batteries – Chunjoong Kim and Jordi Cabana (Lawrence Berkeley National Laboratory)

Preparation and Electrochemical Performance of Si/Graphite/Disordered Carbon Composite Anode for Lithium-Ion Batteries – Juanyu Yang (General Research Institute for Nonferrous Metals,) Electrospinning of Silicon and Sulfur Nanofibers for Lithium Ion Battery Applications – Kevin James Rhodes (Ford Motor Company – Energy Storage and Materials Research Department), Jonathan Sulek (Oakland University), Philip Gase (Purdue University), and Jim Adams (Ford Motor Company – Energy Storage and Materials Research Department) The Effect of Transition Metals Addition On Electrochemical Properties of Si-TiNi Alloy Anode for Lithium Ion Batteries – Jong-Soo Cho (MKE, University of Colorado at Boulder), Soon Ho Hong, Yeon-Yi Chu, Hyeong-Gi Ahn (MKE, MKE), Chan Soon Kang (Seoul National University, Seoul National University), Seul Cham Kim, Seoung-Bum Son (Seoul National University), Soon sung Suh, Jae hyuk Kim, Seung uk Kwon, Young ugk Kim (SAMSUNG SDI), Kyu Hwan Oh (Seoul National University), Sehee Lee (University of Colorado at Boulder), and Sang Han Lee (MKE, MKE) Silicon Nanocomposites Induced Highly Conductive Matrix As Anode Materials for Li-Ion Batteries – Heechul Jung and JinHwan Park (SAIT, SEC)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


966

11:40

967

New Design of Si Negative Electrodes With Copper Foam As Current Collector – Driss Mazouzi (IMN-CNRS-Nantes), M Gauthier (IMN), Philippe Moreau (Institut des matériaux Jean Rouxel (IMN) - CNRS - Nantes), D Pilon (Metafoam), L Roue (INRS), Dominique Guyomard (Institut des matériaux Jean Rouxel (IMN) - CNRS - Nantes), and Bernard Lestriez (IMN CNRS - Nantes) Microstructure Study of Si-Alloy Thin Film Anode Electrode for LiIon Batteries – Minsub Oh, Younghak Song (Sungkyunkwan university, Korea Institute of Machinery & Materials), Tae Gwang Yun (Korea advanced institute of science and technology, Korea Institute of Machinery & Materials), Chang-su Woo, Jun-Ho Jeong (Korea Institute of Machinery & Materials), Sung-soo Kim (Chungnam national university), Seungmin Hyun (Korea Institute of Machinery & Materials), and Hoo-jeong Lee (Sungkyunkwan university)

Lithium-Ion Batteries: Anodes 3 - Si Systems – 14:00 – 15:40 Co-Chair(s): Karim Zaghib and Gao Liu 14:00

14:20

974

975

14:40

976

15:00

977

Performance and Safety Evaluation of Li2FeSiO4/Sio Battery – Toshikatsu Kojima, Yuuta Ikeuchi, Akira Kojima (Research Institute for Ubiquitous Energy Devices, National Institute of Advanced Industrial Science and Technology (AIST)), and Tetsuo Sakai (National institute of Advanced Industrial Science and Technology, Graduate School Science and Technology, Kobe University) Stabilization of Graphene / Silicon Electrodes for Li-Ion Battery Applications – Martin Weissmann (IMN - CNRS Nantes), Olivier Crosnier (Institut des matériaux Jean Rouxel (IMN) - CNRS Nantes), Bernard Lestriez, Joël Gaubicher, Bernard Humbert (IMN - CNRS - Nantes), Dominique Guyomard (Institut des matériaux Jean Rouxel (IMN) - CNRS - Nantes), Ashok Nanjundan, Florence Duclairoir, Lionel Dubois, Gerard Bidan (INAC - CEA - Grenoble), and Thierry Brousse (IMN JR CNRS UMR 6502 – Université de Nantes (Fr)) Electrodeposition of Thin Silicon Films As Anode Materials for Lithium Ion Batteries – Codruta Aurelia Vlaic, Svetlozar Dimitrov Ivanov, and Andreas Bund (Ilmenau University of Technology, Department of Electrochemistry and Electroplating) Multi-Amp Hour Cell Construction Using PSI’s Silicon Whisker and Carbon Nanofiber Composite Anode – Christopher M Lang, Anna B Cheimets, Peter D Moran, and Jose A Vega (Physical Sciences Inc)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

15:20

978

Towards High-Capacity Silicon Anodes for Lithium-Ion Batteries: Comparative Performance Study of Commercially Available Polymer Binders and Silicon Nanopowders – Torsten Brezesinski (Institute of Nanotechnology, Battery and Electrochemistry Laboratory (BELLA), Karlsruhe Institute of Technology), Christoph Erk, Heino Sommer (Institute of Nanotechnology, Battery and Electrochemistry Laboratory (BELLA), Karlsruhe Institute of Technology, BASF SE), Christoph Weidmann (Institute of Nanotechnology, Battery and Electrochemistry Laboratory (BELLA), Karlsruhe Institute of Technology), and Juergen Janek (Institute of Nanotechnology, Battery and Electrochemistry Laboratory (BELLA), Karlsruhe Institute of Technology, Institute of Physical Chemistry, Justus-LiebigUniversity Giessen)

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Cathodes 3 - Manganese Spinel Oxides – 14:00 – 16:00 Co-Chair(s): Jeff Dahn and Michael M. Thackeray 14:00

979

14:20

980

14:40

981

15:00

982

Graphene-Oxide-Coated LiNi05Mn15O4 As High Voltage Cathode for Lithium Ion Batteries With High Energy Density and Long Cycle Life – Xin Fang, Mingyuan Ge, Jiepeng Rong, and Chongwu Zhou (USC) Reason and Improvement of Capacity Fading in LiNi05Mn15O4/Graphite Batteries – Kehua Dai, Jing Mao (Lawrence Berkeley National Laboratory, Northeastern University), Yuchun Zhai (Northeastern University), Vince Battaglia, and Gao Liu (Lawrence Berkeley National Laboratory) Ultrathin Lithium Ion Conductor Coatings On LiNi1/2Mn3/2O4 for High Energy Li-Ion Batteries – Joong Sun Park, Chunjoong Kim (Lawrence Berkeley National Laboratory), Xiangbo Meng, Jeffrey W Elam (Argonne National Laboratory), and Jordi Cabana (Lawrence Berkeley National Laboratory) Crystal Study of “Nano Inclusion” in LiMn2O4 Cathode Material of Lithium Ion Battery – Shogo Esaki (Materials and Energy Technology Laboratories, Corporate Research and Development Group, SHARP CORPORATION, Graduate School of Energy Science, Kyoto University), Yuya Kawai, Jumpei Harada (Graduate School of Energy Science, Kyoto University), Motoaki Nishijima (Materials and Energy Technology Laboratories, Corporate Research and Development Group, SHARP CORPORATION), and Takeshi Yao (Graduate School of Energy Science, Kyoto University)

65

Monday, October 28

11:20


Monday, October 28

15:20

983

15:40

Analysis of the Manganese Dissolution and Deposition in LiMn2O4/Li4Ti5O12 Based Lithium-Ion Batteries – Markus Börner, Sebastian Klamor, Björn Hoffmann, Melanie Schroeder (University of Münster, Institute of Physical Chemistry, MEET – Battery Research Center), Martin Winter (University of Münster, Institute of Physical Chemistry, MEET - Battery Research Center), and Falko Schappacher (University of Münster, Institute of Physical Chemistry, MEET – Battery Research Center) Intermission

Polymer Electrolyte Fuel Cells 13

15:20

D4

1271

Mass Transport Phenomena in Localized Corrosion Corrosion Golden Gate 4, Tower 3, Lobby Level, Hilton San Francisco Union Square

Session 1 – 08:30 – 10:20 Co-Chair(s): R. Scott Lillard and Robert G. Kelly 08:30

1768

08:50

1769

09:10

1770

09:35

1771

09:55

1772

Industrial Electrochemistry and Electrochemical Engineering / B11 Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Continental 1-3, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Plenary Session 1 – 08:20 – 16:00 Co-Chair(s): Hubert Gasteiger, Hiroyuki Uchida, Deborah J. Jones and Vijay K. Ramani 08:20

1264

09:00

1265

09:40 10:00 1266 10:40

1267

11:20

1268

12:00 14:00 1269

14:40

66

1270

Commercialization Progress and Future Vision of Residential Fuel Cell “EneFARM” in Toshiba – Yuji Nagata (Toshiba Fuel Cell Power Systems Corp) The Challenges in Developing the Cathode for Automotive PEM Fuel Cells – Stephen Campbell (AFCC Automotive Fuel Cell Cooperation Corp) and Juergen Stumper (Automotive Fuel Cell Cooperation Corporation) Intermission Platinum Group Metal-Free Direct Hydrazine Fuel Cell Vehicle – Hirohisa Tanaka (Daihatsu Motor Co, Ltd.) Imaging Catalyst Structure and Durability At the Atomic Scale – David A Muller (Cornell University) Polymer Electrolyte Fuel Cell Modeling and Experimental Validation: Current Issues and Problems – Chao-Yang Wang (EC Power, State College, PA 16803) Lunch Non Precious Catalysts for Fuel Cells - A short review on Mößbauer spectroscopy of Fe‑N-C catalysts for ORR – Ulrike I Kramm (BTU Cottbus) Fuel Cell Perfluorinated Sulfonic Acid Membrane Degradation Correlating Accelerated and Lifetime Testing – Marianne P Rodgers, Leonard J Bonville (Florida Solar Energy Center-University of Central Florida), Rangachary Mukundan, Rod L Borup (Los Alamos National Laboratory), Rajesh Ahluwalia (Argonne National Laboratory), Paul Beattie (Ballard Power Systems), R Paul Brooker, Nahid Mohajeri, H Russell Kunz, Darlene K Slattery, and James M Fenton (Florida Solar Energy Center-University of Central Florida)

Radiation Grafted Membranes for Fuel Cells: Strategies to Compete With PFSA Membranes – Lorenz Gubler and Lukas Bonorand (Electrochemistry Laboratory, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland)

Mass Transport and Electrochemical Factors Influencing Stainless Steel Pitting and Repassivation in Neutral Chloride Media – Jayendran Srinivasan, Michael McGrath, and Robert G Kelly (University of Virginia) Imaging of Mass Transport Process for Localized Corrosion of Stainless Steel – Changjian Lin (State Key Lab of Physical Chemistry of Solid Surfaces, Xiamen University) The Effect of NaNO3 On Salt Films in Pitting Corrosion of 304 Stainless Steel Using Synchrotron X-Ray Diffraction – Steven Street, Weichen Xu, Liya Guo (University of Birmingham), Paul Quinn, Fred Mosselmans (Diamond Light Source Ltd.), Trevor Rayment (Diamond Light Source Ltd., University of Birmingham), and Alison J Davenport (University of Birmingham) Investigation of Localized Corrosion and the Role of Transport in Lightweight Alloys Using Microkinetic Models With First-Principles Link – Santanu Chaudhuri, Aslihan Sumer (ISP/Applied Sciences Laboratory, Washington State University), Jie Xiao (Soochow University, College of Chemistry, Chemical Engineering and Materials Science), and Martin Losada (ISP/Applied Sciences Laboratory, Washington State University) Coupling of Dissolution and Mass Transport for Pitting of Nickel Base Alloys in Solutions Containing Thiosulfate Ions – Roger Newman, Anatolie G Carcea, and William Zhang (University of Toronto)

Session 2 – 10:35 – 11:55 10:35

1773

10:55

1774

The Role of Elemental Sulfur and Chloride Ions on Pit Initiation at MnS Inclusion in Stainless Steel – Aya Chiba, Izumi Muto, Yu Sugawara, and Nobuyoshi Hara (Department of Materials Science, Tohoku University) The Local Redox Conditions Within Spent Nuclear Fuel Inside a Failed Nuclear Waste Container – a Modelling Study – Linda Wu, Zack Qin, and Dave Shoesmith (Western University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1775

11:35

1776

Effect of Applied Stress On Dissolution Morphology and Pit Initiation Behavior of Mns Inclusion in Stainless Steel – Naoya Shimahashi, Izumi Muto, Yu Sugawara, and Nobuyoshi Hara (Department of Materials Science, Tohoku University) Chloride Ion Concentration Effects On Passivity Breakdown in Magnesium – Geraint Williams, Hefin Dafydd, and Hamilton Neil McMurray (Swansea University)

16:25

D5

Session 3 – 13:30 – 14:30 13:30

13:50

14:10

1777

1778

1779

Effects of Sulphide and Chloride Concentrations On the Morphology and Growth Kinetics of Sulphide Films During Copper Corrosion in Anaerobic Aqueous Solutions – Jian Chen, Zack Qin, and Dave Shoesmith (Western University) Corrosion Behavior of Copper Patina in Presence of Marine Biofouling – Lucien Petrova Veleva (CINVESTAV-IPN (Center for Investigation and Advanced Study)), Daniel Lopez Sauri (CINVESTAV-IPN, Merida, Doctor program in Physical Chemistry, Applied Physics Department), and Juan Luis Lopez (CINVESTAV-IPN, Merida, Applied Physics Department) Quantitative Chemical Speciation of Copper Electro-Deposition Studied By Stxm – Zhisheng Qin (McMaster University, McMaster University), Vincent Lee, and Adam P Hitchcock (McMaster University)

1785

Oxide Films: A Symposium in Honor of Clive Clayton on his 65th Birthday Corrosion Golden Gate 2, Tower 3, Lobby Level, Hilton San Francisco Union Square

Oxides and Passivity 1 – 08:00 – 10:00 Co-Chair(s): Dev Chidambaram, Donald R. Baer, Gary P. Halada, Donald F. Roeper and Marvin Jaime-Vasquez 08:00 08:02 1786

08:20

1787

08:40

1788

09:00

1789

Session 4 – 14:45 – 16:45 14:45

1780

15:05

1781

15:25

1782

15:45

1783

16:05

1784

Development Of Semi-Elliptical Surface Cracks In Lightly Sensitized Al-Mg Alloys – Sangkwon Lee (Penn State University) and Digby D Macdonald (University of California at Berkeley) Stress Corrosion Cracking of Alloy 22 – Sang-Kwon Lee (Penn State University) and Digby D Macdonald (University of California at Berkeley) Modeling of the Effect of Crystallographic Orientation On Pit Growth and Shape – Siddiq M Qidwai (US Naval Research Laboratory), Nithyanand Kota (SAIC), and Virginia G DeGiorgi (US Naval Research Laboratory) Influence of the Microstructure On Stress Concentration Due to Localized Corrosion – Nithyanand Kota (SAIC), Siddiq M Qidwai, and Virginia G DeGiorgi (US Naval Research Laboratory) A Model of Damage Evolution During Crevice Corrosion of Nickel Base Alloys – R Scott Lillard, A, Stenta, K L Kreider, and G Young (University of Akron)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Monitoring Crevice Corrosion Via the Coupling Current: Effect of Anodamine – Wenjun Kuang (Pennsylvania State University), Sangkwon Lee (Penn State University), James Mathews (EPRI), and Digby D Macdonald (University of California at Berkeley)

09:40

Welcoming Remarks An XAS Study of the Surface of LowTemperature Carburized Stainless Steel – Donald F Roeper (Excet, Inc), William E O’Grady (Excet,Inc), Kaumudi I Pandya (SAIC, Inc), and Paul M Natishan (US Naval Research Laboratory) Effect of Non-Random Atomic Arrangements On the Initiation of Passivation in Solid-Solution Alloys – Dorota Artymowicz (University of Toronto), Karl Sieradzki (Arizona State University), and Roger Newman (University of Toronto) Characterization of Electric Conduction of Passive Films and Oxide Films Formed On Fe-Cr Alloys – Shinji Fujimoto (Osaka University), Yoshiharu Iwamizu (Nisshin Steel), Yoshikazu Tai (Osaka University, Nissin Steel Co, Ltd.), and Minoru Saito (Nisshin Steel CO, Ltd.) A Unified Theory for Passivity and Passivity Breakdown – Digby D Macdonald (University of California at Berkeley) Break

Honoring Professor Clayton – 10:00 – 11:20 10:00 10:10 1790

10:50

1791

About Professor Clayton Surface Oxide films : Growth, Chemical Composition, Structure Investigated By Surface Analytical Techniques (XPS, ToFSIMS, STM, STS) and Recent Progress in Modeling – Philippe Marcus (CNRS (UMR 7045)/Chimie ParisTech) Light Thermal Damage in Polymer Composite Systems: Analysis of Bulk and Surface Properties Through Vibrational and X-Ray Spectroscopy – Clive R Clayton, Christopher N Young (Stony Brook University), Richard D Granata (Florida Atlantic University), William R Scott (Computer Interface Instrumentation, Inc), and Guy M Connelly (Connelly Applied Research)

67

Monday, October 28

11:15


Oxides in High Temperature and Nuclear Environments – 11:20 – 16:40 Co-Chair(s): Dev Chidambaram

Monday, October 28

11:20

11:40

12:00

12:20

1792

1793

1794

1795

12:40 14:00 1796

14:20

1797

14:40

1798

15:00

1799

68

Corrosion of Carbon Steel in PhysicallyConstrained Locations in Hlnw Isolation – George Engelhardt (OLI Systems, Inc), Bruno Kursten (SCK-CEN), and Digby D Macdonald (University of California at Berkeley) Oxide Film Formation and Corrosion of Stainless Steels in Supercritical and Ultra Supercritical Water – David Rodriguez, Augustus Merwin, and Dev Chidambaram (Materials Science and Engineering Department, University of Nevada Reno) Electrochemical and Oxidation Behaviour of Smat Alloy 800 SG Tubing Specimens – Melissa G Faichuk (Surface Science Western and The University of Western Ontario), Sridhar Ramamurthy (Surface Science Western, The University of Western Ontario), James J Noel, and Dave Shoesmith (Western University) Effects of pH On S-Induced Passivity Degradation of Alloy 800 in Simulated Crevice Chemistries – Dahai Xia, Renkang Zhu, Chen Shen, Yashar Behnamian, Jingli Luo (University of Alberta), and Klimas Stan (Atomic Energy of Canada Ltd., Chalk River Laboratories) Break Corrosion Resistance of Oxide Scales Formed in High-Temperature Oxidation of Al-Bearing Ferritic Stainless Steels – Yu Sugawara (Department of Materials Science, Tohoku University), Misako Ogiwara (EBARA Corporation, Department of Materials Science, Tohoku University), Izumi Muto (Department of Materials Science, Tohoku University), Toru Inakuma, Hiroaki Sakamoto (Technical Research & Development Bureau, Nippon Steel & Sumitomo Metal Corporation), and Nobuyoshi Hara (Department of Materials Science, Tohoku University) Nanostructure and Local Properties of Oxide Layers Grown On Stainless Steel in High Temperature Water – Vincent Maurice, Toni Massoud, Lorena H Klein, Antoine Seyeux, and Philippe Marcus (CNRS (UMR 7045)/Chimie ParisTech) Oxidation of Superalloys in Supercritical Water – Augustus Merwin, Dev Chidambaram, and David Rodriguez (Materials Science and Engineering Department, University of Nevada Reno) Concurrent Cathodic Disbonding and Microscopy At High Temperatures and High Pressures On Steel Coated Exposed to Seawater – Luis Francisco GarfiasMesias and Erick Ramirez (Intertek)

15:20

1800

15:40

1801

16:00

1802

16:20

1803

E3

Effect of Sour Environment Temperature On Fatigue Crack Propagation in Ultrahigh-Strength Stell – Margaret Ziomek-Moroz, Jeffrey A Hawk (US Department of Energy, National Energy Technology Laboratory), Ramgopal Thodla, and Feng Gui (DNV USA) The Composition of Oxide Films On GdDoped Uranium Dioxide (UO2) – Mayuri Razdan and Dave Shoesmith (Western University) The Corrosion Behaviour of Passive Multi-Phase Metallic Nuclear Wasteforms – Robert Matthew Asmussen, Jian Chen, Dmitrij Zagidulin, James J Noel, Simon Wallon (Western University), Ushula M Tefashe, Janine Mauzeroll (McGill University), and Dave Shoesmith (Western University) Material Stability in Molten Salt for Nuclear Power Applications – Augustus Merwin and Dev Chidambaram (Materials Science and Engineering Department, University of Nevada Reno)

GaN and SiC Power Technologies 3

Electronics and Photonics / Dielectric Science and Technology Continental 9, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Plenary Session – 08:00 – 10:00 Co-Chair(s): Krishna Shenai and N. Ohtani 08:00 08:10 1892

08:30

1893

08:50

1894

09:10

1895

Welcoming Remarks A Thermodymanic Interpretation for PVT Growth of SiC Single Crystals and Challenges for the Reduction of the Dislocation Density – Tatsuo Fujimoto, Masakazu Katsuno, Hiroshi Tsuge, Shinya Sato, Shohji Ushio, Komomo Tani, Hirokatsu Yashiro, Hohsei Hirano, and Takayuki Yano (Nippon Steel & Sumitomo Metal Corporation) Unexpected Sources of Basal Plane Dislocations in 4H‑SiC Epitaxy – Robert E Stahlbush and Nadeemullah A Mahadik (Naval Research Laboratory) Correlation Between Defects and Electrical Characteristics/Reliability Analyzed By Integrated Evaluation Platform for SiC – Makoto Kitabatake (R&D Partnership for Future Power Electronics Technology (FUPET)) Growth of High-Quality GaN Template From Nanometer-Size Lattice Channels By Hydride Vapor Phase Epitaxy – Akira Usui, Hiroki Goto, Toshiharu Matsueda, Haruo Sunakawa, Takuya Nakagawa (Nitride Semiconductor Department, Furukawa Co, Ltd.), Akiko Okada, Jun Mizuno (Institute for Nanoscience and Nanotechnology, Waseda University), Atsushi A Yamaguchi (Optoelectronic Device System R&D Center, Kanazawa Institute of Technology), Hidetoshi Shinohara, and Hiroshi Goto (Nano Processing System Division, Toshiba Machine Co, Ltd.)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1896

09:50

Packaging Techniques for Compact SiC Power Modules Operable in An Extended Tj Range – Satoshi Tanimoto (EV System Laboratory, NRC, Nissan Motor Co, Ltd.), Kinuyo Watanabe (Research Center, FUPET, c/o AIST, Tsukuba, Ibaraki 3058568, Japan), Hidekazu Tanisawa (Adv Tech Develop Div, Sanken Electric Co, Ltd.), Kohei Matsui (Corporate R&D Headquarters, Fuji Electric Co), and Shinji Sato (Adv Tech Develop Div, Sanken Electric Co, Ltd.) Break

SiC Epitaxy – 14:00 – 16:00 Co-Chair(s): N. Ohtani and Michael Dudley 14:00

1903

14:20

1904

14:40

1905

15:00

1906

15:20

1907

15:40

1908

SiC MOS Power Devices – 10:00 – 12:00 Co-Chair(s): A. Lelis and Sarit Dhar 10:00 10:20

10:40

11:00

1897

1898

1899

1900

11:20

1901

11:40

1902

Channel Transport in 4H-SiC MOSFETs: A Brief Review – Sarit Dhar (Auburn University) Properties of Al-SiO2-SiC(3C) Structures With Thermally Grown and PECVD Deposited SiO2 Layers – Henryk Maria Przewlocki, Tomasz Gutt, Krzysztof Piskorski, Pawel Borowicz (Institute of Electron Technology), and Mietek Bakowski (Acreo AB) Influence of ion implantation in SiC on the channel mobility in lateral n-channel MOSFETs – Christian Strenger, Viktoryia Uhnevionak, Alex Burenkov (Fraunhofer Institute for Integrated Systems and Device Technology, The Wide Bandgap Semiconductor Alliance (WISEA)), Anton Bauer (The Wide Bandgap Semiconductor Alliance (WISEA), Fraunhofer Institute for Integrated Systems and Device Technology), Peter Pichler (Fraunhofer Institute for Integrated Systems and Device Technology, Chair of Electron Devices University Erlangen-Nuremberg), Tobias Erlbacher (Chair of Electron Devices University Erlangen-Nuremberg, Fraunhofer Institute for Integrated Systems and Device Technology), Heiner Ryssel (Fraunhofer Institute for Integrated Systems and Device Technology, Chair of Electron Devices University Erlangen-Nuremberg), and Lothar Frey (Chair of Electron Devices University Erlangen-Nuremberg, Fraunhofer Institute for Integrated Systems and Device Technology) On the Temperature Dependence of the Hall Factor in n-Channel 4H-SiC Mosfets – Viktoryia Uhnevionak, Alex Burenkov, Christian Strenger, Anton Bauer, and Peter Pichler (Fraunhofer Institute for Integrated Systems and Device Technology) Key Reliability Issues for SiC Power MOSFETs – A Lelis, D Habersat, R Green, and M El (US Army Research Laboratory) Electrically Detected Magnet Resonance Studies of 4H SiC MOSFETs – PM Lenahan, CJ Cochrane (The Pennsylvania State University), and A Lelis (US Army Research Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

E4

Progress in the Resolution of Materials Challenges for High-Voltage SiC Power Devices – Kurt Gaskill, Rachael L MyersWard, Z R Robinson, Virginia D Wheeler, P B Klein, Nadeemullah A Mahadik, Robert E Stahlbush, Luke O Nyakiti (Naval Research Laboratory), Anindya Nath (George Mason University), and Charles R Eddy Jr (Naval Research Laboratory) Comparison of SiC epitaxial growth from dichlorosilane and tetrafluorosilane precursors – Haizheng Song, Tawhid Rana, MVS Chandrashekhar, Sabih U Omar, and Tangali S Sudarshan (University of South Carolina) On-axis 4H SiC Epitaxial Layers for High Power Applications – J P Bergman (Linköping University) Reducing the Wafer Off Angle for 4H-SiC Homoepitaxy – Kazutoshi Kojima (Advanced Power Electronics Research Center, National Institute of Advanced Industrial Science and Technology (AIST)) Nucleation of In-Grown Stacking Faults and Dislocation Half Loops in 4H-SiC Epilayers Deposited at High Growth Rate – M Abadier (Carnegie Mellon Univ), Rachael L Myers-Ward, Nadeemullah A Mahadik, Robert E Stahlbush, Virginia D Wheeler, Luke O Nyakiti, Charles R Eddy Jr, Kurt Gaskill (Naval Research Laboratory), Haizheng Song, Tangali S Sudarshan (University of South Carolina), Yoosuf N Picard, and Marek Skowronski (Carnegie Mellon Univ) 3C-SiC on Si Hetero-epitaxial Growth for Electronic and Biomedical Applications – S E Saddow, Meralys Reyes-Natal, C W Locke, Chris Frewin (University of South Florida), and P J Ward (Anvil Semiconductors Ltd.)

Low-Dimensional Nanoscale Electronics and Photonic Devices 6 Electronics and Photonics / Dielectric Science and Technology / Sensor Yosemite C, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Low-dimensional Nanoscale Electronic and Photonic Devices 1 Photonic Devices – 10:00 – 12:00 Co-Chair(s): Motofumi Suzuki and Song Jin 10:00 10:10 1955

Welcoming Remarks Towards Efficient and Flexible Silicon Based Thin Film Solar Cells – Xiaolin Zheng (Stanford Univeristy)

69

Monday, October 28

09:30


1956

Monday, October 28

10:40

11:10

1957

11:40

1958

Scalable and Direct Growth of Graphene Microribbons and Nanoribbons On Dielectric Substrates – He Tian, Yi Yang, Dan Xie (Institute of Microelectronics, Tsinghua University, Beijing 100084, China, Tsinghua National Laboratory for Information Science and Technology (TNList), Tsinghua University, Beijing 100084, China), Martin-Fernandez Inigo, Debin Wang (Materials Sciences Division and the Molecular Foundry, Lawrence Berkeley National Laboratory, Berkeley, California 94720, United States), TianLing Ren (Institute of Microelectronics, Tsinghua University, Beijing 100084, China, Tsinghua National Laboratory for Information Science and Technology (TNList), Tsinghua University, Beijing 100084, China), and Yuegang Zhang (Suzhou Institute of Nano-Tech and NanoBionics, Chinese Academy of Sciences, Suzhou 215123, Materials Sciences Division and the Molecular Foundry, Lawrence Berkeley National Laboratory, Berkeley, California 94720, United States) Biomimetic Si Nanotips and Their HeteroJunctions: From Moth-Eye to LEDs and Supercapacitors – Li-Chyong Chen (Center for Condensed Matter Sciences, National Taiwan University) and Kuei-Hsien Chen (Institute of Atomic and Molecular Sciences, Academia Sinica) High Efficiency Silicon Heterojunction Solar Cell with Omnidirectional Light Harvesting By Hierarchical Structures – Hsin-Ping Wang, Tzu-Yin Lin (Institute of Photonics and Optoelectronics & Department of Electrical Engineering, National Taiwan University Taiwan), Ming-Yi Huang (Advanced Technology Department AU Optronic Corporation, Taichung, Taiwan Taiwan), and Jr-Hau He (National Taiwan University)

Low-dimensional Nanoscale Electronic and Photonic Devices 1 Nanoscale Electronic Devices – 14:00 – 16:10 Co-Chair(s): Yuegang Zhang and Yu-Lun Chueh 14:00

14:30

14:50

70

1959

1960

1961

Functionalization of Thermally Carbonized Porous Silicon Optical Multilayer Structures for Sensing Applications – Jarno Salonen, Ermei Mäkilä (University of Turku), Tomoko Urata (Graduate School of Engineering, Kyoto University, Kyoto Daigaku-Katsura, Nishikyo-ku, Kyoto 615-8530, Japan), Vicente Torres Costa (Departamento de Fisica Aplicada, C-XII Universidad Autónoma de Madrid, Cantoblanco, 28049 Madrid, Spain), and Tero Jalkanen (University of Turku) Waveguide-Mode Sensors With a Waveguide Layer Nanostructured By Dynamic Oblique Deposition – Motofumi Suzuki, Munehito Takagaki, Shohei Kuriyama, Kaoru Nakajima, and Kenji Kimura (Kyoto University) Nanoscale Memristive Devices for Memory and Computing Applications – Wei Lu (University of Michigan)

15:20

1962

15:50

1963

E7

Printable Nanomaterials for Flexible Electronics – Kuniharu Takei (Osaka Prefecture University) Sensitivity Enhancement of Metal-OxideSemiconductor Tunneling Photodiode with Trapped Electrons in Ultra-Thin SiO2 Layer – Tzu-Yu Chen and Jenn-Gwo Hwu (Graduate Institute of Electronics Engineering / Department of Electrical Engineering)

Processing, Materials, and Integration of Damascene and 3D Interconnects 5 Dielectric Science and Technology / Electrodeposition / Electronics and Photonics / High Temperature Materials Union Square 21, Tower 3, 4th Floor, Hilton San Francisco Union Square

Invited Talks 1 – 08:00 – 11:50 Co-Chair(s): Kazuo Kondo and Rohan Akolkar 08:00 08:10 2052

08:50

2053

09:30

2054

10:10 10:30 2055 11:10

2056

Introductory Remarks Some Strategic Tracks to Optimize Routing of High Speed Signal Transmission Between Memory and Logic in 3D-IC Stacks – Julie Roullard (IMEP-LAHC, Universite de Savoie), Alexis Farcy (STMicroelectronics), Stephane Capraro, Thierry Lacrevaz, Cedric Bermond, Gregory Houzet, Philippe Artillan (IMEPLAHC, Universite de Savoie), Jean Charbonnier, Christine Fuchs, Christine Ferrandon, Patrick Leduc (CEA-LETI), and Bernard Flechet (IMEP-LAHC, Universite de Savoie) Reliability Challenges of 3-D Stacked Chip Package With Through-Silicon-Via (Invited talk) – Minsuk Suh (SK hynix semiconductor) 3D Integration and Reliability Challenges – Mitsumasa Koyanagi, Mariappan Murugesan, Kangwook Lee, Takafumi Fukushima, and Tetsu Tanaka (Tohoku University) Break 3D Integration for An SOI Pixel Detector (Invited Talk) – Makoto Motoyoshi (Tohoku-MicroTec Co, Ltd.) Fabrication and Characterization of Grain Growth in Electroplated Cu for 3D IC Interconnect Applications – Tao-Chi Liu, Shing-Ru Wang, and Michael Corey (Global semiconductor applications center, Enthone INC)

Invited Talks 2 – 14:00 – 15:20 Co-Chair(s): S. Mathad and Mitsumasa Koyanagi 14:00

2057

14:40

2058

Challenges for Scaled Damascene Interconnects – Silvia Armini, Johan Swerts, Nicolas Jourdan, Yong Kong Siew, Juergen Boemmels, Zsolt Tokei, and Herbert Struyf (imec) Nanoscale Wiring By Cu Electrodeposition in Supercritical Carbon Dioxide Emulsified Electrolyte – Masato Sone (Precision and Intelligence Laboratory, Tokyo Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


15:20

2059

15:40

2060

16:00

16:20

E8

2061

2062

Characterization of Local Stress in Silicon Around Through-Silicon Via Interconnects By Using Micro Raman Spectroscopy – Jae-Hyun Kim (SK Hynix) Reduction of Thermal Expansion Coefficient of Electrodeposited Copper for TSV – Kazuo Kondo, Shingo Mukahara, Taro Hayashi (Osaka Prefecture University), Minoru Takeuchi (Nittobo Medical), Takeyasu Saito, and Naoki Okamoto (Osaka Prefecture University) TSV Filling By NiW Alloys Electroplating – Hsin-Wei Wang, Hsin-Man Huang (Department of Chemical Engineering National Chung Hsing University), and Wei-Ping Dow (National Chung Hsing University) Using Graphene As a Conducting Layer for Through Silicon Via Filling – Shih-Cheng Chang (National Chung Hsing University Department of Chemical Engineering) and Wei-Ping Dow (National Chung Hsing University)

11:20

2098

11:40

2099

Wet Etching and Cleaning – 14:00 – 16:40 Co-Chair(s): Srini Raghavan and Harald F. Okorn-Schmidt 14:00

2100

14:20

2101

14:40

2102

15:00

2103

15:20

2104

15:40

2105

16:00

2106

Semiconductor Cleaning Science and Technology 13 (SCST 13) Electronics and Photonics Continental 8, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Welcome and Keynote – 08:50 – 10:00 Co-Chair(s): Jerzy Ruzyllo and Takeshi Hattori 08:50 09:00 2094 09:40

Welcoming Remarks (Keynote) Roadmap Of Future Devices and Related Cleaning Challenges/Opportunities – Paul W Mertens (imec) Coffee Break

Particle Removal – 10:00 – 12:00 Co-Chair(s): Richard E. Novak and Jerzy Ruzyllo 10:00

2095

10:40

2096

11:00

2097

(Invited) Particle Cleaning Technologies To Meet Advanced Semiconductor Device Process Requirements – Harald F OkornSchmidt (Lam Research) A Study of Nanoparticle Removal On Patterned Surfaces – Antoine Pacco, Frank Holsteyns (imec), and Stefan De Gendt (imec and KU Leuven) Evaluation of An Effective Wet Cleaning Method for Particle Removal on Various Thin Films – Yoon-Sik Cho (Hanyang University), Hun-Hee Lee (samsung electronics, Hanyang University), MinSang Yun, Hasub Hwang (Memory Cleaning/CMP Technology Team, Memory Division, Semiconductor Business, Samsung Electronics Co, LTD,), Min-Su Kim, Bong-Kyun Kang (Hanyang University), Ahmed A Busnaina (Northeastern University), and Jin-Goo Park (Hanyang University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Surface Cleaning Using CO2 Gas Cluster for Semiconductor Device – Yujin Cho (Department of Mechanical Engineering, SungKyunKwan University), Hoomi Choi (Samsung electronics), and Taesung Kim (Department of Mechanical Engineering, Sungkunkwan University, SKKU Advanced Institute of Nanotechnology, Sungkyunkwan University) A Multi-Frequency Megasonic System for Nano-Particle Removal – Hyunse Kim, Yanglae Lee, and Euisu Lim (Korea Institute of Machinery and Materials)

Numerical Calculation MODEL Of SIO2 Film Etching By HF Aqueous Solution Using Single Wafer Wet Etcher – Hitoshi Habuka, Shintaro Ohashi (Yokohama National University), Kosuke Mizuno (Yokohama national University), and Tetsuo Kinoshita (Pre-Tech) Si and Sige Alloys Wet Etching Using Tmah Chemistry – Virginie Loup, Laurence Gabette, Marie-Christine Roure, Riadh Kachtouli, Marine Jourdan (CEALETI MINATEC), Pascal Besson, and Sebastien Petitdidier (STMicroelectronics) A Study On the Removal Method of Si Residue During Si Wet Etch – Kihyung Ko (Samsung Electronics Co ; Sungkunkwan University), Hayoung Jeon, Myunggeun Song, Boun Yoon (Process Development Team, Semiconductor R&D Center, Samsung Electronics Co), Chilgi Lee (School of Information and Communication Engineering, Sungkyunkwan University), and Taesung Kim (SKKU Advanced Institute of Nanotechnology, Sungkyunkwan University, Department of Mechanical Engineering, Sungkunkwan University) Effect of Surface Wettability On Frictional Conditions of PVA Roll Brushes – Yoshitaka Hara, Toshiyuki Sanada (Shizuoka University), Akira Fukunaga, and Hirokuni Hiyama (Ebara Corporation) Use of a Simple Cavitation Cell Set-Up With Replaceable Single Band Filters for Analysis of Sonoluminescence Signal From Megasonic Irradiated Gasified Aqueous Solutions – Srini Raghavan, Zhenxing Han, Manish Keswani (University of Arizona), Mark Beck, and Eric Liebscher (Product Systems Inc) Numerical Study of Single Bubble Dynamics in Megasonic Field for New Physical Cleaning Method – Naoya Ochiai and Jun Ishimoto (Institute of Fluid Science, Tohoku University) Challenges and Solutions for 450mm FEOL Wet Clean Tool – Bill Yu, Felix Ku, Charles Taft, Anne-Sophie Larrea (G450C), Toyohide Hayashi, Akira Morita, Kenichiro Arai, and Hideji Naohara (Dainippon Screen)

71

Monday, October 28

Three Dimensional Interconnections 1 – 15:20 – 16:40 Co-Chair(s): Mitsumasa Koyanagi and Shoso Shingubara


16:20

2107

Chemical Improvement of Euv Ruthenium Capping Layer Against Active Oxygen and Hydroxyl Radicals – Hanshin Lee, Jaehyuck Choi, Soowan Koh, Jinsu Kim, Dohyung Kim, Junyoul Choi, Hyoyeon Kim, Hyungho Ko, Byung Gook Kim, and Chan-Uk Jeon (Samsung Electronics)

10:20

2142

10:50

2143

11:10

2144

Semiconductors, Dielectrics, and Metals for

Monday, October 28

E10 Nanoelectronics 11

Dielectric Science and Technology / Electronics and Photonics Union Square 22, Tower 3, 4th Floor, Hilton San Francisco Union Square

Defects, Traps, and Reliability – 08:00 – 11:40 Co-Chair(s): Moshe Eizenberg, Durga Misra and Samares Kar 08:00 08:10 2137

08:30

08:50

09:10

2138

2139

2140

09:40 10:00 2141

72

Welcoming Remarks Effects of N-Rich TiN Capping Layer On Reliability in 20nm Gate-Last High-k/ Metal Gate Mosfets – Kidan Bae (System LSI Division, Samsung Electronics Co, Samsung Semiconductor Institute of Technology (SSIT)), Kyongtaek Lee, Hyunchul Sagong, Minhyeok Choe, Hyunwoo Lee, Sungeun Kim (System LSI Division, Samsung Electronics Co), Kwang-Soo Kim (Samsung Semiconductor Institute of Technology (SSIT)), Junekyun Park, Sangwoo Pae, and Jongwoo Park (System LSI Division, Samsung Electronics Co) High Temperature Annealing of the Interface State Component of NegativeBias Temperature Instability (NBTI) in Mosfet Devices – Duc Nguyen (COSMIAC/AFRL RVSE), Kenneth Kambour (SAIC/AFRL RVSE), Camron Kouhestani (COSMIAC/AFRL RVSE), Harold P Hjalmarson (Sandia National Laboratories), and Roderick AB Devine (Think-Strategically/AFRL RVSE) Reliability of ALD Hf1-XZrxO2 Deposited By Intermediate Annealing Or Intermediate Plasma Treatment – Mdnasiruddin Bhuyian, Durga Misra (New Jersey Institute of Technology), Kandabara Tapily, Robert Clark, Steve Consiglio, Cory Wajda, G Nakamura, and Gert Leusink (TEL Technology Center, America) Multiphonon Processes As the Origin of Reliability Issues – Wolfgang Goes (Institute for Microelectronics), Maria Toledano-Luque (imec), Franz Schanovsky, Markus Bina, Oskar Baumgartner (Institute for Microelectronics), Ben Kaczer (imec), and Tibor Grasser (Institute for Microelectronics) Break Similarities Between Ionizing Radiation Effects and Negative-Bias Temperature Instability (NBTI) in Mosfet Devices – Harold P Hjalmarson (Sandia National Laboratories), Duc Nguyen (COSMIAC/ AFRL RVSE), Kenneth Kambour (SAIC/ AFRL RVSE), Camron Kouhestani (COSMIAC/AFRL RVSE), and Roderick AB Devine (Think-Strategically/AFRL RVSE)

SiC Mos Interface States: Difference Between C Face and Si Face – Takahide Umeda (Institute of Applied Physics, University of Tsukuba), Mitsuo Okamoto, Ryouji Kosugi (National Institute of Advanced Industrial Science and Technology (AIST)), Ryo Arai, Yoshihiro Sato (Institute of Applied Physics, University of Tsukuba), Shinsuke Harada (National Institute of Advanced Industrial Science and Technology (AIST)), Takahiro Makino, and Takeshi Ohshima (Japan Atomic Energy Agency (JAEA)) Reliability of La-Silicate Mos Capacitors With Tungsten Carbide Gate Electrode – Shuhei Hosoda, Kamale Tuokedaerhan, Kuniyuki Kakushima (Tokyo Institute of Technology), Yoshinori Kataoka (Toshiba Materials Co, LTD), Akira Nishiyama, Nobuyuki Sugii, Hitoshi Wakabayashi, Kazuo Tsutsui, Kenji Natori, and Hiroshi Iwai (Tokyo Institute of Technology) Origins for Fermi Level Control in Metal/High-k/Si Stacks With Inserted Dielectric Layers – Moshe Eizenberg and Lior Kornblum (Technion - Israel Inst of Technology)

Graphene Devices – 11:40 – 12:40 Co-Chair(s): Hoe Tan 11:40

2145

12:10

2146

Novel Graphene Transistors – Chris M Corbet, Michael Ramon, Hema CP Movva, Dharmendar Reddy, Sangwoo Kang, Sk Fahad Chowdhury, Deji Akinwande, Emanuel Tutuc, Frank Register, and Sanjay K Banerjee (The University of Texas at Austin) The Origin of Linear and Nonlinear Damping in Graphene Nanomechanical Resonators – Marc Bockrath and Tengfei Miao (University of California, Riverside)

Nanowire Technology – 14:00 – 16:40 Co-Chair(s): Uri Banin and Sanjay K. Banerjee 14:00

2147

14:20

2148

14:40

2149

15:10

2150

Oxidation Models for Crystalline Silicon Nanowires – Robert George Mertens, Victor H Velez, and Kalpathy B Sundaram (University of Central Florida) Resistivity of Ni Silicide Nanowires and Its Dependence On Ni Film Thickness Used for the Formation – Jinhan Song (Tokyo Institute of Technology), Kazuki Matsumoto (Tokyo Institute of Technology, Tokyo Institute of Technology), Kuniyuki Kakushima (Tokyo Institute of Technology), Yoshinori Kataoka (Toshiba Materials Co, LTD), Akira Nishiyama, Nobuyuki Sugii, Hitoshi Wakabayashi, Kazuo Tsutsui, Kenji Natori, and Hiroshi Iwai (Tokyo Institute of Technology) III-V Nanowires for Optoelectronic Applications – Hoe Tan (The Australian National University) Vertical III-V Nanowire-Channels On Si – Katsuhiro Tomioka (Hokkaido University, JST) and Takashi Fukui (Hokkaido University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


16:10

2151

2152

Nanoscale Heterogeneous Reactions and Interfaces in Ge/Si and for III-V On Si Integrated Devices – Binh-Minh Nguyen (University of California San Diego, Los Alamos National Laboratory), Xing Dai (University of California San Diego, Nanyang Technological University), Wei Tang (University of California Los Angeles), Yang Liu (Sandia National Laboratories), Yoontae Hwang, Renjie Chen, and Shadi Dayeh (University of California San Diego) How to Dope a Semiconductor Nanocrystal? – Yorai Amit (The Institute of Chemistry, Hebrew University, Jerusalem 91904, Israel), Adam Fasut (The Center for Nanoscience and Nanotechnology, Hebrew University, Jerusalem 91904, Israel, The institute of Chemistry, Hebrew University, Jerusalem 91904, Israel), Oded Milo (Racah Insitute of Physics, Hebrew University, Jerusalem 91904, Israel, The Center for Nanoscience and Nanotechnology, Hebrew University, Jerusalem 91904, Israel), Eran Rabani (School of Chemistry, Sackler Faculty of Exact Sciences, Tel Aviv University, Tel Aviv 69978, Israel), Anatoly Frenkel (The Department of Physics, Yeshiva University, New York, New York 10016, United States), and Uri Banin (The Institute of Chemistry, Hebrew University, Jerusalem 91904, Israel, The Center for Nanoscience and Nanotechnology, Hebrew University, Jerusalem 91904, Israel)

Photonic Devices and Materials – 10:00 – 12:00 10:00

2195

10:40

2196

11:20

2197

11:40

2198

Compound Semiconductor Nanostructures – 14:00 – 16:20 14:00

2199

14:40

2200

15:20

2201

15:40

2202

State-of-the-Art Program on Compound Semiconductors

E11 (SOTAPOCS) 55

Electronics and Photonics Golden Gate 7, Tower 3, Lobby Level, Hilton San Francisco Union Square

Compound Semiconductor Devices – 08:00 – 09:40 08:00

2192

08:40

2193

09:20

2194

Impact of Proton Irradiation on the dc and rf Performance of AlGaN/GaN High Electron Mobility Transistors – L Liu, Y Y Xi, Fan Ren, S J Pearton (University of Florida), H -Y Kim, J Kim (Korea University), and I I Kravchenko (Oak Ridge National Laboratory) Pre-ALD Trimethylaluminum Passivation of Al2O3/InGaAs(100) Interfaces – Paul C McIntyre (Materials Science and Engineering, Stanford University, Stanford, CA, United States) Investigation of the Current Stability of AlGaN/GaN High Electron Mobility Transistors in Various Liquid/Solid Interface On the Gate Area – Jung-Ying Fang, Chen-Pin Hsu, Yen-Wen Kang, Kuan Chung Fang (Institute of NanoEngineering and MicroSystems), Fan Ren (University of Florida), and Yu-Lin Wang (Institute of NanoEngineering and MicroSystems)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

New Designs For Spectral Control In Nanowire Lasers – Peidong Yang and Anthony Fu (Department of Chemistry, University of California, Berkeley, Materials Sciences Division, Lawrence Berkeley National Laboratory) Growth, Properties, and Optoelectronic Applications of III-As and III-N Nanowires – Lutz Geelhaar (Paul-Drude-Institute, Berlin, Germany) Nonpolar Light-Emitting Diodes Using Hydrothermally Grown a-Plane ZnO – Hyonwoong Kim (Dankook University), Kwang Hyeon Baik (Hongik University), and Soohwan Jang (Dankook University) Electrochemical and Hydrothermal Synthesis of Epitaxial Arrays of Doped ZnO Nanowire Emitters for Light Emitting Diodes With Tunable Emission From NearUV to Blue – Thierry Pauporté (CNRS), Oleg Lupan (LECIME), and Bruno Viana (LCMCP)

Atom Probe Tomography of InGaN Quantum Wells in Planar and Non-Planar (nanowire) Heterostructures – Lincoln J Lauhon (Department of Materials Science and Engineering), James R Riley (Northwestern University), George Wang (Sandia National Laboratory), and Qiming Li (Sandia National Laboratory, Sandia National Laboratory) III-V Compound Semiconductor Nanowire – Chennupati Jagadish (The Australian National University) Effect of Current Density On Pore Formation in n-InP in KOH – Nathan Quill, Robert P Lynch (Department of Physics and Energy, Materials and Surface Science Institute, University of Limerick, Ireland), Colm O’Dwyer (Department of Chemistry and Tyndall National Institute, University College Cork, Ireland), and D Noel Buckley (Department of Physics and Energy, Materials and Surface Science Institute, University of Limerick, Ireland) Pattern-Controlled Vertical and Lateral Growth of ZnO Nanorod Arrays for High Performance Transistors and Biosensors – Yoon-Bong Hahn (Chonbuk National University)

ULSI Process Integration 8

and Photonics E12 Electronics Continental 7, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Keynote Presentations – 08:55 – 10:30 Co-Chair(s): Cor Claeys 08:55 09:00 2213

Introductory Remarks FDSOI technology: a power efficient solution down to 10nm – Oliver Faynot (CEA-LETI) 73

Monday, October 28

15:40


Monday, October 28

09:40 09:50 2214

Intermission Memristive Devices For Computing: Mechanisms, Applications And Challenges – J Joshua Yang, Byung Joon Choi, MinXian Zhang, Antonio C Torrezan, John Paul Strachan, and R Stanley Williams (Hewlett-Packard Laboratories, 1501 Page Mill Rd, Palo Alto, CA 94304, USA)

16:00

2222

Back-end Processing 1 – 10:30 – 12:00 Co-Chair(s): Eric Eisenbraun and Hiromu Ishii 10:30

11:00

11:30

Low Temperature Direct Bonding 3D Stacking Technologies for High Density Device Integration – Lea Di Cioccio (CEA/LETI minatec campus), Ionut Radu (SOITEC France, SOITEC France), Gweltaz Gaudin (SOITEC France), Thomas Lacave, Floriane Baudin (CEA France), Mariam Sadaka (CEA france), and Thomas Signamarcheix (CEA France) 2216 Mn5Ge3C08 Contacts for Spin Injection Into Ge – Inga Anita Fischer (Institute for Semiconductor Engineering, University of Stuttgart, Germany), Christoph Suergers (Physikalisches Institut, Karlsruhe Institute of Technology, Germany), Matthieu Petit, Vinh Le Thanh (Aix-Marseille Université, CINaM-CNRS UMR 7325, Marseille, France), and Joerg Schulze (Institute for Semiconductor Engineering, University of Stuttgart, Germany) 2217 Development of Multifunctional Liner/Barrier Systems for Sub-14nm Metallization – Eric Eisenbraun (SUNY CNSE) 2215

Single Electron Transistors – 14:00 – 15:00 Co-Chair(s): Michiharu Tabe 14:00

2218

14:30

2219

2220

15:30

2221

74

Emerging Materials and Processes for Energy Conversion and Storage Electrodeposition / Battery Franciscan B, Tower 1, Ballroom Level, Hilton San Francisco Union Square

Catalyst 1 - Storage 1 – 15:10 – 18:25 Co-Chair(s): Thomas P. Moffat, Trung Van Nguyen, Y. Huang, Jan Fransaer, Philippe M. Vereecken and Delia J. Milliron 15:10

2254

15:30

2255

15:50

2256

16:10

2257

Single Electron and Single Atom CMOS Perspectives – Xavier Jehl, Marc Sanquer (CEA, INAC SPSMS), Maud Vinet, and Romain Wacquez (CEA LETI MINATEC) High-Speed Operation of Si SingleElectron Transistor – Yasuo Takahashi, Hiroto Takenaka, Takafumi Uchida, Masashi Arita (Graduate School of Information Science and Technology, Hokkaido University), Akira Fujiwara (NTT Basic Research Laboratories, NTT Corporation), and Hiroshi Inokawa (Research Institute of Electronics, Shizuoka University)

Technology Trends – 15:00 – 16:30 Co-Chair(s): Oliver Faynot 15:00

F2

Status and Future of IC Analog Technologies – Albert Bergemont (Maxim Integrated Products) MEMS and Photonics Module Integration Into Sige Bicmos Technologies for More Than Moore Functional Diversification – Bernd Tillack (IHP, Technische Universitat Berlin), Bernd Heinemann, Mehmet Kaynak, Dieter Knoll, Stefan Lischke, Andreas Mai, Holger Rücker, Yuji Yamamoto, and Lars Zimmermann (IHP)

Bio-MEMS Chip for Bacteria Detection -A Challenge of Si Technology to Biomedical Field- – Hiromu Ishii (Toyohashi University of Technology), Kazuaki Sawada, Makoto Ishida (Toyohashi University of Technology, ElectronicsInspired Interdisciplinary Research Institute (EIIRIS)), Katsuyuki Machida (NTT Advanced Technology Corporation, Tokyo Tech), Ken-Ichiro Iida, Mitsumasa Saito, and Shin-ichi Yoshida (Graduate School of Medical Sciences, Kyushu University)

Copper Plating of LiCoO2 Particles for Water Friendly Electrodes in Li-Ion Batteries – Marco Spreafico (Politecnico di Milano), Paula Cojocaru, Francesco Triulzi, Marco Apostolo (Solvay Specialty Polymers), and Luca Magagnin (Politecnico di Milano) Production of Nano-Composite Si Powders By Plasma Spraying for Negative Electrode of Li Ion Batteries – Makoto Kambara, Tasuku Hideshima, Mashiro Kaga, and Toyonobu Yoshida (Department of Materials Engineering, The University of Tokyo) IR Synchrotron Radiation Analysis of Battery Materials – Jaroslaw Syzdek (Lawrence Berkeley National Laboratory), Yuri Janssen, Peter Khalifah (Stony Brook University, Brookhaven National Laboratory), Taras Stanislavchuk, Andrei Sirenko (New Jersey Institute of Technology, Brookhaven National Laboratory), Alexander McLeod, Dmitri Basov (University of California, San Diego), Derek Stewart Middlemiss (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Hans Bechtel, and Robert Kostecki (Lawrence Berkeley National Laboratory) Rechargeable Sodium Batteries With Mixed Amide Ionic Liquids – Toshiyuki Nohira, Rika Hagiwara, Kazuhiko Matsumoto, Changsheng Ding, Chih-Yao Chen, Takayuki Yamamoto (Graduate School of Energy Science, Kyoto University), Atsushi Fukunaga, Shoichiro Sakai, Koji Nitta, and Shinji Inazawa (Sumitomo Electric Industries, Ltd.)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


16:50

F3

2258

2259

Structure and Dynamics of Imidazoliumbased Ionic Liquids – Marie-Louise Saboungi (Universite Pierre et Marie Curie), Bachir Aoun, Miguel A Gonzalez (Institut Laue Langevin), Margarita Russina (Berlin Neutron Scattering Center), Andreas Goldbach (Dalian Institute of Chemical Physics), and Shinji Kohara (Japan Synchrotron Radiation Research Institute) New Perspectives On Electrochemical Energy Storage Materials – Shirley Meng (University of California San Diego)

10:40

2308

11:00

2309

11:20

2310

Fundamentals and Applications of Electrophoretic Deposition Electrodeposition Franciscan A, Tower 1, Ballroom Level, Hilton San Francisco Union Square

F3 - Morning Session – 08:00 – 11:40 08:00 08:20 2302 08:40

09:00

09:20

2303

2304

2305

09:40 10:00 2306

10:20

2307

Introductory Remarks New Developments in Electrophoretic Nanotechnology – Igor Zhitomirsky (McMaster University) Toward Dynamic Control of Magnetic Nanoparticle Monolayers Fabricated By Electrophoretic Deposition: A New Path to Ordered Superlattices? – James H Dickerson II (Center for Functional Nanomaterials, Brookhaven National Laboratory, Vanderbilt University), Alex Krejci, Masih Darbandi, Colin GW Thomas, and Jyotirmoy Mandal (Vanderbilt University) Light Directed Electrophoretic Deposition: A New Technique for Patterning Materials in 3D – Andrew J Pascall, Fang Qian (Lawrence Livermore National Laboratory), Gongming Wang, Yat Li (Unversity of California, Santa Cruz), and Joshua D Kuntz (Lawrence Livermore National Laboratory) Electrophoretic Deposition of Polymerically Stabilized Silica Nanoparticles for Anti-Wetting Fabrics – Young Soo Joung and Cullen R Buie (Massachusetts Institute of Technology) Break Electrophoretic Deposition of Cobalt Ferrite and Platinum Cobalt Nanoparticles As Electrocatalysts – Ryan Tanakit, Wesley Luc, and J B Talbot (University of California, San Diego) Electrophoretic Deposition of Quantum Dots for Photovoltaic Applications – Seung Whan Lee (Energy Frontier Research Center, Department of Applied Physics and Applied Mathematics, Columbia University), Htay Hlaing (Energy Frontier Research Center,Department of Electrical Engineering, Columbia University), Ioannis Kymissis (Department of Electrical Engineering, Columbia University), and Irving P Herman (Department of Applied Physics and Applied Mathematics, Columbia University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Electrophoretic Deposition of Multi-Sized Titania Nanoparticles to Fabricate High Performance Electrodes for Dye-Sensitized Solar Cell Application – Nima Parsi Benehkohal and George P Demopoulos (McGill University) Comparison of Electrophoretic Deposition of Nano- and Micron-Sized Ba2SiO4:Eu2+ Phosphor Particles – Jae Ik Choi (University of California, San Diego), Maria Anc, Alan Piquette (OSRAM SYLVANIA), Mark E Hannah (OSRAM SYLVANIA Corporate Technology), Kailash C Mishra (OSRAM SYLVANIA), J B Talbot, and Joanna McKittrick (University of California, San Diego) Nanoparticle Monolayers of Iron Oxide Fabricated Using Electrophoretic Deposition: A New Path to Superlattices? – Alex Krejci, James H Dickerson II (Vanderbilt University), and Kevin Yager (Center for Functional Nanomaterials, Brookhaven National Laboratory)

F3 - Afternoon Session – 14:00 – 16:20 14:00

2311

14:20

2312

14:40

2313

15:00 15:20 2314

15:40

2315

16:00

2316

Fabrication of Ti/Al2O3 Gradient Coating Layer Using Electrophoretic Deposition for Implant Abutment Application – Hyungsub Kim and Caroline Sunyong Lee (Hanyang University) Electrodeposition of Organic-Inorganic Films for Biomedical Applications – Igor Zhitomirsky (McMaster University) Environmentally-Benign Electrochemical Method for Formation of Catalytic Metal Nanoparticles in a Chitosan Matrix On a Stainless Steel Electrode – Gary P Halada, Michael Cuiffo, and Prashant Jha (Stony Brook University) Second Break Dispersion of Carbon Nanotubes in Aqueous Solutions of Ionic Surfactants – Young Soo Joung and Cullen R Buie (Massachusetts Institute of Technology) Deposition of Vulcan XC-72 Coatings on Stainless Steel Bipolar Plates by Reverse Pulsed DC Voltage Electrophoretic Deposition (EPD) for Fuel Cell Applications – W J Pech-Rodriguez, D Gonzalez-Quijano, G Vargas-Gutierrez, and F J Rodriguez-Varela (CINVESTAVIPN, Unidad Saltillo, Coahuila, Mexico) Study of the Stability of Highly Oxidized Metals (Ir, Ti, Ta, Sn) in Ethanol-Water and Isopropanol-Water Dispersions Previous to Epd – Mercedes Teresita Oropeza-Guzman (Centro de Investigación y Desarrollo Tecnológico en Electroquímica-Unidad Tijuana, Centro de Graduados del Instituto Tecnológico de Tijuana), J B Talbot (University of California, San Diego), and María Rosalina Perez-Garcia (Universidad Politécnica Metropolitana de Hidalgo)

75

Monday, October 28

16:30


F5

Emerging Opportunities in Electrochemical Deposition for Nanofabrication Electrodeposition / Physical and Analytical Electrochemistry Union Square 23/24, Tower 3, 4th Floor, Hilton San Francisco Union Square

Monday, October 28

Novel Nano-fabrication Methods 1 – 08:00 – 12:00 Co-Chair(s): Rohan Akolkar and Thomas P. Moffat 08:00

2365

08:30

2366

09:00

2367

09:20

2368

09:40 10:00 2369

10:30

2370

11:00

2371

11:20

2372

11:40

76

2373

E-ALD of Pd On Au Single Crystals – John Lewellen Stickney, Leah B Sheridan, Youn-Geun Kim, David Benson, Kaushik Jagannathan (The University of Georgia), and David B Robinson (Sandia National Laboratories) Conformal Electroless Deposition On monolayers for TSV Applications – Michele Cervati, Guido Carnevali (Politecnico di Milano), Silvia Armini (imec), and Luca Magagnin (Politecnico di Milano) Co-Deposition of Carbon Nanotubes With Copper – Ying Sun and Lubomyr Romankiw (IBM TJ Watson Research Center) Electroless Deposition On Self-Assembled Monolayers As a Method to Enable Fabrication of Advanced Interconnects – Aranzazu Maestre Caro, Ramanan Chebiam (Intel corporation), Lieve Teugels (Imec), Scott Clendenning, and James Clarke (Intel corporation) Break Towards Molecular Electronics: Using Electroless Deposition to Deposit NanoObjects – Zhiwei Shi, Katherine Borner, Ashley Ellsworth, and Amy V Walker (University of Texas at Dallas) Electrodeposition of Continuous Ultrathin Layers of Functionalized Nanoporus Catalyst On Glassy Carbon Electrodes – Nikolay Dimitrov, Loriana Bromberg, Martha Kamundi, Jiaxin Xia, Ryan Rooney, and Matthew Fayette (Department of Chemistry, SUNY at Binghamton) Negative Resist Monolayers of Thiols As Templates for Metal Electrodeposition – Zhe She (University of Toronto), A DiFalco, G Haehner, and M Buck (University of St Andrews) Growth-Inhibited Nucleation of Ni Nanoparticles On TiN Substrates – Johannes Vanpaemel (imec, KU Leuven), Marleen van der Veen, Stefan De Gendt, and Philippe M Vereecken (imec) Electroless and Electrochemical Deposition of Zinc Oxide On Passive Metals As Electrodes in Textile-Based Dye-Sensitized Solar Cells – Derck Schlettwein, Martina Stumpp, Stephanie Künze, and Jane Christine Falgenhauer (Justus-LiebigUniversity Giessen, Institute of Applied Physics)

Novel Nano-fabrication Methods 2 – 14:00 – 15:40 Co-Chair(s): Rohan Akolkar and Thomas P. Moffat 14:00

2374

14:20

2375

14:40

2376

15:00

2377

15:20

2378

H1

Electrical Properties of ZnO Nanowires Prepared By Templateless Electrodeposition – Ionut Enculescu, Elena Matei, Camelia Florica, and Andrea Costas (National Institute of Materials Physics) Electroless and Electrolytic Deposition of Silver and Nickel for Solid Oxide Fuel Cells Anodes – Enrique Ruiz-Trejo, Paul Boldrin, Farid Tariq (Department of Earth Science and Engineering, Imperial College London), Nigel P Brandon (Department of Earth Science and Engineering, Imperial College London, South Kensington Campus), Alan Atkinson (Department of Materials, Imperial College London), Jawwad Darr, Chris Tighe (Department of Chemistry, University College London), and Marcos Millan-Agorio (Department of Chemical Engineering, Imperial College London) Electrochemical Metal Chalcogenides for Electrocatalysis and Energy Storage – Keith J Stevenson (Department of Chemistry and Biochemistry - University of Texas at Austin) and Daniel William Redman (University of Texas - Austin) Templated Electrodeposition of Metal Nanorods Into TiO2 Nanotubes – Ning Liu, Seulgi So, and P Schmuki (University of Erlangen-Nuremberg (FAU)) Wide pH Range Electroless Copper Deposition At Room Temperature Eqcm and CV Study of Autocatalytic Copper(II) Reduction By Cobalt(II)Pentaethylenehexamine Complexes – Eugenijus Norkus, Ina Stankeviciene, Loreta Tamasauskaite-Tamasiunaite, Giedrius Stalnionis, Kestutis Prusinskas, and Aldona Jagminiene (Center for Physical Sciences and Technology)

Carbon Nanostructures 4 - Fullerenes to Graphene

Fullerenes, Nanotubes and Carbon Nanostructures / Dielectric Science and Technology / Energy Technology / Physical and Analytical Electrochemistry / Sensor Union Square 13, Tower 3, 4th Floor, Hilton San Francisco Union Square

Carbon Nanostructures 1 - Energy – 13:30 – 16:30 13:30

2429

13:50

2430

14:10

2431

Large Surface Area Graphene-Si Anodes for Li-Ion Batteries – Gouri Radhakrishnan, Paul M Adams, Joanna D Cardema, and Michael V Quinzio (The Aerospace Corporation) Novel and Simple Electrografting Monomer Method to Exfoliate HOPG for Lithium-Ion Batteries – Abdelhafid Aqil, Farid Ouhib, Christine Jérôme, Christophe Detrembleur (University of Liège), and Alexandru Vlad (UCL) CVD Synthesis of Graphene/Carbon Nanofiber Hybrids and “Square” Graphene Domains – Kizhanipuram Vinodgopal, Gui-Ping Dai, and Marvin H Wu (North Carolina Central University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


14:50

2432

2433

15:10 15:30 2434

15:50

2435

16:10

2436

I1

Graphene Growth On Electrodeposited Polycrystalline Copper and Ruthenium – Dario Pigliafreddo, Luca Magagnin, Luca Nobili (Politecnico di Milano), Carlo Carraro (University of California ar Berkeley), and Roya Maboudian (University of California: Berkeley) Interfacial Charge Induced Phenomena in Porous Graphene-Based Bulk Materials – Juergen Biener, Marcus A Worsley, Elizabeth Montalvo, Patrick G Campbell, Brandon C Wood, Tadashi Ogitsu, Michael Bagge-Hansen, Jonathan R I Lee, Michael Stadermann, Monika M Biener (Lawrence Livermore National Laboratory), Subho Dasgupta (Karlsruhe Institute of Technology), Lihua Shao (Technische Universität HamburgHarburg), Raja K Kalluri (The University of Oklahoma, School of Chemical Biological and Materials Engineering), Alex V Hamza (Lawrence Livermore National Laboratory), Alberto Striolo (The University of Oklahoma, School of Chemical Biological and Materials Engineering), Joerg Weissmueller (Technische Universität HamburgHarburg), Horst Hahn (Karlsruhe Institute of Technology), and Theodore F Baumann (Lawrence Livermore National Laboratory) Break Thick, Binder-Free Carbon NanotubeBased Electrodes for High Power Applications – Marcus A Worsley, Mathew Merrill, Supakit Charnvanichborikarn, Sergei O Kucheyev, Michael Stadermann, Theodore F Baumann, and Juergen Biener (Lawrence Livermore National Laboratory) Carbon and Composite Nanostructured Materials for Energy Applications – Alexey Serov, Nalin Andersen, Kateryna Artyushkova, and Plamen Atanassov (University of New Mexico) Indene Bisadduct of Fullerenes As High Efficiency Acceptor for Polymer Solar Cells – Yongfang Li (Institute of chemistry, Chinese Academy of Sciences)

08:40

2457

09:00

2458

09:20

2459

09:40 10:00 2460

10:20

2461

10:40

2462

11:00

2463

11:20

2464

11:40

2465

Physical and Analytical Electrochemistry Division General Session Physical and Analytical Electrochemistry Union Square 15/16, Tower 3, 4th Floor, Hilton San Francisco Union Square

General Session 1 – 08:00 – 12:00 Co-Chair(s): Pawel J. Kulesza, Daniel A. Scherson and Philippe Hapiot 08:00

2455

08:20

2456

The Wedge Scheme, a General Framework for Incorporating H-Bonding Into ProtonCoupled Electron Transfer Reaction Mechanisms – Diane K Smith, Laurie A Clare, and An Pham (San Diego State University) Iodide Effect On the Conduction Band Edge of ZnO Nanomaterials – Pushpa Chhetri, Neluni Perera, and Mario A Alpuche-Aviles (University of Nevada, Reno)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

The Incorporation of Bovine Serum Albumin Into a Polypyrrole Film in One Simple Step – Anita Hamilton and Carmel Breslin (National University of Ireland Maynooth) X-Ray Acceleration On Electrochemical Reaction – Jia Liu (Department of Chemistry - Ångström Laboratory, Uppsala University), Matthew Roberts (Uppsala University), Reza Younesi (Technical University of Denmark), Mohammed Dahbi (Uppsala University), Jiefang Zhu, Torbjörn Gustafsson, and Kristina Edström (Department of Chemistry - Ångström Laboratory, Uppsala University) Nitric OXIDE Reduction and Oxidation ON Polycrystalline Platinum: Differential Reflectance Spectroscopic Studies – Daniel A Scherson (Case Western Reserve University, Department of Chemistry) and Adriel Jebaraj (Case Western Reserve University) Break Nanostructured Monolayer Films Electrografted On Carbon Substrates Application to the Electrochemical Preparation of Surfaces With Reversible Photo-Switchable Properties – Yann Leroux (CNRS) and Philippe Hapiot (Université de Rennes 1, CNRS) Can Electron Tunneling Occur in a Hundred-Nanometer Thick Nafion Film and be Utilized to Image Nafion/Electrode Interfaces With An Angstrom Level Resolution? – Xiangyang Zhou (University of Miami) Operation of Scanning Ion Conductance Microscopy (SICM) At Short Tip to Sample Distances – Niya Sa, Wenqing Shi, Maksymilian A Derylo, and Lane A Baker (Department of Chemistry, Indiana University) Finite-Elements Simulation of Etch Front Propagation in Silicon Electropolishing Process – Alexey Ivanov (Furtwangen University, Institute for Applied Research, University of Freiburg – IMTEK), Ulrich Mescheder (Furtwangen University, Institute for Applied Research), and Peter Woias (University of Freiburg – IMTEK) Investigating the Mechanism of Thylakoid Direct Electron Transfer for Photocurrent Generation – Michelle J Rasmussen and Shelley D Minteer (The University of Utah) Increased Dissociation of Water Due to Large Electric Fields – Nathan Patrick Craig (University of California) and John Newman (University of California, Berkeley)

General Session 2 – 14:00 – 16:40 Co-Chair(s): Kouakou Boniface Kokoh, Qijin Wan and Pawel J. Kulesza 14:00

2466

Simple Instabilities in the Potentiostatic Oxidation of High Conducting Formic Acid/Formate Solutions – Mark Schell (Southern Methodist University) 77

Monday, October 28

14:30


Monday, October 28

14:20

2467

14:40

2468

15:00

2469

15:20 15:40 2470

16:00

2471

16:20

2472

I2

Combined ATR-Seiras and IRAS Study of Dissociation and Oxidation of Alcohols At Palladium Electrode in Alkaline Media – Yao-Yue Yang and Wen-Bin Cai (Department of Chemistry, Fudan University) Electrochemical Behavior of Organics Oxidation On Palladium-Based Nanocatalysts Synthesized From Bromide Anion Exchange – Kouakou Boniface Kokoh, Yaovi Holade, Claudia Morais, Teko W Napporn, and Karine Servat (IC2MP UMR-CNRS 7285 at University Poitiers) Electrochemical Properties and Applications of Graphene Nano Platelets – Qijin Wan, Mingzhen Han, Yi Liu (Wuhan Institute of Technology), and Nianjun Yang (Fraunhofer IAF) Break Distance-Dependent Electron Transfer At Passivated Electrodes Decorated By Gold Nanoparticles – Abbas Barfidokht, Simone Ciampi, Erwann Luais, Nadim Darwish, and John Justin Gooding (The University of New South Wales, Sydney, Australia) The Effects Of Internal Pressure Evolution On The Ageing Of Commercial Li-Ion Cells – Anthony Matasso, David Wetz Jr, Amir Hosein Salehi Gilani, and Fuqiang Liu (The University of Texas at Arlington) Electrode Materials: The Decision Makers of the Electrochemical Properties of Immobilized Human Liver Microsomes – Sadagopan Krishnan, Charuksha Walgama, and Rajasekhara Nerimetla (Oklahoma State University)

Invitational Symposium in Honor of Adam Heller on his 80th Birthday

Physical and Analytical Electrochemistry / Battery / Energy Technology / Organic and Biological Electrochemistry Golden Gate 3, Tower 3, Lobby Level, Hilton San Francisco Union Square

Opening Session – 08:00 – 12:00 Co-Chair(s): Scott Calabrese Barton and Shelley D. Minteer 08:00 08:10 2502 09:00

2503

09:40 10:00 2504

78

Welcoming Remarks At 80: The Joy of Uncovering Truths and Building People-Serving Products – Adam Heller (The University of Texas at Austin) A Long-Life, High-Rate Lithium/Sulfur Cell – Min-Kyu Song (The Molecular Foundry, Lawrence Berkeley National Laboratory), Yuegang Zhang (Suzhou Institute of Nano-Tech and NanoBionics, Chinese Academy of Sciences, Suzhou 215123), and Elton J Cairns (Lawrence Berkeley National Laboratory, Environmental Energy Technologies Division) Break Electrochemical Tuning of Metabolisms of Photosynthetic Microbes – Kazuhito Hashimoto (University of Tokyo), Yue Lu, and Shuji Nakanishi (The University of Tokyo)

10:40

2505

11:20

2506

Electrochemical/Enzymatic Amplification Schemes for the Sensitive Detection of Pathogens in Electrochemically Activated Capillaries – Oumaya Msehli, Sonia Molina, Bruno Teixeira-Dias, and Ioanis Katakis (Universitat Rovira i Virgili) Doping in Organic Semiconductors and Solar Cells – Brian Gregg (National Renewable Energy Laboratory)

Photochemistry & Photovoltaics 1 – 14:00 – 16:40 Co-Chair(s): Plamen Atanassov and Elton J. Cairns 14:00 14:10 2507

15:00

2508

15:20 15:40 2509

16:00

2510

16:20

2511

I3

Introductory Remarks (2013 ECS Europe Section Heinz Gerischer Award Lecture) Multiple Exciton Generation from Single Photons in Semiconductor Nanocrystals, Quantum Dot Solar Cells, and via Singlet Fission in Molecular Chromophores: Applications to Next Generation Solar Photon Conversion to PV and Solar Fuels – Arthur J Nozik (National Renewable Energy Laboratory and University of Colorado) Photooxidation of Chloride By Oxide Minerals: Implications for Perchlorate On Mars – Bruce A Parkinson (University of Wyoming) Break (2013 ECS Fellow Inductee) Preparation and Electrochemistry of Atomic Metal Electrodes – Mira Josowicz, Alex P Jonke, Ilana T Schwartz, and Jiri Janata (Georgia Institute of Technology) Mechanism of the Anodic Oxidation of Platinum – Digby D Macdonald and Feixiong Mao (University of California at Berkeley) All-Solid Semiconductor-Sensitized Solar Cells Made By Electrodeposition – Claude Levy-Clement (ICMPE-CNRS, France), Jamil Elias (Rolex SA, Switzerland), and Valentina Ivanova (CEA-Leti, France)

Photoelectrochemistry and Photoassisted Electrocatalysis Physical and Analytical Electrochemistry Imperial B, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Keynote Session – 08:00 – 10:05 Co-Chair(s): Thomas A. Zawodzinski and Heli Wang 08:00 08:05 2532

08:35

2533

09:05

2534

Welcoming Remarks (Invited) Critical Metrics and Limiting Physical Parameters in Electrolytic and Photoelectrochemical Solar to Hydrogen Production Technologies – Eric Lars Miller, Sara Dillich, David Peterson, and Katie Randolph (US Department of Energy) (Invited) III-V Nitrides and Tandem Cells for Photoelectrochemical Water Splitting – John A Turner (National Renewable Energy Laboratory) (Invited) Scalably Manufacturable SolarFuels Generators – Carl Koval (Joint Center for Artificial Photosynthesis)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2535

(Invited) Mechanisms of (Photo) Electrochemical Reduction of Carbon Dioxide From First Principles – Emily A Carter (Princeton University)

Metal Oxides 1 – 10:20 – 12:00 Co-Chair(s): John A. Turner 10:20

2536

10:50

2537

11:20

2538

11:40

2539

(Invited) Photochemical Charge Transfer in Niobium Oxide Nanocrystal Films Studied With Surface Photovoltage Spectroscopy – Frank E Osterloh and Jing Zhao (Department of Chemistry, University of California, Davis) (Invited) Oxygen Evolution At Vertically Aligned Core-Shell Ion-Iron Oxide Nanowire Arrays – Gunther Wittstock (Department of Chemistry,Center of Interface Science, Carl von Ossietzky University of Oldenburg), Guy Denuault (University of Southampton, School of Chemistry, Highfield, Southampton, SO17 1BJ, UK), Stefan Mátéfi-Tempfli (University of Southern Denmark, Faculty of Engineering, Mads Clausen Institute, DK-6400 Sonderbørg, Denmark), Heinz Bülter (Carl von Ossietzky University of Oldenburg, Faculty of Mathematics and Natural Sciences, Center of Interface Science, Department of Chemistry, D-26111 Oldenburg, Germany), Mária Mátéfi-Tempfli (University of Southern Denmark, Faculty of Engineering, Mads Clausen Institute, DK-6400 Sonderbørg, Denmark), Andreas Lesch (Carl von Ossietzky University of Oldenburg, Faculty of Mathematics and Natural Sciences, Center of Interface Science, Department of Chemistry, D-26111 Oldenburg, Germany, Laboratoire d’Electrochimie Physique et Analytique, École Polytechnique Fédérale de Lausanne Station 6, CH-1015 Lausanne, Switzerland), Ina Schmidt, Carsten Dosche, Mareike Ahlf, Katharina AlShamery (Carl von Ossietzky University of Oldenburg, Faculty of Mathematics and Natural Sciences, Center of Interface Science, Department of Chemistry, D-26111 Oldenburg, Germany), Axel Fanget, and Lászlo Forro (Institute of Condensed Matter Physics, Laboratory of Nanostructures and Novel Electronic Materials École Polytechnique Fédérale de Lausanne Station 6, CH-1015 Lausanne, Switzerland) Synthesis and Characterization of HighlyOrdered Doped Titania Nanotubes for Solar Hydrogen Generation – Shahram Karimi and Ricardo Cuello (Lambton College) Composite WO3/TiO2 Nanotubes for Solar Photo-Conversion and Electrochromic Applications – David B Robinson and Karla Reyes (Sandia National Laboratories)

Metal Oxides 2 – 14:00 – 16:40 Co-Chair(s): Frank E. Osterloh and Dunwei Wang 14:00

2540

(Invited) Materials Aspects Of HematiteBased Photoelectrochemical Water Splitting – Dunwei Wang (Boston College)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

14:30

2541

14:50

2542

15:10 15:30 2543

16:00

2544

16:20

2545

I4

Design, Synthesis, and Characterization of Hematite Nanotubes for Photoelectrochemical Water Splitting – Tapiwa Mushove, Steven Blodgett, and Levi T Thompson (University of Michigan) Nanostructured Hierarchical Hematite Photoanode From Hydrothermal Synthesis for Efficient Solar Water Oxidation – HoYoung Kang, Tae-Youl Yang, Kyoungsuk Jin, Ji-Hoon Lee, Uk Sim, Hui-Yun Jeong, Young-Chang Joo, and Ki Tae Nam (Seoul National University) Intermission (Invited) Modified Copper Tungstate Photoanodes For Efficient Solar Driven Water Oxidation – Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines), Satyander Kishore Pilli (Colorado School of Mines), John A Turner (National Renewable Energy Laboratory), Todd G Deutsch (NREL), and Thomas E Furtak (Colorado School of Mines) Hybrid Photoanodes for Visible LightDriven Water Splitting – Lidong Wang, Michal Bledowski, and Radim Beranek (Faculty of Chemistry and Biochemistry, Ruhr-University Bochum) Progress in the Combinatorial Search for Semiconducting Oxides That Photoelectrolyze Water – Katarzyna Skorupska and Bruce A Parkinson (University of Wyoming)

Physical and Analytical Electrochemistry in Ionic Liquids 3

Physical and Analytical Electrochemistry / Battery / Electrodeposition / Sensor Union Square 11, Tower 3, 4th Floor, Hilton San Francisco Union Square

Morning Session 1 – 08:00 – 10:00 08:00

2599

08:20

2600

08:40

2601

09:00

2602

Improving Magnesium Electrochemistry in Ionic Liquids Through Enhanced Solvation – Tylan S Watkins and Daniel A Buttry (Arizona State University) Electrochemical Capture of Carbon Dioxide in An Ionic Liquid Using N-Methyl-4,4’-Bipyridinium Cation – Poonam Singh and Daniel A Buttry (Arizona State University) Chemical Reactivity of Alkyl Thiolates Used in Electrochemical CO2 Capture in Ionic Liquids – Mohammad Hasani and Daniel A Buttry (Arizona State University) Liquid Metal Salts: High Current Density Electrodeposition of Cu-Sn-Zn Metal Stacks From Ionic Liquids for Kesterite Based Thin Film Photovoltaics – Marc Steichen (University of Luxembourg), Neil RB Brooks (KU Leuven), Monika Arasimowicz, João C Malaquias, Phillip J Dale (University of Luxembourg), Luc Van Meervelt, Jan Fransaer, and Koen Binnemans (KU Leuven)

79

Monday, October 28

09:35


Monday, October 28

09:20

2603

09:40

2604

Voltammetry for Quantitative Analysis of Actinides in Molten Salts – Magdalena M Tylka (Argonne National Laboratory, IIT), James L Willit, Mark A Williamson (Argonne National Laboratory), and J Prakash (IIT) Electrochemistry of Ferrocene-Modified Redox Ionic Liquids – Bruno Gélinas, John Forgie, and Dominic Rochefort (Université de Montréal)

Morning Session 2 – 10:20 – 12:00 10:20

2605

10:40

2606

11:00

2607

11:20

11:40

2608

2609

Electrochemical Studies of 9-Fluorenone Complexation By Aluminum in Ionic Liquids – Graham T Cheek (United States Naval Academy) ‘Polymeric Ionic Liquid/Carbon Black’ composite as a Green Supporting Electrolyte – Seung Joon Yoo and R Daniel Little (University of California, Santa Barbara) Silylamine Reversible Ionic Liquids As Electrochemical Solvents – Elizabeth J Biddinger, Samhita Kattekola, and Tyrone Kirk Shillingford (City College of New York) Ionic Liquids for Ammonia Electrosynthesis and Energy Storage – José-María Sansiñena, Jerzy Chlistunoff, Neil C Tomson, James M Boncellla, and Fernando H Garzon (Los Alamos National Laboratory) Enhanced Electrical Conductivity of Carbon-Based Nanoparticles in Ionic Liquid Electrolytes – Pablo Felix Salazar, Satish Kumar, and Baratunde Cola (Georgia Institute of Technology)

15:10

2614

Afternoon Session 2 – 15:40 – 16:40 15:40

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2616

16:20

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J1

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14:10

2611

14:30

2612

14:50

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Supported Nanoparticle Stability, Assembly and Extended Charge Neutralization in Deep Eutectic Solvents – Joshua Hammons (Advanced Photon Source, Argonne National Laboratory) Gas Diffusion Electrodes and Ionic Liquid Electrolytes for Secondary Zinc-Air Batteries: Electrochemical Characterization – Anne Westphal, Daniela Fenske, Ingo Bardenhagen, and Olga Yezerska (Fraunhofer-Institut für Fertigungstechnik und Angewandte Materialforschung IFAM) Mixture of 1-Ethyl-3-Methylimidazolium Tetrafluoroborate and 1-Ethyl-3Methylimidazolium Iodide: A New Potential High Capacitance Electrolyte for Edlcs – Liis Siinor, Carolin Siimenson, Karmen Lust, and Enn Lust (Institute of Chemistry, University of Tartu) Spectroelectrochemical Study of MultiElectron Transfer in Ionic Liquids – Abderrahman Atifi and Michael D Ryan (Marquette University)

Galvanostatic Pulse Plating of Al Metal in Room-Temperature Chloroaluminate Ionic Liquids – Li-Hsien Chou (University of Mississippi) Heterogeneous and Homogeneous Electron Transfer Kinetics of the [CeCl6]3-/2- redox Reaction in the 1-Butyl3-Methylpyrrolidinium Bis(trifluoromethylsulfonyl)Imide Ionic Liquid – LiHsien Chou (University of Mississippi) Amperometric Gas Sensors With Ionic Liquid Electrolytes – Michael T Carter, Joseph R Stetter, Melvin W Findlay, and Vinay Patel (KWJ Engineering, Inc)

Sensors, Actuators, and Microsystems General Session Sensor Union Square 25, Tower 3, 4th Floor, Hilton San Francisco Union Square

Chemical Sensors and Analytical Methods 1 – 08:00 – 10:40 Co-Chair(s): Michael T. Carter 08:00

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Afternoon Session 1 – 13:50 – 15:30 13:50

Hysteresis of Potential-Dependent Changes in Ion Density and Orientation of Ionic Liquids On An Au Electrode: An Surface-Enhanced Infrared Study – Kenta Motobayashi (Hokkaido University), Kazuya Minami, Naoya Nishi, Tetsuo Sakka (Kyoto University), and Masatoshi Osawa (Hokkaido University)

Quantitative Decoding of AmmoniaHydrocarbon Mixtures Using ZirconiaBased Mixed Potential Sensors – Cortney R Kreller (Los Alamos National Laboratory), Julia Tsitron (Department of Physics and Astronomy, Rutgers Univerisity), Praveen K Sekhar (Washington State University, Vancouver), Rangachary Mukundan, Fernando H Garzon (Los Alamos National Laboratory), Alexandre V Morozov (Department of Physics and Astronomy, Rutgers Univerisity), and Eric L Brosha (Los Alamos National Laboratory) Chloride-Sensitivity Improvements By Nitrogen Plasma Immersion Ion Implantation On Samarium Oxide Membrane – Yu-Ren Ye, Yu-Hsuan Lin, Chao-Sung Lai, Jer-Chyi Wang (Department of Electronic Engineering, Chang Gung University), Chun Chang, Anthung Cho, Jiun-Jye Chang, and Min-Feng Chiang (Advanced Device Application Department, AU Optronics Corporation)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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09:20

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MEMS Gas Chromatograph for Explosive Marker Compounds: Temperature and Flow Rate Effects On SensorArray Detector Responses and System Performance – Lindsay K Wright, Will R Collin (University of Michigan Department of Chemistry), Gustavo Serrano (University of Michigan Department of Environmental Health Sciences), and Edward T Zellers (University of Michigan Department of Chemistry, University of Michigan Department of Environmental Health Sciences) Response Characteristics of Fuel Cell Type Alcohol Sensor Using Nafion Membrane – Masao Sudoh and Kazuhiro Kamiya (Shizuoka University) Hydrazine Sensor for Quantitative Determination of High Hydrazine Concentrations for Direct Hydrazine Fuel Cell Vehicle Applications – Sofia Babanova, Ulises Martinez (University of New Mexico), Koichiro Asazawa, Hirohisa Tanaka (Daihatsu Motor Co, Ltd.), and Plamen Atanassov (University of New Mexico) Break Amperometric Gas Sensors in Agricultural Applications – Michael T Carter, Joseph R Stetter, Melvin W Findlay, and Vinay Patel (KWJ Engineering, Inc) Synthesis and Hydrogen Gas Sensing Performance of Pd-Functionalised Nanostructures – Kuan-Ying Kok, InnKhuan Ng, Nur Ubaidah Saidin, Lojius Lombigit, Suhaila Hani Ilias, Che Zuraini Che Abd Rahman, and Thye-Foo Choo (Malaysian Nuclear Agency)

Fluorescence, SERS, SPR and Photoelectrochemistry 2 – 14:00 – 14:20 Co-Chair(s): Nianqiang (Nick) Wu 14:00

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Physical Sensors and Actuators – 14:20 – 15:20 14:20

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15:00

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Fluorescence, SERS, SPR and Photoelectrochemistry 1 – 10:40 – 12:00 Co-Chair(s): Nianqiang (Nick) Wu 10:40

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11:40

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Detection of Cancer Biomarker With Surface-Enhanced Raman Scattering Biosensor – Nianqiang Wu and Ming Li (West Virginia University) Novel Plasmonic SERS Sensor and Its Application to Chemical Analysis for Solid/Solid Interfaces – Masahiro Yanagisawa (Nanotechnology Laboratory, Waseda University) Drug Screening Arrays At Protein/Protein Interfaces in Cancer – Sadagopan Krishnan (Oklahoma State University) Tuning and Control of Surface Plasmon Resonance Sensing Using Grating-Based Nanostructures – Andrew Campion Hillier, Wei-Hsun Yeh, and Joseph W Petefish (Iowa State University)

J3

Soft Actuators Prepared By Electrochemical Copolymerization of Pyrrole and Methyl 1H-Pyrrole – Jun Yamasaki (Collge of Science and Technology, Nihon UNiversity), Shou Ogihara, Tetsuya Kadoyama (CST, Nihon UNiversity), Futo Tsumuji, Satoshi Takamiya (CST, Nihon University), and Yasushiro Nishioka (College of Science and Technology, Nihon University) Green-Sensitive Organic Photodetector With High Spectral Sensitivity for Image Sensor Application – Kwang-Hee Lee (SAIT, SEC, SNU), Dong-Seok Leem, Changhoon Jung, Kyung-Bae Park, SeonJeong Lim, Xavier Bulliard, Kyu-Sik Kim, Yong Wan Jin, Sangyoon Lee (SAIT, SEC), and Soo Young Park (SNU) Ultra-Narrow, High Aspect Ratio Trenches for Use in Miniaturized Poly-Sige Accelerometers – Ashesh Ray Chaudhuri (UCL, IMEC), Philippe Helin, Simone Severi, Rita Van Hoof, Bert Du Bois, Harrie Tilmans (IMEC), Laurent Francis (UCL), and Ann Witvrouw (KUL)

Luminescence and Display Materials - Fundamentals and Applications Luminescence and Display Materials Union Square 3/4, Tower 3, 4th Floor, Hilton San Francisco Union Square

Phosphors for LED Lighting 1 – 08:40 – 16:00 Co-Chair(s): John Collins and Anant A .Setlur 08:40

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10:00 Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Regularities of Electroless Deposition of Silver On Porous Silicon for Fabrication of SERS-Active Substrates – Ksenya Artsemyeva, Hanna Bandarenka (Belarusian State University of Informatics and Radioelectronics), Andrei Panarin, Sergei N Terekhov (BI Stepanov Institute of Physics, National Academy of Sciences of Belarus), and Vitaly P Bondarenko (Belarusian State University of Informatics and Radioelectronics)

Development of Phosphors for White Emitting Near UV LEDs – Jinkyu Han (UC San Diego), Mark E Hannah (OSRAM SYLVANIA Corporate Technology), Jae Ik Choi (University of California, San Diego), Alan Piquette, Maria Anc (OSRAM SYLVANIA), J B Talbot (University of California, San Diego), Kailash C Mishra (OSRAM SYLVANIA), and Joanna McKittrick (University of California, San Diego) Blue Light Excitable Red-Emitting Oxide Phosphor – Kenji Toda, Sun Woog Kim, Takuya Hasegawa, Kazuyoshi Uematsu, Tadashi Ishigaki, and Mineo Sato (Niigata University) Break 81

Monday, October 28

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10:20

Monday, October 28

11:00

11:40

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12:00 14:00 2712

14:20

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14:40

2714

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15:40

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Looking for Red Line-Phosphors for LED-Based Systems – Anant A Setlur (GE Global Research), James Murphy (GE Global Research, GE Global Research), Robert Lyons, Florencio Garcia-Santamaria (GE Global Research), Prasanth Kumar Nammalwar, and Nagaveni Karkada (GE India Technology Centre) “UV Or Blue LEDs With Phosphors: An Interesting Way to Develop Smart Lighting” – Geneviève Chadeyron (Institut de Chimie de Clermont Ferrand (ENSCCFUBP-CNRS)) Synthesis of Green-Emitting La2O2s:Tb3+ Phosphors By Two-Step Flux Method – Sun Woog Kim, Takeshi Abe, Kohei Seki, Kenji Toda, Kazuyoshi Uematsu, Tadashi Ishigaki, and Mineo Sato (Niigata University) Intermission Photoluminescence of Li+ and Eu3+ CoDoped Nala (WO4)2 As Near-UV Excited Red Phosphors – Ying Liu (Department of Micro-Nano Materials and Devices, South University of Science and Technology of China, College of Chemistry and Chemical Engineering, Central South University), Ying Ying Gu (College of Chemistry and Chemical Engineering, Central South University), and Zhou Guang Lu (Department of Micro-Nano Materials and Devices, South University of Science and Technology of China, College of Chemistry and Chemical Engineering, Central South University) Luminescence Characteristics of Color Tunable Eu2+ Activated KSrPO4(Ba,Sr)2SiO4 Phosphors for Near-UV Light Emitting Diode Applications – Jinkyu Han (UC San Diego), Mark E Hannah (OSRAM SYLVANIA Corporate Technology), Alan Piquette (OSRAM SYLVANIA), J B Talbot (University of California, San Diego), Kailash C Mishra (OSRAM SYLVANIA), and Joanna McKittrick (University of California, San Diego) Oxyfluoride Phosphors for Lighting – Thomas Vogt (University of South Carolina) Efficient Luminescence in Eu2+ Activated (Ba,Ca)2Si5N8 phosphor – Prasanth Kumar Nammalwar, Digamber G Porob, Satya Kishore Manepalli (GE India Technology Centre), and A Setlur (GE Global Research) Publishing Luminescence and Display Materials Content in ECS Journals: Past, Present, and Future – Dennis W Hess (Georgia Institute of Technology)

J4

Microfluidic MEMS/NEMS, Sensors and Devices

Sensor / Physical and Analytical Electrochemistry / New Technology Subcommittee Union Square 5/6, Tower 3, 4th Floor, Hilton San Francisco Union Square

Microfluidic, MEMS/NEMS, Sensors and Devices - 1 – 08:00 – 11:55 Co-Chair(s): Petr Vanýsek, Peter J. Hesketh, David E. Cliffel, and Ajit Khosla 08:00 08:05 2753

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Introductory Remarks Plenary Talk-Nanosensor Systems e-Bra, e-Band and Wireless Electronics for Monitoring and Control of Cardiovascular Diseases and Neurological Disorders – Vijay K Varadan (University of Arkansas, Penn State Hershey Medical Center) Keynote-Recent Biomedical Applications of Dielectrophoresis – Ronald Pethig (University of Edinburgh) Distinguished Invited SpeakerSpectroelectrochemistry in LowDimensional Nanooptofluidic Devices for Chemical and Biochemical Sensing – Jing Zhao, Nicholas M Contento, Dane A Grismer (University of Notre Dame, Department of Chemical & Biomolecular Engineering), Lawrence P Zaino III (University of Notre Dame, Department of Chemistry & Biochemistry), Sneha Polisetti (University of Notre Dame, Department of Chemical & Biomolecular Engineering), and Paul W Bohn (University of Notre Dame, Department of Chemical & Biomolecular Engineering, University of Notre Dame, Department of Chemistry & Biochemistry) Break An Automated Electrochemical Immunosensing System for Detection of Cortisol At Point-of-Care (POC) – Shekhar Bhansali (FIU) Real Time Diagnostic Point of Care By Amperometric Immuno-Biosensor Kit By Flow Technology – Harold E Braustein, Klementiy Levkov (Tel Aviv University), Isabella E Braustein (Ministry of Health General Headquarters), Yifat E Bezalel, Majeda E Abo Zaid, Gideon Fleminger, and Judith Rishpon (Tel Aviv University)

Microfluidic MEMS/NEMS, Sensors and Devices - 2 – 13:30 – 16:20 Co-Chair(s): Vijay K. Varadan and Ronald Pethig 13:30

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Keynote-Microsphere-Based Detection of Biological Toxins and Signaling Molecules Using Renewable Surface Microfluidic Platforms With Enhanced Mass Transport and Capture – Jay W Grate, Cynthia Bruckner-Lea, Marvin G Warner, Richard M Ozanich, and Norm Anheier (Pacific Northwest National Laboratory) Distinguished Invited Speaker-3D Printing of Intricate Soft and Wet Systems – Hidemitsu Furukawa (Yamagata University) RFID Corrosion Sensors – William H Smyrl (University of Minnesota)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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15:55

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Chip Based Amplification and Detection of Influenza C Virus Using Dielectrophoresis – Karan VIS Kaler, Ravi Prakash (University of Calgary), Raymond Tellier, Kanti Pabbaraju, and Sallene Wong (Provincial Laboratory for Public Health) Stochastic Microsensors Based On Nanostructured Materials Used in the Screening of Whole Blood for Hepatitis B – Raluca I Stefan-van Staden and Iuliana Moldoveanu (Laboratory of Electrochemistry and PATLAB, NIRECM) Separation and Preconcentration Of Viable Pathogens By Chemotaxis – Jie Xu (Georgia Tech Research Institute) and Peter J Hesketh (Georgia Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Tuesday, October 29 A1

General Student Poster Session

All Divisions Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

A1 General Student Poster Session – 18:00 – 20:00 •

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Composition Dependence of Glucose Oxidation At Mediated Glucose Oxidase Bioanodes – Yira Feliciano and Scott Calabrese Barton (Michigan State University) Electrochromism of O- and S-Esters – Xiuhui Xu and Richard David Webster (Nanyang Technological University) Electrochemical Oxidation of Bisphenol A – Ya Yun Chan and Richard David Webster (Nanyang Technological University) A Vertically Integrated Capacitorless DRAM Cell – Xiaodong Tong, Hao Wu, Lichuan Zhao, Ming Wang, Huicai Zhong, and Chao Zhao (Institute of Microelectronics of Chinese Academy of Sciences) Pd Nanoparticals Dispersed on Low-Defect Carbon Nanotube: For Use as HighPerformance Anode Catalyst of DFAFC – Chenyao Hu, Ye Fan, and Xin Wang (Key Laboratory of Soft Chemistry and Functional Materials(Nanjing University of Science and Technology), Ministry of Education) Surface Decoration of Indium Tin Oxide with Amine-Terminated Dendrimers Encapsulating Nanoparticles via Electrooxidative Grafting – Yeoju Kim, Soon Bo Lee, and Joohoon Kim (Kyung Hee University) Reduced Graphene Oxide Wrapped FeS Nanocomposite for Lithium-Ion Battery Anode with Improved Performance – Ling Fei and Hongmei Luo (New Mexico State University) Covalent Decoration of Reduced Graphene Oxide with Dendrimer-Encapsulated Nanoparticles – Youngwon Ju, Jun Myung Kim, and Joohoon Kim (Department of Chemistry, Research Institute for Basic Science, Kyung Hee University) X-Ray Diffraction Studies of the Electrochemical Intercalation of Bis(trifluoromethanesulfonyl) Imide Anions into Graphite – Tobias Placke, Guido Schmuelling, Richard Kloepsch, Olga Fromm, Sergej Rothermel, Paul Meister, Hinrich Wilhelm Meyer, and Martin Winter (MEET Battery Research Center, University of Muenster)

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Tuesday, October 29

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Fabrication and Characterization of Polyaniline/TiO2/Graphene Nanocomposite and its Application as an Efficient Electrochemical Supercapacitor – Ratnanjali Srivastava (Chemistry Department, Science Faculty, Dayalbagh Educational Institute) and Soami Piara Satsangee (Dayalbagh Educational Institute) Enhanced Catalytic Oxygen Reduction Performance from Titania Supported PtPb Nanoparticles – Takao Gunji (Kanagawa University), Govindachetty Saravanan (CSIR-National Environmental Engineering Research Institute (CSIRNEERI)), Shingo Kaneko (Research Institute for Engineering, Kanagawa University), Genki Kobayashi, and Futoshi Matsumoto (Kanagawa University) Synthesis of Intermetallic Nanoparticles as Co-Catalyst on Anatase TiO2 and Its Photocatalytic Activity – Takashi Tsuda (Kanagawa University), Govindachetty Saravanan (CSIR-National Environmental Engineering Research Institute (CSIRNEERI)), Arockiam John Jeevagan, Masanari Hashimoto (Kanagawa University), Shingo Kaneko (Research Institute for Engineering, Kanagawa University), Genki Kobayashi, and Futoshi Matsumoto (Kanagawa University) Electrochemical Study of the Bromide/ Bromine Reaction in Nonaqueous Solvents – Brent Bennett (The University of Texas at Austin, Materials Science and Engineering Graduate Program), Jinho Chang (The University of Texas at Austin, Department of Chemistry and Biochemistry), and Allen J Bard (The University of Texas at Austin, Department of Chemistry and Biochemsitry) Ordered Vanadium Oxide Inverted Opal Li-Ion Battery Electrodes and Optical Probing of Phase Changes – Eileen Armstrong (University College Cork), Worawut Khunsin (Catalan Institute of Nanotechnology), Michal Osiak (University College Cork), Clivia M Sotomayor Torres (Catalan Institute of Nanotechnology), and Colm O’Dwyer (University College Cork, Ireland) Synthesis of Nanostructured Bi2Te3 by Controlling Metal Species in Aqueous Solution – Shun Yokoyama, Keita Sato, Hideyuki Takahashi, and Kazuyuki Tohji (Tohoku University) Application of Stratified ZnS Photocatalysts against to the Water Clarification Materials – Yoshiki Suito, Shun Yokoyama, Hideyuki Takahashi, Koichi Suto, Chihiro Inoue, and Kazuyuki Tohji (Tohoku University) Redox Site Separation Effects for Photocatalytic Activity Using ZnS Stratified Photocatalysts – Akihiro Kobayashi, Shun Yokoyama, Hideyuki Takahashi, and Kazuyuki Tohji (Tohoku University)

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Separation of Redox Site by Utilizing the Nanostructure of ZnS Stratified Photocatalysts – Akihiro Kobayashi, Shun Yokoyama, Hideyuki Takahashi, and Kazuyuki Tohji (Tohoku University) Bactericidal Mechanisms of Stratified ZnS Photocatalysts and ZnO Nanoparticles – Yoshiki Suito, Shun Yokoyama, Hideyuki Takahashi, Koichi Suto, Chihiro Inoue, and Kazuyuki Tohji (Tohoku University) Relationship between Detailed Condition of Pt Nano Co-Catalyst on the Surface of Photocatalysts and Its Activity – Kousuke Ito, Shun Yokoyama, Hideyuki Takahashi, and Kazuyuki Tohji (Tohoku University) Relationship between the Copper Complexes Condition in Aqueous Solution and Its Reduction Potentials to Synthesize CIGS Alloy Nano Materials – Hironari Fujiki, Shun Yokoyama, Hideyuki Takahashi, and Kazuyuki Tohji (Tohoku University) The Effect of Bimetallic Surface Composition On the Activity Towards Ethanol Oxidation – Taylor Garrick, Weijian Diao, John Tengco, John Monnier, and John W Weidner (University of South Carolina) Quantum Analysis of the Oxygen Reduction Reaction Mechanism At the Mitochondria – Yu-Chien Ting (National Tsing-Hua University) Capacity and Energy Densities of Rechargeable MH/Air Battery Using A2B7 Type Hydrogen Storage Alloy – Hiroaki Matsuda and Masatsugu Morimitsu (Doshisha University) Effects of Crystallographic Structure of IrO2-Ta2O5 Catalyst On Oxygen Evolution in Alkaline Solutions – Shohei Unoki, Tian Zhang, and Masatsugu Morimitsu (Doshisha University) Voltammetric Behavior Of The Cubic Silsesquioxane Modified With PURPALD® FOR Determination Of Sulfite – Daniela Rodrigues Silvestrini (UNESP Universidade Estadual Paulista “Júlio de Mesquita Filho”- Ilha Solteira) and Devaney Ribeiro Do Carmo (UNESP Universidade Estadual Paulista) Selective Detection of Hydrogen Concentration in Mixture Gas With Methane Using An Electrolyte Made of Manganese Dioxide – Ryota Araki (Doshisha University), Hideki Koyanaka (Forward Science Laboratory Ltd.), and Kenichi Yoshikawa (Doshisha University) Formation Process of Self-Assembled Monolayer of Porphyrin Molecule With 4 Thiol Groups On Au(111) – Nana Aoki, Bing Zhang, Tomoko Arisaka, and Toshihoro Kondo (Ochanomizu University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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Improvement of Photo-Carrier Transport Efficiency From the Semiconductor Particles to Electrode By Using Organic Carrier Transport Materials – Takashi Mabuchi, Shun Yokoyama, Norihiro Shimoi, Hideyuki Takahashi, and Kazuyuki Tohji (Tohoku University) Basic Study for the Construction of Wet Solar Cell Using CdS Photocatalysts, Na2S4 Electrolyte, and Inorganic PhotoCarrier Transport Materials – Takashi Mabuchi, Shun Yokoyama, Norihiro Shimoi, Hideyuki Takahashi, and Kazuyuki Tohji (Tohoku University) Stable Charge/Discharge Cycle Performance of LiFePO4 Cathode Prepared With Carboxymethly Cellulose Binder – Toshiaki Wakao (Kanagawa University), Yasumasa Mochizuki (Kanagawa University, Open Lab), Govindachetty Saravanan (CSIR-National Environmental Engineering Research Institute (CSIRNEERI)), Arockiam John Jeevagan (Kanagawa University), Kunihito Baba, Mitsuhiro Watanabe (Japan Surface Treatment Institute Co, Ltd.), Yusuke Kanda (DAICEL CORPORATION), Koh Murakami (Daicel FineChem Ltd.), Masaya Omura (DAICEL (USA), INC), Genki Kobayashi, and Futoshi Matsumoto (Kanagawa University, Kanagawa University, Open Lab) Negative Electrodes Based on the FexZn1-X Alloy System – Lauren MacEachern, Richard Dunlap, and Mark Obrovac (Dalhousie University) Enhanced Efficiency of Dye-Sensitized Solar Cells Using TiO2-Tourmaline Composites Photoanode – Hyun-Seok Ko (Chonnam National University), Gil-Ha Jeong, Seok-Jae Kim (Chonnam national University), Eun-Mi Han (Chonnam National University), Jae-Jung Yun (Jeonnam Nano Bio Control Center), and Kyung-Hee Park (Chosun University) Electrochemical Decoration of Glassy Carbon Electrodes With Amine-Terminated Dendrimers Encapsulating Nanoparticles for Construction of Bifunctional Nanostructures – Soon Bo Lee and Joohoon Kim (Kyung Hee University) Charge and Molecular Transport At Large Area, Single Layer Graphene Electrodes – Nicole L Ritzert (Cornell University), Joaquín Rodríguez-López (University of Illinois at Urbana-Champaign), Cen Tan, Jason A Mann, William R Dichtel, and Héctor D Abruña (Cornell University) Improvement of Dye-Sensitized Solar Cells Performance Using TiO2 nanoparticle/ Nanorod Composite Photoanode – HyunSeok Ko, Eun-Mi Han, Chang Kook Hong (Chonnam National University), and Kyung-Hee Park (Chosun University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Photoelectrochemistry of Silver Clusters Supported On TiO2 Under Visible Light Irradiation – Atsushi Kogo, Nobuyuki Sakai, and Tetsu Tatsuma (Institute of Industrial Science, the University of Tokyo) Reflective Color Display Using Fluidic Photonic Crystal – Wonmok Lee and Kyeonghyeon KO (Sejong University) Synthesis of Organic/Inorganic Hybrid Microspheres By Emulsion Polymerization in the Presence of Titania Nanoparticles in Water – Wonmok Lee and Dahee Ahn (Sejong University) Insight Into the Electrode Mechanism in Lithium-Sulfur Batteries With Ordered Microporous Carbon Confined Sulfur As Cathode – Zhen Li, Lixia Yuan, Ziqi Yi, Yang Liu (School of Materials Science and Engineering, Huazhong University of Science and Technology), Ying Xin, Zhaoliang Zhang (School of Chemistry and Chemical Engineering, University of Jinan), and Yunhui Huang (School of Materials Science and Engineering, Huazhong University of Science and Technology) Activities of Pseudomorphic Pt Layers Electrochemically Prepared On Au(111) for Various Electrocatalytic Reactions – Momoko Ishizaki, Mari Kawabuchi (Ochanomizu University), Ichizo Yagi (Hokkaido University, FC-Cubic), and Toshihoro Kondo (Ochanomizu University) Structural Studies of Binding Group Terminated Self-Assembled Monolayers On Au(111) for Construction of Flatly Adsorbed Porphyrin Layers – Tomoko Arisaka, Bing Zhang, Nana Aoki, and Toshihoro Kondo (Ochanomizu University) Electrochemical Construction of Ni and Co Core - Pt Shell Nanoparticles As Catalysts for Oxygen Reduction Reaction – Haruna Nagai, Mari Kawabuchi, and Toshihoro Kondo (Ochanomizu University) Rrde Studies On Oxygen Reduction and Hydrogen Oxidation Reactions of Pd Single Crystal Electrodes – Mari Kawabuchi, Momoko Ishizaki, and Toshihoro Kondo (Ochanomizu University) Synthesis of LiFePO 4 via a Novel CarbonFree Precipitation Method – Hai Feng (University of Western Sydney) Cobalt Electrodeposition From Electrolyte Containing [CoClx(H2O)6-X]2-X (x = 0, 1, 2) Complexes – Krzysztof Mech, Piotr Żabiński, Remigiusz Kowalik, and Krzysztof Fitzner (AGH University of Science and Technology, Faculty of NonFerrous Metals, Department of Physical Chemistry and Metallurgy of Non – Ferrous Metals al A Mickiewicza 30, 30059 Krakow)

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Tuesday, October 29

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Electrochromic and Electrochemical Properties of Copper Prussian Blue Analog Nanoparticles Prepared By Micro Flow Mixing Method – Kyoung Moo Lee (National Institute of Advanced Industrial Science and Technology (AIST), Kitami Institute of Technology), Hisashi Tanaka, Akira Takahashi (National Institute of Advanced Industrial Science and Technology (AIST)), Kyung Ho Kim, Midori Kawamura, Yoshio Abe (Kitami Institute of Technology), and Tohru Kawamoto (National Institute of Advanced Industrial Science and Technology (AIST)) Efficient Material Screening By Combining DFT Method and Multivariate Analysis – Randy Jalem, Masanobu Nakayama, and Toshihiro Kasuga (Nagoya Institute of Technology) Structural and Optical Characterization of GaN Porous Structures Formed By PhotoAssisted Electrochemical Process – Yusuke Kumazaki, Akio Watanabe, Zenji Yatabe, and Taketomo Sato (Hokkaido University) Calculation of Oxygen Defect Structure in Layered GdBaCo2O5+δ By First-Principles DFT With Monte Carlo Simulations – Hiromasa Shiiba (Nagoya Institute of Technology), Masanobu Nakayama (Nagoya Institute of Technology, Japan Science and Technology Agency, PRESTO), Toshihiro Kasuga (Nagoya Institute of Technology), Robin W Grimes (Imperial College London), and John A Kilner (Department of Materials, Imperial College London) Knitted Electrochemical Capacitors for Applications in Smart Garments – Kristy Jost (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Luke M Haverhals, David P Durkin (US Naval Academy), John McDonough, Carlos R Perez (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Hugh C De Long (US Air Force Office of Scientific Research), Paul C Trulove (US Naval Academy), Genevieve Dion (Shima Seiki Haute Technology Laboratory, Excite Center, Drexel University), and Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University) Influence of Synthesis Route On Electrical Conduction Property, Crystal and Electronic Structures of Apatite-Type Lanthanum Silicate – Kimihiro Kaneko, Naoto Kitamura, Naoya Ishida, and Yasushi Idemoto (Tokyo University of Science) Analysis of Crystal and Electronic Structuresduring Charge and Discharge Process of LiNi08Co02O2 As a Cathode Material Forlithium Ion Battery – Ayano Horie, Naoto Kitamura, Naoya Ishida, and Yasushi Idemoto (Tokyo University of Science)

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Synthesis and Characterization of Solid Polysiloxane Electrolyte for Energy Storage Devices – Yue Lin, Hehua Yao, Yun Cheng, and Jin Liu (School of Metallurgical Science and Engineering, Central South University) Effect of Polarization and Synthesis Process On Crystal Structure and Ferroelectric and Piezoelectric Properties of BaTiO3 – Ryuhei Ifuku, Naoto Kitamura, Naoya Ishida, and Yasushi Idemoto (Tokyo University of Science) Orientation of Copper(I) Oxide Electrodeposited From Aqueous Solutions – Yusuke Seki, Atsushi Kitada, and Kuniaki Murase (Department of Materials Science and Engineering, Kyoto University) Formation of a Bilayer of LowTemperature CVD-SiO2 and Sputtered Al2O3 Films On Polyethylene Terephthalate Substrates for OLED Encapsulation Layer – Hyuk Jin Kim, Sang hyun Park, Yoon Jang Kim, Hong Woo Lee, Seungha Oh, and Hyeong Joon Kim (Seoul National University) Relaxation Phase Analysis of Li-Ni-O Cathode for Secondary Lithium-Ion Battery – Shota Nagashima, Seungwon Park, Im Sul Seo, Shigeomi Takai, and Takeshi Yao (Graduate School of Energy Science, Kyoto University) Electrochemical Property and Structural Change of Li2FeSiO4 At Intermediate Temperature Using Molten LitfsaCstfsa – Yosuke Hori, Titus Masese, Takuya Mori, Kentaro Yamamoto, Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Toshiyuki Nohira, Rika Hagiwara (Graduate School of Energy Science, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) Hydrophobic Properties of Hydrocarbon Films Grown By Torch-Type Atmospheric Pressure Plasma – WG Lee (Department of Chemical Engineering, Kangwon National University) Oxygen Vacancy Formation of Perovskite Type Oxides At Electrode / Electrolyte Interface for Oxygen Reduction Catalysis Studied By in-Situ X-Ray Absorption Spectroscopy – Jun Oyama, Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato, Hagime Tanida (Office of Society-Academia Collaboration for Innovation, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) Effect of Environmental Condition for Atmospheric Pressure Plasma Reactor On CO2 Reforming of CH4 to Syngas – WG Lee (Kangwon National University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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Study On Surface Segregation of La06Sr04CoO3-d By in Situ TotalReflection X-Ray Absorption Spectroscopy – Shinnosuke Sako, Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Ethan J Crumlin (Mechanical Engineering Department,Massachusetts Institute of Technology), Yang ShaoHorn (Massachusetts Institute of Technology), Koji Amezawa (Institute of Multidisciplinary Research for Advanced Materials, Tohoku University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) Effect of Phosphate-Containing Primer On Sacrificial Corrosion Protection of 55 Mass% Al-Zn Layer On Steel – Junichiro Ogawa, Izumi Muto (Department of Materials Science, Tohoku University), Kensei Yuasa, Yoshio Kimata (Nippon Steel & Sumitomo Metal Corporation), Yu Sugawara, and Nobuyoshi Hara (Department of Materials Science, Tohoku University) Light-Accelerated TiO2/Pt/Au Nanomotor Fabricated By Using Porous Aluminum Template – Taiga Sagisaka, Yoshinao Hoshi, Isao Shitanda, and Masayuki Itagaki (Tokyo University of Science) Electrochemical Impedance Analysis of Biofuel Cell Using MgO-Templated Porous Carbon Electrode – Hiroki Nakafuji, Yoshinao Hoshi, Isao Shitanda, Masayuki Itagaki (Tokyo University of Science), and Seiya Tsujimura (University of Tsukuba) Micro-Electrochemical Investigation of Hydrogen Absorption Around Mns Inclusion in Carbon Steel – Tateru Takahashi, Naoto Sato, Izumi Muto (Department of Materials Science, Tohoku University), Tomohiko Ohmura, Mitsuhiro Numata (Nippon Steel&Sumitomo Metal Corporation), Yu Sugawara, and Nobuyoshi Hara (Department of Materials Science, Tohoku University) Micro-Electrochemical Study On the Electrochemical Property of Pt : Effect of Crystal Orientation and Grain Boundary – Mayu Sasaki, Yu Sugawara, Izumi Muto, and Nobuyoshi Hara (Department of Materials Science, Tohoku University) Fabrication of Fully Screen-Printed Paper-Based Biofuel Cell Using Porous Carbon Inks – Seiya Kato, Yoshinao Hoshi, Isao Shitanda, Masayuki Itagaki (Tokyo University of Science), and Seiya Tsujimura (University of Tsukuba) Effects of Sulfur Passivation On Ge/Gesn Mos Capacitors With HfO2 Gate Dielectric – Mei Zhao, Ren Rong Liang, Jing Wang, and Jun Xu (Tsinghua National Laboratory for Information Science and Technology, Institute of Microelectronics, Tsinghua University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Electrochemistry of Magnesium in Mixed Electrolytes Consisting of Organic Solvents and Ammonium-Based Ionic Liquids – Yuu Kang (Department of Materials Science and Engineering, Kyoto University), Atsushi Kitada (Department of Materials Science and Engineering, Kyoto University, JST-CREST), Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University, JST-CREST), and Kuniaki Murase (Department of Materials Science and Engineering, Kyoto University, JSTCREST) Water in Hydrophobic Ionic Liquids Containing Metal Salts – Kyosuke Okazaki, Atsushi Kitada, and Kuniaki Murase (Department of Materials Science and Engineering, Kyoto University) Hierarchical Carbon Nanofiber Electrodes With Integrated Tin Nanoparticles – Martin K Dufficy, Saad A Khan, and Peter S Fedkiw (Department of Chemical and Biomolecular Engineering, North Carolina State University) Leakage Current Analysis Depends on Grain Size Variation in Zinc Oxide Thin Film Transistor – Hojoong Kim, Suk Yang (Yonsei University), Kyung Park, Parthiban Shanmugam, and Jang Yeon Kwon (Yonsei University, Yonsei University) Specific Redox Properties of FerrocenylThiol SAM in Ionic Liquids – Takahiro Asai, Syodai Aoyama, Atsushi Kitada, Takashi Ichii, Hiroyuki Sugimura, and Kuniaki Murase (Department of Materials Science and Engineering, Kyoto University) Solubility and Stability of Superoxide Radical Anions in Room-Temperture Ionic Liquids – Daisuke Ishikawa, Ayumu Hashimoto, Atsushi Kitada, and Kuniaki Murase (Department of Materials Science and Engineering, Kyoto University) Nanocarbon/Polyoxometalate Composite Electrodes for Electrochemical Capacitors – Keryn Lian and Matthew Genovese (University of Toronto) Iridium-Ruthenium Mixed Oxide for Oxygen Evolution Reaction Prepared By Pechini Synthesis – Anita Reksten, Svein Sunde, Frode Seland (Norwegian University of Science and Technology), and Farhad Moradi (University of Tehran) Comparison of Conductivities of Bulk and Nanowire Morphologies of Electrodeposited Polypyrrole – Karen Herdman (National University of Ireland, Maynooth) and Carmel Breslin (National University of Ireland Maynooth) Non-Enzymatic Selective Detection of Glucose Based On a Gold-Decorated Multi-Walled Carbon Nanotube Composite – David Branagan (National University of Ireland, Maynooth) and Carmel Breslin (National University of Ireland Maynooth)

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Tuesday, October 29

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Chemical Modification of Activated Carbon With Quinone-Type Molecules for Applications As Electrochemical Capacitor Electrode Material – Annaïg Le Comte (Département Chimie, Université du Québec à Montréal, Institut des Matériaux Jean Rouxel (IMN) - CNRS/University of Nantes), Thierry Brousse (Institut des Matériaux Jean Rouxel (IMN) - CNRS/ University of Nantes), and Daniel Bélanger (Département Chimie, Université du Québec à Montréal) Development of Transition Metal Oxynitride Electrodes for Supercapacitors – Haoran Wu and Keryn Lian (University of Toronto) Elecrtrochemical Analysis of the Charge Transfer Reaction At the Interface Between Sulfide-Based Solid Electrolyte and Positive Electrode Material With Microelectrodes – Wataru Tsujiwaki (Department of Applied Chemistry, Graduated School of Engineering, Osaka Prefecture University, JST-CREST), Eiji Higuchi (Osaka Prefecture University), Masanobu Chiku, and Hiroshi Inoue (Osaka Prefecture University, JST-CREST) Low-Defect Carbon Nanotubes Supported Pt-Ni Alloy Nanoparticles for Direct Methanol Fuel Cells Applications – Ye Fan, Chenyao Hu, and Xin Wang (Key Laboratory of Soft Chemistry and Functional Materials(Nanjing University of Science and Technology), Ministry of Education) Electrochemical Oscillations During Reduction of Nitrate Ions On Cu and Ag – Shuhei Yamamoto, Yoshiharu Mukouyama (College of Science and Engineering, Tokyo Denki University), Shuji Nakanishi (The University of Tokyo), and Hiroshi Okamoto (College of Science and Engineering, Tokyo Denki University) Study of the Effect of the Pt Shell Coverage On Ni Core for the Oxygen Reduction Reaction – Fernando Godinez, Omar Solorza (CINVESTAV), Hector Calderon (ESFM-IPN), Luis Lartundo (Centro de Nanociencias y Micro y Nanotecnologías-IPN), Karina Suarez (Max-Lab Sincrotron), and Marco Leyva (CINVESTAV) Degradation Mechanisms of Composite Cathode On Anode-Supported Solid Oxide Fuel Cells Under Various Operating Conditions – Tae-Hee Lee, Ka-Young Park, Seung-Seok Baek, Ji-Tae Kim, and JunYoung Park (Sejong University)

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New Electrochemical Oscillation Appeared in H2O2-H2SO4-Pt System By Addition of Na2SO4 and K2SO4 – Mitsuhisa Hasegawa (College of Science and Engineering, Tokyo Denki University, College of Science and Engineering, Tokyo Denki University), Shuhei Yamamoto, Yoshiharu Mukouyama (College of Science and Engineering, Tokyo Denki University), Shuji Nakanishi (The University of Tokyo), and Hiroshi Okamoto (College of Science and Engineering, Tokyo Denki University) Effect of “Nano Inclusion” On Cycle Performance of LiMn2O4 Cathode Material At 3V Range – Yuya Kawai, Junpei Harada (Graduate School of Energy Science, Kyoto University), Shogo Esaki (Materials and Energy Technology Laboratories, Corporate Research and Development Group, SHARP CORPORATION, Graduate School of Energy Science, Kyoto University), Motoaki Nishijima (Materials and Energy Technology Laboratories, Corporate Research and Development Group, SHARP CORPORATION), and Takeshi Yao (Graduate School of Energy Science, Kyoto University) Structural Variation in the γ/β-MnO2 Series and Its Influence On Cathodic Cyclability – Scott W Donne and Mark R Bailey (University of Newcastle) Optimization and Characterization of the Thermal Synthesis of Lithiated Manganese Dioxide, Li033MnO2, for Li-Ion Batteries – Scott W Donne and Wesley M Dose (University of Newcastle) Graphene Modified Glassy Carbon Electrode for the Voltammetric Behavior and Determination of An Anti-HIV Drug Topotecan – Sachin Saxena (Dayalbagh Educational Institute, Dayalbagh, Agra, India) Effects of Electrolyte Solutions and Their pH On the Electrochromic Cycling Stability of Reactively Sputtered WO3 Thin Fims – Ryosuke Todo, Yoshio Abe, Midori Kawamura, and Kyung Ho Kim (Kitami Institute of Technology) Plasmonic Resonance Tuning of Pd Nano-Dimer Arrays Using Hydrogen Absorption – Sari Uchiyama, Mai Takase, Kei Murakoshi, and Katsuyoshi Ikeda (Hokkaido University) Effect of Grain Refinement Species On the Gold Electroplating in a Non-Cyanide Bath – Minjeong Kim (Hanbat national Uni, south Korea) Synthesis and Characterization of Li Excess Layered Material Synthesized Under High Oxygen Pressure – Hansen Chang (Tokyo Institute of Technology), Kei Kubota (Tokyo University of Science), Yasuaki Matsuda, Masaaki Hirayama, and Ryoji Kanno (Tokyo Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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The Electrical Properties of Phosphate Glass Thin Films With Increasing Proton Concentration – Suk Hee Lee, Sung Bum Park, and Yong-il Park (School of Advanced Materials and System Engineering, Kumoh National Institute of Technology) Mesoporous Carbon Coated Carbon Nanofibers for Lithium-Air Battery – Myeong Jun Song (School of integrated Technology, Yonsei University), Il To Kim (School of integrated Technology, Yonsei University, School of integrated Technology, Yonsei University), Young Bok Kim, and Moo Whan Shin (School of integrated Technology, Yonsei University) Growth of Carbon Nano-Tubes On Carbon Fiber Textile for Lithium-Air Battery Cathode – Young-Bok Kim (School of Integrated Technology, Yonsei University), Il To Kim, Myeong Jun Song, and Moo Whan Shin (School of integrated Technology, Yonsei University) Orientation Control and Ionic Conductivity of Epitaxial Li017La061TiO3 Film Solid Electrolyte – Sangryun Kim, Masaaki Hirayama, Sou Taminato, Kyungsu Kim, Kota Suzuki, and Ryoji Kanno (Tokyo Institute of Technology) Multilayered Ni-Zr Membranes for Hydrogen Separation – Sang Hyun Lee, Sung Bum Park, and Yong-il Park (School of Advanced Materials and System Engineering, Kumoh National Institute of Technology) Hydrogen Permeability of Amorphous NiZr Thin-Films With Functionally Gradient Composition – Sung Bum Park, Sang Hyun Lee, and Yong-il Park (School of Advanced Materials and System Engineering, Kumoh National Institute of Technology) A New Analytical Model for Improving Sub-Threshold Conduction of Mosfets – Taufiq Ahmed and Nazmul Hasan (Bangladesh University of Engineering & Technology) Chemical Grafted Carbon-Coated LiFePO4 Using Diazonium Chemistry – Nicolas daniel Delaporte, Alexis Perea, Ruhul Amin (Département Chimie, Université du Québec à Montréal), Karim Zaghib (IREQ), and Daniel Bélanger (Département Chimie, Université du Québec à Montréal) Optimization of Flowable Electrode for Electrochemical Flow Capacitors – Muhammed Boota, Kelsey B Hatzell, Majid Beidaghi, Christopher R Dennison, Emin Caglan Kumbur (Drexel University), and Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University) Mathematical Model for a Fuel Cell Cathode – Jesus Antonio Mesa Zora, William Hernando Lizcano Valbuena, and Ruben de Jesus Camargo Amado (Universidad del Valle)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Influence of the Electrolyte Composition On Formation Process and Morphology of Anodic Titanium Oxide Nanotubes – Ryota Kojima, Yasuo Kimura, and Michio Niwano (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University) Improving the Electrocatalytic Activity of Iron Phthalocyanines and Porphyrines Towards the Oxidation of l-Cysteine Due to the Incorporation of Multiwall Carbon Nanotubes and Modulation of the Fe(II)/(I) Formal Potential – Cristian A Gutierrez Sr, Juan Francisco Silva Sr, and Jose H Zagal Sr (Universidad de Santiago de Chile) Electrochemical Transformation Study of Antibiotic Sulfamethoxazole Using Ti/ Ru03Ti07O2 Anode: Kinetics and Energy Cost Evolution – Sajjad Hussain, Douglas W Miwa (Instituto de Química de São Carlos, Universidade de São Paulo, CP 780, 13560-970 São Carlos-SP, Brazil), and Artur de Jesus Motheo (Institute of Chemcistry at Sao Carlos / University of Sao Paulo) Characterisation of Interfaces in a Rechargeable Aqueous Lithium-Air Cell – Louise Frenck, Philippe Stevens, Gwenaëlle Toussaint (Electricité de France, R&D division), and Renaud Bouchet (LEPMI CNRS UMR 5279, Grenoble Polytechnique Institute) Preparation of Ptsn/C Electrocatalysts By An Alcohol-Reduction Process Using Different Conditions for Ethanol Electro-Oxidation – Vilmaria Aparecida Ribeiro (IPEN - Instituto de Pesquisas Energéticas e Nucleares), Ryan C Sekol, André D Taylor (Department of Chemical & Environmental Engineering, Yale University, New Haven, Connecticut 06511, United States), Almir Oliveira Neto, and Estevam V Spinacé (IPEN - Instituto de Pesquisas Energéticas e Nucleares) A Study of Morphology and Transport Properties of Perfluorosulfonic Acid PEM Doped With Heteropoly Acids – Yuan Liu, Somisetti V Sambasivarao, C Mark Maupin, James L Horan (Department of Chemical and Biological Engineering, Colorado School of Mines), Yuan Yang (Department of Chemistry and Geochemistry, Colorado School of Mines), Steven J Hamrock, Gregory M Haugen (3M Fuel Cell Components Program, 3M), Soenke Seifert (X-ray Science Division, Argonne National Laboratory), and Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) Electron Transport Across ElectrodeActive Material Interfaces in Lithium-Air Batteries – Sean E Doris (The Molecular Foundry, Lawrence Berkeley National Laboratory, Department of Chemistry, University of California, Berkeley) and Brett A Helms (The Molecular Foundry, Lawrence Berkeley National Laboratory) 89

Tuesday, October 29


Tuesday, October 29

90

Electrochemical Incineration of Tetracycline Hydrochloride Using Titanium Based Anode in Saline Medium: Kinetic and Energy Consumption Evolution – Saima Gul, Kenia N Parra, Douglas W Miwa (Instituto de Química de São Carlos, Universidade de São Paulo, CP 780, 13560-970 São Carlos-SP, Brazil), and Artur de Jesus Motheo (Institute of Chemcistry at Sao Carlos / University of Sao Paulo) 117 LiAlCl4-NaAlCl4-NaAlBr4-KAlCl4: A Low-Melting Molten Salt Mixture for the Electrodeposition of Aluminum – Chen Wang (University of Mississippi) 118 Structural Impacts of Electrochemically Doping Simultaneous Ionic and Electronic Conducting Block Copolymer Electrolytes in the Solid-State – Jacob L Thelen, Shrayesh N Patel (University of California at Berkeley), Anna E Javier (Lawrence Berkeley National Lab), and Nitash P Balsara (Lawrence Berkeley National Lab, University of California at Berkeley) 119 Effect of Neutral Beam Treatment On Nanocrysallization of Silicon Thin Film By Neutral Beam Assisted CVD At Near Room Temperature – Dong Hyeok Lee, Jin Nyoung Jang, and MunPyo Hong (Dept of Display and Semiconductor Physics, Korea University) 120 Modified Imidazolium Functionalized AEM and Investigation of Influences On the Conductivity – Ye Liu (Department of Chemical & Biological Engineering, Colorado school of mines), Junhua Wang, Yushan Yan (Department of Chemical & Biomolecular Engineering, University of Delaware), Matthew W Liberatore, and Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) 121 Synthesis and Electrical Testing of SilverBased Composite Electrodes for ReducedTemperature Solid Oxide Electrolysis Cells – Michael Keane and Prabhakar Singh (Center for Clean Energy Engineering, University of Connecticut) 122 Influence Of The Axial Ligand On Iron PHTHALOCYANINE TOWARD The Reduction Of Molecular Oxygen – Ingrid Ponce, Ruben Oñate, Juan Francisco Silva Sr, Carmen Castro, Marcos Caroli, Jose H Zagal Sr, and Jorge Pavez (Universidad de Santiago de Chile) 123 Enhanced Photocurrent and Crystallinity of Modified Selenium Films With Underpotential Deposited Bismuth Or Lead – Dyovani Coelho (Instituto de Química de São Carlos/Universidade de São Paulo) and Sergio Antonio Spinola Machado (Instituto de Química de São Carlos) 124 Redox-Magnetohydrodynamic (RMHD) Pumping With PEDOT-Modified Electrodes – Christena Kayl Nash and Ingrid Fritsch (University of Arkansas) 116

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Investigation of Vesicles Adsorption On Immersed Gold Surface – Paula Simões Casagrande (Universidade Estadual de Campinas - Instituto de Física “Gleb Wataghin”), David Mendez Soares (Universidade Estadual de Campinas - Instituto de Física), and Wyllerson Evaristo Gomes (Universidade Estadual de Campinas - Instituto de Física “Gleb Wataghin”) Analysis of the Reduction of 1,2-Dimethyl5-Nitroimidazole Using Cyclic Voltammetry – Karen An Callera Ronquillo and Diane K Smith (San Diego State University) Electrodeposition of Ni-W, Ag-W and Ag-Ni-W Alloys From Citrate-Thiourea Electrolytes – Avinash R Kola and Elizabeth J Podlaha-Murphy (Northeastern University) Electrochemistry of 1-Methyl-2Nitroimidazole in the Presence of 2-Napthol and Cysteine – Samvel Avagyan and Diane K Smith (San Diego State University) Electrochemical Characterization of Nanoparticles With Different Morphologies – Mengjia Hu, Eric C Taylor, Benjamin J Jones, Jingyi Chen, and Ingrid Fritsch (University of Arkansas) Electrochemical Capacitance-Voltage Technique To Characterize Doping Profiles Of Silicon Nanowires Grown By Electroless Etching – Victor H Velez, Robert George Mertens (University of Central Florida), and Kalpathy B Sundaram (Univ of Central Florida) Effect of Water Concentration On a Proton Coupled Electron Transfer Reaction in Non-Aqueous Solvents – Eric M Lopez and Diane K Smith (San Diego State University) Fabrication of Line Pattern of InP By Metal-Assisted Chemical Etching Under UV Irradiation – Yuta Suzuki, Hidetaka Asoh, and Sachiko Ono (Department of Applied Chemistry, Kogakuin University) Structure and Property Changes of Anodic Alumina Membrane During Crystallization By Heat Treatment – Tatsuya Masuda, Hidetaka Asoh, and Sachiko Ono (Department of Applied Chemistry, Kogakuin University) Tuning the Cu(II)/(I) Formal Potential of Copper Phenanthrolines Adsorbed On Graphite Electrodes for ORR Maximum Activity – Ricardo Alberto Venegas, Francisco Javier Recio, and Jose H Zagal Sr (Universidad de Santiago de Chile) Activity Of Halide-Free Carboxylic Acid Fluxes At Sn Surfaces – John Flake and Guoying Qu (LSU)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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Electrochemical Performance of Nitrogen Doped Carbon Nanotubes – Ysmael Verde Gomez, Ana Maria Valenzuela-Muñiz, Daniel Lardizabal (Instituto Tecnologico de Cancun), and Alfredo Aguilar-Elguezabal (Centro de Investigación en Materiales Avanzados SC) Effect of Current Collector-Cathode Interface On the Charge Transfer Processes in Stable Free-Radical Organic Polymer Cathode Materials – Madison Martinez, Heather AS Platt, Michele Olsen, Wade Braunecker (National Renewable Energy Laboratory), Steven M George (University of Colorado at Boulder), John Perkins, and Thomas Gennett (National Renewable Energy Laboratory) Hardness Studies of RF Sputtered Deposited Bcn Thin Films – Adithya Prakash, Vinit Todi (University of Central Florida), Kalpathy B Sundaram (Univ of Central Florida), and Sean King (University of Central Florida) Impedance Spectrum of Batteries Determined By Wavelet Transformation -Discussion on Optimum Conditions for Wavelet Transformation- – Natsuki Yakabe, Yoshinao Hoshi, Isao Shitanda, and Masayuki Itagaki (Tokyo University of Science) Preparation and Characterization of An Electroactive Ureidopyrimidinone Derivative, A Four Hydrogen Bond Array Containing a Dimethylaminophenylurea – Laurie A Clare, An Pham, and Diane K Smith (San Diego State University) Simultaneous Measurements of Positive and Negative Electrodes of LIRB By In-Situ EIS During Charge-Discharge Cycle – Keiichiro Honda, Yoshinao Hoshi, Isao Shitanda, Masayuki Itagaki (Tokyo University of Science), Arata Okuyama, Hideki Kawai, and Yuichi Aoki (ESPEC Corp) Nakajima Diagram 3D As a Diagnosis of Water Quality for Pitting Corrosion Risk of Cupper Used in Heat Exchanger of Air Conditioner – Kentaro Ochi, Yoshinao Hoshi, Isao Shitanda, and Masayuki Itagaki (Tokyo University of Science) A New Supramolecular Chemistry Motif: Horizontally Linked Viologen Radical Dimers – Joquel Marie Vasquez (San Diego State University), Patrick Andrew Staley (University of California, San Diego), Shaminee Upeka Keenawinna, and Diane K Smith (San Diego State University) Solvent Effects On the Oxidation of Electroactive Ureas – An T Pham, Laurie A Clare, Francine Magdaleno, Jacqueline Acosta, Jessica E Woods, and Diane K Smith (San Diego State University) Precipitation of Nanocrystallites in Amorphous Silicon Carbide Films by Low Temperature Catalytic CVD – Tae-Ho Song and Wan-Shick Hong (University of Seoul)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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A2

Preparation and Electrochemical Behavior of Carbonaceous Fiber Sheets Derived From Bamboo – Taro Kinumoto, Takuya Matsumura, Miki Matsuoka, Tomoki Tsumura, and Masahiro Toyoda (Oita University) Relaxation Stage Analysis of Li Inserted Graphite – Takashi Kitamura (Graduate School of Energy Science, Kyoto University, Graduate School of Energy Science, Kyoto University), Seungwon Park, Shigeomi Takai, and Takeshi Yao (Graduate School of Energy Science, Kyoto University) Demonstration of Enhanced Sensitivity to CO in H2 of an Electrochemical Analyzer – Calita Quesada, Tommy Rockward, Fernando H Garzon, and Rangachary Mukundan (Los Alamos National Laboratory)

Nanotechnology General Session

All Divisions / New Technology Subcommittee Franciscan C, Tower 1, Ballroom Level, Hilton San Francisco Union Square

A2 Tuesday Morning Session – 08:00 – 12:20 Co-Chair(s): William E. Mustain and P. Joshi 08:00

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Plasma Co-Sputtering Methods for the One-Step Synthesis of Pt-C Nanowires Composites With Enhanced Electrocatalytic Properties – Christophe Coutanceau (Université de Poitiers, IC2MP, UMR CNRS 7285), Amaël Caillard, Mathieu Mougenot, Stéphane Cuynet (Université d’Orléans, GREMI, UMR CNRS 7344), Pascal Andreazza, Caroline andreazza-Vignolle (Université d’Orléans, CRMD), Stève Baranton (Université de Poitiers, IC2MP, UMR CNRS 7285), and Pascal Brault (Université d’Orléans, GREMI, UMR CNRS 7344) Preparation of M@Cu2o (M= Au, Ag, Pd) Core-Shell Nanocrystals By a Facile Citrate-Chelating Approach – Yin Kai Lin (Department of Materials Science and Engineering, National Chiao Tung University) and Yung Jung Hsu (Materials Science and Engineering National Chiao Tung University) Fabrication of Gaooh-Au Nanoheterostructures and Their Photocatalytic Performance in Methanol Oxidation – An T Nguyen, Yi-Han Hsu (Materials Science and Engineering, National Chiao Tung University), and Yung Jung Hsu (Materials Science and Engineering National Chiao Tung University) Coal Derived Graphene - Pt Nanocomposites for Hydrogen Production Via Ammonia Electro-Oxidation – Santosh H Vijapur, Dan Wang, and Gerardine G Botte (Ohio University)

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09:20

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11:20

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Fabrication of Graphene-PtPd Alloys With High Electro-Catalytic Activity for Ethanol Oxidation – Xiaomei Chen (Department of Material Chemistry, Graduate School of Engineering, Kyoto University, College of Biological Engineering, Jimei University, Xiamen, 361021, China), Munetaka Oyama (Department of Material Chemistry, Graduate School of Engineering, Kyoto University), and Xi Chen (State Key Laboratory of Marine Environmental Science, Xiamen University) Break Nano-Sized Titanium Oxides As Electrocatalyst for Oxygen Reduction Reaction Toward PEFC – Kazuaki Suito, Akimitsu Ishihara, Tomoaki Hayashi (Green Hydrogen Research Center, Yokohama Nat Univ), Masashi Matsumoto, Masazumi Arao, Hideto Imai (NISSAN ARC Ltd.), Yuji Kohno, Koichi Matsuzawa, Shigenori Mitsushima, and Ken-ichiro Ota (Green Hydrogen Research Center, Yokohama Nat Univ) Facile Route to Grow Crystalline ZnO Nanorod Arrays Via Corrosion and Their Photocatalytic Activity Under Visible Light – Danish Iqbal and Andreas Erbe (Max-Planck-Institut für Eisen Forschung GmbH) Fabrication of Dealloyed Pt2os Nanoparticles for Oxygen Reduction Reaction in Acidic Electrolytes – Yi-Juei Lee (Department of Materials Science and Engineering, National Chiao Tung University), Yu-Chi Hsieh (Department of Materials Science and Engineering, National Chiao Tung University, 1001 Ta Hsueh Road, Hsinchu City, Taiwan 300), Yu Sun (Graduate Program for Science and Technology of Accelerator Light Source, National Chiao Tung University), Li-Chung Chang (Graduate Program for Science and Technology of Accelerator Light Source, National Chiao Tung University, 1001 Ta Hsueh Road, Hsinchu City, Taiwan 300), Pu-Wei Wu (Department of Materials Science and Engineering, National Chiao Tung University, 1001 Ta Hsueh Road, Hsinchu City, Taiwan 300), and Jyh-Fu Lee (National Synchrotron Radiation Research Center, 101 Hsin-Ann Road, Hsinchu Science Park, Hsin-Chu 30076, Taiwan ROC) Ordered Porous Electrodes By Design for Electrocatalysis – Byron D Gates, Brandy Kinkead (Simon Fraser University), Julia VanDrunen, Gregory Jerkiewicz (Queen’s University), Michael TY Paul, Amir Nazemi, and Katie Dowling (Simon Fraser University) Photocatalytic Water Oxidation With Suspended Fe2O3 (hematite) Nanocrystals – Bronwyn L Harrod, Nicholas Brune, Christopher Wong, and Frank E Osterloh (Department of Chemistry, University of California, Davis)

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Photocatalytic Degradation Of Chlorinated Organic Compounds Using NEWLY-Developed Nanoporous ZINC OXIDE-Laponite Composites – Jin Chul Joo (Korean Institute of Contruction Technology) and Hosang Ahn (Korea Institute of Construction Technology) Rh-Doped SrTiO3 Nanocrystals As Photocatalysts for Visible Light-Driven Hydrogen Evolution – Jiarui Wang (Dept Chemistry, University of California, Davis) and Frank E Osterloh (Department of Chemistry, University of California, Davis)

A2 Tuesday Afternoon Session – 14:00 – 17:20 Co-Chair(s): O. M. Leonte, Sachiko Ono and Sophie Carenco 14:00

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15:40

166

Nanostructure Designing of C60/Poly(3hexylthiophene) Supramolecular On Au(111) Surfaces Via Iodine Modification – Yung-Fang Liu (Promotion Center for Global Materials Research, Department of Materials Science and Engineering, National Cheng Kung University,, Department of Chemical Engineering, National Cheng Kung University), Masahiro Yoshimura (Promotion Center for Global Materials Research, Department of Materials Science and Engineering, National Cheng Kung University), and Yuh-Lang Lee (Promotion Center for Global Materials Research, Department of Materials Science and Engineering, National Cheng Kung University, Department of Chemical Engineering, National Cheng Kung University) Light Scattering Investigation of 2D and 3D Opal Template Formation On Hydrophilized Surfaces for Ordered Porous Nanostructured Materials – Eileen Armstrong (University College Cork), Worawut Khunsin (Catalan Institute of Nanotechnology), Michal Osiak (University College Cork), Clivia M Sotomayor Torres (Catalan Institute of Nanotechnology), and Colm O’Dwyer (University College Cork, Ireland) Electrochemical Dealloying of Gold-Silver Alloy Nanoparticles - Selective Dissolution of the Lesser and More-Noble Species – Christopher Allen Starr and Daniel Buttry (Arizona State University Department of Chemistry and Biochemistry) Synthesis of Nanoporous Palladium Powder With Controlled Pore and Particle Size for Hydrogen Storage Applications – David B Robinson, Patrick J Cappillino, Christopher G Jones, Khalid M Hattar, Blythe G Clark, Michelle A Hekmaty (Sandia National Laboratories), and Benjamin W Jacobs (Protochips, Inc) Transparent Conducting Fe-F Codoped ZnO Films Deposited By Spray Pyrolysis – Bin Zhou, Xiaofei Han, and Meng Tao (Arizona State University) Melting and Recrystalization of Indium Nanoparticles By Transmission Electron Diffraction – Wei Ren and Hani ElsayedAli (Old Dominion University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


167

16:20

168

16:40

169

17:00

A3

170

Mechanistic Insight Into the Impact of Induction Heating On the Morphology and Crystallinity of Copper Particles Electrodeposited On Nickel – Zineb Mekhalif, Sébastien Devillers, Julien Bonte, and Joseph Delhalle (University of Namur) Ultrasonic Spray Deposition of Mesoporous WO3 Films Displaying 100% Optical Modulation – Chi-Ping Li (Colorado School of Mines, National Renewable Energy Laboratory), Robert Tenent (National Renewable Energy Laboratory), and Colin Wolden (Colorado School of Mines) Refinement of Nanoporous Copper By Dealloying MgCuY Amorphous Alloys in Organic and Sulfuric Acids – Zhenhua Dan, Fengxiang Qin, Guoqiang Xie, Shinichi Yamaura, Akihiro Makino (Institute for Materials Research, Tohoku University), and Nobuyoshi Hara (Department of Materials Science, Tohoku University) High-Pressure Cell for in Situ X-Ray Absorption Study of Nanocatalysts – Sophie Carenco, Carlos Escudero, Anders Tuxen, Mahati Chintapalli, Elzbieta Pach (Materials Sciences Division, Lawrence Berkeley National Laboratory), Mark West, Jinghua Guo (Advanced Light Source, Lawrence Berkeley National Laboratory), and Miquel B Salmeron (Materials Science Division, Lawrence Berkeley National Laboratory)

10:40

225

11:20

226

11:40

227

Microbial Fuel Cells 2 – 14:00 – 15:00 Co-Chair(s): Shelley D. Minteer and Adam Z. Weber 14:00

228

14:20

229

14:40

230

The Energy Water Nexus

All Divisions / New Technology Subcommittee Franciscan D, Tower 1, Ballroom Level, Hilton San Francisco Union Square

Microbial Fuel Cells 1 – 08:00 – 12:00 Co-Chair(s): William E. Mustain and Marta C. Hatzell 08:00

221

08:40

222

09:20

223

09:40 224 10:00

Energy Issues in Bioelectrochemical Treatment of Water and Wastewater – Zhen He (Virginia Polytechnic Institute and State University) Microbial Electron Transfer at ClayModified ITO Electrodes – Alanah Fitch (Loyola University Chicago) Microbial Fuel Cells and Their Way to the Future – Sofia Babanova (University of New Mexico), Orianna Bretschger (J Craig Venter Institute), Jared Roy (George Mason University), Andrea Cheung (Stanford University), Kateryna Artyushkova, and Plamen Atanassov (University of New Mexico) Break Harvesting Microbial Fuel Cell Ionic Current to Augment Power Densities From Capacitive Mixing – Marta C Hatzell, Roland Cusick, and Bruce E Logan* (The Pennsylvania State University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Hybrid Anaerobic Digester-Microbial Fuel Cell for Waste Water Treatment – Kyla Gregoire, Maia Tatinclaux (Naval Research Laboratory, Center for Bio/Molecular Science and Engineering, University of Maryland, Department of Civil & Environmental Engineering), Justin Biffinger (Naval Research Laboratory, Chemistry Division), Leonard Tender (Naval Research Laboratory, Center for Bio/Molecular Science and Engineering), and Stephanie Lansing (University of Maryland, Department of Environmental Science and Technology) The Application of Anion and Cation Exchange Membranes in Microbial Electrochemical Systems – Lucy Sarah Howes, Claudio Avignone-Rossa, and John Varcoe (University of Surrey) Electrochemical Sulfide Removal On Carbon Electrode in Sulfate Reducing Bacteria Microbiological Fuel Cell – Bijuan Zheng and Hongfang Liu (School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology,)

Investigation of the Indirect Dissimilarity Metal Reduction Pathway of Shewanella by Scanning Electrochemical Microscopy – David Crisostomo, Gongping Chen, C Ruth McNees (Vanderbilt University), Sean J Elliott (Boston University), and David E Cliffel (Vanderbilt University) Preparation of Hybrid Nanocatalysts Containing Enzymes and Gold Nanoparticles for Ethanol/O2 Biofuel Cell – Sidney Aquino Neto (University of Sao Paulo), Adele Gautreau (Universite de Poiters), Thiago Santos Almeida (University of Sao Paulo), Shelley D Minteer (The University of Utah), and Adalgisa Rodrigues De Andrade (University of Sao Paulo) The Beneficiation of Algal Biomass From a Low-Cost Sewage Treatment System As a Feedstock in Microbial Fuel Cells – Janice Leigh Limson, Kudzai Mtambanengwe, Edith Mshoperi, Ronen Fogel (Department of Biochemistry, Microbiology & Biotechnology, Rhodes University), and Richard Laubscher (Institute for Environmental Biotechnology, Rhodes University)

PEMFC and Water – 15:20 – 17:20 Co-Chair(s): Shelley D. Minteer and Adam Z. Weber 15:20

231

The Synergistic Development of Materials to Solve Issues in Sustainable Energy or Water Use – Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) and Lauren F Greenlee (National Institute of Standards & Technology)

93

Tuesday, October 29

16:00


Tuesday, October 29

16:00

232

16:40

233

B1

Macroscopic Modeling of Degradation and Performance Concerns in ProtonExchange-Membrane Fuel-Cell Catalyst Layers – Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory) Highly Active, Nonprecious Metal Perovskite Electrocatalysts for Bifunctional Metal-Air Battery Electrodes – Keith J Stevenson (Department of Chemistry and Biochemistry - University of Texas at Austin), William G Hardin (Texas Materials Institute - University of Texas at Austin), J Tyler Mefford (Department of Chemistry and Biochemistry - University of Texas at Austin), Daniel A Slanac (McKetta Department of Chemical Engineering - University of Texas at Austin), Xiqing Wang, Sheng Dai (Oak Ridge National Laboratory), and Keith P Johnston (McKetta Department of Chemical Engineering - University of Texas at Austin)

Energy Technology/Battery–Joint General Session Battery / Energy Technology Continental 4, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium Battery-Electrolyte/Anode – 08:00 – 12:20 08:00

271

08:20

272

08:40

273

09:00

274

94

Titanium Doped Li7La3Zr2O12 Solid Electrolyte for Lithium Batteries – Faith Beck, Mingjia Zhi (Department of Energy), Martin Dontigny (Hydro Qubec), Kumaran Vediappan (McGill University), Karim Zaghib (Institut de Recherche d’HydroQuébec (IREQ)), and Ayyakkannu Manivannan (US Department of Energy) Analysis of Composite Electrolytes for Stability With Li Metal Anodes – Sergiy Kalnaus, Wyatt Tenhaeff (Oak Ridge National Laboratory), Jeff Sakamoto (Michigan State University), Adrian S Sabau, Claus Daniel, and Nancy J Dudney (Oak Ridge National Laboratory) High Performance Silicon-Based Negative Electrodes for Li-Ion Batteries – D Guyomard, M Gauthier, N Delpuech, D Mazouzi (IMN), D Reyter (INRS), JS Bridel (Umicore), J Gaubicher (IMN), N Dupré (Institut des matériaux Jean Rouxel (IMN) - UMR6502), P Moreau (IMN), L Roue (INRS), and B Lestriez (IMN) Crystalline Silicon As Structured Anode Material for Lithium-Ion Batteries – Michael Sternad, Gabriel Schrotter (Graz University of Technology), Raffael Janski (Graz University of Technology, Infineon Technologies Austria AG), Magdalena Forster, Bernhard Goller, Katharina Schmut (Infineon Technologies Austria AG), and Martin Wilkening (Graz University of Technology)

09:20

275 SnO2-Carbon Composite Based Anodes for Li-Ion Batteries – Junbing Yang, Jianguo Ren (Argonne National Laboratory), and Khalil Amine (Chemical Sciences and Engineering Division, Argonne National Laboratory) 09:40 276 (2013 ECS Battery Division Research Award Lecture) On the Challenge of Developing Rechargeable Li-Air Batteries: Is it Real? – Doron Aurbach, Daniel Sharon, Michal Afri, Aryeh A Frimer (BarIlan University), and Arnd Garsuch (BASF SE) Break 10:00 10:20 277 Carbon-Silicon Composite Anodes for Automotive Batteries – Mohan Karulkar, Rachel Blaser, and Robert Kudla (Ford Motor Company) 278 Electrochemical Intercalation/ 10:40 Deintercalation of Cations Into/From Graphite Electrode in Ionic Liquid – Kotaro Ono, Kohei Miyazaki, Tomokazu Fukutsuka, and Takeshi Abe (Graduate School of Engineering, Kyoto University) 11:00 279 Influence of CO2 On the Stability of Discharge Performance for Li-Air Battery With Hybrid Electrolyte Based On the Graphene Sheet – Haosen Zhou (National Institute of Advanced Industrial Science and Technology) and Eunjoo Yoo (Advanced Industrial Science and Technology (AiST)) 11:20 280 Electrochemical Oxidation Behavior of Carbon in Non-Aqueous Solution – Yui Taniguchi, Kohei Miyazaki, Tomokazu Fukutsuka, and Takeshi Abe (Graduate School of Engineering, Kyoto University) 11:40 281 Electrochemical Properties of Thixotropic Gel Polymer Electrolytes Based On Poly(vinylidene fluoride-cohexafluoropropylene)/Hydroxypropyl Celluose Blend for Screen-Printing Process of 4V-Class Flexible Lithium Rechargeable Batteries – Young-Gi Lee, Kun-Young Kang, Dong Ok Shin, and Kwang Man Kim (Power Control Device Research Section, Electronics & Telecommunications Research Institute(ETRI)) 12:00 282 Study of Mg Batteries: Electrolyte, Current Collectors and Their Compatibility – Dongping Lv (Pennsylvania State University), Mikhail L Gordin (Mechanical Engineering, The Pennsylvania State University), Ayyakkannu Manivannan (US Department of Energy), and Donghai Wang (Mechanical Engineering, The Pennsylvania State University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


14:00

Unraveling the Oxygen Reduction Reaction Mechanism and Activity of Composite Ba05Sr05Co08Fe02O3-d/Carbon Electrodes in Alkaline Media By Thin Film Rotating Ring Disk Electrode Measurements – Emiliana Fabbri (Paul Scherrer Institut), Rhiyaad Mohamed, Pieter Levecque, Olaf Conrad (HySA/ Catalysis Centre of Competence - Centre for Catalysis Research - Department of Chemical Engineering - University of Cape Town), Ruediger Koetz, and Thomas J Schmidt (Paul Scherrer Institut) 14:20 284 An in Situ Graphite-Grafted Alkaline Iron Electrode for Iron-Based Accumulators – Sundar Rajan Aravamuthan (Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore-560 012, India), Sampath Srinivasan (Inorganic and Physical Chemistry Department, Indian Institute of Science, Bangalore-560 012, India), and Ashok Kumar Shukla (Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore-560 012, India) 285 Effect of Carbon Additives On the 14:40 Microstructure and Conductivity of Primary Alkaline Battery Cathodes – Douglas R Nevers, Yuan Wen, Logan Robertson, and Dean R Wheeler (Brigham Young University) 286 Electrode Additives and the 15:00 Rechargeability of the Alkaline Manganese Dioxide Cathode – Scott W Donne and Mark R Bailey (University of Newcastle) 287 Electrochemical Characterization of Rare 15:20 Earth-Free Negative Electrodes for NickelMetal Hydride Battery Applications – Hiroshi Inoue, Norihiro Kotani, Masanobu Chiku, and Eiji Higuchi (Osaka Prefecture University) 15:40 Break 16:00 288 Role of Bismuth and Sulfide Additives On the Performance of Iron Electrodes in Rechargeable Alkaline Batteries – Aswin K Manohar, Chenguang Yang, Souradip Malkhandi, G K Surya Prakash (Loker Hydrocarbon Research Institute, University of Southern California), and S R Narayanan (Department of Chemistry, Loker Hydrocarbon Research Institute, University of Southern California, Los Angeles, CA) 16:20 289 Fluorine Doped (Sn,Ru)O2 electroCatalysts for Oxygen Evolution Reaction (OER) in PEM Based Water Electrolysis – Karan Sandeep Kadakia, Prashant N Kumta, Moni Kanchan Datta, and Oleg I Velikokhatnyi (University of Pittsburgh)

16:40

290

17:00

291

17:20

292

283

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

B2

Understanding the Performance of Transition Metal Oxide-Carbon Composite Catalysts in Air Electrodes for MetalAir Batteries and Alkaline Fuel Cells – Souradip Malkhandi, Phong Trinh, Aswin K Manohar, K C Jayachandrababu (Loker Hydrocarbon Research Institute, University of Southern California), A Kindler (Jet Propulsion Laboratory, California Institute of Technology), G K Surya Prakash (Loker Hydrocarbon Research Institute, University of Southern California), and S R Narayanan (Department of Chemistry, Loker Hydrocarbon Research Institute, University of Southern California, Los Angeles, CA) Preparation of Perovskite Type Oxide Thin-Films As Oxygen Electrodes By Pulsed Laser Deposition Method and Their Electrochemical Properties – Yuuto Miyahara, Kohei Miyazaki, Tomokazu Fukutsuka, and Takeshi Abe (Graduate School of Engineering, Kyoto University) Doped MnO2-Based Oxygen Reduction and Evolution Catalysts for Bifunctional Cathodes in Alkaline Electrochemical Power Sources – Pooya Hosseini Benhangi (Department of Chemical and Biological Engineering, The University of British Columbia, Clean Energy Research Center, The University of British Columbia), Akram Alfantazi (Department of Materials Engineering, The University of British Columbia,), and Elod Gyenge (Clean Energy Research Center, The University of British Columbia, Department of Chemical and Biological Engineering, The University of British Columbia)

Battery Chemistries Beyond Lithium Ion Battery / Energy Technology Yosemite B, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Sodium-ion Batteries - Electrolytes – 08:00 – 11:00 Co-Chair(s): Sanja Tepavcevic and Alexandre Ponrouch 08:00

381

08:20

382

08:40

383

Electrochemical Characterizations of Na2FeP2O7 As An Aqueous Sodium-Ion Battery Electrode – Young Hwa Jung, Chek Hai Lim, and Do Kyung Kim (KAIST) Flower-Like K027MnO2 As Cathode Materials for High-Performance Aqueous Sodium-Ion Batteries – Yang Liu, Yun Qiao, Wuxing Zhang, and Yunhui Huang (School of Materials Science and Engineering, Huazhong University of Science and Technology) High Energy Density Na-Ion Batteries Through Electrolyte Optimization – Alexandre Ponrouch (ICMAB-CSIC), Rémi Dedryvère (IPREM-ECP), Damien Monti (ICMAB-CSIC, Chalmers University of Technology), Patrik Johansson (Chalmers University of Technology), Laurence Croguennec (ICMCB-CNRS), Christian Masquelier (University of Picardie Jules-Verne), and María Rosa Palacín (ICMAB-CSIC)

95

Tuesday, October 29

Aqueous Systems – 14:00 – 17:40


09:00

384

Tuesday, October 29

09:20 385 09:40

10:00

386

10:20

387

10:40

388

Solvation of Li+ and Na+ in Cyclic and Linear Carbonate Based Battery Electrolytes – Erlendur Jónsson and Patrik Johansson (Chalmers University of Technology) Break New Salts for Sodium-Ion Batteries – Anna Plewa-Marczewska (Warsaw University of Technology Faculty of Chemistry, ALISTORE-European Research Institute Fédération de Recherche CNRS n°3104), Krystian Michalczewski, Malgorzata Bystrzycka, Tomasz Trzeciak (Warsaw Uniwersity of Technology Faculty of Chemistry), Anna Bitner-Michalska, Maciej Dranka, Grazyna Zofia Zukowska, Marek Marcinek, and Wieczorek Wieczorek (Warsaw University of Technology Faculty of Chemistry) Intermediate Temperature Molten Salts for Use in Na-Based Liquid Metal Batteries – Brian L Spatocco, Kimberly Aziz, Paul J Burke, and Donald R Sadoway (MIT) Characterization of Layered Transition Metal Oxide Na-Ion Battery Cathode in a Neutral Aqueous Electrolyte – Kevin Jerome Frankforter (Department of Electrical & Computer Engineering, University of Wisconsin - Madison, Environmental Chemistry and Technology Program, University of Wisconsin Madison) and Marc Arlen Anderson (Environmental Chemistry & Technology Program, University of Wisconsin Madison, Electrochemical Processes Unit, IMDEA Energy) New Sodium Ion Conducting Solid Electrolytes Based Upon Mixed Glass Formers – Steve W Martin, Christian Bischoff (Iowa State University), and Randilynn Christensen (University of Manitoba)

09:50

392

10:10 10:30 393

11:00

394

11:20

395

11:40

396

Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square Lithium Air Batteries 1 – 08:00 – 12:00 Co-Chair(s): K. M. Abraham and Jagjit Nanda 08:00

08:40

09:20

96

389

390

391

Is There Life in the Li-Air(O2) Battery? – Yuhui Chen (University of St Andrews), Stefan Freunberger (Graz University of Technology), Lee Johnson, Muhammed Musthafa Ottakam Thotiyl, Zhangquan Peng, and Peter Bruce (University of St Andrews) Quantifying the Promise of Beyond Lithium-Ion Technologies – Kevin G Gallagher (Argonne National Laboratory), Tom Greszler, Steve Goebel, Mark Mathias (General Motors), and Venkat Srinivasan (Lawrence Berkeley National Laboratory) Elucidating the Origins of Limited Rechargeability in Li-O2 Batteries – Bryan D McCloskey, Alan C Luntz, and Alexia Valery (IBM)

Understanding the Electrochemistry of Oxygen in Non-Aqueous Electrolytes – Jakub S Jirkovsky, Dusan Strmcnik, Ram Subbaraman, Gustav K H Wiberg (Argonne National Laboratory), Vojislav R Stamenkovic (Argonne National Lab), and Nenad M Markovic (Argonne National Laboratory) Break Holistic View On Chemical Processes in Li-O2 Battery Based On Operando Spatiotemporal Investigation – Di-Jia Liu, Jianglan Shui, John Okasinski, Jon Almer, and Peter Kenesei (Argonne National Lab) Electrochemically-Driven Transition of Crystallization Morphologies in Li-O2 Batteries – Birger Horstmann (German Aerospace Center, University of Stuttgart), Robert R Mitchell, Betar M Gallant (Massachusetts Institute of Technology), Arnulf Latz (Institute of Technical Thermodynamics, German Aerospace Center (DLR), Stuttgart, Germany, Helmholtz Institute for Electrochemical Energy Storage Ulm, Germany), Wolfgang G Bessler (Offenburg University of Applied Sciences), Yang Shao-Horn, and Martin Z Bazant (Massachusetts Institute of Technology) Characterization and Predictions of DualFunctioning Electrodes/Electrocatalysts for Rechargeable Lithium-Oxygen Batteries – Lynn Trahey, Zhenzhen Yang, Victor A Maroni (Chemical Sciences and Engineering Division, Argonne National Laboratory), Maria K Y Chan (Nanoscience and Technology Division, Argonne National Laboratory), Yang Ren (X-ray Science Division, Argonne National Laboratory), Scott Kirklin, Chris Wolverton (Materials Science and Engineering Department, Northwestern University), and Michael M Thackeray (Chemical Sciences and Engineering Division, Argonne National Laboratory) Visualization of O2 On Aqueous Li-Air Battery By Using Microfocus X-Ray CT – Suguru Uemura, Shohji Tsushima (Tokyo Institute of Technology), Nobuyuki Imanishi (Mie University), and Shuichiro Hirai (Tokyo Institute of Technology)

Yosemite B, Tower 2, Ballroom Level, Hilton San Francisco Union Square Sodium-ion Batteries - Cathodes 2 – 13:00 – 16:40 Co-Chair(s): Marca Doeff 13:00

397

High-Power and High-Capacity Na-Ion Full Cells – Sanja Tepavcevic, Christopher Johnson, and Tijana Rajh (Argonne National Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


13:40

398

399

14:00

400

14:20

401

14:40 15:00 402

15:20

403

Thermal Stability of NaCrO2 for Rechargeable Sodium Batteries: Studies By Differential Scanning Calorimetry, and High-Temperature X-Ray Diffraction – Naoaki Yabuuchi (Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, Tokyo University of Science), Issei Ikeuchi, Kei Kubota (Tokyo University of Science), and Shinichi Komaba (Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, Tokyo University of Science) Low Cost Na-Ion Batteries With Long Cycle Life for Electrical Grid-Scale Applications – Xiaolin Li, Birgit Schwenzer, Zimin Nie, Daiwon Choi, Wei Wang, Meng Gu, Chongmin Wang, Jun Liu, and Vincent Sprenkle (Pacific Northwest National Laboratory) Electrochemical Properties and Thermal Characteristics of Feof Cathode for NaIon Batteries – Liwei Zhao (Institute for Materials Chemistry and Engineering, Kyushu University), Ayuko Kitajou (Elements Strategy Initiative for Catalysts and Batteries (ESICB), Kyoto University), and Shigeto Okada (Kyushu University) Sidorenkite (Na3MnPO4CO3), a New Intercalation Cathode Material for NaIon Batteries – Hailong Chen, Qing Hao (Massachusetts Institute of Technology), Olivera Zivkovic (Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA), Geoffroy Hautier (Massachusetts Institute of Technology), Lin-Shu Du (Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA), Yuanzhi Tang (Georgia Institute of Technology), Yan-Yan Hu (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Xiaohua Ma (Massachusetts Institute of Technology), Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK, Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA), and Gerbrand Ceder (Massachusetts Institute of Technology) Break Vanadium-Based Nasicon Cathode Materials with Enhanced Performance for Sodium Ion Batteries – Chad W Mason, Irina Gocheva, Harry Hoster (TUM CREATE), and Dennis YW Yu (TUM CREATE, Energy Research Institute @ NTU) NaCrO2 Cathode for Rechargeable Sodium Ion Batteries – Seung-Taek Myung, ChanYeop Yoo (Sejong University), and Y-K Sun (Hanyang University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

15:40

404

16:00

405

16:20

406

New Insights Into the Kinetics of Na Insertion and Extraction Into the FePO4/ NaFePO4 System – Damien Saurel, Mathilde Lepoitevin Jr, Montserrat Casas-Cabanas, Montserrat Galceran, Begoña Acebedo, and Teófilo Rojo (CIC energiGUNE) Preparation and Electrochemical Performance of Carbon Coated Na3(VO)2(PO4)2 F – Paula Serras, Veronica Palomares (Universidad del Pais Vasco (UPV)), Pierre Kubiak (CIC energiGUNE), Luis Lezama (Universidad del Pais Vasco (UPV)), and Teófilo Rojo (CIC energiGUNE, Universidad del Pais Vasco (UPV)) Phase Transition Behavior of NaCrO2 During Sodium Extraction Studied By Synchrotron-Based X-Ray Diffraction and Absorption – Yongning Zhou (Brookhaven National Lab), Xiao-Qing Yang (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), JingJing Ding (Fudan University), Kyung-Wan Nam (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), Xi-Qian Yu, Seong-Min Bak, EnYuan Hu (Brookhaven National Lab), Jue Liu (Brookhaven National Lab), Jian-Ming Bai (Brookhaven National Lab), Hong Li (Institute of Physics, Chinese Academy of Sciences), and Zheng-Wen Fu (Fudan University)

Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square Lithium Air Batteries 2 – 13:20 – 17:00 Co-Chair(s): Christopher Johnson and Kevin G. Gallagher 13:20

14:00

407

14:20

408

14:40

409

Battery Division Research Award address - Prof Doron Aurbach On the challenge of developing rechargeable Li-air batteries: Is it real Carbon-Free Cobalt Oxide Cathodes With Tunable Nanoarchitectures for Rechargeable Lithium-Oxygen Batteries – Jong-Won Lee, Kyu-Nam Jung, Ahmer Riaz (Korea Institute of Energy Research), Seung-Bok Lee, Tak-Hyoung Lim, SeokJoo Park, Rak-Hyun Song (Fuel Cell Research Center, Korea Institute of Energy Research), and Kyung-Hee Shin (Korea Institute of Energy Research) Nitrogen-Doped Carbon Nanoweb As Metal-Free Catalysts for Hybrid Li-Air Batteries – Longjun Li (the University of Texas at Austin) and Arumugam Manthiram (The University of Texas at Austin) Electrochemical Reduction of Oxygen in Organic Solvents With and Without Li+ Cation – Effect of Oxygen Supply – Xiao Jie (National Institute for Materials Science) and K Uosaki (National Institute for Materials Science (NIMS))

97

Tuesday, October 29

13:20


15:00

410

15:20 15:40 411

412

16:20

413

Tuesday, October 29

16:00

16:40

B4

414

Reaction and Transport in Gas Diffusion Electrodes of Li-O2 Batteries: Experiments and Modeling – Timo Danner (Offenburg University of Applied Sciences, Helmholtz-Institute Ulm for Electrochemical Energy Storage (HIU)), Birger Horstmann (Helmholtz-Institute Ulm for Electrochemical Energy Storage (HIU)), Dennis Wittmaier, Norbert Wagner (German Aerospace Center (DLR), Institute of Technical Thermodynamics), and Wolfgang G Bessler (Offenburg University of Applied Sciences) Break Characterization of the Discharge Reaction Products in the Aqueous Li / O2 Cell – Masaki Matsui, Ayumi Wada, Yuya Maeda, Hirokazu Ohkuma, Osamu Yamamoto, and Nobuyuki Imanishi (Mie University) Combined DFT and Dems Study On the Role of CO2 Poisoning On the Electronic Conduction and Overpotentials in Li-Air Batteries – Tejs Vegge, Juan Maria Garcia-Lastra, Jonathan Højberg, Reza Younesi (Technical University of Denmark), Yedilfana Setarge Mekonnen (Department of Energy Conversion and Storage, Technical University of Denmark, Frederiksborgvej 399 Building 238, DK4000 Roskilde, Denmark), Jon S G Myrdal, Kristian B Knudsen (Technical University of Denmark), and Poul Norby (Department of Energy Conversion and Storage, Technical University of Denmark) Toward Efficiently Rechargeable Li-O2 Batteries Utilizing Lithium Nitrate Based Electrolytes – Wesley Thomas Walker, Vincent Giordani, Vyacheslav S Bryantsev, Jasim Uddin, Gregory V Chase, and Dan Addison (LIOX Power, Inc) The Role of Metal Catalysts in the Electrochemistry of the Lithium-Air Battery - a Solid State NMR Study – Amy J Moore, Michal Leskes (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Sarah Ball, Robert Potter (Johnson Matthey), and Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK)

556

09:20

557

09:40 10:00 558

10:20

559

10:40

560

11:00

561

11:30

562

Computational Science of Battery Materials

Battery / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Sutter Room, Tower 3, 6th Floor, Hilton San Francisco Union Square

Computation 1 – 08:25 – 12:10 Co-Chair(s): Kristin Persson and Shirley Meng 08:25 555 08:30

98

09:00

Welcoming Remarks Atomic-Level Characterization of Interfaces in LiCoO2 – Craig Andrew James Fisher, Shijian Zheng, Akihide Kuwabara, Hiroki Moriwake, Yumi H Ikuhara (Japan Fine Ceramics Center), Hideki Oki (Toyota Motor Corporation), and Yuichi Ikuhara (The University of Tokyo, Japan Fine Ceramics Center)

Thermodynamic Theory and Simulation of Transport and Intercalation of Solvated Ions in Li Ion Batteries – Arnulf Latz (Helmholtz Institute for Electrochemical Energy Storage Ulm, Germany, Institute of Technical Thermodynamics, German Aerospace Center (DLR), Stuttgart, Germany) and Jochen Zausch (Fraunhofer Institute for Industrial Mathematics, Kaiserslautern, Germany) Lithium Segregation Induced Structure and Strength Change At Amorphous-Si/ Cu Interface – Maria E Stournara (Brown University), Xingcheng Xiao, Yue Qi (General Motors R&D Center), Priya Johari (Brown University, Shiv Nadar University), Peng Lu (General Motors R&D Center), Brian W Sheldon, Huajian Gao (Brown University), and Vivek B Shenoy (UPenn, Brown University) Break Comparison of Phase Stability in Layered NaCrO2 and LiCrO2 Oxides By FirstPrinciples DFT Calculations – Hiromasa Shiiba, Shota Hotta, Tomoaki Nakamura, Suguru Chizawa (Nagoya Institute of Technology), Masanobu Nakayama (Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, Nagoya Institute of Technology), Naoaki Yabuuchi (Tokyo University of Science, Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University), and Shinichi Komaba (Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, Tokyo University of Science) Computational Modeling of the LayerSpinel Interface Properties for Cathode Materials in Lithium Ion Batteries – Danna Qian (University of California, San Diego) and Shirley Meng (University of California San Diego) First-Principles Calculations Study On the Electrochemical Activity and Structural Stability of the Li2MnO3 – Eunseok Lee and Kristin Persson (Lawrence Berkeley National Laboratory) Combining First Principles Computation and Advanced Characterization to Understand Disorder and Interfaces in Batteries – Maria K Y Chan (Nanoscience and Technology Division, Argonne National Laboratory) First-Principles Study On Doping and Defect Chemistry in LiCoO2 – Yukinori Koyama, Hajime Arai (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Isao Tanaka (Department of Materials Science and Engineering, Kyoto University), Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University), and Zempachi Ogumi (Office of SocietyAcademia Collaboration for Innovation, Kyoto University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


563

First Principles Modeling of the Interface Between a Solid State Lithium Thiophosphate Electrolyte and a Lithium Metal Anode – Natalie A W Holzwarth and Nicholas D Lepley (Department of Physics, Wake Forest University)

B5

Electrochemical Capacitors: Fundamentals to Applications Battery / Energy Technology Union Square 19/20, Tower 3, 4th Floor, Hilton San Francisco Union Square

Computation 2 – 14:00 – 18:10 Co-Chair(s): Yue Qi and Yukinori Koyama

Electrode Materials 1 – 08:00 – 10:00 Co-Chair(s): Scott W. Donne and Frederic Favier

14:00

564

08:00

613

14:30

565

08:40

614

14:50

566

09:00

615

09:20

616

15:10

567

15:30 15:50 568

16:10

569

16:30

570

16:50

571

17:10

572

17:30

573

17:50

574

Integrating State of Charge (SOC) Dependent Material Properties Into LiIon Battery Failure Modeling – Yue Qi (General Motors R&D Center) Computational Thermodynamics for Material Design of Energy Storage Materials – Torsten Markus (Forschungszentrum Jülich GmbH) Application of the Reaxff Reactive Force Field in Li-Based Rechargeable Batteries – Md Mahbubul Islam and Adri C T van Duin (The Pennsylvania State University) Parameterization of a Physico-Chemical Model for Lithium-Ion Batteries – Madeleine Ecker, Stefan Käbitz, Dung Tran, and Dirk Uwe Sauer (Aachen University - ISEA) Break First-Principles Thermodynamic Analysis of Hydrogen‑fluoride Scavenging Cathode Coatings for Lithium-Ion Batteries – Muratahan Aykol (Northwestern University) and Chris Wolverton (Materials Science and Engineering Department, Northwestern University) Computational Study On the Properties and Kinetic Behavior of Carbon-Based Li-Ion Batteries Electrolytes Solvents, Unraveling Their Differences – Alexander Goldberg, Mathew D Halls (Schrodinger Inc), and Ken Tasaki (Mitsubishi Chemical USA) Influence of Morphology and Microstructure On the Lithium-Ion Battery Electrode Damage Behavior – Pallab Barai and Partha P Mukherjee (Texas A&M University) Analysis of Long-Range Interaction in Lithium-Ion Battery Electrodes – Malcolm Stein IV, Seongkoo Cho (Texas A&M University), Andreas Wiegmann (Math2Market GmbH, Kaiserslautern, Germany), and Partha P Mukherjee (Texas A&M University) Optimization of Tab Placement in Li-Ion Battery Using Multi-Physics Simulations – Srikanth Allu, Wael Elwasif, Sreekanth Pannala, Sergiy Kalnaus, Srdjan Simunovic, and John A Turner (Oak Ridge National Laboratory) Analysis of the Influence of Microstructures On the Impedance Response in Lithium-Ion Battery Electrodes – Seongkoo Cho and Partha P Mukherjee (Texas A&M University) Lithium and Rare-Earth Oxides Thermodynamics and Kinetics Studied By Density Functional Theory – Frank Grosse (Paul-Drude-Institut für Festkörperelektronik)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

09:40

Pseudocapacitive Charge Storage in TwoDimensional Materials – Guillaume Muller and Bruce Dunn (University of California - Los Angeles) Cycle Behavior of Aqueous and Nonaqueous Vanadium Oxide Electrochemical Capacitors – Allison M Engstrom and Fiona M Doyle (Department of Materials Science and Engineering, University of California, Berkeley) Screening of Transition Metal Nitride As Possible Electrodes for Electrochemical Capacitors – Jean-Francois Pierson, Said Bouhtiyya (Institut Jean Lamour), Raul Lucio Porto (Institut des Matériaux de Nantes), Etienne Eustache (IRCICA CNRS USR 3380 – Université Lille 1 (Fr)), Fabien Capon (Institut Jean Lamour), and Thierry Brousse (IMN JR CNRS UMR 6502 – Université de Nantes (Fr)) Pretreatment Effects On Charge Storage of Early Transition-Metal Carbides and Nitrides – Abdoulaye Djire, Priyanka Pande, Alice Sleightholme, Aniruddha Deb, James Penner-Hahn, Paul Rasmussen, and Levi T Thompson (University of Michigan) Break

MnO2-based Electrodes – 10:00 – 12:00 Co-Chair(s): Bruce Dunn and Masaharu Nakayama 10:00

10:20

617 MnO2 - Carbon Nanofiber Composites for Flexible supercapacitors – Ouassim Ghodbane (Institut National de Recherche et d’Analyse Physico-chimique, Laboratoire des Matériaux Utiles, Tunis, Tunisia), Melanie Louro, Laura Coustan, Alexandra Patru (Institut Charles Gerhardt Montpellier UMR 5235 CNRS,Université Montpellier 2, Montpellier, France, Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), and Frederic Favier (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France, Institut Charles Gerhardt Montpellier UMR 5235 CNRS,Université Montpellier 2, Montpellier, France) 618 Electrochemically Deposited Phosphotungstic Acid – Manganese Dioxide Hybrid Materials for Application in Electrochemical Capacitors – Scott W Donne and Andrew J Gibson (University of Newcastle)

99

Tuesday, October 29

11:50


10:40

Tuesday, October 29

11:00

619

620

11:20

621

11:40

622

High Areal Capacitance MicroSupercapacitor Based On Electrodeposited MnO2 Thin Films On Silicon 3D Microstructures – Etienne Eustache (IMN JR CNRS UMR 6502 – Université de Nantes (Fr), IEMN CNRS UMR 8520 – Université Lille 1 (Fr)), Pascal Tilmant, Laurence Morgenroth, Malek Zegaoui (IEMN CNRS UMR 8520 – Université Lille 1 (Fr)), Camille Douard (IMN JR CNRS UMR 6502 – Université de Nantes (Fr)), Christophe Lethien (IEMN CNRS UMR 8520 – Université Lille 1 (Fr)), and Thierry Brousse (IMN JR CNRS UMR 6502 – Université de Nantes (Fr)) Fabrication of Novel Hierarchical Hollow Manganese Oxide Nanospheres for High-Voltage Stability Supercapacitors in Aqueous Electrolyte – Yu-Ting Weng, Hsiao-An Pan, Rung-Chuan Lee, and Nae-Lih Wu (Department of Chemical Engineering, National Taiwan University) Electrochemical Performance of Carbon / MnO2 Nanocomposites Prepared Via Molecular Bridging – Claudia RamirezCastro, Olivier Crosnier, Laurence Athouël (CNRS-IMN), Richard Retoux (CRISMATCNRS), Daniel Bélanger (Département Chimie, Université du Québec à Montréal), and Thierry Brousse (IMN JR CNRS UMR 6502 – Université de Nantes (Fr)) Cathodically-Grown MnO2 Layers for Pseudocapacitance and Photon-Electron Conversion – Masaharu Nakayama, Hikaru Abe, Shunsuke Mito, and Takahiro Tanimoto (Yamaguchi University)

Devices 3 – 14:00 – 16:00 Co-Chair(s): Wataru Sugimoto and Olivier Crosnier 14:00

14:20

100

623

624

Fabricating and Testing 100 F Electrochemical Capacitors: Case Capacitor Prototyping Facility – Mirko Antloga (CASE WESTERN RESERVE UNIVERSITY), Robert F Savinell (Case Western Reserve University), Sue M Butler (JME, Inc), JOHN Dix, Todd Zeigler (JME, INC), and John R Miller (Case Western Reserve University) Knitted Electrochemical Capacitors for Applications in Wearable Electronics – Kristy Jost (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Luke M Haverhals, David P Durkin (US Naval Academy), John McDonough, Carlos R Perez (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Hugh C De Long (US Air Force Office of Scientific Research), Paul C Trulove (US Naval Academy), Genevieve Dion (Shima Seiki Haute Technology Laboratory, Excite Center, Drexel University), and Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University)

14:40

625

15:00

626

15:20

627

15:40

Comparing Symmetric and Asymmetric Electrochemical Capacitors: A Modeling Approach – John Staser (Ohio University) and John W Weidner (University of South Carolina) A Novel Mediator All-Solid-State Supercapacitor for Low-Temperature Application – Xiangyang Zhou (University of Miami) Leakage Current in High-Voltage Defibrillation Capacitors Mediated By Electrolyte Ions – Mark Edward Viste and Paul Brian Young (Medtronic, Inc) Break

Fundamental and Modelling – 16:00 – 18:00 Co-Chair(s): Yury Gogotsi and Patrice Simon 16:00

628

16:20

629

16:40

630

17:00

B6

Finite-Element Modeling of the Electric Double-Layer and Its Application to the Prediction of Supercapacitor Charging Dynamics – Ehsan Kabiri Rahani (University of Pennsylvania), Carlos R Perez (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Majid Beidaghi (Drexel University), Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), and Vivek B Shenoy (UPenn) Dependence of Electric Double Layer Capacitance On Ionic Liquid Structure and Electrode Nanostructure and Polarity – Dmitry Bedrov (The University of Utah) and Jenel Vatamanu (University of Utah) Moving Reaction Fronts in Supercapacitors With Pseudocapacitance – Thomas Kadyk and Michael Eikerling (Simon Fraser University) Panel Discussion

Electrochemical Synthesis of Fuels 2

High Temperature Materials / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Union Square 1/2, Tower 3, 4th Floor, Hilton San Francisco Union Square

Electrochemical Conversion of CO2 to Fuels – 08:00 – 12:00 Co-Chair(s): Gessie Brisard and Xiao-Dong Zhou 08:00

695

08:40

696

(Invited) Reversible Potentials for Adsorbed Intermediates During Methanol and Formic Acid Electrooxidation On Platinum Implications for Fuel Cells and Carbon Dioxide Reduction – Alfred B Anderson and Haleema Asiri (Case Western Reserve University) Electrochemical Reduction of CO2 Using Supported Cu2O Nanoparticles – Gregory L Griffin (Louisiana State University, Center for Atomic-Level Catalyst Design) and Joel Bugayong (Louisiana State University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


The Effect of Support Materials On the Electrocatalytic Activity of Ag for the Reduction of CO2 to CO – Sichao Ma (Department of Chemistry, University of Illinois at Urbana-Champaign), Yangchun Lan, and Paul JA Kenis (Department of Chemical & Biomolecular Engineering, University of Illinois at UrbanaChampaign) 09:20 698 Diamond Nanotextures Decorated With Copper Nanoparticle for Efficient CO2 Reduction in Ionic Liquid – Nianjun Yang, Fang Gao, Rene Hoffmann, Georgia Lewes-Malandrakis, and Christoph E Nebel (Fraunhofer IAF) 09:40 Break 699 (Invited) Electrochemical Conversion of 10:00 CO2 to Useful Products – Arun S Agarwal, Edward Rode, Davion Hill, Shan Guan, and Narasi Sridhar (Det Norske Veritas (USA), Inc) 10:40 700 Electrochemical Reduction of Carbon Dioxide Over Tin Oxide Nanocrystals – Sheng Zhang, Peng Kang, Na Song, Alexander M Lapides, Ralph House, and Thomas Meyer (The University of North Carolina at Chapel Hill) 11:00 701 Method Development for Quantification of Activity of Carbon-Supported Cu Nanoparticles Toward CO2 Electroreduction – Monica Padilla (University of New Mexico), Zhichao Wang (Michigan technological University), Albert Epshteyn (Naval Research Laboratory), Wenzhen Li (Michigan technological University), and Olga A Baturina (Naval Research Laboratory) 11:20 702 High catalytic Cu electrode for CO2 electroreduction from combined sphericity and nanorod surface structure induced by thermal process and pre-electroreduction – Jinli Qiao (Donghua University) 11:40 703 CO2 Electroreduction to Valuable Chemicals: State-of-the-Art Materials and Processes – Amin Taheri Najafabadi (The University of British Columbia) 697

15:00

707

15:20

708

15:40 16:00 709

16:20

710

16:40

711

17:00

712

17:20

713

Electrochemical Synthesis of Hydrogen – 14:00 – 18:00 Co-Chair(s): John Staser and William E. Mustain 14:00

704

14:20

705

14:40

706

Catalyst Nanoparticles From a Genetic Algorithm – Jon S G Myrdal, Steen Lysgaard, and Tejs Vegge (Technical University of Denmark) Water Electrolysis With a Homogeneous Catalyst in An Electrochemical Cell – Christopher Bonino (RTI International), Javier Concepcion (The University of North Carolina at Chapel Hill), James Trainham (RTI International), Thomas Meyer (The University of North Carolina at Chapel Hill), and John Newman (RTI International) Magnetically Enhanced Hydrogen Evolution Reaction (HER) On NonCatalytic Electrodes – Krysti L Knoche, Heung Chan Lee (University of Iowa), and Johna Leddy (The University of Iowa)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Electrochemical Deposited Manganeseand Cobalt-Oxides As Catalysts for Water Oxidation – Peter Bogdanoff, Philipp Hillebrand, Andreas Kratzig, Alejandra Ramirez-Caro, Klaus Ellmer, Roel van De Krol, and Sebastian Fiechter (Helmholtz Center Berlin, Institute for Solar Fuels) Cucl/HCl Electrolyzer Kinetics for Hydrogen Production Via Cu-Cl Thermochemical Cycle – Derek M Hall, Rich S Schatz, Eric G LaRow (Department of Energy and Mineral Engineering, EMS Energy Institute), and Serguei N Lvov (Department of Energy and Mineral Engineering, Department of Materials Science and Engineering) Break Copper Delafossite Anode for Water Electrolysis – Reiko Hinogami (Advanced Technology Research Laboratories, Panasonic corporation), Kenji Toyoda (Advanced Technology Research Laboratories, Panasonic corporation,), Masato Aizawa, Takashi Kawasaki, and Hisaaki Gyoten (Advanced Technology Research Laboratories, Panasonic corporation) Electrochemical Hydrogen Separation Via Solid Acid Membranes – Alexander B Papandrew, David L Wilson, Thomas A Zawodzinski (University of Tennessee), Gabriel Goenaga (university of tennessee at knoxville), and Samantha A Hawks (University of Tennessee) Electrocatalytic Oxygen Evolution Reaction on Iridium Oxide Model Film Catalysts: Influence of Oxide Type and Catalyst Substrate Interactions – Tobias Reier (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Technical University Berlin, Germany), Inez Weidinger, Peter Hildebrandt (Technical University Berlin, Department of Chemistry, Berlin, Germany), Ralph Kraehnert, and Peter Strasser (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Technical University Berlin, Germany) Activity and selectivity for O2 reduction to H2O2 on transition metal surfaces – Samira Siahrostami, Arnau VerdaguerCasadevall, Mohammadreza Karamad, Ib Chorkendorff, Ifan Erfyl Lester Stephens, and Jan Rossmeisl (Technical University of Denmark) Graphene Supported MnO2 Nanowires for Enhanced Water Oxidation in Both Alkaline and Neutral Solutions – Weiyong Yuan and San Ping Jiang (Fuels and Energy Technology Institute and Department of Chemical Engineering, Curtin University)

101

Tuesday, October 29

09:00


17:40

B7

714

Effects of Transition Metal-Based Catalysts On the Hydrogen Permeability of V Membranes – Keun-Woo Cho (Samsung Advanced Institute of Technology, Samsung Advanced Institute of Technology), Kwang-Hee Kim, KyoungSeok Moon, Hyeon-Cheol Park, Eun-Seog Cho, and Sang-Mock Lee (Samsung Advanced Institute of Technology)

15:00

774

15:20

775

15:40

776

High Temperature Experimental Techniques and Measurements

High Temperature Materials / Energy Technology / Physical and Analytical Electrochemistry Union Square 17/18, Tower 3, 4th Floor, Hilton San Francisco Union Square

Tuesday, October 29

High Temperature Thermodynamic Measurements – 09:00 – 11:00 Co-Chair(s): Torsten Markus and Alexandra Navrotsky 09:00

767

09:40

768

10:00

769

10:20

10:40

770

771

Novel Applications of Knudsen Effusion Mass Spectrometry – Nathan Jacobson (NASA Glenn Research Center), Joel Hurowitz (Jet Propulsion Laboratory), Ken Farley, Paul Asimow, and Julia Cartwright (California Institute of Technology) Thermal Analysis of LaAlO3 and Y2O3 Melting – Sergey V Ushakov and Alexandra Navrotsky (University of California, Davis) Facing New Challenges for High Temperature Processes – Michael Auinger (Max-Planck-Institut fuer Eisenforschung GmbH, Christian Doppler Laboratory for Diffusion and Segregation), Alexandra Vogel, Dirk Vogel (Max-Planck-Institut fuer Eisenforschung GmbH), and Michael Rohwerder (Christian Doppler Laboratory for Diffusion and Segregation, MaxPlanck-Institut fuer Eisenforschung GmbH) Mass Spectrometric Study of the Ln-LnI3 (Ln = La, Ce) Systems – Dmitry Ivanov, Dmitry Sergeev, Anatoliy Dunaev, Lev Kudin, and Mikhail Butman (Ivanovo State University of Chemistry and Technology) Potential of Knudsen Effusion Mass Spectrometry (KEMS) for Thermo Chemical Studies in Materials Science – Torsten Markus (Forschungszentrum Jülich GmbH)

High Temperature Spectroscopy – 14:00 – 18:00 Co-Chair(s): Robert A. Walker and Wilson K. S. Chiu 14:00

772

14:40

773

102

In Situ Optical Studies of Solid Oxide Fuel Cells – Jeffrey C Owrutsky, Michael B Pomfret (Naval Research Laboratory), Daniel A Steinhurst (Nova Research, Inc), John Kirtley, and Robert A Walker (Montana State University) Laser Raman Microscopy Study of the Transition From High Temperature Alloy Passivation to Breakaway Oxidation – David John Young, Thomas Gheno (University of New South Wales), and Daniel Monceau (ENSIACET)

16:00 16:20 777

17:00

778

17:20

779

17:40

780

In Situ spectroscopic Insights Into Methane Fuel Oxidation in Ni/YSZ Solid Oxide Fuel Cells – John Kirtley (Montana State University), Michael B Pomfret (Naval Research Laboratory), Daniel A Steinhurst (Nova Research, Inc), Jeffrey C Owrutsky (Naval Research Laboratory), and Robert A Walker (Montana State University) Effect of H2s On Ni-YSZ SOFC Anodes: A Combined in Situ Raman SpectroscopyImpedance Spectroscopy Study – Hai Ha Mai Thi, Nicolas Sergent, and Thierry Pagnier (LEPMI) Low Temperature Lanthanum Strontium Ferrite Thin Film Stress and Oxygen Surface Exchange Coefficient Measurements – Qing Yang, Richard R Lunt, and Jason D Nicholas (Michigan State University) Break Probing Surface and Bulk States of Cathode Materials With SynchrotronBased Soft X-Rays in a Functioning Solid Oxide Fuel Cell – Anthony McDaniel (Sandia National Labs), William C Chueh (Department of Materials Science and Engineering, Stanford University), Andrey Shavorskiy, Tolek Tyliszczak (Advanced Light Source, Lawrence Berkeley National Laboratory), Hendrik Bluhm (Lawrence Berkeley National Laboratory), Kevin McCarty (Sandia National Labs), and Farid El Gabaly (Materials Physics Department, Sandia National Laboratories) Observation of Nickel Oxidation Using Transmission X-ray Microscopy – Andrew M Kiss, William M Harris, Arata Nakajo (University of Connecticut), Steve Wang, Joan Vila-Comamala, Alex Deriy (Argonne National Lab), and Wilson K S Chiu (Department of Mechanical Engineering, University of Connecticut) Investigating Solid Oxide Fuel Cell Cathode Degradation Via Operando X-Ray Absorption Spectroscopy – Samson Yuxiu Lai, Mingfei Liu, Meilin Liu, and Faisal M Alamgir (School of Materials Science and Engineering, Georgia Institute of Technology) In Situ Measurements of Overpotentials and Surface Species With XPS On Ni/GDC Electrode in Solid Oxide Electrochemical Cells – Gregory S Jackson (Colorado School of Mines), Lei Wang (University of Maryland), Yi Yu, Aaron I Geller (Department of Chemistry and Biochemistry, University of Maryland), Hendrik Bluhm (Lawrence Berkeley National Laboratory), and Bryan W Eichhorn (Department of Chemistry and Biochemistry, University of Maryland)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


10:40

809

11:00

810

11:20

811

11:40

812

Battery / Industrial Electrochemistry and Electrochemical Engineering Imperial A, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Layered Transition Metal Oxides and Composites 1 – 08:20 – 12:00 Co-Chair(s): Martin Winter and Yuki Orikasa 08:20

803

08:40

804

09:00

805

09:20

806

09:40 10:00 807

10:20

808

Bulk Sample Phase Diagrams of LiMn-Ni-O Positive Electrode Materials – Aaron W Rowe (Dept of Chemistry, Dalhousie University), Eric McCalla, Luke R P Hacquebard (Dept of Physics and Atmospheric Science, Dalhousie University), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University, Dept of Chemistry, Dalhousie University) Consequences of the Li-Mn-Ni-O Phase Diagram On the Synthesis of Positive Electrode Material – Eric McCalla (Dept of Physics and Atmospheric Science, Dalhousie University), Aaron W Rowe (Dept of Chemistry, Dalhousie University), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) The Role of Metal Site Vacancies in Layered Li-Mn-Ni-O Solid Solution – Eric McCalla (Dept of Physics and Atmospheric Science, Dalhousie University), Aaron W Rowe, John Camardese (Dept of Chemistry, Dalhousie University), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) Composition Dependence of Local, Average and Electronic Structures and Thermodynamic Stability for Xli(Li1/3Mn2/3)O2-(1-x)Li(Mn1/3Ni1/3Co1/3) O2 – Yasushi Idemoto, Masahiro Inoue, and Naoto Kitamura (Tokyo University of Science) Break Transformation Mechanisms in Composite xLi2M’O3•(1-x)LiMO2 Electrode Structures – Jason R Croy, Kevin G Gallagher (Argonne National Laboratory), Mahalingam Balasubramanian (Advance Photon Source, Argonne National Laboratory), Brandon R Long (University of Illinois, Urbana-Champaign), and Michael M Thackeray (Chemical Sciences and Engineering Division, Argonne National Laboratory) Measuring the Impact of Voltage Fade for Selected Li-Intercalating Layered Oxides – Martin Bettge, Yan Li, Kevin G Gallagher, Ye Zhu, Qingliu Wu, Wenquan Lu, Ira Bloom, and Daniel P Abraham (Argonne National Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Solid State NMR Studies of Li-Rich NMC Cathodes: Investigating Structure Change and Its Effect On Voltage Fade Phenomenon – Baris Key, Fulya Dogan, Jason R Croy, Michael Slater (Argonne National Laboratory), Mahalingam Balasubramanian (Advance Photon Source, Argonne National Laboratory), Yang Ren, Christopher Johnson, and John T Vaughey (Argonne National Laboratory) Unravelling the Behaviour of Layered X Li2MnO3 • (1-x) LiMO2 High Capacity Cathode Material Through Correlated Electrochemistry and Characterization of Single Particles – Dean J Miller, Christian Proff, JG Wen (Argonne National Laboratory, Electron Microscopy Center), and Lynn Trahey (Argonne National Laboratory) Lithium Magic-Angle Spinning Nuclear Magnetic Resonance Studies of Layered Composite Li2MnO3-LiMO2 (M=Mn, Ni, Co) Cathode Materials for Li-Ion Batteries: the Effect of Molten Salt Flux Synthesis – Tetiana Nosach, Mallory Gobet, Steven Greenbaum (Department of Physics and Astronomy, Hunter College of City University of New York), Edwin O Ortiz-Quiles, Jessica Soler, and William C West (Jet Propulsion Laboratory, California Institute of Technology) Surface Modified Li[Ni06Co02Mn02]O2 As a Positive Electrode for Rechargeable Lithium Batteries – Chang Heum Jo and Seung-Taek Myung (Sejong University)

Layered Transition Metal Oxides and Composites 2 – 14:00 – 18:00 Co-Chair(s): Guoying Chen and Steven Greenbaum 14:00

813

14:20

814

14:40

815

Lithium Rich Layered NMC Cathode Active Materials With Improved Performance for Li-Ion Batteries – Mehmet Nurullah Ates, Ankita Shah, Ahmed A Busnaina, Sanjeev Mukerjee, and KM Abraham (Northeastern University) Microstructural and Electrochemical Characterizations of Layered Li-Excess Nickel-Manganese Oxide As Li-Ion Battery Cathode Synthesized By Co-Precipitation and High-Temperature Calcination – NaeLih Wu, Wen-Chin Chen (Department of Chemical Engineering, National Taiwan University), Yen-Fang Song (National Synchrotron Radiation Research Center, Taiwan), Yijin Liu, Darius T Morris, Piero A Pianetta, Joy C Andrews (SLAC National Accelerator Laboratory, USA), and Hung-Chun Wu (Material and Chemical Research Laboratories, Industrial Technology Research Institute) Electrochemical Performance of Materials Synthesized By Flame-Assisted Spray Pyrolysis – Kuan-Yu Shen, Miklos Lengyel, Gal Atlas (Washington University in St Louis), Dror Elhassid, William Moller (X-Tend Energy, LLC), and Richard L Axelbaum (Washington University in St Louis)

103

Tuesday, October 29

B8

Intercalation Compounds for Rechargable Batteries


15:00

15:20

816

817

Tuesday, October 29

15:40 16:00 818

16:20

16:40

17:00

819

820

821

17:20

822

17:40

823

104

Effects of Na Doping On Li12Mn053Ni013Co013O2 Prepared Via Spray Pyrolysis – Miklos Lengyel, Gal Atlas, Kuan-Yu Shen, and Richard L Axelbaum (Washington University in St Louis) Synthesis and Characterization of Layered Lithium Manganese Oxides With Other Transition Metal Ions for High-Capacity Positive-Electrode Materials – Kingo Ariyoshi (Osaka City University, Brookhaven National Laboratory), Daisuke Washida (Osaka City University), Yongning Zhou (Brookhaven National Lab), Kyung-Wan Nam, Xiao-Qing Yang (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), and Tsutomu Ohzuku (Osaka City University) Break Characterization Techniques for Nickel, Manganese and Cobalt Containing Gradient Composition Materials – John Camardese (Dept of Chemistry, Dalhousie University), Eric McCalla, and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) Tailoring the Spinel Component of Composite ‘Layered-Layered-Spinel’ Electrodes – Brandon R Long (University of Illinois, Urbana-Champaign), Jason R Croy (Argonne National Laboratory), and Michael M Thackeray (Chemical Sciences and Engineering Division, Argonne National Laboratory) Electrochemical Properties of LiNi1/2M1/2O2-Li2MO3(M=Ti, Mn) Solid Solution – Hideyuki Noguchi (Saga University), Masataka Oyama (N/A), Hidenori Yamada, Wenwen Zhao, and Hiroyoshi Nakamura (Saga University) Understanding Limitations in LiNi1/3Co1/3Mn1/3O2 Electrode – Shao-Ling Wu (Lawrence Berkeley Lab) and Venkat Srinivasan (Lawrence Berkeley National Laboratory) Preparation of LiCoO2 Epitaxial Films On Single Crystal Substrates By SolGel Method – Taeri Kwon (National Institute for Materials Science (NIMS), Battery Materials Unit), Tsuyoshi Ohnishi (National Institute for Materials Science (NIMS), Battery Materials Unit, National Institute for Materials Science (NIMS), International Center for Materials Nanoarchitectonics (MANA)), and Kazunori Takada (National Institute for Materials Science (NIMS), International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science (NIMS), Battery Materials Unit) Site-Selective Analyses of Valence States in LiNiO2 by Resonant X-Ray Scattering – Tomoya Kawaguchi, Katsutoshi Fukuda, Masatsugu Oishi, Tetsu Ichitsubo (Kyoto University), Jun’ichiro Mizuki (Kwansei Gakuin University), and Eiichiro Matsubara (Kyoto University)

B9

Interfacial Phenomena in Battery Systems

Battery / Physical and Analytical Electrochemistry Golden Gate 6, Tower 3, Lobby Level, Hilton San Francisco Union Square

Interfacial Processes on Li-Ion Anodes 1 – 08:00 – 11:20 Co-Chair(s): Robert Kostecki and Yangchuan Xing 08:00

901

08:20

902

08:40

903

09:00

904

09:20

905

09:40 10:00 906

SEI Layer Formation On Si Anodes – Perla B Balbuena, Julibeth M Martinez de la Hoz, Yuguang Ma, Laura Espinoza, and Jorge M Seminario (Texas A&M University) Interfacial Processes On Single Crystal Si Electrodes in Organic Electrolytes – Ulrike S Vogl (Lawrence Berkeley National Laboratory, MEET Battery Research Center, University of Muenster), Simon Franz Lux (Lawrence Berkeley National Laboratory), Martin Winter (MEET Battery Research Center, University of Muenster), and Robert Kostecki (Lawrence Berkeley National Laboratory) In Situ Transmission Electron Microscopy Observation of Solid Electrolyte Interface Formation On Si Nanowire Electrode in the Li-Ion Battery Using Liquid Confining Cell – Akihiro Kushima and Ju Li (Massachusetts Institute of Technology) In Situ Observation of Single Silicon Particle During Charging and Discharging – Kei Nishikawa (National Institute for Materials Science), Hirokazu Munakata (Tokyo Metropolitan University), and Kiyoshi Kanamura (Tokyo Metropolitan University, National Institute for Materials Science) In Situ AFM Investigation of SEI Formation On Silicon Electrodes – Anton Tokranov (Brown University), Xingcheng Xiao (General Motors R&D Center), Chunzeng Li, Shephen Minne (Nano Surface Business, Bruker), and Brian W Sheldon (Brown University) Intermission Interphases and Interfaces: SEI Structure and Chemical Composition At Silicon Electrodes By Tof-SIMS and XPS – Kjell W Schroder (Materials Science and Engineering Program - The University of Texas at Austin, Department of Chemistry and Biochemistry - University of Texas at Austin), Anthony Greg Dylla (Department of Chemistry and Biochemistry University of Texas at Austin), Hugo Celio (Texas Materials Institute - The University of Texas at Austin), Lauren J Webb, and Keith J Stevenson (Department of Chemistry and Biochemistry - University of Texas at Austin)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


10:40

11:00

907

908

909

Ex Situ (TEM) and in Situ (EIS) Investigation of the Electrolyte Decomposition Layer in Silicon Electrodes for Li-Ion Batteries – Kristof Van Havenbergh (EMAT, University of Antwerp), Kris Driesen, Jean-Sébastien Bridel (Umicore Research), Stuart Turner (EMAT, University of Antwerp), Stijn Put (Umicore Research), and Gustaaf Van Tendeloo (EMAT, University of Antwerp) Near-Field IR Investigations of the Solid Electrolyte Interphase Layer On Sn – Maurice Ayache, Simon Franz Lux, Angelique Jarry, Jaroslaw Syzdek, and Robert Kostecki (Lawrence Berkeley National Laboratory) Interfacial Studies of Sn Thin Film Electrode in Electrolytes With Additives Using In Situ Electrochemical Quartz Crystal Microbalance-Dissipation (EQCM-D) – Zhenzhen Yang (Chemical Sciences and Engineering Division, Argonne National Laboratory), Lynn Trahey (Argonne National Laboratory), and Michael M Thackeray (Chemical Sciences and Engineering Division, Argonne National Laboratory)

Interfacial Processes on Li-Ion Anodes 2 – 14:00 – 17:40 Co-Chair(s): Yangchuan Xing and Robert Kostecki 14:00

14:20

14:40

910

911

912

15:00

913

15:20

914

15:40

Effect of Anion-Solvent Interaction On the Anodic Stability of Electrolytes in Batteries – Arthur Cresce (Electrochemistry Branch, U S Army Research Lab), Selena M Russell, and Kang Xu (US Army Research Laboratory) Electrochemical Activity of Tetragonal Tin in LiPF6-Based Organic Electrolytes – Jaroslaw Syzdek, Victor von Miller (Lawrence Berkeley National Laboratory), Ivan Lucas (Lawrence Berkeley National Laboratory, Universite Pierre et Marie Curie), and Robert Kostecki (Lawrence Berkeley National Laboratory) Interfacial Stabilization Enhances the Cycling Ability of Tin-Based Battery Anode – Myeong-Ho Choo (Graduate School of Green Energy Technology), Cao Cuong Nguyen (Chungnam National University), Sukhyun Hong (Graduate School of Green Energy Technology), Yo Han Kwon, Sang-Wook Woo, Je Young Kim (LG Chem Ltd.), and Seung-Wan Song (Chungnam National University) Characterization of Li+ Solvation and SEI Formation On Graphite for LiPF6/PC Electrolytes – Mengyun Nie, Brett L Lucht (University of Rhode Island), Daniel P Abraham (Argonne National Laboratory), Yanjing Chen, and Arijit Bose (University of Rhode Island) Experimental and Theoretical Investigation of Solid-Electrolyte-Interphase Formation Mechanisms On Glassy Carbon – Maureen Han-Mei Tang (Stanford University), Sida Lu, and John Newman (University of California, Berkeley) Break

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

16:00

915

16:20

916

16:40

917

17:00

918

17:20

919

In Situ Analyses On Solid Electrolyte Interphase in Li Batteries – Arthur Cresce, David R Baker, Selena M Russell, and Kang Xu (US Army Research Laboratory) Burried Interfaces in the Graphite Negative Electrode of a Li-Ion Battery Studied By Haxpes – Sara Malmgren, Katarzyna Ciosek, Maria Hahlin, Leif Nyholm (Uppsala University), Hakan Rensmo (Department of Physics and Astronomy, Uppsala University), and Kristina Edstrom (Uppsala University) Reaction and Nucleation Pathways in a Conversion Reaction Lithium-Ion Battery Anode – Feng Lin (Lawrence Berkeley National Laboratory), Christopher A Cadigan (Department of Chemistry and Geochemistry, Colorado School of Mines), Chunmei Ban (National Renewable Energy Laboratory), Dennis Nordlund, Tsu-Chien Weng (Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory), Marca Doeff (Lawrence Berkeley National Laboratory), Ryan M Richards (Department of Chemistry and Geochemistry, Colorado School of Mines), and Huolin L Xin (Lawrence Berkeley National Laboratory) Stress Evolution and Interfacial Mechanics in the Solid Electrolyte Interphase – Brian W Sheldon, Anton Tokranov (Brown University), Xingcheng Xiao, Yue Qi, and Peng Lu (General Motors R&D Center) A Novel 2-Dimensional Combinative Analytical Method (IR imaging-Raman mapping-SEM) for the Characterization of Solid Electrolyte Interphases (SEIs) – Woo Sung Jeon, Changhoon Jung, Eui-seong Moon (Samsung Advanced Institute of Technology (SAIT)), Sunjung Byun, and Hyouksoo Han (SAIT, SEC)

Lithium-Ion Batteries

B10 Battery Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium-Ion Batteries: Cathodes 4 - Spinel Oxides – 08:00 – 09:40 Co-Chair(s): M. Doeff and Christopher Johnson 08:00

989

08:20

990

In Situ TEM Observation of LiMn2O4 Nanowire Battery – Soyeon Lee (Tokyo Institute of Technology, JST–CREST), Yoshifumi Oshima (Osaka University, JST–CREST), Eiji Hosono, Haosen Zhou (National Institute of Advanced Industrial Science and Technology), Kyungsu Kim, Hansen Chang, Ryoji Kanno (Tokyo Institute of Technology), Yasumasa Tanishiro, and Kunio Takayanagi (Tokyo Institute of Technology, JST–CREST) Ternary Nanocomposite Cathode Material Composed of LiMn2O4/MnO2/Carbon Black With High Performance and LongTerm Stability Via Low-Temperature Synthesis On Flexible Conducting Carbon Fibers Current Collector – Yu-Ting Weng and Nae-Lih Wu (Department of Chemical Engineering, National Taiwan University) 105

Tuesday, October 29

10:20


08:40

Tuesday, October 29

09:00

09:20

991

992

993

Understanding the Mechanism and Effects of Transition Metal Dissolution and SEI Growth in Li-Ion Batteries – Tapesh Joshi (School of Chemical & Biomolecular Engineering, Georgia Institute of Technology), Jim Benson, Jung Tae Lee, Naoki Nitta, Sean Tighe, Igor Kovalenko, Gleb Yushin (School of Materials Science and Engineering, Georgia Institute of Technology), and Thomas F Fuller (School of Chemical & Biomolecular Engineering, Georgia Institute of Technology) The Effect of Microwave Treatment On the Mn3+ Concentration of Spinel Cathode Material Studied By XPS, XRD and Electrochemical Methods – Charl Jeremy Jafta (Council for Scientific and Industrial Research (CSIR), Physics Department, University of Pretoria), Mkhulu K Mathe (Council for Scientific and Industrial Research (CSIR)), Ncholu Manyala (Physics Department, University of Pretoria), and Kenneth I Ozoemena (Council for Scientific and Industrial Research (CSIR)) Improving the Stability of LiNi05Mn15O4 As a High-Power Cathode Material for LiIon Batteries By MgO Coating – Gabriela Alva (University of California Berkeley), Chunjoong Kim, Tanghong Yi, and Jordi Cabana (Lawrence Berkeley National Laboratory)

09:20

988

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Cathodes 5 - Olivine Compounds – 10:00 – 12:20 Co-Chair(s): Yet-Ming Chiang and Jordi Cabana 10:00

994

10:20

995

10:40

996

11:00

997

11:20

998

11:40

999

12:00

1000

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Anodes 4 - Si Systems – 08:00 – 09:40 Co-Chair(s): Robert Kostecki and Ayyakkannu Manivannan 08:00

08:20

984

985

08:40

986

09:00

987

106

Macroporous Silicon As Highly Stable Anodes for lithium Rechargeable Batteries – Xiaolin Li, Meng Gu (Pacific Northwest National Laboratory), Rhiannon Kennard (University of California, San Diego), Shenyang Hu, Xilin Chen, Chongmin Wang (Pacific Northwest National Laboratory), M J Sailor (University of California at San Diego), Jun Liu, and JiGuang Zhang (Pacific Northwest National Laboratory) Silica As Anode Precursor for Lithium Ion batteries – Matthew Schrandt (South Dakota School of Mines and Technology), Praveen Kolla (SDSM&T), Wendell Rhine (Aspen Aerogels, Northborough, MA), Rob Cook (Zyvex Technologies, Rapid City, SD 57701), and Alevtina Smirnova (South Dakota School of Mines and Technology) High Throughput Synthesis of Silicon Nanotubes: A High Capacity and Stable Anode System – Prashant N Kumta and Rigved Epur (University of Pittsburgh) Stress and Strain in Silicon Electrode Models – Kenneth Higa and Venkat Srinivasan (Lawrence Berkeley National Laboratory)

Micro-Sized Si-C Composite With Interconnected Nanoscale Building Blocks As High-Performance Anodes for LithiumIon Batteries – Ran Yi, Fang Dai, Mikhail L Gordin, Shuru Chen, and Donghai Wang (Mechanical Engineering, The Pennsylvania State University)

Non-Olivine LiFePO4 With Alluaudite Structure for Li Rechargeable Battery – Jongsoon Kim, Hyungsub Kim, Inchul Park, Young-Uk Park (Seoul National University), Jung-Keun Yoo (KAIST), Kyu-Young Park (Seoul National University), Seongsu Lee (Korea Atomic Energy Research Institute, PO Box 105, Daejeon 305-600, Republic of Korea), and Kisuk Kang (Seoul National University) Understanding the Influence of Conductive Carbon Additives Surface Area On the Rate Performance of LiFePO4 Cathodes for Lithium Ion Batteries – Xin Qi (Westfälische-Wilhelms Universität Münster, MEET battery research centre), Berislav Blizanac (Cabot Corporation, Albuquerque, NM), Jie Li (WestfälischeWilhelms Universität Münster, MEET battery research centre), and Martin Winter (MEET Battery Research Center, University of Muenster) A New Low Cost Synthesis Method for LiFePO4 – Jerry Barker, Richard John Heap, and Noel Roche (Faradion Limited) Cycling Performance of LiCoPO4 Cathodes: Reasons for Capacity Fading and Effect of the Electrolyte Composition – Doron Aurbach (Bar-Ilan University) Effect of Ni(NO3)2•6H2o On Hydrothermal Synthesis of LiMnPO4 – Yusuke Namiki (Tokyo Metropolitan University), Shuhei Yoshida, Daisuke Shibata (DENSO CORPORATION), Hirokazu Munakata, and Kiyoshi Kanamura (Tokyo Metropolitan University) Nano-Sized Vs Micro-Sized Powders Agglomerated LiFePO4 for Lithium Ion Batteries – Manuel Pfanzelt, Rainald Forbert, Gerhard Nuspl, and Norbert Schall (Clariant Produkte (Deutschland) GMBH) Effect of the Crystal Chemistry of LiNi1/2Mn3/2O4 Spinels on its Electrochemical Properties – Chunjoong Kim (Lawrence Berkeley National Laboratory), Michal Leskes (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Elizabeth Castillo-Martínez (CIC enrgigune), Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), and Jordi Cabana (Lawrence Berkeley National Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium-Ion Batteries: Anodes 5 - Si and Sn Systems – 10:10 – 12:30 Co-Chair(s): Vince Battaglia and Christian M. Julien

Lithium-Ion Batteries: Cathodes 6 - General – 14:00 – 15:40 Co-Chair(s): Ilias Belharouak and Christopher Johnson

10:10

1001

10:30

1002

10:50

1003

11:10

1004

11:30

1005

11:50

1006

12:10

1007

Self-Assembled SnO2/Graphene Composites With Alternating Oxide and Amine Layers for High Li-Storage and Excellent Stability – Richard Prabakar and Myoungho Pyo (Dept of Printed Electronics Engg Sunchon National University, Sunchoen, SKorea) Electrochemically Synthesized Sn-O-C Composite With Nano Core/Shell Structure for Anode of Lithium Secondary Batteries – Moongook Jeong (Graduate School of Advanced Science and Engineering, Waseda University), Hiroki Nara, Tokihiko Yokoshima (Research Institute for Science and Engineering, Waseda University), Toshiyuki Momma, and Tetsuya Osaka (Research Institute for Science and Engineering, Waseda University, Graduate School of Advanced Science and Engineering, Waseda University) Development of Newly-Designed Li-Ion Battery Using Glassy Sno-P2O5 Anode Without Pre-Doping Technique and Their Safety Evaluation – Akihiro Yamano, Masanori Morishita (National institute of Advanced Industrial Science and Technology), Hideo Yamauchi, Tomohiro Nagakane, Akihiko Sakamoto, Masahiko Ohji (Nippon Electric Glass Co, Ltd.), and Tetsuo Sakai (National institute of Advanced Industrial Science and Technology) Sn Nanowire-Based Anode With Ti Adhesion Layer for Li-Ion Batteries – Younghak Song, Minsub Oh (Korea Institute of Machinery & Materials, Sungkyunkwan university), Tae Gwang Yun (Korea Institute of Machinery & Materials, Korea advanced institute of science and technology), Chang-su Woo, Jun-Ho Jeong, Seungmin Hyun (Korea Institute of Machinery & Materials), and Hoo-jeong Lee (Sungkyunkwan university) Conductive Polymer and Silicon Composite Secondary Particles for a High Area-Loading Negative Electrode – Shidi Xun, Bin Xiang, Andrew Minor, Vince Battaglia, and Gao Liu (Lawrence Berkeley National Laboratory) Si Content Effect On the Performance of the Thin Film Anodes for Rechargeable Lithium Ion Batteries – Deniz Billur Polat (Istanbul Technical University), Levent Eryilmaz (Argonne National LAb), and Özgül KeleÅŸ (Istanbul Technical University) Use of Tin Based Composite Nanorod Anodes for Rechargeable Lithium Applications – Özgül KeleÅŸ, Deniz Billur Polat, and Nagihan Sezgin (Istanbul Technical University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

14:00

1008

14:20

1009

14:40

1010

15:00

1011

15:20

1012

Atomic Layer Deposition of V2O5-Carbon Nanotube Cathode With TiO2 Protecting Layer for Lithium Ion Batteries – Ming Xie (University of Colorado at Boulder), Xiang SUN, Jie Lian (Rensselaer Polytechnic Institute), and Steven M George (University of Colorado at Boulder) X-Ray Diffraction Measurements Below Ambient Temperature On OverStoichiometric LiCoO2 – Kazuhiko Mukai (Toyota Central R&D Labs, Inc) Synthesis and Characterization of Ni-Rich Nano-Li(NiCoMn)O2 Cathode Materials for Lithium Ion Batteries – Kaliyaperumal Manimaran (CSIR-Central Electrochemical Research Institute, Karaikudi-630006), M Abdul Wahab Johny (Nano Science and Technology Division, BIT Campus, Anna University, Tiruchirapalli - 625 015, India), and R Kiruthika (Electrochemical Power Sources Division, CSIR-Central Electrochemical Research Institute, Karaikudi-630 006, India) Mechanical Degradation of LiMn195Al005O4 electrodes – Di Chen, Zungsun Choi (Institute for Applied Materials, Karlsruhe Institute of Technology), Dominik Kramer (Helmholtz Institute Ulm (HIU)), and Reiner Mönig (Institute for Applied Materials, Karlsruhe Institute of Technology, Helmholtz Institute Ulm (HIU)) A New Approach to the Preparation of High Capacity Conversion Electrodes – Craig A Bridges, Zhonghe Bi, Raymond R Unocic (ORNL), Gabriel M Veith (Oak Ridge National Laboratory), and Mariappan P Paranthaman (ORNL)

107

Tuesday, October 29

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square


Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square

16:20

Lithium-Ion Batteries: Anodes 6 - Sn Anodes – 14:00 – 16:00 Co-Chair(s): Bor Yann Liaw and Ayyakkannu Manivannan 14:00

Tuesday, October 29

14:20

14:40

15:00

15:20

15:40

Sb-Based Nanocomposite Alloy Anodes for Li-Ion Batteries – Eric Allcorn (Materials Science and Engineering Program, The University of Texas at Austin) and Arumugam Manthiram (The University of Texas at Austin) 1014 A New Observation of Reaction Mechanism and Structure Analysis of Mesoporous SnO2 By Using Synchrotron X-Ray Techniques – Hyunchul Kim, Yunok Kim, Shoaib Muhammad, Jaeseung Yoo, Gwi Ok Park (Department of Energy Science, Sungkyunkwan University), Mahalingam Balasubramanian (Advance Photon Source, Argonne National Laboratory), JI Man Kim (Department of Chemistry, Sungkyunkwan University, Department of Energy Science, Sungkyunkwan University), and Won-Sub Yoon (Department of Energy Science, Sungkyunkwan University) 1015 Enhanced Performance of Sn/Graphene Composite Anodes by Surface Treatment – Kaiwen Hu, Gul Zeb, Peter Gaskell (McGill University), Youngnam Kim, Xingcheng Xiao (General Motors R&D Center), Marta Cerruti, and Thomas Szkopek (McGill University) 1016 Electrospun Novel Nanostructured SnBased Perovskites (MSnO3) As Anodes for High-Performance Lithium Ion Batteries – Lin Lin Li, Yan ling Cheah, and Madhavi Srinivasan (School of Materials Science and Engineering, Nanyang Technological University, 50 Nanyang Avenue, Singapore, 639798) 1017 Sonochemical Deposition of Lithium Alloying Nanoparticles On the Surface of Spherical Carbon Anodes for LiIon Batteries – Vilas G Pol, Sanketh R Gowda (Argonne National Laboratory, Electrochemical Energy Storage Department), JG Wen, Dean J Miller (Argonne National Laboratory, Electron Microscopy Center), and Michael M Thackeray (Chemical Sciences and Engineering Division, Argonne National Laboratory) 1018 FeSn5 and CoSn5 New Phases and Their Applications As High-Performance Anodes for Li-Ion Batteries – Weiqiang Han, XiaoLiang Wang, and Feng-Xia Xin (Ningbo Institute of Materials Technology & Engineering (NIMTE), Chinese Academy of Sciences) 1013

Lithium-Ion Batteries: Anodes 7 - Sn Systems – 16:00 – 18:00 Co-Chair(s): Christian M. Julien and Prashant N. Kumta 16:00

108

16:40

17:00

17:20

17:40

Enhanced the Electrochemical Performance of Nano-Sn Film Anodes By Simply Surface Coating of Metallic Layers – Renzong Hu, Hui Liu, and Min Zhu (South China University of Technology) 1021 SnO2/Reduced Graphene Oxide Composites Prepared By Ball-Milling Method for Lithium Ion Battery – Sheng Li, Shanqing Zhang, and Jisheng Han (Griffith University) 1022 Graphene/Fe2O3/SnO2/ Ternary Nanocomposite As A High-Performance Anode for Lithium Ion Batteries – Gang Wu (Los Alamos National Laboratory), Guofeng Xia (Harbin Institute of Technology), Qing Li, and Nathan Mack (Los Alamos National Laboratory) 1023 Deposition Of Graphite/SnO2 Composite ANODE Thin FILMS For Li ION Batteries – Marcus Jahn and Kwang Leong Choy (University of Nottingham) 1024 Measuring the Lithium Ion Diffusion Coefficient in Tin Thin Films: Comparisons Between Using Impedance Spectroscopy and Galvanostatic Intermittent Titration Technique – Eddie C W Fok, Ashwin R Usgaocar, Ali Mahmoudzadeh, and John D W Madden (The University of British Columbia) 1020

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Cathodes 7 - General – 16:00 – 18:20 Co-Chair(s): Arumugam Manthiram and D. W. Abraham 16:00

1025

16:20

1026

Synthesis and Electrode Properties of Thick (104)-Oriented LiCoO2 Epitaxial Films – Kazunori Nishio (National Institute for Materials Science (NIMS), Grobal Research Center for Environment and Energy based on Nanomaterials Science (GREEN)), Narumi Ohta (National Institute for Materials Science (NIMS), Environmental and Energy Materials Division), Tsuyoshi Ohnishi (National Institute for Materials Science (NIMS), Global Research Center for Environment and Energy based on Nanomaterials Science (GREEN), National Institute for Materials Science (NIMS), Battery Materials Unit), and Kazunori Takada (National Institute for Materials Science (NIMS), International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science (NIMS), Battery Materials Unit) Active Cathode Copper Coated Powder for Improving Lithium Ion Battery Performances – Marco Spreafico (Politecnico di Milano), Paula Cojocaru, Francesco Triulzi, Marco Apostolo (Solvay Specialty Polymers), and Luca Magagnin (Politecnico di Milano)

1019 Cu6Sn5-SnO2/Carbon Nanocomposite As High Performance Anode for Lithium Ion Batteries – Renzong Hu, Min Zhu, Hui Liu, and Wei Sun (South China University of Technology) Meeting Program l October 27–November 1, 2013 l San Francisco, CA


17:00

17:20

17:40

18:00

1027

1028

1029

1030

1031

Enhanced Electrochemical Performance of Cd-Modified Li2FeSiO4/C Cathode Material for Lithium-Ion Batteries – Song Duan, Lu-Lu Zhang (College of Mechanical and Material Engineering, Three Gorges University), Gan Liang (Department of Physics, Sam Houston State University), Xue-Lin Yang, Shi-Bing Ni, Ming Li, and Gang Peng (College of Mechanical and Material Engineering, Three Gorges University) Atomic Layer Deposited Cu2s As a Superior Electrode Material With High Capacity and Excellent Cycleability for Lithium-Ion Batteries – Xiangbo Meng, Shannon Riha, Timothy Fister, Lynn Trahey, Alex Martinson, Paul Fenter, and Jeffrey W Elam (Argonne National Laboratory) Characterization of Lithium Ion Cathodes Interfaces With Different Liquid Ions By DC and AC Techniques – Roberto Hernandez-Maya (Chemical and Biomolecular Engineering) Enhancing the Cathode Functionality of Glycol Synthesized LiFeSO4F by Controlling the Surface Chemistry – Adam Sobkowiak, Matthew Roberts, Reza Younesi, Tore Ericsson, Lennart Häggström (Department of Chemistry Ångström Laboratory, Uppsala University), Cheuk-Wai Tai (Department of Materials and Environmental Chemistry - Arrhenius Laboratory, Stockholm University), Anna Andersson (ABB Corporate Research), Kristina Edström, Torbjörn Gustafsson, and Fredrik Björefors (Department of Chemistry - Ångström Laboratory, Uppsala University) (2013 ECS Battery Division Student Research Award Lecture) Synthesis, Structure and Properties of LiMSO4F Phases (M = 3d Metal) as Positive Electrode Materials for Li-ion Batteries – Mohamed Ati (N/A)

1034

1035

1036

1037

1038

1039

1040

1041

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Battery/Joint General Session – 18:00 – 20:00 Co-Chair(s): Ratnakumar V. Bugga and Marshall C. Smart •

1032

1033

The Use of Fluorinated Electrolytes in Lithium-Ion Batteries for Improved Safety in Human-Rated Aerospace and Terrestrial Applications – Frederick C Krause (California Institute of Technology, Jet Propulsion Laboratory), Marshall C Smart (Jet Propulsion Laboratory, California Institute of Technology), and G K Surya Prakash (Loker Hydrocarbon Research Institute, University of Southern California, Loker Hydrocarbon Research Institute, University of Southern California) Novel Lithium Titanate for High-Power Applications – Hong Jin, Simon J Xue, Francis P Wang, and Guanghong Pan (National Institute of Clean-and-LowCarbon Energy)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Imidazolium-Based Polymer Ionic Liquids With Poly(ethylene glycol) Side Chains As Polyelectrolyte:Synthesis and Characterization – Zhe Jia (Michigan State University) Sodium Iron Hexacyanoferrate and Potassium Iron Hexacyanoferrate Nanoparticles for Lithium Ion Battery Cathodes – Aihua Jin, Seung-Ho Yu, and Yung-Eun Sung (Center for Nanoparticle Research, Institute for Basic Science, and School of Chemical and Biological Engineering, Seoul National University) Mesoporous Iron Oxide Nanoparticle Clusters for High Performance Lithium Ion Battery Anodes – Seung-Ho Yu, Soo Hong Lee, Aihua Jin, Taeghwan Hyeon, and Yung-Eun Sung (Center for Nanoparticle Research, Institute for Basic Science, and School of Chemical and Biological Engineering, Seoul National University) High Energy MgO Doping Composite 05Li2MnO3•05LiNi05Mn05O2 cathode Material for Lithium-Ion Battery – Renny Nazario, Arun Kumar, and Maharaj Tomar (University of Puerto Rico ,Mayaguez) Synthesis and Electrochemical Behavior of Li-Rich Based Cathode Materials for Lithium Ion Battery – Sun-Woo Yang, Min-Young Kim, and Ho-Sung Kim (Korea Institute of Industrial Technology (KITECH),Gwangju,Korea) Characterization of the C-Zn System for Use in Lithium-Ion Batteries As Alloy Anode Materials – Mary Irene Purcell, Timothy Hatchard, Mark Obrovac (Dalhousie University), and Robbie Sanderson (Dept of Physics and Atmospheric Science, Dalhousie University) Study On Life Acceleration Test for 20 Ah Li-Ion Pouch Type Batteries Based On NMC(+)/Lto(-) Electrode – Namsu Kim (Components & Materials Physics Research Center, Korea Electronics Technology Institute), Myungsoo Seo, Donggil Sung, Sungjin Kim (Special Battery Division Research Institute, BEXEL), Jemin Kim, Ju Ho Lee (Reliability Technology Research Center, Korea Electronics Technology Institute), Kyung-Jun Hwang (Components & Materials Physics Research Center, Korea Electronics Technology Institute), Chun-Gi Kang (Nano Group, Toptec), Daesik Yun, and Junghwa Kim (Research Lab, Korea Innotech) Improved Electrochemical Behavior of Tungsten Coated Silicon MonoxideCarbon Composite Anode in Lithium Ion Battery – Wooyoung Yoon and JeeHo Yom (Department of Materials Science and Engineering, Korea University)

109

Tuesday, October 29

16:40


Tuesday, October 29

1042

1043

1044

1045

1046

1047

1048

1049

110

1050

Synthesis and Characterization of SpinelLayered Mixed Cathode Materials for Li-Ion Batteries From Ni-Mn Precursor in CSTR Reactor At Different Feeding Times – JaeMin Choi, KeeSuk Nahm, YunJu Hwang, InHyung Choi, and HoSaeng Jang (Chonbuk National University) Large Cell Design of Organic Lithium Ion Batteries With Mesopourous Carbon Cathodes – Sang-hyeon Ha, Jae-seong Yeo, Hyun-gi Yoon, Eun-ji Yoo, Dongik Cheong, Sung-baek Cho (Agency for Defense Development), and Chan-bum Park (Korea Advanced Institute of Science and Technology) Core-Shell Structured Carbon Coated LiFePO4-Rgo Hybrids for High Power Lithium Ion Battery Cathodes – Sung Hoon Ha, Jeasun Nham, and Yun Jung Lee (Hanyang University) Nano-Structured Carbon Materials As An Additive Conductor in Organic Lithium Ion Battery – Dong-ik Cheong, Sang-hyeon Ha, Hyun-gi Yoon, Jae-seong Yeo, Eun-ji Yoo, Sung-baek Cho (Agency for Defense Development), and Kisuk Kang (Seoul National University) Electrodeposition of a Tin/Tin(IV) Oxide Composite On Gold – Solveig Böhme (Department of Chemistry - The Ångström Laboratory, Uppsala University) Bicontinuous Carbon Electrode Structures Fabricated From High Internal Phase Emulsion Polymer (polyHIPE®) Templates and Their Use for 3D Microbattery Applications – Habtom Desta Asfaw (Department of Chemistry-Ångström Laboratory, Uppsala University), Matthew Roberts (Uppsala University), Leif Nyholm (Department of ChemistryÅngström Laboratory, Uppsala University), and Kristina Edström (Department of Chemistry - Ångström Laboratory, Uppsala University) Si/C Nanocomposites Internally-Wired With Graphene for High Capacity LiIon Battery Anode – Jung Kyoo Lee and Changju Chae (Dong-A University) Fabrication of Ncm (LiNixCoyMnzO2) Cathode Materials Prepared By Degradation Oxalate Anion – Seong Taek Lim (Hanbat National University Department of Applied Chemistry), Jun Seok Sim, and Sang-Hern Kim (Hanbat National University) Structural Changes and Thermal Stability of Ni Based Cathode Material for Li-Ion Batteries Studied By in-Situ XRD – Taewhan Kim, Hyunchul Kim, Jeongbae Yoon, Yunok Kim, Donghwi Kim, Donghyuk Jang, Won-Sub Yoon (Department of Energy Science, Sungkyunkwan University), Ji-Sang Yu, and Taeeun Yim (Advanced Batteries Research Center, Korea Electronics Technology Institute)

A Comparative Study of the Thermal Properties and Electrochemical Characteristics of LiNi080CoAl015Al005O2 and LiNi085CoAl010Al005O2 electrode in Lithium Ion Secondary Batteries – Jong Tae Son (The korean electrochemical society), Tae-Jun Park, Ki-Won Yoo, and Cheong Kim (Korea National University of Transportation) 1052 A High-Rate, Nanofiber Li12Ni017Co017Mn05O2/Carbon Cathode for Lithium-Ion Battery Applications – Ji Won Min, Chul Jin Yim, and Won Bin Im (Chonnam National University) 1053 Preparation and Characterization of Flower-Like Li12Ni017Co017Mn05O2 Microstructures As Cathode Materials By Electrospining – Ji Won Min, Chul Jin Yim, and Won Bin Im (Chonnam National University) 1054 GeO2/C Composite Fabricated By Sol-Gel Method As An Anode Material for Lithium Ion Batteries – Duc Tung Ngo, MG Chourashiya, Sang-Wan Kim, ChoongNyeon Park, and Chan-Jin Park (Chonnam National University) 1055 Irreversible Behaviors of Silicon Monoxide With Controlling the Amount of Inserting Li Ion At Various Current Densities – Wooyoung Yoon and jun Kyu Lee (Department of Materials Science and Engineering, Korea University) 1056 Studies of Si-Fe-C Electrode Materials Prepared By Combinatorial Sputter Deposition – Mahdi Al-Maghrabi (Dalhousie University, Dept of Physics and Atmospheric Science, Halifax, Nova Scotia B3H 4R2 Canada, Yanbu Industrial College, Royal Commission for Jubail and Yanbu, Yanbu, Saudi Arabia), Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University), and Richard Dunlap (Dalhousie University, Dept of Physics and Atmospheric Science) 1057 Surface Degradation of Mixed LiMn2O4/ LiNiO2 Cathode Particles and Capacity Fade in Li-Ion Batteries During Accelerated Calendar Life Test – Hiroo Hongo and Shinji Fujieda (Smart Energy Research Laboratories, NEC Corp) 1058 Fabrication of Li Powder Coated Separator to Reduce Irreversible Loss of Various Anodes for Lithium Ion Battery – Wooyoung Yoon and Sunwoo Hwang (Department of Materials Science and Engineering, Korea University) 1059 N-Doped Carbon-Coated TiO2 Nanofibers As Anode Materials for Lithium-Ion Batteries – Sukeun Yoon, Myung-Heyun Ryu, Kyu-Nam Jung, and Kyung-Hee Shin (Korea Institute of Energy Research) 1060 Development of a Simplified Analysis Method for Deterioration Diagnosis of Lithium-Ion Batteries – Nozomi Yoshimoto, Takuma Maekawa, Takayuki Doi, Takaaki Chuzawa, Naoto Nagaoka, and Minoru Inaba (Doshisha University) 1051

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1061

1062

1063

1064

1065

1066

1067

1068

High Performance Lithium-Ion Polymer Cells Assembled Using In Situ Chemical Cross-Linking Without a Free Radical Initiator – Young-Woo Lee, Ji-Hyun Yoo, and Dong-Won Kim (Hanyang University) Effect of Temperature On Negative Electrode Performance of Si Leaf Powder® – Takashi Okubo, Morihiro Saito, Takayuki Doi (Doshisha University), Chihiro Yodoya, Akika Kamei, Masato Hirota, Toshio Takenaka (Oike & Co, Ltd.), and Minoru Inaba (Doshisha University) Enhanced Long-Term Cycle Life of Cathode Material for Lithium Ion Battery By AlF3 Coating – Sang-Hyuk Lee, Chong seung Yoon, and Y-K Sun (Hanyang University) Simulation On Li-Ion Cells By Dualfoil Model Under Constant-Resistance Load Operations – Jing Mao (Lawrence Berkeley National Laboratory), William Tiedemann (Slab Creek), and John Newman (University of California, Berkeley) Roles of Individual Transition Metal Elements On a Redox Reaction of LiNi1/3Mn1/3Co1/3O2 As Revealed By Resonant Photoelectron Spectroscopy – Masashi Matsumoto, Kei Kubobuchi, Masato Mogi, Chikai Sato, Yohei Takahashi, Toshihiro Asada, and Hideto Imai (NISSAN ARC Ltd.) Investigation of Determination Factor of Reaction Distribution in LiFePO4 Composite Electrodes – Yuki Orikasa, Yuma Gogyo (Graduate School of Human and Environmental Studies, Kyoto University), Hisao Yamashige (Office of Society-Academia Collaboration for Innovation, Kyoto University), Masaki Katayama (Ritsumeikan University), Kezheng Chen, Takuya Mori, Kentaro Yamamoto, Titus Masese (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of Society-Academia Collaboration for Innovation, Kyoto University), Yasuhiro Inada, Toshiaki Ohta (Ritsumeikan University), Zyun Siroma (National Institute of Advanced Industrial Science and Technology (AIST)), Shiro Kato, Hajime Kinoshita (KRI, Inc), Hajime Arai, Zempachi Ogumi (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) Analysis of Integrated Electrode Stacks for Lithium Ion Batteries – Michael Lazar, Brett L Lucht (University of Rhode Island), Ben Sloan, and Steve Carlson (Optodot) Development of Electronically Conductive Polymer Binders for Anode Materials in Lithium Ion Batteries – Sang-Jae Park and Gao Liu (Lawrence Berkeley National Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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1070

1071

1072

1073

1074

1075

1076

1077

1078

1079

Stability of LiNi05Mn15O4 in 12M 3:7 EC/EMC Electrolyte Solution – Brandon Knight (University of Rhode Island), Hugues Duncan, Guoying Chen (Lawrence Berkeley National Laboratory), and Brett L Lucht (University of Rhode Island) Poly-Siloxane-Graft-Alkylene Oxide As Solid Polymer Electrolytes for Lithium Battery – Yu-han Li, Ming-Yi Lu, and Chang-Rung Yang (Industrial Technology Research Institute) Investigation to a High Performanceelectrolyte Additive On Solid Electrolyteinterface Formation in Lithium Ion Batteries – Chin Shu Cheng and FuMing Wang (National Taiwan University of Science and Technology) Carbon-Coated Magnéli Phases Ti4O7 As Anodes in Lithium-Ion Batteries – Huajun Tian, Hangjun Ying, and Weiqiang Han (Ningbo Institute of Materials Technology & Engineering (NIMTE), Chinese Academy of Sciences) Composite Li-Ion Anodes Made With Recycled Silicon – Wanli Xu, John Fussell, and John Komidor (ELECTROCHEMICAL MATERIALS) Facile Spray Drying Route for the bath Lily-Like Graphene Sheet-Wrapped NanoSi composite for Lithium Ion Battery Anode – Yu-Shi He, Pengfei Gao, Xiaowei Yang, Xiao-Zhen Liao, Jun Yang, and ZiFeng Ma (Shanghai Jiao Tong University) Floating Charge Voltage Dependency On Lithium-Ion Battery Lifetime – Tomonobu Tsujikawa, Kahou Yabuta (NTT FACILITIES INC), and Masayasu Arakawa (NTT Facilities Research Inst) Effects of Preparing Process On the Properties of O-LiMnO2 Via Pechini’s Method – Tsung-sheng Chou, Wei Kong Pang (Tatung University), and She Huang Wu (Tatung University) Ac Impedance Spectroscopic Analysis of LiMn2O4 Positive-Electrodes for Deterioration Diagnosis of Lithium-Ion Batteries – Takuma Maekawa, Nozomi Yoshimoto, Takayuki Doi, Takaaki Chuzawa, Naoto Nagaoka, and Minoru Inaba (Doshisha University) Iron Oxide Nanostructures As High Performance Anode Materials for Lithium Ion Batteries – Zhou Guang Lu (Department of Micro-Nano Materials and Devices, South University of Science and Technology of China) Investigation of Local Changes in Crystal and Electronic Structures of Charged LixNi08Co015Al005O2 Cathode Materials for Li-Ion Batteries By TEM-Eels – Sooyeon Hwang, Wonyoung Chang (Korea Institute of Science and Technology, Korea Institute of Science and Technology), and Eric A Stach (Brookhaven National Laboratory)

111

Tuesday, October 29


1080

1081

Tuesday, October 29

1082

1083

1084

1085

1086

1087

112

1088

Characteristics and Electrochemical Behaviors of SiOx Nanoparticles as an Anode Material for Lithium-Ion Battery – Eunjun Park (Department of Energy Engineering, Hanyang University), MinSik Park, Young-Jun Kim (Advanced Batteries Research Center, Korea Electronics Technology Institute), and Hansu Kim (Department of Energy Engineering, Hanyang University) Study of the Electrodeposition Process of Lithium Metal On Silicon Negative Electrodes – Fumikazu Mizukoshi, Masaki Matsui, Maiko Kawakubo, and Nobuyuki Imanishi (Mie University) Impedance Analysis and Characterization of Electrodes On Degraded Laminated Li-Ion Battery With Micro Reference Electrode – Naoko Takei, Hiroki Nara, Daikichi Mukoyama, Tokihiko Yokoshima, Toshiyuki Momma, and Tetsuya Osaka (Research Institute for Science and Engineering, Waseda University) Effects On Wet-Coated 05Li2MnO3·05LiNi1/3Co1/3Mn1/3O2 Cathode Material for Li-Ion Batteries – Jianling, Li (State Key Laboratory of Advanced Metallurgy,University of Science and Technology Beijing) Optimizing the Performance of Organic Li-Battery Electrode Materials: the Example of Dilithium Trans-Trans Benzenediacrylate – Stéven Renault, Alina Mihali (Department of Chemistry, Ångström Laboratory, Uppsala University), Daniel Brandell (Department of ChemistryÅngström Laboratory, Uppsala University), and Kristina Edström (Department of Chemistry - Ångström Laboratory, Uppsala University) Synthesis and Electrochemical Properties of Sn-Fe-P Anode for Lithium Ion Batteries – Gumjae Park (Korea Electrotechnology Research Institute) Activation Mechanism of Li2MnO3 Cathode for Lithium Ion Battery – She Huang Wu, Jian-Liang Chen, and Wei Kong Pang (Tatung University) Preparation of Carbon-Coated Ramsdellite Li2Ti3O7 and Their Charge/Dishcage Properties for Lithium-Ion Batteries – Takayuki Doi, Ryotaro Kanazawa, Morihiro Saito, and Minoru Inaba (Doshisha University) Overcoming the Current Limitations of Li-Ion Batteries Using Alternative Synthesis Routes for Conversion Electrode Materials – Miguel Ángel Muñoz Márquez, Begoña Acebedo, Carlos Bernuy-López (CIC energiGUNE), Paul Bline (CIC energiGUNE, ENSICAEN), Elizabeth Castillo-Martínez, Montserrat Galcerán, Elena Candida Gonzalo (CIC energiGUNE), Ervan Lefebvre (CIC energiGUNE, ENSICAEN), and Montserrat Casas-Cabanas (CIC energiGUNE)

1089

1090

1091

1092

1093

1094

1095

1096

1097

1098

Investigation of Novel Nanostructured Tungsten Oxides As High Volumetric and Safe Anode Materials in Lithium Ion Batteries – Songhun Yoon (School of Integrative Engineering, ChungAng University, School of Integrative Engineering, Chung-Ang University), Sung Gyu Pyo (School of Integrative Engineering, Chung-Ang University), Hyungbin Son, and Junhong Min (School of Integrative Engineering, ChungAng University, School of Integrative Engineering, Chung-Ang University) Effect of Electrode Area and Capacity Ratios On Electrochemical Properties of Lithium-Ion Battery Unit Cells – Bongki Son, Jaecheol Choi, Sang-Hern Kim, and Yong Min Lee (Hanbat National University) A New Polymer Binder for Ceramic Coated Separator in Lithium Ion Batteries – Bongki Son, Jihye Kim, Jang Myoun Ko, and Yong Min Lee (Hanbat National University) Fast Lithium Ion Conducting Ceramics for All-Solid-State Lithium-Ion Battery – Koichi Hamamoto, Toshiaki Yamaguchi, Hirofumi Sumi, Toshio Suzuki, and Yoshinobu Fujishiro (National Institute of Advanced Industrial Science and Technology) Thin Ceramic Layer-Coated Separators for Lithium-Ion Batteries By RF Sputtering – Taejoo Lee (Hanbat National Univ), Dong Jin Lee (KAIST), Yunju Lee, and Yong Min Lee (Hanbat National University) Electrospun TiO2 Nanofiber Electrode With Optimized Diameters for Lithium Ion Battery – Yanhua Cui (China Academy of Engineering Physics), Ke Sun, Qian Sun (Fudan University), Xiaojiang Liu (China Academy of Engineering Physics), and Zheng-Wen Fu (Fudan University) In Situ Lithium Ion Concentration Profiles Via Confocal Raman Microscopy – Jason D Forster, Jeffrey J Urban, and Stephen J Harris (Lawrence Berkeley National Lab) Silicon Electrode Based On Steel Use Stainless Microfiber Current Collector for Lithium-Ion Batteries – SeongHyun Song (Department of Chemical and Biological Engineering, Hanbat National Univ) Lithium Dendrite Growth Through Polymer Electrolytes – Nitash P Balsara (Lawrence Berkeley National Lab) and Katherine J Harry (University of California Berkeley, Lawrence Berkeley National Laboratory) Characterization and Average, Local and Erectronic Structures By Charge-Discharge Cycle in 06Li2MnO3-04Li(Co1/3Ni1/3Mn1/3) O2 Solid Solution of a Cathode Active Material for Li Ion Battery – Yasushi Idemoto, Naoya Ishida, and Ryousuke Kawai (Tokyo University of Science)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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1100

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1102

1103

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1106

Extending Porous Electrode Models for Lithium-Ion Battery Electrodes to Particle Size Distributions – Moses Ender, André Weber (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT)), and Ellen Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT), DFG Center for Functional Nanostructures (CFN), Karlsruhe Institute of Technology (KIT)) A Series of Substituted Propylene Carbonate (PC) – An Investigation of Graphite Exfoliation – Hui Zhao (Lawrence Berkeley National Lab), SangJae Park, Vince Battaglia, and Gao Liu (Lawrence Berkeley National Laboratory) Improving Distribution of Silicon NanoParticle and Electrochemical Performance of Si/C Composite for Lib Anodes – Hyoree Seo, Keon Kim (Korea University), and Cheol-Woo Yi (Sungshin Women’s University) Degradation Factor Analysis for the Storage Aging Test of LiNi1/3Mn1/3Co1/3O2/ Graphite Cells – Daichi Imamura, Masao Myojin, and Keisuke Shimada (Japan Automobile Research Institute) Effect of Electrode Surface Modification By in-Situ Polymerization On the Electrochemical Performance of Lithium-Ion Batteries – Yunju Lee, Subin Yeon, Jaecheol Choi (Hanbat National University), Myung-Hyun Ryou (Institute of Physical Chemistry, MEET Battery Research Center, University of Muenster), and Yong Min Lee (Hanbat National University) Heat-Resistive Co-Polyimide Cathode Binder for Lithium-Ion Battery – Jaecheol Choi, Bongki Son, Hyewon Lee (Hanbat National University), Kuk Young Cho (Kongju National University), MyungHyun Ryou (Institute of Physical Chemistry, MEET Battery Research Center, University of Muenster), and Yong Min Lee (Hanbat National University) Copper Sulfur Nanowires Coated Silicon As An Anode Material for High Performance Lithium Ion Batteries – Caihong Feng (School of Chemical Engineering and Environment, Beijing Instituted of Technology, Lawrence Berkeley National Laboratory), Zhichao Sun (School of Chemical Engineering and Environment, Beijing Instituted of Technology), Mingyan Wu, Xiangyun Song, Zhihui Wang (Lawrence Berkeley National Laboratory), Kening Sun, Feng Wu (School of Chemical Engineering and Environment, Beijing Instituted of Technology), and Gao Liu (Lawrence Berkeley National Laboratory) Impact of Electrolyte Additives On the Performance of High Voltage Spinel Cathode Materials for Lithium Ion Batteries – Jing Li, Jennifer Hoffmann, and Martin Payne (BASF)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

1107

1108

1109

1110

1111

1112

1113

1114

Advanced Electrolytes for Silicon Oxide Negative Electrodes – Jing Li, Scott Stephenson, and Martin Payne (BASF) A Process Model for Electrochemical Impedance Spectroscopy of LiCoO2 Batteries – Salim Erol and Mark E Orazem (University of Florida) Investigation of New Guanidinium-Based Ionic Liquids As Possible Electrolytes in Lithium-Ion Batteries – Steffen Hess, Mario Wachtler, Margret WohlfahrtMehrens (Zentrum für Sonnenenergieund Wasserstoff-Forschung BadenWürttemberg, 89081 Ulm, Germany), Maria Arkhipova, and Gerhard Maas (University of Ulm - Institute of Organic Chemistry I) Advanced Amorphous Thin Film Electrolytes for the Solid State Batteries – Inseok Seo (Research Institute of industrial science and technology) In Situ SEM Observation of Solid-State Lithium Polymer Batteries – Maiko Kawakubo, Takayuki Ichikawa, Masaki Matsui, and Nobuyuki Imanishi (Mie University) Synthesis of LiMn2O4 Cathode Material for Lithium Ion Batteries By Solid State Process – Youngsang Kim and Jungwoo Park (Research Institute of Industrial Science & Technology (RIST)) Binder-Free Silicon-Based Composite Anodes in Ionic Liquid Electrolytes for Li-Ion Battery – Hiroyuki Usui, Masahiro Shimizu, Masakuni Narita, and Hiroki Sakaguchi (Tottori University) A Study On Electrochemical Reaction Mechanism of RuO2 using Synchrotron Based X-Ray Techniques – Yunok Kim, Hyunchul Kim, Kowsalya Palanisamy, Woong Oh, Wontae Lee, and Won-Sub Yoon (Department of Energy Science, Sungkyunkwan University)

113

Tuesday, October 29


Polymer Electrolyte Fuel Cells 13

Industrial Electrochemistry and Electrochemical Engineering / B11 Battery / Corrosion / Energy Technology / Physical and

10:20

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Analytical Electrochemistry Continental 2, Tower 3, Ballroom Level, Hilton San Francisco Union Square

B-11 Fuel Cell Stacks – 08:00 – 11:20

Tuesday, October 29

08:00

08:20

08:40

09:00

09:20

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Operational Experience from a 5 kWe HTPEFC System With Reforming of Diesel and Kerosene – Remzi Can Samsun, Joachim Pasel, Jan Meißner, Holger Janßen (Forschungszentrum Jülich GmbH, Institute of Energy and Climate Research - Electrochemical Process Engineering (IEK-3), Jülich, Germany), Werner Lehnert (Forschungszentrum Jülich GmbH, Institute of Energy and Climate Research - Electrochemical Process Engineering (IEK-3), Jülich, Germany, Modeling in Electrochemical Process Engineering, RWTH Aachen University, Germany), and Ralf Peters (Forschungszentrum Jülich GmbH, Institute of Energy and Climate Research - Electrochemical Process Engineering (IEK-3), Jülich, Germany) Integrated Methanol Steam Reformer/ Solid Acid Electrochemical Hydrogen Compressor – Ru Chen (UltraCell LLC), Rong Fan, Hau H Duong, Calum R I Chisholm (SAFCell Inc), and Ian W Kaye (UltraCell LLC) Fuel Cells for Dismounted Soldier Use – Tony Thampan (US ARMY/RDECOM/ CERDEC/CPI/Power Division), Deepal Shah (US Army, CERDEC - CP&I), Clifford Cook (US Army RDECOM CERDEC CP&I), and Shailesh Shah (CERDEC, Command Power and Integration Directorate) Efficient Use of Resources in Energy Converting Applications – Nadine Jacobs, Julian Büsselmann (NEXT ENERGY - EWE-Forschungszentrum für Energietechnologie eV), Steffen Theuring (inhouse engineering GmbH), Marco Zobel, and Alexander Dyck (NEXT ENERGY - EWE-Forschungszentrum für Energietechnologie eV) Oscillation of PEFC Under Low Cathode Humidification: Effect of Gravitation and Bipolar Plate Design – KAndreas Friedrich (German Aerospace Center, Institute of Technical Thermodynamics), Daniel G Sanchez (German Aerospace Center, Stuttgart, Institute of Technical Thermodynamics), and Alfredo Ortiz (Dpto Ingeniería Química y QI ETSII y T, Universidad de Cantabria) Intermission A High Energy Density System By Thin Metallic Bipolar Plates – Alex Bates, Santanu Mukherjee (University of Louisville), Sang C Lee, Osung Kwon, SungMok Ha, Sobi Thomas, D H Lee (DaeguGyeongbuk Institute of Science & Technology (DGIST)), and Sam Park (University of Louisville)

Investigation of the Purging Effect On the Performance of a Dead-End Anode PEM Fuel Cell Vehicle During the European Driving Test Cycle – Alberto Gomez Gomez, Agus P Sasmito, and Tariq Shamim (Masdar Institute of Science & Technology) SU/SD, a Materials Solution – Gregory M Haugen (3M Fuel Cell Components Program, 3M), Radoslav T Atanasoski (3M Corporate R&D - Fuel Cells), George Vernstrom, and Ljiljana L Atanasoska (3M) Optimized Flow Distribution for Enhancing Temperature Uniformity Across An Open Cathode PEM Fuel Cell Stack – Sobi Thomas, Osung Kwon, Sang C Lee (DaeguGyeongbuk Institute of Science & Technology (DGIST)), Sam Park (University of Louisville), GH Choi (DaeguGyeongbuk Institute of Science & Technology (DGIST)), and JY Choi (Kwangwoon University)

Golden Gate 4, Tower 3, Lobby Level, Hilton San Francisco Union Square C-11Perfluorosulfonic Acid Membranes – 08:00 – 11:40 Co-Chair(s): M. Edmundson and Luca Merlo 08:00

1281

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09:20 09:40 1284

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Short Side Chain Ionomers – Luca Merlo (Solvay Specialty Polymers Italy SPA) Non-Crosslinked Perfluoro-Polymer Electrolytes With Two Acid Groups and Their Properties – Akihiro Shinohara, Kenji Kudo, Masaya Kawasumi, Yu Morimoto, and Naoki Hasegawa (Toyota Central R&D Labs, Inc) Morphology and Swelling of Perfluorosulfonic-Acid (PFSA) Ionomer Thin Films – Ahmet Kusoglu and Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory) Break Solvation of Vanadium Cations in Aqueous and Perfluorosulfonic Acid Membranes – Stephen J Paddison and Fatemeh Sepehr (University of Tennessee) A Revised EVB Model for Proton Transport in Hydrated Nafion Membrane – Takuya Mabuchi (Graduate School of Engineering, Tohoku University) and Takashi Tokumasu (Institute of Fluid Science, Tohoku University) Nafion/Titanium Oxide Nanotube Hybrid Electrolyte Membranes for PEFC Operating At Elevated Temperature – Kriangsak Ketpang, A K Sahu, Osung Kwon, Sang C Lee, and Sangaraju Shanmugam (DaeguGyeongbuk Institute of Science & Technology (DGIST))

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


11:20

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Nafion-1,2,3-Triazole Composite Membrane for Fuel Cell – Je-Deok KIM (National Institute for Materials Science (NIMS), National Institute for Materials Science (NIMS)), Mun-Suk Jun (National Institute for Materials Science (NIMS)), and Hee-Woo Rhee (Sogang University, 121-742, 1 Shinsu-dong, Mapo-Gu, Seoul, Korea) Spatially and Temporally Resolved Measurement of Water Distribution in Nafion Using NMR Imaging – Mathieu Klein, Jean-Christophe Perrin, Sébastien Leclerc (LEMTA CNRS), Laouès Guendouz (IJL CNRS), Jérôme Dillet, and Olivier Lottin (LEMTA CNRS)

10:40

1306

11:00

1307

11:40

1308

Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-11 Pt-based Cathode Catalyst Layers – 08:00 – 12:00 Co-Chair(s): Elena R. Savinova and Yu Morimoto 08:00

1299

08:20

1300

08:40

1301

09:00

1302

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1303

09:40 10:00 1304

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1305

Vibrational Sum Frequency Generation Study of Ionomers On Platinum Surfaces – Ichizo Yagi (Hokkaido University, FCCubic TRA), Kiyoshi Inokuma (FC-Cubic TRA), Satoshi Nihonyanagi, and Tahei Tahara (RIKEN) Catalyst Poisoning Property of Sulfonimide Acid Ionomer On Pt (111) Surface – Kensaku Kodama, Akihiro Shinohara, Naoki Hasegawa, Kazuma Shinozaki, Ryosuke Jinnouchi, Takahisa Suzuki, Tatsuya Hatanaka, and Yu Morimoto (Toyota Central R&D Labs, Inc) Impact of Sulfate Adsorption On the Kinetics of Oxygen Reduction Reaction – Jingxin Zhang (GM Global Fuel Cell Activities), Yan Huang (University of Rochester), Junliang Zhang (Shanghai Jiao Tong University), and Thomas Moylan (GM Global Fuel Cell Activities) An Rrde Evaluation of the C2H2 Effect On the ORR – Junjie Ge, Yunfeng Zhai, and Jean St-Pierre (Hawaii Natural Energy Institute, University of Hawaii - Manoa) Impact of CeOx Additives On Cathode Catalyst Layer Poisoning – Dustin Banham, Siyu Ye, Tommy Cheng, Shanna Knights (Ballard Power Systems), S Michael Stewart (University of New Mexico), and Fernando H Garzon (Los Alamos National Laboratory) Intermission Effect of Surface Adsorbing Contaminants on NanoStructured Thin Film (NSTF) Electrodes – Tommy Rockward, Roger Lujan, Karen Rau, Eric L Brosha, Fernando H Garzon, Rangachary Mukundan (Los Alamos National Laboratory), and Andrew J Steinbach (3M Company) Nanofiber Fuel Cell Electrodes I Fabrication and Performance With Commercial Pt/C Catalysts – Matthew Brodt, Ryszard Wycisk, Peter N Pintauro (Vanderbilt University), Taehee Han, Nilesh Dale, and Kev Adjemian (Nissan Technical Center North America)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Nanofiber Fuel Cell Electrodes II In Situ Performance and Durability Studies – Taehee Han, Nilesh Dale, Kev Adjemian (Nissan Technical Center North America), Matthew Brodt, Ryszard Wycisk, and Peter N Pintauro (Vanderbilt University) An Ambient Pressure Photoelectron Spectroscopy Investigation of a MembraneElectrode Assembly of a High Temperature PEM Under Potential Control – Yeuk Ting Law, Spyridon Zafeiratos (ICPEES, UMR 7515-CNRS-Univeristy of Strasbourg), Stylianos Neophytides, Alin Orfanidi (Institute of Chemical Engineering and High Temperature Processes, Patras, Greece), Rosa Arrigo, Axel Knop-Gericke, Robert Schloegl (Fritz-Haber-Institut der MPG, Berlin, Germany), and Elena R Savinova (ICPEES, UMR 7515-CNRSUniveristy of Strasbourg) Platinum Coated Nickel Nanowires As Oxygen Reducing Electrocatalysts – Shaun M Alia, Brian A Larsen (National Renewable Energy Laboratory), Svitlana Pylypenko (Colorado School of Mines), David A Cullen (Oak Ridge National Laboratory), David R Diercks (Colorado School of Mines), KC Neyerlin, Shyam S Kocha, and Bryan S Pivovar (National Renewable Energy Laboratory)

Golden Gate 5, Tower 3, Lobby Level, Hilton San Francisco Union Square E-11 Alkaline Membranes 1 – 08:00 – 12:00 Co-Chair(s): Andrew M. Herring and Peter N. Pintauro 08:00

1309

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Progress Towards Robust Anion Exchange Membranes for Fuel Cell Applications – Himanshu Sarode, Melissa Vandiver, Benjamin Caire, Ye Liu (Colorado School of Mines), James L Horan (Department of Chemical and Biological Engineering, Colorado School of Mines), Yating Yang (Colorado School of Mines), Yifan Li (Department of Chemistry and Geochemistry, Colorado School of Mines), Daniel Herbst, Gerrick E Lindberg, YingLung Steve Tse (University of Chicago), Soenke Seifert (X-ray Science Division, Argonne National Laboratory), E Bryan Coughlin (University of Massachusetts - Amherst), Gregory Voth, Thomas Witten (University of Chicago), Daniel M Knauss (Department of Chemistry and Geochemistry, Colorado School of Mines), Yushan Yan (University of Delaware, University of Delaware), Mathew Liberatorre (Colorado School of Mines), and Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) Development of Novel and Grafted Anion Exchange Membrane for Platinum Metal-Free Liquid Fuel Car – Hideyuki Shishitani, Susumu Yamaguchi, Kazuya Yamamoto, Hirohisa Tanaka (Daihatsu Motor Co, Ltd.), Kimio Yoshimura, Hiroshi Koshikawa, Tetsuya Yamaki, and Yasunari Maekawa (Quantum Beam Science Directorate, Japan Atomic Energy Agency) 115

Tuesday, October 29

11:00


09:00

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1312

Tuesday, October 29

09:40 10:00 1313

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1314

11:00

1315

11:20

1316

11:40

1317

4(5)-Vinylimidazolium Based Anion Exchange Membranes Prepared By Radiation-Induced Grafting for Hydrazine Hydrate Fuel Cell – Kimio Yoshimura, Hiroshi Koshikawa, Tetsuya Yamaki (Quantum Beam Science Directorate, Japan Atomic Energy Agency), Hideyuki Shishitani, Susumu Yamaguchi, Hirohisa Tanaka (Daihatsu Motor Co, Ltd.), and Yasunari Maekawa (Quantum Beam Science Directorate, Japan Atomic Energy Agency) Polysulfone-Based Electrospun Anion Exchange Membranes – Andrew Michael Park, Forbes Ellington Turley, Ryszard Wycisk, and Peter N Pintauro (Vanderbilt University) Intermission Molecular Design Aspect of Anion Exchange Polymer Electrolytes – Yu Seung Kim (Los Alamos National Laboratory), Cy Fujimoto, Michael Hibbs (Sandia National Laboratory), Yoong-Kee Choe (National Insititue of Advanced Industrial Science & Technology), Dae-Sik Kim, Hoon Chung (Los Alamos National Laboratory), and Sung-Dae Yim (Korea Insititue of Energy Research) Synthesis and conductivity of multiwalled carbon nanotubes modified poly(vinyl alcohol)/ poly(diallyldimethylammonium chloride) as alkaline anion-exchange membranes – Jinli Qiao, Jing Zhang, Ying Gao, and Tianchi Zhou (Donghua University) Properties, and Lifetime of Anionic Membranes for Direct Methanol Fuel Cells – John M Ahlfield, Doh-Yeon Park, and Paul A Kohl (Georgia Institute of Technology) Solid-State Alkaline Fuel Cell Electrode Using Layered Double Hydroxide As Ion Conductor – Han Zhang, Hidenori Ohashi, Takanori Tamaki (Tokyo Institute of Technology), and Takeo Yamaguchi (Tokyo Institute of Technology, Tokyo Institute of Technology) Interaction and Transport of Carbon Dioxide in Alkaline Anion Exchange Membranes – Timothy D Myles (Department of Mechanical Engineering, University of Connecticut), Xiaoming Ren, Kyle N Grew (Sensors and Electron Devices Directorate, U S Army Research Laboratory), and Wilson K S Chiu (Department of Mechanical Engineering, University of Connecticut)

Continental 1, Tower 3, Ballroom Level, Hilton San Francisco Union Square A-11 Imaging 1 – 08:00 – 12:00 Co-Chair(s): Joseph D. Fairweather and Rangachary Mukundan 08:00

1289

08:40

1290

09:00

1291

09:20

1292

09:40

1293

10:00 10:20 1294

116

Neutron Imaging of Water Transport in Polymer-Electrolyte Membranes and Membrane-Electrode Assemblies – Daniel S Hussey, David L Jacobson (National Institute of Standards), Dazhi Liu, Boris Khaykovich (Massachusetts Institute of Technology), Mikhail V Gubarev (NASA), Dusan Spernjak, Gang Wu, Joseph D Fairweather, Rangachary Mukundan, Roger Lujan, Piotr Zelenay, and Rod L Borup (Los Alamos National Laboratory) Evaluation of Transient Water Content During PEMFC Operational Cycles By Stroboscopic Neutron Imaging – Joseph D Fairweather, Dusan Spernjak, Jacob Spendelow, Rangachary Mukundan (Los Alamos National Laboratory), Daniel S Hussey, David L Jacobson (National Institute of Standards), and Rod L Borup (Los Alamos National Laboratory) Distinction of Liquid Water and Ice Based On Dual Spectrum Neutron Imaging – Johannes Biesdorf, Pierre Oberholzer, Felix Bernauer (Electrochemistry Laboratory, Paul Scherrer Institut, Switzerland), Anders Kästner, Peter Vontobel, Eberhard Lehmann (Neutron Imaging and Activation Group, Paul Scherrer Institut, Switzerland), Thomas J Schmidt (Electrochemistry Laboratory, Paul Scherrer Institut, Switzerland), and Pierre Boillat (Electrochemistry Laboratory, Paul Scherrer Institut, Switzerland, Neutron Imaging and Activation Group, Paul Scherrer Institut, Switzerland) Neutron Imaging and Performance of PEM Fuel Cells With Nanostructured Thin Film Electrodes At Low Temperatures – Rangachary Mukundan, Dusan Spernjak, Roger Lujan, Joseph D Fairweather (Los Alamos National Laboratory), Daniel S Hussey, David L Jacobson (National Institute of Standards), Andrew J Steinbach (3M Company), Adam Z Weber (Lawrence Berkeley National Laboratory), and Rod L Borup (Los Alamos National Laboratory) Investigation of Water Transport in Perforated Gas Diffusion Layer By Neutron Radiography – Zijie Lu, James Waldecker (Ford Motor Company), Xingbin Xie, Ming-Chia Lai (Wayne State University), Daniel S Hussey, and David L Jacobson (National Institute of Standards) Intermission Optimization of Fuel Cell Generation Environment By Observation of Water Using Neutron Radiography – Chikara Iwasawa and Hiroto Chiba (Honda R&D Co,Ltd.Automobile R&D Center)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1295

11:00

1296

11:20

1297

11:40

1298

Investigation of Liquid Water Accumulation in Operating PEM Fuel Cells With/Without MPL and Its Effect On Cell Performance – Phengxay Deevanhxay, Takashi Sasabe, Shohji Tsushima, and Shuichiro Hirai (Tokyo Institute of Technology) A Comparison of Laboratory Based and Synchrotron Based Nano X-ray CT for PEFC Micro Porous Layer – Navvab Khajeh Hosseini Dalasm (Department of Mechanical Engineering/Center for Clean Energy Engineering, University of Connecticut), Toshikazu Kotaka, Yuichiro Tabuchi (EV system laboratory, Nissan research center, NISSAN MOTOR CO, LTD), and Ugur Pasaogullari (Department of Mechanical Engineering, University of Connecticut) On the Effects of Irradiation During X-Ray Imaging of PEFC – Jens Eller, Jörg Roth, Federica Marone, Marco Stampanoni, and Felix N Büchi (Paul Scherrer Institut) Visualization of Gas Bubble Behavior of a Regenerative Fuel Cell in Electrolysis Mode By Soft X-Ray Radiography – Omer Faruk Selamet (Tokyo Institute of Technology, Nigde University), Phengxay Deevanhxay, Shohji Tsushima, and Shuichiro Hirai (Tokyo Institute of Technology)

15:20

1322

15:40 16:00 1323

16:20

1324

16:40

1325

17:00

1326

17:20

1327

A-12 Imaging 2 – 14:00 – 17:40 Co-Chair(s): Shawn Litster and Jörg Roth 14:00

14:20

1318

1319

14:40

1320

15:00

1321

Micro-Computed Tomography Imaging of HT-PEM Fuel Cells Under Contact Pressure Control – Maren Rastedt, Francisco Javier Pinar, Nadine Bruns, Anja Diedrichs, and Peter Wagner (NEXT ENERGY • EWE Research Centre for Energy Technology) X-Ray Tomographic Microscopy of Phosphoric Acid in High Temperature PEFC Components – Sebastian H Eberhardt, Federica Marone, Marco Stampanoni (Paul Scherrer Institut), Thomas J Schmidt (Electrochemistry Laboratory, Paul Scherrer Institut, Switzerland), and Felix N Büchi (Paul Scherrer Institut) Investigation of PEFC Freeze Start by X-Ray Tomographic Microscopy – Jörg Roth, Mark Rene Zurbrügg, Sarah Irvine, Federica Marone, Marco Stampanoni, and Felix N Büchi (Paul Scherrer Institut) Analysis of Ice Distribution in Cathode Catalyst Layer and Shutdown Mechanism At PEFC Cold Start – Kazuki Yamada, Kengo Suzuki, Yutaka Tabe, and Takemi Chikahisa (Hokkaido University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Stxm Characterization of Nanostructured Thin Film Anode Before and After StartUp Shutdown and Reversal Tests – Vincent Lee (McMaster University), Darija Susac (Automotive Fuel Cell Cooperation Corp), Sumit Kundu (AFCC Automotive Fuel Cell Cooperation Corp), Viatcheslav Berejnov (Automotive Fuel Cell Cooperation Corp), Radoslav T Atanasoski (3M Corporate R&D - Fuel Cells), Adam P Hitchcock (McMaster University), and Juergen Stumper (Automotive Fuel Cell Cooperation Corporation) Intermission In Situ Scanning Transmission X-Ray Microscopy Studies On the Effects of Relative Humidity and Temperature On MEA Materials – Vincent Lee (McMaster University), Viatcheslav Berejnov, Darija Susac (Automotive Fuel Cell Cooperation Corp), Juergen Stumper (Automotive Fuel Cell Cooperation Corporation), and Adam P Hitchcock (McMaster University) Morphological Analysis of Polymer Electrolyte Fuel Cell Electrode Using High Resolution X-Ray Computed Tomography and Subsequent Performance Analysis – Pratiti Mandal and Shawn Litster (Mechanical Engineering, Carnegie Mellon University) Microscopic Analysis of Interlayer Structure and Oxygen Transport Behaviors in Porous Electrode in PEMFC – Takahiro Suzuki (Tokyo University of Science), Shohji Tsushima, and Shuichiro Hirai (Tokyo Institute of Technology) Morphology of Water Transport Channels and Hydrophobic Cluster With Nafion Films Visualized With the AFM-IR Spectroscopy and Imaging Techniques – Tadashi Awatani, Hiromi Midorikawa (NISSAN ARC Ltd.), Curtis Marcott (Light Light Solutions), Nobuo Kojima, and Jiping Ye (NISSAN ARC Ltd.) Defect Detection in Fuel Cell Gas Diffusion Electrodes Using Infrared Thermography – Daniel Christopher Bittinat (Colorado School of Mines, National Renewable Energy Laboratory), Guido Bender (National Renewable Energy Laboratory), Jason Morgan Porter (Colorado School of Mines), and Michael Ulsh (National Renewable Energy Laboratory)

Continental 2, Tower 3, Ballroom Level, Hilton San Francisco Union Square B-12 Contaminant Effects – 14:00 – 17:40 14:00

1328

The Impact of Selected Air Pollutants On Spatial PEMFC Performance – Tatyana V Reshetenko (Hawaii Natural Energy Institute, University of Hawaii - Manoa) and Jean St-Pierre (Hawaii Natural Energy Institute, University of Hawaii)

117

Tuesday, October 29

10:40


Tuesday, October 29

14:20

1329

14:40

1330

15:00

1331

15:20

1332

15:40

1333

16:00 16:20 1334

118

PEMFC Cathode Contamination With Acetylene - Potential Dependency – Yunfeng Zhai, Jean St-Pierre, and Junjie Ge (Hawaii Natural Energy Institute, University of Hawaii - Manoa) PEMFC Cathode Contamination Mechanisms for Several VOCs Acetonitrile, Acetylene, Bromomethane, Iso-Propanol, Methyl Methacrylate, Naphthalene and Propene – Jean St-Pierre, Junjie Ge, Yunfeng Zhai, Tatyana V Reshetenko, and Michael Angelo (Hawaii Natural Energy Institute, University of Hawaii - Manoa) Studying the Poisoning Effect of An Assembly Aids Material and Relating It to the Species Found in the Material Leachate – Mayukhee Das (University of South Carolina), KC Neyerlin (National Renewable Energy Laboratory), John W Van Zee (University of Alabama), and Huyen N Dinh (National Renewable Energy Laboratory) Effect of Ca2+ As An Air Impurity On Polymer Electrolyte Fuel Cells – Xiaofeng Wang (Department of Materials Science & Engineering-University of Connecticut), Jing Qi (Center for Clean Energy Engineering, University of Connecticut), Ozan Ozdemir (Department of Mechanical Engineering-University of Connecticut), Ugur Pasaogullari (Department of Mechanical Engineering, University of Connecticut), Leonard J Bonville (Center for Clean Energy Engineering, University of Connecticut), and Trent Molter (Department of Materials Science & Engineering, University of Connecticut) Effect of Cationic Contaminants On Polymer Electrolyte Fuel Cell Performance – Jing Qi (Center for Clean Energy Engineering, University of Connecticut), Xiaofeng Wang (Department of Materials Science & Engineering-University of Connecticut), Ozan Ozdemir, Md Aman Uddin (Department of Mechanical Engineering, University of Connecticut), Leonard J Bonville (Center for Clean Energy Engineering, University of Connecticut), Ugur Pasaogullari (Department of Mechanical Engineering, University of Connecticut), and Trent Molter (Department of Materials Science & Engineering, University of Connecticut) Intermission Effects of Chloride Contamination On PEFCs – Md Aman Uddin (Department of Mechanical Engineering, University of Connecticut, Center for Clean Energy Engineering, University of Connecticut), Xiaofeng Wang (Department of Materials Science & Engineering, University of Connecticut, Center for Clean Energy Engineering, University of Connecticut), Jing Qi (Center for Clean Energy Engineering, University of Connecticut),

16:40

1335

17:00

1336

17:20

1337

M Ozan Ozdemir (Center for Clean Energy Engineering, University of Connecticut, Department of Mechanical Engineering, University of Connecticut), Leonard J Bonville (Center for Clean Energy Engineering, University of Connecticut), Ugur Pasaogullari (Department of Mechanical Engineering, University of Connecticut, Center for Clean Energy Engineering, University of Connecticut), and Trent Molter (Center for Clean Energy Engineering, University of Connecticut, Department of Materials Science & Engineering, University of Connecticut) Effect of Operating Parameters and Contaminant Feed Rate On PEMFCs Contamination From Polyglycol Dimethacrylate Based Assembly Aids – Md Safaruddin Opu (University of South Carolina), Guido Bender, Huyen N Dinh (National Renewable Energy Laboratory), Masato Ohashi (University of South Carolina), and John W Van Zee (University of Alabama) Leaching Studies of Assembly Aids for Balance of Plant of PEM Fuel Cells – Masato Ohashi, John W Weidner (University of South Carolina), John W Van Zee (University of Alabama), and Huyen N Dinh (National Renewable Energy Laboratory) Cell Performance Distribution in a PEMFC Stack During Contamination – Jean StPierre and Maheboob Virji (Hawaii Natural Energy Institute, University of Hawaii Manoa)

Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-12 Pt-Alloy Cathode Catalysts – 14:00 – 18:00 Co-Chair(s): Nagahiro Hoshi and Peter Strasser 14:00

1347

14:40

1348

15:00

1349

15:20

1350

Surface Structure and the Oxygen Reduction Reaction of Pt-Based Catalysts – Nagahiro Hoshi, Masashi Nakamura, Yuki Takesue, Takeshi Rurigaki, and Aya Hitotsuyanagi (Chiba University) Oxygen Reduction Reaction Activity of MBE-Prepared Ni/Pt(111) : Dependence of Surface Pt-Layer Thickness – Naoto Todoroki, Toshimasa Wadayama, and Yu Asakimori (Graduate School of Environmental Studies,Tohoku University) Understanding the Durability and ORR Reactivity of Four Different Dealloyed PtNix Cathodic Catalysts – David E Ramaker, Keegan M Caldwell (George Washington University), Sanjeev Mukerjee, Qingying Jia (Northeastern University), and Joseph M Ziegelbauer (General Motors Technical Center) Dealloying and Annealing Optimization of High Mass Activity Pt3Ni7/Nstf ORR Cathodes for Pemfcs – Andrew J Steinbach, Dennis van der Vliet, Sean M Luopa (3M Company), Jonah Erlebacher (Johns Hopkins University), and David A Cullen (Oak Ridge National Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1351

16:00 16:20 1352

16:40

1353

17:00

1354

17:20

1355

17:40

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Electrochemical Properties and Electronic Structure of Ni70Pt30 Thin Films On High Surface Area Nstf Supports – Charles C Hays, Poyan Bahrami (Caltech Jet Propulsion Laboratory), Jackson Foley (Occidental College), Michael A Johnson (Hughes Research Laboratories), and Michael Errico (Caltech Jet Propulsion Laboratory) Intermission Structural and Compositional Behaviors of Shaped Pt Alloy Nanoparticle Electrocatalysts – Chunhua Cui, Lin Gan (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Technical University Berlin, Germany), Marc Heggen (Ernst Ruska Center for Microscopy and Spectroscopy with Electrons, Forschungszentrum Juelich GmbH, Germany), and Peter Strasser (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Technical University Berlin, Germany) Dealloying of Pt bimetallic catalysts at constant electrode potentials – Stefan Rudi, Lin Gan, Chunhua Cui, and Peter Strasser (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Germany) Pt-Cu Alloys As Catalysts for the Oxygen Reduction Reaction – A Thin-Film Study of Activity and Stability – Anna K Schuppert, Angel A Topalov (Max-PlanckInstitut für Eisenforschung GmbH), Alan Savan, Alfred Ludwig (Ruhr-Universität Bochum), and Karl JJ Mayrhofer (MaxPlanck-Institut für Eisenforschung GmbH) Chemically Ordered Intermetallic Ptfeco Catalyst With Improved Activity and Durability for Electroreduction of Oxygen – Balamurugan Arumugam (Tokyo Institute of Technology, Japan), Bhalchandra A Kakade (SRM Research Institue, SRM University, India), Takanori Tamaki (Tokyo Institute of Technology,Japan), and Takeo Yamaguchi (Tokyo Institute of Technology) Facile Preparation of Ordered Intermetallic Nanostructures for High Performance Fuel Cell Catalysts – Jinwoo Lee (Pohang University of Science and Technology)

Golden Gate 5, Tower 3, Lobby Level, Hilton San Francisco Union Square E-12 Alkaline Anode Catalysis – 14:00 – 18:00 Co-Chair(s): Yushan Yan and Elena Baranova 14:00

1357

Ethanol Electrooxidation Over Pd Nanoparticles Deposited By Atomic Layer Deposition On TiO2 Nanotubes – Elena Baranova (University of Ottawa), Loïc Assaud (CINaM-CNRS, Aix-Marseille University), Nicolas Brazeau (University of Ottawa), Kristina Pitzschel, Vasile Heresanu, Margrit Hanbücken, and Lionel Santinacci (CINaM-CNRS, Aix-Marseille University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

14:20

1358

14:40

1359

15:00

1360

15:20

1361

15:40

1362

16:00 16:20 1363

16:40

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Palladium-Based Bimetallic Catalysts for Alkaline Direct Alcohol Fuel Cell (ADAFC) – Tilman Jurzinsky, Carsten Cremers, Karsten Pinkwart, and Jens Tübke (Fraunhofer Institute for Chemical Technology ICT) Combinatorial Discovery of Ni-Based Binary and Ternary Catalysts for Hydrazine Electrooxidation for Use in Anion Exchange Membrane Fuel Cells – Tomokazu Sakamoto, Koichiro Asazawa (Daihatsu Motor Co, Ltd.), Jean Sanabria Chinchilla (University of Houston), Ulises Martinez, Barr Halevi, Plamen Atanassov (University of New Mexico), Peter Strasser (Technical University of Berlin), and Hirohisa Tanaka (Daihatsu Motor Co, Ltd.) Modeling Mono- and Bi-Functional Alkaline Electrocatalysts for Hydrogen Oxidation and Evolution Reactions On the Basis of First-Principles Calculations – ZhenHua Zeng and Jeff Greeley (Purdue University) In Situ Visualization of Generated Gas Distribution in An Operating Direct Hydrazine Hydrate Fuel Cell By Soft X-Ray Radiography – Tomokazu Sakamoto, Koichiro Asazawa (Daihatsu Motor Co, Ltd.), Phengxay Deevanhxay, Shohji Tsushima, Shuichiro Hirai (Tokyo Institute of Technology), and Hirohisa Tanaka (Daihatsu Motor Co, Ltd.) Novel PdIr/C Catalysts for the Hydrogen Oxidation Reaction in Alkaline Media – Rhodri Jervis (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK, UCL Energy Institute, Central House, 14 Upper Woburn Place, London, UK, WC1H 0NN), Noramalina Mansor (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK), Christopher Gibbs (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK, Amalyst Limited, The Network Building, 97 Tottenham Court Road, London, UK, W1T 4TP), Claire A Murray, Chiu C Tang (Diamond Light Source, Harwell Science and Innovation Campus, Didcot, Oxfordshire, UK, OX11 0DE), and Dan J L Brett (Electrochemical Innovation Lab, University College London, London, WC1E 7JE, UK) Intermission High Catalytic Activity for Glycerol Electrooxidation By Binary Pd-Based Nanoparticles in Alkaline Media – Livia Martins Palma, Thiago Santos Almeida, and Adalgisa Rodrigues De Andrade (University of Sao Paulo) Comparative Study of the HOR Kinetics in Pemfc and Aemfc – Julien Durst, Christoph Simon, Juan Herranz, Frédéric Hasché, and Hubert Gasteiger (Technical University of Munich)

119

Tuesday, October 29

15:40


17:00

17:20

Tuesday, October 29

17:40

1365

1366

1367

Carbon Supported Pd-Ni-P Nanoalloy As An Efficient Catalyst for Ethanol Electro-Oxidation in Alkaline Media – Ye Wang, Yao-Yue Yang, and Wen-Bin Cai (Department of Chemistry, Fudan University) NiZn/C Electrocatalysts for Direct Hydrazine Anionic Fuel Cells – Ulises Martinez, Alexey Serov, Monica Padilla (University of New Mexico), Tomokazu Sakamoto, Koichiro Asazawa, Hirohisa Tanaka (Daihatsu Motor Co, Ltd.), and Plamen Atanassov (University of New Mexico) Non-Precious Metal Catalysts for Hydrogen Oxidation Reaction in Alkaline Electrolytes – Wenchao Sheng, Adam P Bivens, MyatNoeZin Myint, Zhongbin Zhuang (University of Delaware), Jingguang Chen (Columbia University), and Yushan Yan (University of Delaware)

Golden Gate 4, Tower 3, Lobby Level, Hilton San Francisco Union Square

16:00

1342

16:40

1343

17:00

1344

17:20

1345

17:40

1346

C-12 Membrane Characterisation, Electrolysis, Water Transport Properties – 14:00 – 18:00 Co-Chair(s): Stephen J. Paddison and Kelly A. Perry 14:00

14:40

15:00

15:20

1338

1339

1340

1341

15:40 120

Atomic Force Microscopy Studies of Conductive Nanostructures in Solid Polymer Electrolytes – Renate Hiesgen, Tobias Morawietz (University of Applied Sciences Esslingen), Stefan Helmly (German Aerospace Center, Institute of Technical Thermodynamics), Ines Galm (University of Applied Sciences Esslingen), and KAndreas Friedrich (German Aerospace Center (DLR), Institute of Technical Thermodynamics) Conductive AFM Study to Differentiate Between the Surface Ionic Conductivity of Nafion® and Electrospun Membranes – Regis Paul Dowd Jr, Trung Van Nguyen, David S Moore (University of Kansas), Peter N Pintauro, and Jun Woo Park (Vanderbilt University) Understanding of Sulfonated Graphene and Nafion Hybrid Proton Exchange Membrane By Atomic Force Microscopy – Osung Kwon, Sang C Lee, D H Lee, A K Sahu, Sangaraju Shanmugam (DaeguGyeongbuk Institute of Science & Technology (DGIST)), M H Kim (Ewha Womans University), and Sam Park (University of Louisville) Micro-Raman Study of Water Distribution Inside Electrolyte Membrane in Operating PEFC – Masanori Hara, Junji Inukai (Fuel Cell Nanomaterials Center, University of Yamanashi), Kenji Miyatake (Clean Energy Research Center, University of Yamanashi), Makoto Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), Hiroyuki Uchida (Clean Energy Research Center, University of Yamanashi), and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Break

High Temperature PEM Electrolysis – Cortney K Mittelsteadt (Giner, Inc) Investigation of a PEM Water Electrolyzer Based On a Sulfonated Polysulfone Membrane – Stefania Siracusano, Vincenzo Baglio (CNR-Institute of Advanced Energy Technologies (ITAE)), Francesco Lufrano, Pietro Staiti (CNR ITAE), and Antonino S Aricò (CNR-Institute of Advanced Energy Technologies (ITAE)) Characterizing Water Transport Properties of Hydrocarbon Block Copolymer Proton Exchange Membranes – Hui Xu, Cortney K Mittelsteadt (Giner, Inc), Jarrett Rowlett, Yu Chen, Andrew Shaver, and James McGrath (Virginia Tech) The Effect of Membrane Properties On Water Transport in Pemfcs – Visarn Lilavivat, Sirivatch Shimpalee (University of South Carolina), John W Van Zee (University of Alabama), Cortney K Mittelsteadt, and Hui Xu (Giner, Inc) Separation Analysis of Electro-Osmosis and Diffusion of Water in Electrolyte Membrane of PEMFC Under LowHumidity Operation – Kosuke Nishida, Takuto Hosotani, Masaya Asa (Kyoto Institute of Technology), Shohji Tsushima, and Shuichiro Hirai (Tokyo Institute of Technology)

Stationary and Large-scale Electrical Energy

B12 Storage Systems 3

Battery / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering Golden Gate 8, Tower 3, Lobby Level, Hilton San Francisco Union Square

Vanadium Redox Systems 1 – 08:00 – 11:50 Co-Chair(s): Trung Van Nguyen and Shohji Tsushima 08:00

1658

08:20

1659

08:40

1660

09:00

1661

Advances in PNNL’s Vanadium Redox Flow Battery Stack – Vincent Sprenkle, Ed Thomsen, Wei Wang, Bin Li, Brian J Koeppel, Kurt P Recknagle, Xiaoliang Wei, Zimin Nie, Qingtao Luo, and David Reed (Pacific Northwest National Laboratory) Redox Flow Cell Component Validation At Sub-Stack Level – Vincent Sprenkle, Ed Thomsen, Wei Wang, Bin Li, Brian J Koeppel, Kurt P Recknagle, Xiaoliang Wei, Zimin Nie, Qingtao Luo, and David Reed (Pacific Northwest National Laboratory) Redesign of a Vanadium Redox Flow Battery for Reduced Pressure Loss Using An Interdigitated Flow Field – Brian J Koeppel, Kurt P Recknagle, David E Stephenson, David Reed, Ed Thomsen, and Vincent Sprenkle (Pacific Northwest National Laboratory) Nano-Catalysts Decorating Graphite Felts As High-Performance Electrodes for An All-Vanadium Redox Flow Battery – Bin Li, Wei Wang, Xiaoliang Wei, Qingtao Luo, Zimin Nie, and Vincent Sprenkle (Pacific Northwest National Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


09:40

1662

1663

10:00 10:10 1664

10:30

1665

10:50

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11:10

1667

11:30

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Mitigating Capacity Fade in Vanadium Redox Flow Batteries Using Asymmetric Currents During Cycling – Ertan Agar, Alex Benjamin, Christopher R Dennison (Drexel University), Dongyang Chen, Michael A Hickner (Penn State University), and Emin Caglan Kumbur (Drexel University) On the Determination of Coulombic Efficiency for Vanadium Redox Flow Batteries: Cutoff Voltage Vs State of Charge Limits – Alex Benjamin, Ertan Agar, Christopher R Dennison, and Emin Caglan Kumbur (Drexel University) Break Influence of Cell Geometry and Operating Parameters On Performance of a Redox Flow Battery With Serpentine and Interdigitated Flow Fields – Shohji Tsushima (Tokyo Institute of Technology, PRESTO, Japan Science and Technology Agency), Sho Sasaki, and Shuichiro Hirai (Tokyo Institute of Technology) Investigation of the Hydrogen Evolution in All-Vanadium Redox Flow Battery – CheNan Sun (Oak Ridge National Laboratory), Frank Delnick (Sandia National Laboratory), Loic Baggetto, Gabriel M Veith (Oak Ridge National Laboratory), and Thomas A Zawodzinski (University of Tennessee) Overvoltage Measurements With Reference Electrodes in Redox Flow Batteries – Joachim Langner (Karlsruhe Institute of Technology (KIT)) State of Charge Effects On the Performance of Vanadium Rfbs – Thomas A Zawodzinski (The University of Tennessee Knoxville, Oak Ridge National Laboratory), Che-Nan Sun (Oak Ridge National Laboratory), Douglas Aaron, Emma Hollmann (University of Tennessee, Knoxville), Alexander B Papandrew (University of Tennessee), and Mathew M Mench (Electrochemical Energy Storage and Conversion Laboratory, Department of Mechanical, Aerospace and Biomedical Engineering, University of Tennessee) Ex Situ Measurements of Transport Properties of Vanadium Ions for Vanadium Redox Flow Batteries – Jamie S Lawton, Amanda Jones, Zhijiang Tang, Congling Zhang, and Thomas A Zawodzinski (University of Tennessee)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Vanadium Redox Systems 2 and Other Redox Systems 1 – 14:00 – 17:30 Co-Chair(s): Sanjeev Mukerjee and Kwong-Yu Chan 14:00

1669

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14:40

1671

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15:20

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15:40 15:50 1674

Measurement of Localized Current Distribution Applied to a Vanadium Redox Flow Battery – Mathew M Mench (Electrochemical Energy Storage and Conversion Laboratory, Department of Mechanical, Aerospace and Biomedical Engineering, University of Tennessee), Jason Clement (University of Tennessee Department of Mechanical Aerospace and Biomedical Engineering), and Thomas A Zawodzinski (Oak Ridge National Laboratory, University of Tennessee) GPU-Enabled Pore-Scale Transport Resolved Model for Vanadium Redox Flow Batteries – Charles Andersen, Gang Qiu, and Ying Sun (Drexel University) Modeling of a Vanadium Redox Flow Battery for Energy Storage – ChinLung Hsieh (Institute of Nuclear Energy Research), Yue-Lin Jhong (Department of Energy Engineering, National United University), Kan-Lin Hsueh (Green Energy & Environment Research Labs, Industrial Technology Research Institute, Department of Energy Engineering, National United University), and Chih-Yang Dai (Department of Energy Engineering, National United University) Characterization of Battery for Energy Storage Applications – Lead Acid Battery, Lithium Battery, Vanadium Redox Flow Battery, and Capacitor – Chih-Lung Hsieh (Institute of Nuclear Energy Research), Yen-Ting Liu (Department of Energy Engineering, National United University), Kan-Lin Hsueh (Green Energy & Environment Research Labs, Industrial Technology Research Institute, Department of Energy Engineering, National United University), and Ju-Shei Hung (Department of Chemical Engineering, National United UNiversity) A Precious-Metal Free Regenerative Fuel Cell for Storing Renewable Electricity – Desmond Ng (Stanford University), Yelena Gorlin (TUM), Toru Hatsukade, and Thomas Francisco Jaramillo (Stanford University) Break Comparison of Acid and Alkaline Hydrogen-Bromine Fuel Cell Systems – Trung Van Nguyen, Venkata Yarlagadda (The University of Kansas), Guangyu Lin (TVN Systems, Inc), Guoming Weng, Vanessa Chi-Ying Li, and Kwong-Yu Chan (The University of Hong Kong)

121

Tuesday, October 29

09:20


16:10

16:30

Tuesday, October 29

16:50

17:10

D3

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1677

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Effect of Operating Condition On Cyclic Performance of a HydrogenBromine Flow Battery – Kyu Taek Cho (Lawrence Berkeley National Laboratory), Markus S Ding (Institute of Technical Electrochemistry, Technische Universität München), Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory), Vince Battaglia, and Venkat Srinivasan (Lawrence Berkeley National Laboratory) Investigation of the Active Site of Rhodium Sulfide Electrocatalysts – Nirala Singh, David Chester Upham, Ru-Fen Liu, Horia Metiu, and Eric McFarland (University of California, Santa Barbara) Synthesis and Characterization of RhxSy/C Catalysts for HOR/HER in HBr – Jahangir Masud, Jack Walter (The University of Kansas), Trung Van Nguyen (University of Kansas), Guangyu Lin (TVN Systems, Inc), Nirala Singh, Eric McFarland, Horia Metiu (University of California, Santa Barbara), Myles Ikenberry, Keith Hohn (Kansas State University), Chun-Jern Pan, and Bing-Joe Hwang (National Taiwan University of Science and Technology, Taiwan) Charge Transfer and Storage in the Electrochemical Flow Capacitor – A New Concept for Grid-Scale Energy Storage – Christopher R Dennison, Majid Beidaghi, Kelsey B Hatzell, Jonathan W Campos (Drexel University), Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), and Emin Caglan Kumbur (Drexel University)

Degradation of Carbon Structural Materials

08:15 08:20 1763

09:20

1764

1765

09:40

122

1766

10:40

1767

11:00

D5

Welcoming Remarks Corrosion Studies On Alumina and Carbon Fibres/Magnesium Metal Matrix Composites – Volkmar Werner Neubert (Institut fuer Materialpruefung und Werkstofftechnik Dr Neubert GmbH) and Ashraf Bakkar (Suez University Suez Egypt) Development of the Atmospheric Corrosion Model of Nickel-Coated Carbon Reinforced Aluminum (Al/C/50f) MMCs – Shruti Tiwari (University of Hawaii) and Lloyd H Hihara (University of Hawaii at Manoa) Corrosion Protection of Interfaces Between Aluminum and Mechanically-Coupled Polymer Matrix Composites (PMCs) – Raghu Srinivasan, Lloyd H Hihara, and Jeffrey Nelson (University of Hawaii at Manoa) Break

Evaluating Adhesive Bonds With CarbonComposites Using Electrochemical Impedance Spectroscopy – Guy Davis, FECS (OV8S9J) Electrochemical Corrosion Investigations On Metal Doped a-C:H Coatings for Bipolar Plates in Redox-Flow Batteries – Justin Richards, Kerstin Schmidt, Peter Fischer, and Jens Tübke (Fraunhofer Institute for Chemical Technology ICT) Concluding Remarks

Oxide Films: A Symposium in Honor of Clive Clayton on his 65th Birthday Corrosion Golden Gate 2, Tower 3, Lobby Level, Hilton San Francisco Union Square

Oxides on Light Metals and Alloys 1 – 08:00 – 12:20 Co-Chair(s): Dev Chidambaram, Donald R. Baer, Gary P. Halada, Donald F. Roeper and Marvin Jaime-Vasquez 08:00

1804

08:20

1805

08:40

1806

09:00

1807

09:40

1808

Corrosion / New Technology Subcommittee Golden Gate 1, Tower 3, Lobby Level, Hilton San Francisco Union Square

Degradation of Carbon Structural Materials – 08:15 – 11:05 Co-Chair(s): Douglas C. Hansen and Lloyd H. Hihara

09:00

10:00

10:00 10:20 1809

10:40

1810

Protective Oxide Film On Aluminium Encapsulated With Different Nanocontainers – Aleksey Lisenkov (University of Aveiro), Sergei Poznyak (Institute for Physical Chemical Problems, Belarusian State University), Andrei Salak, Mikhail L Zheludkevich, and Mário G S Ferreira (University of Aveiro) Stress Distributions in Anodic Alumina Films Prior to the Onset of Pore Formation – Omer Ozgur Capraz, Pranav Shrotriya, and Kurt Hebert (Iowa State University) Imaging and Characterizing Oxide Breakdown and Pit Initiation in Aluminum Using Electron Microscopy – Kevin R Zavadil (Sandia National Laboratory) Tutorial: The Power Law Model for Interpretation of CPE Parameters – Mark E Orazem (University of Florida), Bernard Tribollet, Isabelle Frateur (CNRS-LISE), Marco Musiani (IENI CNR), and Vincent Vivier (Université P et M Curie) Modeling Stress Distributions in Anodic Alumina Films Prior to the Onset of Pore Formation – Kurt Hebert, Omer Ozgur Capraz, Shinsuke Ide, and Pranav Shrotriya (Iowa State University) Break Simultaneous Ellipsometric and Potentiostatic Study of Aluminum Oxide Growth and Dissolution in Acetate Buffer – Nils-Håvard Giskeødegård, Ola Hunderi, and Kemal Nisancioglu (Norwegian University of Science and Technology) A Novel Application of the Scanning Vibrating Probe for Determination of Coupling Currents: Understanding the Mechanisms SCC in 5000 Series Al Alloys – Krystaufeux Dormas Williams (The Pennsylvania State University, Naval Research Laboratory), Robert Bayles (Naval Research Laboratory), Paul M Natishan (US Naval Research Laboratory), and Digby D Macdonald (University of California at Berkeley)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


11:20

11:40

1811

1812

1813

12:00

Microstructural Studies of Pure Aluminum and Al1100: the Effect of Grain Size and Boundaries On Quality of Anodic Aluminum Oxide Template – Dena Pourjafari (Universidad Autónoma de Nuevo León) Effect of Vacuum System Base Pressure On Corrosion Resistance of Sputtered Al Thin Films – Gerald Frankel (Fontana Corrosion Center, The Ohio State University), Xiaobo Chen (Monash University), Rajeev Gupta (Deakin University), Sasikaran Kandasamy (Melbourne Centre for Nanofabrication), and Nick Birbilis (Monash University) Characterization of Self-Assembled Monolayer On Anodized Aluminum By XPS, AFM and Low-Voltage SEM – Hiroki Habazaki (Hokkaido University) Intermission

D6

Biodegradable and Bioabsorbable Metals and Materials Corrosion Golden Gate 1, Tower 3, Lobby Level, Hilton San Francisco Union Square

Biodegradable and Bioabsorbable Metals and Materials – 15:20 – 17:20 Co-Chair(s): R. Buchheit, Mekki Bayachou and B. Shaw 15:20

1842

16:00

1843

16:20

1844

16:40

1845

17:00

1846

Corrosion Division Awards Lectures – 14:00 – 15:00 Co-Chair(s): Shinji Fujimoto and R. Buchheit 14:00

14:30

1814

1815

(2013 ECS Corrosion Division H H Uhlig Award Lecture) Active Corrosion Protection By Ldhs – Mário G S Ferreira (University of Aveiro) (2013 ECS Corrosion Division Morris Cohen Graduate Student Award Lecture) Internal Stresses in Ultrathin Oxide Films: Influence On Growth and Reliability – Quentin Van Overmeere (Université catholique de Louvain)

Oxides on Light Metals and Alloys 2 – 15:20 – 17:20 15:20

1816

15:40

1817

16:00

1818

16:20

1819

16:40

1820

17:00

1821

Corrosion Behavior of AZ31B Friction Stir Welds – Joseph Kish, Zach Cano, Sarah Zhang, Joseph McDermid (McMaster University), Geraint Williams, and Carol Glover (Swansea University) Corrosion Films On Single Crystal Magnesium – Elizabeth A McNally and Joseph Kish (McMaster University) Modeling the Chloride Ion Attack of Aluminum Oxide By Experimental and Theoretical XANES Analysis – Donald F Roeper (Excet, Inc), William E O’Grady (Excet,Inc), and Paul M Natishan (US Naval Research Laboratory) Effects of Aging Temperature and Time On the Corrosion Protection Provided By Trivalent Chromium Process Coatings On AA2024-T3 – Liangliang Li and Greg M Swain (Michigan State University) Pretreatment Effects On the Corrosion Protection Provided By Trivalent Chromium Process Coatings On AA2024-T3 – Liangliang Li, Annika L Desouza, and Greg M Swain (Michigan State University) Effects of Chromate and Molybdate Ions On Scratch Repassivation Behavior of Precipitation Hardened Aluminum Alloys – Samuel B Madden (University Of Virginia)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

E3

Critical Factors in Mg Alloy Corrosion and Biocompatibility – Sannakaisa Virtanen (University of Erlangen) Effect of Alloying Element Ca and Anodization On Corrosion Resistance and Bioactivity of AZ61 Alloy – Anawati Anawati, Hidetaka Asoh, and Sachiko Ono (Department of Applied Chemistry, Kogakuin University) Switch of Guanine and Adenine Current Caused By Temperature Change in DNA/ NIPA and PAM-Based Hydrogels – Ewelina Zabost, Marcin Karbarz, Mikolaj Donten, and Zbigniew Stojek (University of Warsaw) Evaluation of Transparent Polyimide Film As a Biologicalcell Culture Sheet With Microstructures – Hirotaka Maenosono, Hirofumi Saito, and Yasushiro Nishioka (College of Science and Technology, Nihon University) A Study On the Affect of Novel Surface Treatments and Biodegradable Polymer Coatings On Corrosion and Surface Properties of Ternary Nitinol Alloy – Chandan Pulletikurthi and Norman Munroe (Florida International University)

GaN and SiC Power Technologies 3

Electronics and Photonics / Dielectric Science and Technology Continental 9, Tower 3, Ballroom Level, Hilton San Francisco Union Square

GaN Power Devices 1 – 08:00 – 10:00 Co-Chair(s): Kenneth A. Jones and Ibrahim Abdel-Motaleb 08:00

1909

08:20

1910

08:40

1911

III-Nitride Materials and Devices for Power Electronics – Grigory Simin (University of South Carolina), Michael Shur (Rensselaer Polytechnic Institute), and Remis Gaska (Sensor Electronic Technology, Inc) Normally-Off GaN Transistors for Power Switching Applications – Oliver Hilt, Eldad Bahat-Treidel, Frank Brunner, Arne Knauer, Rimma Zhytnytska, Przemyslaw Kotara, and Joachim Wuerfl (FerdinandBraun-Institut, Leibniz-Institut fuer Hoechstfrequenztechnik) High Performance Normally-Off GaN Mosfets On Si Substrates – Hiroshi Kambayshi, Nariaki Ikeda, Takehiko Nomura (Furukawa Electric Co, Ltd.), Hirokazu Ueda, Yuichiro Nirozumi (Tokyo Electron Ltd.), Katsushige Harada, Kazuhide Hasebe (Tokyo Electron Tohoku Ltd.), Akinobu Teramoto, Shigetoshi Sugawa, and Tadahiro Ohmi (Tohoku University)

123

Tuesday, October 29

11:00


09:00

09:20

09:40

1912

1913

1914

Ultra-Thin Gate Dielectrics for Leakage Current Suppression in Vertically-Scaled GaN MIS-Hemts – David J Meyer, Brian P Downey, D Scott Katzer, Jason A Roussos, David F Storm, Mario G Ancona, Charles R Eddy Jr, Steven C Binari (US Naval Research Laboratory), Ming Pan, and Xiang Gao (IQE RF LLC) Characterization and Performance of D-Mode GaN Hemt Transistor Used in a Cascode Configuration – Tom MacElwee, John Roberts, Hugues Lafontaine, Greg Klowak, and Lyubov Yushyna (GaN Systems Inc) Voltage Switching Limits of Lateral GaN Power Devices – Krishna Shenai (Argonne National Laboratory)

14:20

1922

14:40

1923

15:00

1924

15:20

1925

15:40

1926

16:00

1927

Tuesday, October 29

Power Device Reliability 1 – 10:10 – 12:10 Co-Chair(s): Aris Christou and Mietek Bakowski 10:10

1915

10:30

1916

10:50

11:10 11:30

11:50

1917

1918

1919

1920

Reliability of GaN Electronics: Novel Electrical Result – Martin Kuball (University of Bristol) GaN-Based Power Hemts, Parasitic, Reliability and High Field Issues – Gaudenzio Meneghesso, Matteo Meneghini (Department of Information Engineering), Davide Bisi (Department of Information Engineering, Department of Information Engineering), Riccardo Silvestri, Alberto Zanandrea (Department of Information Engineering), Eldad Bahat-Treidel, Oliver Hilt, Joachim Würfl (FerdinandBraun-Institut Leibniz-Institut fuer Hoechstfrequenztechnik), and Enrico Zanoni (Department of Information Engineering) The Effects of Defects on the Breakdown Voltage of GaN High Power Electronic Devices – Kenneth A Jones, M A Derenge, R P Tompkins, K W Kirchner (Army Research Lab), J Leach (Kyma Technologies), P Suvarna, and F Shahedipour (CNSE, SUNY-Albany) True “Figure of Merit” for Power Electronics Switching Device – Krishna Shenai (Argonne National Laboratory) Progress in SiC Mosfet Reliability – David R Hughart, Jack D Flicker, Sandeepan DasGupta, Stan Atcitty, Robert J Kaplar, and Matthew J Marinella (Sandia National Laboratories) Reliability of GaN Hemts: Electrical and Radiation-Induced Failure Mechanism – Travis J Anderson, Andrew D Koehler, Marko J Tadjer, Karl D Hobart (Naval Research Laboratory), Petra Specht (University of California, Berkeley), Matthew Porter, Todd R Weatherford (Naval Postgradute School), Brad Weaver, Jennifer K Hite, and Fritz J Kub (Naval Research Laboratory)

Power Semiconductor Device Education: Which Topics and What Depth? – William P Robbins and Ned Mohan (University of Minnesota) MultiScale Modeling of III-Nitride Materials and Power Devices – Enrico Bellotti, Masahiko Matsubara, Sara Shishehchi (Boston University), and Francesco Bertazzi (DELEN and IEIITCNR) Power Semiconductor Device, Course Contents Revisited – Ibrahim M AbdelMotaleb (Northern Illinois University) Power Electronic Module Packaging At UA – Simon S Ang, H Alan Mantooth, and Juan C Balda (University of Arkansas) Physics of Failure and Reliability of Power Electronics Devices – Aris Christou, P McCuskey, and A Dasgupta (University of Maryland) Web-based Modeling, Simulation, Parameter Extraction, and Characterization for Power Electronics Curriculum – Michael Shur (Rensselaer Polytechnic Institute)

Panel Session 1 - Wide Bandgap Power Module Requirements for Automotive and Grid Integration Applications – 16:30 – 18:15 Co-Chair(s): Krishna Shenai and Bess Ng 16:30 16:40 16:55 17:10 17:25 17:40 17:55

E4

Introduction Andy Pinkos, Magna Satoshi Tanimoto, Nissan Motor Brad Palmer, Cummins Carlos Cortes, BTCPower Anil Paryani, BTCPower Q&A

Low-Dimensional Nanoscale Electronics and Photonic Devices 6

Electronics and Photonics / Dielectric Science and Technology / Sensor Yosemite C, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Low-dimensional Nanoscale Electronic and Photonic Devices 1 Solar Cell – 08:20 – 09:40 Co-Chair(s): Xiaolin Zheng 08:20

1964

08:50

1965

Multi-Type Energy-Scavenging Nanogenerators Based On the Coupling of Piezoelectric, Triboelectric, and Thermal Properties – Sang-Woo Kim (Sungkyunkwan University (SKKU)) Roll-to-Roll Fabrication of Flexible Thin Film Solar Cells On Low Cost ThreeDimensional Nano-Textured Substrates – Zhiyong Fan, Qingfeng Lin, Siu-Fung Leung, and Qianpeng Zheng (Hong Kong University of Science and Technology)

Power Semiconductor Curriculum – 14:00 – 16:20 Co-Chair(s): William P. Robbins and Ibrahim Abdel-Motaleb 14:00

124

1921

Systems-Driven Power Semiconductor Education – Krishna Shenai (Argonne National Laboratory) Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1966

Resonance-Assisted Absorption in Concentric Spherical Microshells With Omnidirectional Supersensitivity for Use in Space – Der-Hsien Lien (Department of Electrical Engineering & Institute of Photonics and Optoelectronics, National Taiwan University), Jr-Hau He (National Taiwan University), Dan Wang, and Zhenghong Dong (State Key Laboratory of Multi-phase Complex Systems, Institute of Process Engineering, Chinese Academy of Sciences)

15:30

1975

Low-dimensional Nanoscale Electronic and Photonic Devices 2 Solar Cell – 10:00 – 12:00 Co-Chair(s): Zhiyong Fan and Junqiao Wu 10:00

10:30

11:00

11:20

11:40

1967

1968

1969

1970

1971

CMOS Logic Devices and Gas Sensors Realized By Epitaxially Transferred 2-D III-V Nanoribbons On Insulator – Sungho Shin and Junghyo Nah (Chungnam National University) Enhanced Solar Energy Harvesting Scheme Utilizing Nanostructures – Yu-Lun Chueh (Department of Materials Science and Engineering, National Tsing Hua University, Hsinchu 30013, Taiwan, ROC) Fabrication of 3D Nanostructured Cadmium Telluride Solar Cells Based On Electrodeposition – Zhiyong Fan, Huiying Fu, Kwong-Hoi Tsui, and Siu-Fung Leung (Hong Kong University of Science and Technology) Programmable Three-Dimensional Nanophotonic Structures for Thin-Film Photovoltaic Applications – Qingfeng Lin, Siu-Fung Leung, Bo Hua, and Zhiyong Fan (Hong Kong University of Science and Technology) Investigation An Universal Way To Fabricate Nanotip Structure On Chalcopyrite-Series Materials – Yu-Ting Yen, Yi-Chung Wang, Yu-Ze Chen, HungWei Tsai, Fan Hu (Department of Materials Science and Engineering, National TsingHua University, Hsinchu, Taiwan), and Yu-Lun Chueh (Department of Materials Science and Engineering, National Tsing Hua University, Taiwan)

Large Area CuInGaSe2 Nanodome Array Structures Using Silicon Nitride-Based Nanotip Arrays As a Template for Solar Cell Applications – Manisha Kondiba Date (Department of Materials Science and Engineering, National Tsing Hua University), Hsin Chu Chen (Department of Photonics and Institute of Electrooptical Engineering, National Chiao Tung University, Chia Hao Hsu, Chih Huang Lai (Department of Materials Science and Engineering, National Tsing Hua University, Hao Chung Kuo (Department of Photonics and Institute of Electro-optical Engineering, National Chiao Tung University), and Yu-Lun Chueh (Department of Materials Science and Engineering, National Tsing Hua University, Taiwan)

Low-dimensional Nanoscale Electronic and Photonic Devices 3 Nanoscale Electronic Devices – 16:10 – 18:00 Co-Chair(s): Wei Lu and Johnny C. Ho 16:10

1976

16:40

1977

17:10

1978

17:40

1979

Tunable 2-Dimensional Electron gas conductivity At Oxide Heterointerfaces – Ho Won Jang (Seoul National University) Tunable Complex Oxide Nanostructures – Ying-Hao Chu (National Chiao Tung University) A New Strategy to Realize the ThreeDimensional Functional Metal Oxide Nanostructured Electronics – Azusa N Hattori (The Institure of Scientific and Industrial Research, Osaka University) and Hidekazu Tanaka (The Institute of Scientific and Industrial Research) Measurement of Complex Conductance and Capacitance in the Phz Frequency Range With Subnanometric Spatial Resolution: Application to the Grain Boundary of Monoclinic Hafnia – Cyril Guedj (CEA, LETI, MINATEC Campus)

Low-dimensional Nanoscale Electronic and Photonic Devices 2 Nanoscale Electronic Devices – 14:00 – 15:50 Co-Chair(s): Sang-Woo Kim and Kuniharu Takei 14:00

1972

14:30

1973

15:00

1974

Effects of Native Defects and Molecular Adsorption On Optical Properties of TwoDimensional Semiconductors – Junqiao Wu, Sefaattin Tongay, Jian Zhou, Wen Fan, and Joonki Suh (UC Berkeley) Optical Manipulation and Electrical Control of Excitons and Valleys in Atomically-Thin Semiconductors – Xiaodong Xu (University of Washington) Spatially Resolved Optoelectronics in Lead Sulfide Nanowires – Dong Yu, Yiming Yang, and Xingyue Peng (University of California at Davis)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

125

Tuesday, October 29

09:20


E6

Photovoltaics for the 21st Century 9

11:00

2032

11:20

2033

Dielectric Science and Technology / Electrodeposition / Electronics and Photonics / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering Union Square 12, Tower 3, 4th Floor, Hilton San Francisco Union Square

Organic & DSS Cells – 08:30 – 11:40 Co-Chair(s): Meng Tao and Thad Druffel

Tuesday, October 29

08:30

08:50

2026

2027

09:10

2028

09:30

2029

09:50 10:20 2030

10:40

126

2031

Bulk-Heterojunction Solar Cells Based On Mixed Donorsof P3HT and Phenylene– Thiophene Oligomer Derivative – Takanori Okukawa (College of Science and Technology, Nihon University), Shunjiro Fujii (Advanced Industrial Science and Technology), Zongfan Duan (Xi’an University of Technology), Yurina Ohori, Yuta Kaneko (College of Science and Technology, Nihon University), Gaoyang Zhao (Xi’an University of Technology), Yuichiro Yanagi, Akira Yoshida, Masaya Ohzeki, Tatsuki Yanagidate, Yuki Arai (College of Science and Technology, Nihon University), Hiromichi Kataura (Advanced Industrial Science and Technology), and Yasushiro Nishioka (College of Science and Technology, Nihon University) Driving Energy for the Formation of Molecular Bulk Heterojunction in Small Molecule Based Organic Photodiode – Hyouksoo Han, Soohwan Sul, Kwang-Hee Lee, Jong-Bong Park, Youngsuk Jung, Sunjung Byun, Changhoon Jung, and KyuSik Kim (SAIT, SEC) Construction of Hierarchically Structured TiO2 Nanotube Arrays for Efficient DyeSensitized Solar Cells – Changjian Lin (State Key Lab of Physical Chemistry of Solid Surfaces, Xiamen University) Effect of Co-Evaporated Liq:Alq3 Layer for Power-Conversion-Efficiency Enhancement of Polymer Photovoltaic Cells – Joo-Hyeong Park, Ji-Heon Kim (Hanyang University), Hyoung-Rae Lee (Hanyang University, SAMSUNG DISPLAY), Yun-Hyuk Ko, Jin-Sung Park, and Jea-Gun Park (Hanyang University) Break Nano-Ordering of Donor-Acceptor Interactions Using Metal-Organic Frameworks As Scaffolds – Kirsty Leong, Michael E Foster, Bryan M Wong (Sandia National Laboratories, Livermore), Erik D Spoerke, Dara Gough (Sandia National Laboratories, Albuquerque), Joseph C Deaton (Department of Chemistry, North Carolina State University, Raleigh), and Mark D Allendorf (Sandia National Laboratories, Livermore) Optimizing Light Harvesting and Charge Collection in Dye-Sensitized Solar Cells Based On ZnO – Thierry Pauporté (CNRS)

Flexible PTB7:PC70BM BulkHeterojunction Solar Cellswith Lif Cathode Buffer Layer – Tatsuki Yanagidate (College of Science and Technology, Nihon University), Shunjiro Fujii (Advanced Industrial Science and Technology), Masaya Ohzeki, Ryo Nagata, Daichi Kaneto, Takahiko Sato, Toshihiro Hoashi, Yuichiro Yanagi, Yuki Arai, Takanori Okukawa, Akira Yoshida (College of Science and Technology, Nihon University), Hiromichi Kataura (Advanced Industrial Science and Technology), and Yasushiro Nishioka (College of Science and Technology, Nihon University) Highly Conductive PEDOT:PSS Electrode Treated With Polyethylene Glycol for ITO-Free Polymer Solar Cells – Desalegn Alemu Mengistie (Department of Engineering and Systems Science, National Tsing Hua University, Taiwan), Pen-Cheng Wang (Department of Engineering and Systems Science, National Tsing Hua University, Taiwan), and Chih-Wei Chu (Research Center for Applied Sciences, Academia Sinica, Taiwan)

Inorganic Cells – 14:00 – 16:50 Co-Chair(s): Cor Claeys and Jea-Gun Park Back Contact Chalcogenide Photovoltaics: CdSe/CdTe and CdS/CdTe – Daniel Josell, Ratan Debnath, Carlos Hangarter, JongYoon Ha (NIST), Bongyoung Yoo, Donguk Kim (Hanyang University), Mehmet A Sahiner (Seton Hall University), Jonathan Guyer (NIST), Cristopher J Reehil, and William A Manners (Seton Hall University) 14:20 2035 Physical Characterization of Thin Films of CuxZnySz for Photovoltaic Applications – Francesco Di Benedetto (Dipartimento di Scienze della Terra, Università di Firenze), Serena Cinotti, Annalisa Guerri, Antonio De Luca (Dipartimento di Chimica, Università di Firenze), Alessandro Lavacchi (ICCOM-CNR), Giordano Montegrossi (CNR, Istituto di Geoscienze e Georisorse), Massimo Innocenti (Dipartimento di Chimica, Università di Firenze), Francesco Carla’, and Roberto Felici (European Synchrotron Radiation Facility (ESRF)) 14:40 2036 Rapid Thermal Processing in CdS⁄CdTe Thin Film Solar Cells By Intense Pulsed Light Sintering – Ruvini Dharmadasa (Conn Center for Renewable Energy Research, University of Louisville), Obi Kingsley Echendu, IM Dharmadasa (Materials and Engineering Research Institute, Sheffield Hallam University), and Thad Druffel (Conn Center for Renewable Energy Research, University of Louisville) 15:00 2037 Cu(InGa)(SeS)2 Electrodeposition From a Single Bath – Mahfouz Ali Saeed and Uziel Landau (Case Western Reserve University) 15:20 Break 14:00

2034

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2038

16:10

2039

16:30

2040

Three-Electrode Electrorefining for Ultrapure Solar-Grade Si – Xiaofei Han, Bin Zhou, and Meng Tao (Arizona State University) Modelling of the Contact Resistance of Screen Printed Ag-Contacts to Si Emitters – Ann Mari Svensson (Norwegian University of Science and Technology), Sara Olibet, Enrique Cabrera (ISC), Jesper Friis (SINTEF), Keith Butler (Bath University), and John Harding (University of Sheffield) SEM Analysis As a Diagnostic Tool for Photovoltaic Cell Degradation – Gilbert Omorodion Osayemwenre (Fort Hare Institute of Technology) and E L Meyer (University of Fort Hare)

2045

2046

2047

2048

2049

2050

2051

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square PV Poster Session – 18:00 – 20:00 Co-Chair(s): James M. Fenton and Thad Druffel •

2041

2042

2043

2044

Development of Amorphous Carbon-Based Variable Optical Gap Semiconductor Materials – Kensuke Honda, Kohsuke Yoshinaga, and Akira Nakahara (Yamaguchi University) Semi Transparent Electrode of Au nano mesh on Flexible Substrates Fabricated by Transfer Printing Using Self-Organized Porous Polymer Mold – Yuichiro Yanagi, Hirofumi Saito (College of Science and Technology, Nihon University), Shunjiro Fujii (Advanced Industrial Science and Technology), Akira Yoshida, Takanori Okukawa, Tatsuki Yanagidate, Masaya Ohzeki, Yuki Arai, Yurina Ohori, Daichi Kaneto, Ryo Nagata (College of Science and Technology, Nihon University), Hiromichi Kataura (Advanced Industrial Science and Technology), and Yasushiro Nishioka (College of Science and Technology, Nihon University) Towards a Photoelectrochemical Tool for Comprehensive Quality Assessment of Solar Cell Absorber Layers – Diego Colombara, Alexandre Crossay, Valérie Depredurand, and Phillip J Dale (University of Luxembourg) Electrodeposition and Characterization of Hematite Films Obtained From DMSO Solution – Gonzalo Riveros, Daniel Luis Ramírez Sr (Departamento de Química y Bioquímica, Facultad de Ciencias, Universidad de Valparaíso), Enrique Dalchiele, Ricardo Marotti (Instituto de Física, Facultad de Ingeniería, Universidad de la República), Laurie Peter (University of Bath, Department of Chemistry), Paula Grez (Instituto de Química, Pontificia Universidad Católica de Valparaíso), Francisco Martín, and José-Ramón RamosBarrado (Laboratorio de Materiales y Superficies, Departamentos de Física Aplicada & Ing Química, Universidad de Málaga)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

E7

Electrochemical Deposition of Compact and Nanostructured Films of Doped ZnO – Daniel Luis Ramírez Sr, Katherine Nicole Álvarez, Gonzalo Riveros, Marisol Tejos, and María Gabriela Lobos (Departamento de Química y Bioquímica, Facultad de Ciencias, Universidad de Valparaíso) Electrodeposition of Lead Sulfide Thin Film and Application As Counter Electrode for Quantum Dot Solar Cells – Nghiem Van Le (University of Science, Vietnam National University – Ho Chi Minh City), Tung Thanh Ha (Dong Thap University), Hoang Thai Nguyen (Department of Physical Chemistry, University of Science, Viet Nam National University – Ho Chi Minh City, Center for Molecular and Nanoarchitecture, Vietnam National University – Ho Chi Minh City), and Thoa Thi Phuong Nguyen (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam) Electron Transport Kinetics in Solid State Dye-Sensitized Solar Cells Utilizing Polymer Electrolyte – Woohyung Cho, Young Rae Kim, Dong Hoon Song, and Yong Soo Kang (Center for Next Generation Dye-sensitized Solar Cells, WCU Department of Energy Engineering, Hanyang University) High Efficient Inverted Polymer Solar Cells By Surface Treatment of Zinc Oxide – Sungho Woo, Wookhyun Kim, and HongKun Lyu (DGIST) Dye Sensitized Solar Cell Based On Polyaniline - Carbon Nanotubes Composite – Laila Saad, Shaker Ebrahim, Mohamed Fetteha, Moataz Soliman (Alexandria University), and Tarek M Abdel-Fattah (Christopher Newport University) Enhanced Absorption Using Gold Nanoparticles Deposited TiO2 Photoanode for Dye-Sensizited Solar cells – Jinuk Oh (Kookmin University) and Hyunjung Lee (nanohybrid materials laboratory) Improved Photovoltaic Effects of Photonic Crystal Based Photoelectodes in DyeSensitized Solar Cell – Jonghyeon Kang (Nanohybrid matrials Labatory) and Hyunjung Lee (nanohybrid materials laboratory)

Processing, Materials, and Integration of Damascene and 3D Interconnects 5 Dielectric Science and Technology / Electrodeposition / Electronics and Photonics / High Temperature Materials Union Square 21, Tower 3, 4th Floor, Hilton San Francisco Union Square

Three Dimensional Interconnections 2 – 08:00 – 12:00 Co-Chair(s): Masanori Hayase and Rohan Akolkar 08:00

2063

Simulation of Produced Cuprous Ion Concentrationdistribution During Periodic Reverse Pulse Currentwaveform – Taro Hayashi, Kazuo Kondo, Masayuki Yokoi, Takeyasu Saito, and Naoki Okamoto (Osaka Prefecture University) 127

Tuesday, October 29

15:50


08:20

2064

08:40

2065

09:00

2066

Tuesday, October 29

09:20

2067

09:40 10:00 2068

10:20

2069

10:40

2070

11:00

2071

11:20

11:40

128

2072

2073

Extreme Bottom-Up Filling of Through Silicon Vias – Daniel Josell and Thomas P Moffat (NIST) A Study of Adopting Pure Tin Solder to Pillar Bump – Ui-Hyoung Lee, Moongi Cho, Woojin Choi, Ha-Young You, Jinho Choi, and Jaihyung Won (Samsung Electronics) Kinetic Monte Carlo Simulation of Filling High-Aspect-Ratio Through Silicon Via - II – Yutaka Kaneko, Yuuki Fukiage (Graduate School of Informatics, Kyoto University), Taro Hayashi, Kazuo Kondo (Osaka Prefecture University), Katsuhiko Ohara, and Fujio Asa (C Uyemura & Co, Ltd.) Modeling the Bottom-Up Filling of Through-Silicon Vias Through Suppressor Adsorption/Desorption Mechanism – Liu Yang (imec Belgium, Vrije Universiteit Brussel), Aleksandar Radisic (imec Belgium), Johan Deconinck (Vrije Universiteit Brussel), and Philippe M Vereecken (imec) Break Copper Seed Layer Wet Etching for 3D Integration – Laurence Gabette, Riadh Kachtouli, Roselyne Segaud (CEALETI MINATEC), and Pascal Besson (STMicroelectronics) Improvement of Adhesion Strength of Electrolessbarrier Layer and Its Application to TSV Process – Shoichiro Nishizawa, Shoso Shingubara (Kansai University), Tomohiro Shimizu (Kansai University), and Fumihiro Inoue (Tohoku University) Through-Silicon-Via (TSV) Filling By the Electro-Chemical Deposition of Cu With Modified Microstructures By Ultra-Fast Pulsed Current – Sanghyun Jin, Geon Wang, and Bongyoung Yoo (Hanyang University) A Novel Cu Plating Formula for Filling Through Holes – Yu-Tien Lin (Department of Chemical Engineering at National Chung Hsing University ), Jhih-Jyun Yan (Department of Chemical Engineering National Chung Hsing University), and Wei-Ping Dow (National Chung Hsing University) Effect On Aspect Ratio Dependence On Etch Rate: Experiment and Modeling – Lingkuan Meng (Institute of Microelectronics, Chinese Academy of Sciences) Thermomechanical Properties of Electroplated Cu and Its Effect On Beol Leakage for Logic Devices – Hojin Lee, Jinho An, Dosun Lee, Kwangjin Moon, Soyoung Lee, Byung Lyul Park, Siyoung Choi (Samsung Electronics Co, Ltd.), Ho-Kyu Kang (SSamsung Electronics Co, Ltd.,), Es Chung (Samsung Electronics Co, Ltd.), and Ilsub Chung (Sungkyunkwan University)

Three Dimensional Interconnections 3 – 14:00 – 14:20 14:00

2074

Low Temperature Fusion Wafer Bonding for Wafer-Level 3D Integration Applications – Juergen Burggraf, Julian Bravin, Harald Wiesbauer, and Viorel Dragoi (EV Group)

Copper Damascene Interconnections – 14:20 – 18:00 Co-Chair(s): S. Mathad and Shoso Shingubara 14:20

2075

14:40

2076

15:00

2077

15:20

2078

15:40 16:00 2079

16:20

2080

16:40

2081

17:00

2082

Effect of Bath Chemistry On Electrodeposited Cu Morphology Using Thin PVD Cu Seed – James Kelly (IBM Research), Xuan Lin (Globalfoundries), Takeshi Nogami, O van der Straten (IBM Research), James Demarest, Juntao Li, Richard Murphy, Patrick DeHaven (IBM Microelectronics), Xunyuan Zhang (Globalfoundries), Christopher Penny (IBM Microelectronics), Q Huang (IBM, T J Watson Research Center), and Daniel Edelstein (IBM Research) Novel Alkaline Copper and Copper-Alloy Electroplating Processes Offering Extended Capabilities in Semiconductor Interconnect Metallization – Aniruddha Joi, Rohan Akolkar, and Uziel Landau (Case Western Reserve University) Mechanistic Study of Autocatalysis During Electroless Copper Deposition – Rohan Akolkar, Lu Yu (Case Western Reserve), Lian Guo (Atotech Gmbh), and Robert Preisser (Case Western Reserve) Structural Features of Nano-Scale Damascene Copper Lines After Annealing in Wide Temperature Range – Tatyana Konkova (Department of Materials Science and Engineering, Ibaraki University), Sergey Mironov (Department of Materials Processing, Graduate School of Engineering, Tohoku University), Yiqing Ke (Graduate School of Science and Engineering, Ibaraki University), and Jin Onuki (Department of Materials Science and Engineering, Ibaraki University) Break Investigation On Pad Surface Conditioner to Control Dishing Amount in Cu Damascene Process – Jong won Kim (Memory Cleaning/CMP Technology Team) Investigation of Bomb Defects: Reducing the Defect From Perhydropolysilazane Layer On Semiconductor – Chae Jung Lee, Yun Ho Kim, Jin Sung Kim (Samsung Electronics), Jung sook OH (samsung electronics), and Byoung Deog Choi (Sungkyunkwan University) CVD/ALD-Mn(Nx) As Copper Diffusion Barrier For Advanced Interconnect Technologies – Nicolas Jourdan (imec) Positive Tone, Chemically Amplified, Cross-Linkable Dielectric – Brennen Mueller and Paul A Kohl (Georgia Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


17:40

E8

2083

2084

Triangular Voltage Sweep Measurements After Current-Ramp Temperature Stress – Ivan Ciofi, Pietro Lazzaro, Salvatore Silipigni, Yohan Barbarin, and Kristof Croes (Imec) Effect of Dynamic Electric Field On Dielectric Breakdown in Damascene Cu Interconnects – Jun-Young Song, HanWool Yeon (Seoul National University), Jang-Yong Bae, Yu-Chul Hwang (Samsung electronics), and Young-Chang Joo (Seoul National University)

Wafer Drying and Wetting Issues – 14:00 – 16:00 Co-Chair(s): Richard E. Novak and Guy Vereecke 14:00

2115

14:40

2116

15:00

2117

15:20

2118

Semiconductor Cleaning Science and Technology 13 (SCST 13) Electronics and Photonics Continental 8, Tower 3, Ballroom Level, Hilton San Francisco Union Square

FEOL & BEOL Cleaning – 08:50 – 12:00 Co-Chair(s): Paul W. Mertens and Akshey Sehgal 08:50 09:00 2108 09:40 10:00 2109

10:20

2110

10:40

2111

11:00

11:20

11:40

2112

2113

2114

Introductory Remarks Feol and Beol Cleaning Challenges for 2x and Sub-20nm Technology Nodes – Akshey Sehgal (GLOBALFOUNDRIES) Coffee Break Evaluation of TaN as the Wet Etch Stop Layer during the 22nm HKMG Gate Last CMOS Integrations – Hushan Cui, Jing Xu, Jianfeng Gao, Jinjuan Xiang, Yihong Lu, Zhaoyun Tang, Xiaobin He, Tingting Li, Jun Luo, Xiaolei Wang, Bo Tang, Jiahan Yu, Tao Yang, Jiang Yan, Junfeng Li, and Chao Zhao (Key Laboratory of Microelectronics Devices & Integrated Technology, Institute of Microelectronics of Chinese Academy of Sciences) Lanthanum Interaction With Surface Preparations – Philippe Garnier, Vincent Joseph, and Remi Krachewski (STMicroelectronics) Integration of Wet Cleaning in 45 Nm Pitch Beol Processing – Els Kesters, Quoc Toan Le, Frederic Lazzarino, Stefan Decoster, Chris Wilson (imec), Ihsan Simms (Tokyo Electron), Frank Holsteyns (imec), and Stefan De Gendt (Katholieke Universiteit Leuven, imec) Effective Defect Control in TiN MHM Cu/ Low-k DD Process – Alexander Kabansky, Samantha SH Tan, Eric A Hudson, Gerardo Delgadino, Lajos Gancs, and Jeffrey Marks (Lam Research Corporation) Inhibition of Copper Corrosion By Removal of H2O2 From CO2-Dissolved Water Using Palladium Catalysts – Daisaku Yano, Masami Murayama (Organo Corporation), Masao Takahashi, Hikaru Kobayashi (ISIR, Osaka University), and Koji Yamanaka (Organo Corporation) Monitoring of Polymer Removal Process for Copper Interconnect – Eugene Shalyt, Guang Liang, Jingjing Wang, Michael Pavlov, Vladimir Dozortsev, Peter Bratin, and Chuannan Bai (ECI Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

15:40

(Invited) Wetting Behavior Of Aqueous Solutions On High Aspect Ratio Nanopillars With Hydrophilic Surface Finish – Guy Vereecke, XiuMei Xu (imec), Wei-Kang Tsai (University of Southern California), Hui Yang (KU Leuven), Silvia Armini, Tinne Delande, Geert Doumen (imec), Frank Kentie (Katholieke Universiteit Leuven), Xiaoping Shi (imec), Ihsan Simms, Kathleen Nafus (Tokyo Electron), Frank Holsteyns, Herbert Struyf (imec), and Stefan De Gendt (imec and KU Leuven) Watermark Formation Mechanism By Evaporation of Ultra-Pure Water: Study the Effect of Ambient – Amir-Hossein Tamaddon, Paul W Mertens, Guy Vereecke, Frank Holsteyns (imec), Stefan De Gendt (KULeuven), Marc Heyns (KU Leuven, Leuven, Belgium), and Geert Doumen (imec) Advanced Wafer Drying Technology for 1x Node and Beyond Using Surface Modification Method – Takehiko Orii, Tsukasa Watanabe, Takayuki Toshima (Technology Development Center, Tokyo Electron Kyushu Limited), Mitsunori Nakamori (SPE Process Technology Department, Tokyo Electron Kyushu Limited), Keisuke Egashira, Yasuyuki Ido (Technology Development Center, Tokyo Electron Kyushu Limited), and Nobuaki Matsumoto (Surface Preparation Systems Marketing Department Tokyo Electron Limited) Control Contaminations of Supercritical CO2 Drying Process for Nano-Scale Memory Manufacturing – Hidekazu Hayashi, Hisashi Okuchi, Hiroshi Tomita (Toshiba Corporation), Yoshinori Ono, Tadashi Nakamori, and Hiroshi Sugawara (Organo Corporation) Break

Photeresist Removal and Related Topics – 16:00 – 18:10 Co-Chair(s): Srini Raghavan and Richard E. Novak 16:00

2119

16:20

2120

16:40

2121

All Wet Resist Strip for Improved Semiconductor Process and Product Improvement – Murli Bashyam (Texas Instruments Inc) Translation of Particles to Wafers During Spin Coating – C W Extrand, Sung In Moon, and Loxie Monson (Entegris) Cryogenic Single-Component Micro-Nano Solid Nitrogen Particle Production Using Laval Nozzle for Physical Resist RemovalCleaning Process – Jun Ishimoto (Institute of Fluid Science, Tohoku University), U Oh (Hitachi, Ltd.), Tomoki Koike (Graduate School of Engineering, Tohoku University), and Naoya Ochiai (Institute of Fluid Science, Tohoku University)

129

Tuesday, October 29

17:20


Tuesday, October 29

17:00

2122

17:20

2123

17:40

2124

18:00

Effects of Plasma and Wet Processes on Si-Rich Anti-Reflective Coating to Address Selective Trilayer Rework for Sub-20nm Technology Nodes – Olivier Pollet, Romain Sommer, Laurent Lachal, Sebastien Barnola (CEA-LETI), Come De Buttet (ST Microelectronics, CEA-LETI), Claire Richard, and Cecile Jenny (ST Microelectronics) Characterization of the Descum Process for Various Silicon Substrates – Chandra S Tiwari, Yong Sheng Lim, Ralph Fulton, Jay Srinivasan, Matt Gisinger, Patrick Flynn, and Lai Ho Mak (Micron Technology Inc) TiN Metal Hard Mask Removal With Selectivity to Tungsten and TiN Liner – Li-Min Chen, Steven Lippy (Advanced Technology Materials Inc), Brown Peethala, Muthumanickam Sankarapandian (IBM Albany), David L Rath (IBM Thomas J Watson Research Center), Karl Boggs, and Evelyn Kennedy (Advanced Technology Materials Inc) Concluding Remarks

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

Semiconductors, Dielectrics, and Metals for

E10 Nanoelectronics 11

Dielectric Science and Technology / Electronics and Photonics Union Square 22, Tower 3, 4th Floor, Hilton San Francisco Union Square

Ge and SiGe Channels – 08:30 – 10:20 Co-Chair(s): Shadi Dayeh and Michel Houssa 08:30

2153

08:50

2154

09:10

2155

Poster – 18:00 – 20:00 •

2125

2126

2127

2128

130

Selective Removal of Ashed Spin-On Glass – Hsing-Chen Wu and Sheng-Hung Tu (ATMI Inc) Non-Stiction Performance of Various Post Wet-Clean Drying Schemes On HighAspect-Ratio Device Structures – Han-Wen Chen, Roman Gouk, Steven Verhaverbeke, and Robert Visser (Applied Materials, Inc) Influence of Circuit Geometry, Edges and Roughness On Liquid Penetration and Removal During Wet Cleaning – C W Extrand and Sung In Moon (Entegris) Micro Unetched Oxide Defect During Buffered Oxide Etchant Process – SeungTaek LIM, Dukmin Ahn, Kihyun Kim, Heechan Jung, Byoungsu Lee, Huihwan Lee, and Hasub Hwang (Memory Cleaning/CMP Technology Team, Memory Division, Semiconductor Business, Samsung Electronics Co, LTD,)

09:40 10:00 2156

Advanced Spectroscopic Ellipsometry Application for Multi-Layers Sige At 28nm Node and Beyond – Teng-Chun Hsuan, YiCheng Hu, Single Hsu, Dian-Zhen Zhan, Avery Lin, Stan Yu, Chin-Cheng Chien (United Microelectronics Corp (UMC)), Shao-Ju Chang, Sheng-Min Chiu, ChienJen Huang, Chao-Yu Cheng, Juli Cheng, Getin Raphael, Zhiming Jiang, Ygartua Carlos, and Zhengquan Tan (KLA-Tencor Corporation) Comparison of Strained Sige-On-SOI and Condensed Sgoi p-Mosfet With Various Ge Concentrations – Seung-Hyun Song, DuYeong Lee, Tae-Hyun Kim, Tae-Hun Shim, and Jea-Gun Park (Hanyang University) Integration of High-k Dielectrics on Epitaxial (100), (110) and (111) Germanium for Multifunctional Devices – Mantu K Hudait, Yan Zhu, Deepam Maurya, and Shashank Spriya (Virginia Tech) Break Effect of Precursor Entrance Sequence During Atomic Layer Deposition On the Al2O3/Ge Interface By X-Ray Photoelectron Spectroscopy – Jinjuan Xiang, Guilei Wang, Tingting Li, Hushan Cui, Xiaolei Wang, Gaobo Xu, Junfeng Li, Wenwu Wang, and Chao Zhao (Key Laboratory of Microelectronics Devices & Integrated Technology, Institute of Microelectronics of Chinese Academy of Sciences)

Resistive Memory – 10:20 – 12:20 Co-Chair(s): Rainer Waser and Daniele Ielmini 10:20

2157

10:50

2158

Resistive Switching in Metal Oxides: From Physical Modeling to Device Scaling – Daniele Ielmini, Stefano Ambrogio, and Simone Balatti (Politecnico di Milano) Optimization of WAl2O3Cu(-Te) Material Stack for High-Performance ConductiveBridging Memory Cells – Ludovic Goux, Woosik Kim, Karl Opsomer (imec, Belgium), Attilio Belmonte (imec, Belgium, KU Leuven, Belgium), G S Kar (IMEC, Belgium), F De Stefano, Valery V Afanas’ev, U Celano, Michel Houssa (KU Leuven), W Devulder, C Detavernier (University of Gent), R Muller (IMEC), W Vandervorst (KU Leuven), and Malgorzata Jurczak (IMEC, Belgium)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2159

11:50

2160

Theoretical Design of Desirable Stack Structure for Resistive Random Access Memories – Katsumasa Kamiya (University of Tsukuba), Moon Young Yang (University of Tsukuba, University of Tsukuba), Blanka Magyari-Kope (Stanford University), Masaaki Niwa (Tohoku University, Tohoku University), Yoshio Nishi (Stanford University), and Kenji Shiraishi (University of Tsukuba) The Role of Electrochemical Interfaces in ReRAM memory cells – Ilia Valov, Stefan Tappertzhofen, Eike Linn, and Rainer Waser (FZ Juelich & RWTH Aachen, Section Fundamentals of Future Information Technology (JARA-FIT))

2D Semiconductors – 14:00 – 17:00 Co-Chair(s): Massimo V. Fischetti and Ali Javey 14:00 2161 14:10

14:30

2162

15:00

2163

15:30

2164

15:50 16:00 2165

Award Ceremony Chemical Vapor Deposition of MoS2 Films – Jihun Mun (SKKU Advanced Institute of Nanotechnology, Sungkyunkwan University, Vacuum Center, Korea Research Institute of Standards and Science), Dongbin Kim (Department of Mechanical Engineering, Sungkyunkwan University, Vacuum center, Korea Research Institute of Standards and Science), Juyoung Yun, Yonghyeon Shin, Sangwoo Kang (Vacuum center, Korea Research Institute of Standards and Science), and Taesung Kim (SKKU Advanced Institute of Nanotechnology, Sungkyunkwan University, Department of Mechanical Engineering, Sungkunkwan University) 2D Semiconductors: Materials, Interfaces, and Devices – Ali Javey (University of California: Berkeley) Fundamentals in MoS2 Transistors: Dielectric, Scaling and Metal Contacts – Han Liu, Adam T Neal, Yuchen Du, and Peide D Ye (Purdue University) Interaction of Germanene With (0001)ZnSe Surfaces: A Theoretical Study – Michel Houssa (KU Leuven), Emilio Scalise, Bas van den Broek (KU Leuven), Geoffrey Pourtois (IMEC), Valery V Afanas’ev (KU Leuven), and Andre Stesmans (KU Leuven, Belgium) Break Structural and Chemical Stabilization of the Epitaxial Silicene – Alessandro Molle, Daniele Chiappe, Eugenio Cinquanta (CNR-IMM, Laboratorio MDM), Carlo Grazianetti, Marco Fanciulli (CNR-IMM, Laboratorio MDM, Università degli Studi di Milano Bicocca), Emilio Scalise, Bas van den Broek (KU Leuven), and Michel Houssa (KU Leuven, Belgium)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

16:30

2166

Pseudopotential-Based Study of Electron Transport in Low-Dimensionality Nanostructures – Massimo V Fischetti (University of Texas at Dallas), Shela J Aboud (Energy Resources Engineering Department, Stanford University), Zhun-Yong Ong, Jiseok Kim, Sudarshan Narayanan, and Catherine E Sachs (Department of Materials Science and Engineering, University of Texas at Dallas)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square E10 Poster Session – 18:00 – 20:00 Co-Chair(s): Hemanth Jagannathan and Samares Kar •

2167

2168

2169

2170

2171

2172

2173

2174

Development of An All-Wet-Etch Process Chemistry for the Patterning of Metal Conductors in Igzo Thin-Film-Transistors – Kurtis Leschkies (Applied Materials, Inc) Extremely Large Refractive Indexes in Anodic Tantalum Pentoxide – Alina Kulpa and Nicolas A F Jaeger (The University of British Columbia; AMPEL) High Quality Sige:B of High Ge Layer for 14nm and Beyond Finfet Processes – Chin I Liao, Chun Yua Chen, Stan Yu, Chin Cheng Chien, Chan Lon Yang, J Y Wu (United Microelectronics Corp), and Balasubramanian Ramachandran (Applied Materials Inc, Santa Clara) Schottky Barrier Height Between Erbium Silicide and Various Morphology of Si(100) Surface Changed By Alkaline Etching – Hiroaki Tanaka, Akinobu Teramoto, Shigetoshi Sugawa, and Tadahiro Ohmi (Tohoku University) Photo-Bias Instability of Solution Processed Zinc Tin Oxide Thin Film Transistors With Varying Zn:Sn Composition Ratio – Yoon Jang Kim, Bong Seob Yang, Seungha Oh, Sang Jin Han, and Hyeong Joon Kim (Seoul National University) Effect of Sputtering Pressure On the Electrical Characteristics of RF Magnetron Sputtering Processed Zinc Tin Oxide Thin Film Transistors – Hong Woo Lee, Bong Seob Yang, Seungha Oh, Sang Jin Han, and Hyeong Joon Kim (Seoul National University) Electrodeposition and Characterization of ZnO Rods Films – Vanessa Nascimento dos Santos (Instituto de Química de São Carlos, Instituto de Química de São Carlos) and Sergio Antonio Spinola Machado (Instituto de Química de São Carlos) Effects of Non-Complexing Additives On Electrodeposited Cu(InGa)Se2 (CIGSe) Thin Film – Francisco Willian de Souza Lucas and Lucia Helena Mascaro (Federal University of São Carlos)

131

Tuesday, October 29

11:20


Tuesday, October 29

2175

2176

A Two-Step Electrical Degradation Behavior in a-Ingazno Thin-Film Transistor – Tung-Ming Pan, Fa-Hsyang Chen, Ching-Hung Chen (Chang Gung University), Ching-Chang Lin (National Chiao Tung University), Chieh Cheng, Fu-Hsiang Ko (Graduate Program for Nanotechnology Department of Materials Science and Engineering, National Chiao Tung University, Hsinchu 300,Taiwan), Wu-Hsiung Lin, Po-Hsueh Chen (AU Optronics), Jim-Long Her (Chang Gung University), and Yasuhiro H Matsuda (University of Tokyo) Improved Characteristics for MetalnGasb Ohmic Contact By Using Indium Gallium Zinc Oxide (IGZO) – Jeong Hun Shin (School of Electronic and Electrical Engineering, Sungkyunkwan University, South Korea & System LSI Manufacturing Operation Center,Samsung Electronics), Hyun Wook Jung (School of Electronic and Electrical Engineering, Sungkyunkwan University, Suwon 440-746, South Korea), and Jin Hong Park (School of Electronic and Electrical Engineering,Sungkyunkwan University, Suwon 440-746, South Korea)

12:00

2209

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square E11 Poster Session – 18:00 – 20:00 •

2210

2211

2212

State-of-the-Art Program on Compound Semiconductors

E11 (SOTAPOCS) 55

Electronics and Photonics Golden Gate 7, Tower 3, Lobby Level, Hilton San Francisco Union Square

Photovoltaic Devices – 08:00 – 09:40 08:00

2203

08:40

2204

09:20

2205

Nanostructured Thin Flexible Single Crystalline III-V Solar Cells – Yi Cui (Stanford University) Nano-Structured Thin-Film Materials Fabricated By Oblique-Angle Deposition for Energy Harvesting Applications – Jong Kyu Kim, Seung Hee Lee, Hyunah Kwon, and Seung Jae Oh (POSTECH) Back Contact CdSe/CdTe Photovoltaics – Daniel Josell, Ratan Debnath, Carlos Hangarter, Jong-Yoon Ha, Jonathan Guyer (NIST), Bongyoung Yoo, Dong-uk Kim (Hanyang University), Mehmet A Sahiner, Cristopher J Reehil, and William A Manners (Seton Hall University)

Compound Semiconductor Devices – 10:00 – 12:20 10:00

2206

10:40

2207

11:20

2208

132

Improved Passivation Techniques for AlGaN/GaN Hemts – Travis J Anderson, Andrew D Koehler, Marko J Tadjer, Karl D Hobart, Neeraj Nepal, Tatyana I Feygelson, Bradford B Pate (Naval Research Laboratory), Charles R Eddy Jr (US Naval Research Laboratory), and Fritz J Kub (Naval Research Laboratory) Novel Functional Transistors of Transition Metal Dichalcogenide Monolayers – Taishi Takenobu (Waseda University) Electrically Controllable Complex Oxide Interfaces – Ying-Hao Chu (National Chiao Tung University)

Synthesis of MoS2 Atomic Layer using PECVD – HyeongU Kim (Sungkyunkwan University(SKKU) Advanced Institute of Nanotechnology (SAINT)), Chisung Ahn (Sungkyunkwan University(SKKU) Advanced Institute of Nanotechnology (SAINT)), Girish Arabale, Changgu Lee (School of Mechanical Engineering Sungkyunkwan uni), and Taesung Kim (SKKU Advanced Institute of Nanotechnology, Sungkyunkwan University, Department of Mechanical Engineering, Sungkunkwan University)

Shape-Controlled Grown Au(Sn)-SnO2 Core-Shell Nanocables Via Vapor-LiquidSolid (VLS) Growth Mechanism – Chiuyen Wang, Sin-An Chen, Chih-Yen Chen, Li-Jen Chou, and Lih-Juann Chen (National Tsing Hua University) Enhanced Color-Conversion Efficiency in Nano-Grooved LEDs Utilizing NonRadiative Energy Transfer – Min Joo Park (Sunchon national university) and Joon Seop Kwak (Sunchon National University) Lattice-Mismatched Epitaxial Growth On Porous III-V Substrates – Jan Grym, Petar Gladkov, Jan Vanis (Institute of Photonics and Electronics, ASCR), Eduard Hulicius, Jiri Pangrac, Oliva Pacherova (Institute of Physics, ASCR), George Dimitrakopulos, Calliope Bazioti, and Philomela Komninou (Aristotle University of Thessaloniki)

ULSI Process Integration 8

and Photonics E12 Electronics Continental 7, Tower 3, Ballroom Level, Hilton San Francisco Union Square

3-5 Technologies – 08:10 – 09:40 Co-Chair(s): S. Deleonibus 08:10

2223

08:40

2224

09:10

2225

Performance Enhancement Technologies in III-V/Ge Mosfets – Shinichi Takagi, Rui Zhang, Sang-Hyeon Kim, Masafumi Yokoyama, and Mitsuru Takenaka (The University of Tokyo) Ingaas GAA Nanowire Mosfets – Peide D Ye (Purdue University) Heteroepitaxial Growth of Sn-Related Group-IV Materials On Si Platform for Microelectronic and Optoelectronic Applications: Challenges and Opportunities – Osamu Nakatsuka, Noriyuki Taoka, Takanori Asano, Takashi Yamaha (Graduate School of Engineering, Nagoya University), Masashi Kurosawa (Graduate School of Engineering, Nagoya University, Japan Society for the Promotion of Science Research Fellow), Mitsuo Sakashita, and Shigeaki Zaima (Graduate School of Engineering, Nagoya University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Ge-based Technologies – 14:00 – 15:40 Co-Chair(s): Hiroshi Iwai and Peide D. Ye

10:00

14:00

2231

14:30

2232

15:00

2233

15:20

2234

10:30

10:50

2226

2227

2228

11:10

2229

11:40

2230

Group-IV Semiconductor Quantum Heterointegration by Low-Energy Plasma CVD Processing – Masao Sakuraba (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University) and Junichi Murota (Research Institute of Electrical Communication, Tohoku University) Atomically Flat Germanium (111) Surface by Hydrogen Annealing – Tomonori Nishimura, Shoichi Kabuyanagi, Choonghyun Lee, Takeaki Yajima, Kosuke Nagashio, and Akira Toriumi (Department of Materials Engineering, School of Engineering, The University of Tokyo, JST-CREST) Formation and Characterization of Strained Si1-XGex Films Epitaxially Grown on Si(100) by Low-Energy ECR Ar Plasma CVD without Substrate Heating – Naofumi Ueno (Research Institute of Electrical Communication, Tohoku University), Masao Sakuraba (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University), Junichi Murota (Research Institute of Electrical Communication, Tohoku University), and Shigeo Sato (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University) Low-Temperature Metal-Induced Crystallization of Orientation-Controlled Sige On Insulator for Flexible Electronics – Taizoh Sadoh, Jong-Hyeok Park (Kyushu University), Masashi Kurosawa (Japan Society for the Promotion of Science Research Fellow, Kyushu University), and Masanobu Miyao (Kyushu University) Epitaxial Growth of Heavily B-Doped Si and Ge Films on Si(100) by Low-Energy ECR Ar Plasma CVD Without Substrate Heating – Yusuke Abe, Shuji Kubota (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University), Masao Sakuraba (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University), Junichi Murota (Research Institute of Electrical Communication, Tohoku University), and Shigeo Sato (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

The Effect of Carbon Doping on Structural and Magnetic Properties of Mn5Ge3/ Ge Heterosctructures – Aurelie Spiesser, Minh-Tuan Dau, Lisa A Michez, Matthieu Petit, and Vinh Le Thanh (Aix-Marseille Université, France) Development of Metal Source/Drain Ge-CMOS Using TiN/Ge and HfGe/Ge Contacts – Hiroshi Nakashima, Keisuke Yamamoto, and Dong Wang (Kyushu University) High-Quality Hybrid-GeSn/Ge StackedStructures By Low-Temperature SnInduced-Melting Growth – Yuki Kinoshita (Kyushu University), Tomoaki Nishimura (Hosei University), Ryo Matsumura, Taizoh Sadoh, and Masanobu Miyao (Kyushu University) Characterization of Local Strain Structures in Heteroepitaxial Ge1− xSnx/Ge Microstructures by using Microdiffraction Method – Shinichi Ike (Graduate School of Engineering, Nagoya University), Yoshihiko Moriyama (Green Nanoelectronics Collaborative Research Center, National Institute of Advanced Industrial Science and Technology), Masashi Kurosawa (Japan Society for the Promotion of Science Research Fellow, Graduate School of Engineering, Nagoya University), Noriyuki Taoka, Osamu Nakatsuka (Graduate School of Engineering, Nagoya University), Yasuhiko Imai, Shigeru Kimura (Japan Synchrotron Radiation Research Institute/SPring-8), Tsutomu Tezuka (Green Nanoelectronics Collaborative Research Center, National Institute of Advanced Industrial Science and Technology), and Shigeaki Zaima (Graduate School of Engineering, Nagoya University)

Front-end Processing – 16:00 – 17:30 Co-Chair(s): Junichi Murota and Vinh Le Thanh 16:00

2235

16:30

2236

Study On Charge Storage and Optical Response of Hybrid Nanodots Floating Gate Mos Devices for Their Optoelectronic Application – Seiichi Miyazaki (Graduate School of Engineering, Nagoya University) Source & Drain Contact Module for FDSOI Mosfets : Silicidation and Strain Engineering – Veronique Carron, Fabrice Nemouchi, David Cooper, Jean-Michel Hartmann, Jean-Francois Damlencourt, Sophie Bernasconi (CEA, LETI), Sylvie Favier, and Yves Morand (STMicroelectronics)

133

Tuesday, October 29

Epitaxial Processing – 10:00 – 12:10 Co-Chair(s): Seiichi Miyazaki and Hiroshi Iwai


16:50

2237

17:10

2238

Tuesday, October 29

F2

Fin Doping By Hot Implant for 14nm Finfet Technology and Beyond – Bingxi Sun Wood, Fareen Adeni Khaja, Benjamin P Colombeau, Shiyu Sun, Andrew Waite, Miao Jin, Hao Chen, Osbert Chan, Thirumal Thanigaivelan, Nilay Pradhan, Hans-Joachim L Gossmann, Chi-Nung Ni, Wesley Suen, Shashank Sharma, Venkataramana R Chavva, Man-Ping Cai, Motoya Okazaki, Samuel Swaroop Munnangi, Chorng-Ping Chang, Abhilash Mayur, Naushad Variam, and Adam D Brand (Applied Materials) Liquid-Solid Coexisting Annealing of a-GeSn/Si(100) Structure for Low Temperature Epitaxial Growth of SiGe – Hironori Chikita, Ryo Matsumura, Taizoh Sadoh, and Masanobu Miyao (Kyushu University)

Emerging Materials and Processes for Energy Conversion and Storage

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Electrodeposition / Battery Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

Emerging Materials and Processes for Energy Conversion and Storage - Poster Session – 18:00 – 20:00 •

2260

2261

134

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2263

Cathodic Electrodeposition of Cobalt Sulfide Thin Films for Dye-Sensitized Solar Cells and Supercapacitors – Jeng-Yu Lin, Shu-Wei Chou, Chia-Feng Chang, and Jen-Hung Liao (Tatung University) Influence of Incorporated Light Elements On Refining Process for High-Purity Silica Using Microchannel Device – Nobufumi Matsuo, Yuki Matsui, Takafumi Ishihara (Department of Applied Chemistry, Waseda University), Yasuhiro Fukunaka (Nanotechnology Research Center, Waseda University, JST, CREST), and Takayuki Homma (Department of Applied Chemistry, Waseda University, JST, CREST) Magneto-Electrodeposition Aupt Paticles On Carbon Paper As Cathodic Catalyst of Lithium Air Battery – Jinqiu Zhang, Da Li, Maozhong An, Peixia Yang, and Peng Wang (Harbin Institute of Technology) Utilisation of Flexible Nano-Structured PEDOT Electropolymerised From Ionic Liquids for One Step (4-electron) Oxygen Reduction Reaction – Muhammad E Abdelhamid (CSIRO Process Science and Engineering, RMIT University), Graeme Andrew Snook (CSIRO Process Science and Engineering), and Anthony P O’Mullane (RMIT University)

Porous PtRuCo Thin Film Catalyst Prepared by Electrodeposition and Dealloying Methods for Anode of Direct Methanol Fuel Cell – Yuta Watanabe, Yoshitatsu Misu (Graduate School of Advanced Science and Engineering, Waseda University), Tokihiko Yokoshima (Research Institute for Science and Engineering, Waseda University), Toshiyuki Momma, and Tetsuya Osaka (Research Institute for Science and Engineering, Waseda University, Graduate School of Advanced Science and Engineering, Waseda University) Electrochemical Deposition of Nanoparticles On Metallic and Carbonaceous Substrates: A Mathematical Model – Shahram Karimi (Lambton College) Effects of Electrode Modification and Electrolyte Additive On the Air Electrode for Water Electrolysis – Yen-Wen Chiu (Department of Chemical Engineering, National United University), ShunHsing Chuang, Chia-Hua Wu, Pei-Jen Lu (Department of Energy Engineering, National United University), Kan-Lin Hsueh (Green Energy & Environment Research Labs, Industrial Technology Research Institute, Department of Energy Engineering, National United University), Ju-Shei Hung (Department of Chemical Engineering, National United UNiversity), Wen-Sheng Chang (Green Energy & Environment Research Labs, Industrial Technology Research Institute), and Chang-Chung Yang (Green Energy and Environment Research Laboratories, Industrial Technology Research Institute) Modified Substrates for Oxygen Reduction Reaction – Claudio Zafferoni, Massimo Innocenti (Dipartimento di Chimica, Università di Firenze), Giuliano Giambastiani, Giulia Tuci (ICCOM-CNR), Lucia Becucci, Ferdinando Capolupo, and Maria Luisa Foresti (Dipartimento di Chimica, Università di Firenze) Effects of Gas Composition Just Before Fuel Pulses On Power Generation Characteristics At Different Fuel Supply Frequency in Pulse Jet-Rechargeable Direct Carbon Fuel Cells – Shiori Sugiyama, Akinori Yabuki, Hiroki Tanaka, Ying Chen, and Manabu Ihara (Tokyo Institute of Technology) Effect of Anode-Additive PrBaInO4 and Its Derivative Products On the Electrochemical Performance of Solid Oxide Fuel Cells – Yohei Noda, Xinyu Li, Hiroyuki Shimada, and Manabu Ihara (Tokyo Institute of Technology) Direct Synthesis of Cu2ZnSnS4 thin Films On Substrates Using Chemical Bath Deposition for Photovoltaic Solar Cells – Vinaya Kumar Arepalli, Nam-Kyu Park, and Eui-Tae Kim (Department of Materials Science and Engineering, Chungnam National University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


F3

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Improving of Electrical and Optical Properties of Cadmium Sulfide By Using Different Metal Additives – Loreta Tamasauskaite-Tamasiunaite, Albina Zieliene, Leonas Naruskevicius, Birute Simkunaite-Stanyniene, Arturas Setkus, Irena Simkiene, Saulius Balakauskas, Algirdas Selskis, and Eugenijus Norkus (Center for Physical Sciences and Technology) Electrodeposition of High-Haze Textured Zinc Oxide Films – Tsutomu Shinagawa, Masaya Chigane (Osaka Municipal Technical Research Institute), and Masanobu Izaki (Toyohashi University of Technology)

Fundamentals and Applications of Electrophoretic Deposition

10:20

2323

11:00

2324

Underpotential Deposition – 14:00 – 15:40 Co-Chair(s): Stanko Brankovic, Qiuyi Yuan, and Natasa Vasiljevic 14:00

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14:20

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14:40

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15:00

2328

Electrodeposition

F3 - Poster Session – 18:00 – 20:00 •

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2320

F4

Electrodynamics of Colloidal Nanoparticles in Non-Polar Solvents – ELijah Johnson, Anteneh Tefera, Mogus Mochena (Florida A & M University), and James H Dickerson II (Vanderbilt University) Hydrogen Sensing With Metal Nanoparticles Electrophoretically Deposited Onto Epitaxial Layers of III-V Semiconductors – Jan Grym, Roman Yatskiv, Jan Lorincik, and Ondrej Cernohorsky (Institute of Photonics and Electronics, ASCR) Surface Charge Formation On Ligand – Dressed CdSe Nanoparticle in Hexane – Anteneh Tefera, Mogus Mochena, ELijah Johnson (Florida A & M University), and James H Dickerson II (Vanderbilt University)

Fundamentals of Electrochemical Growth– From UPD to Microstructures 3 Electrodeposition Union Square 11, Tower 3, 4th Floor, Hilton San Francisco Union Square

Plenary Session – 08:30 – 11:40 Co-Chair(s): Stanko Brankovic and Natasa Vasiljevic 08:30 08:40 2321

09:20

2322

10:00

Introductory Remarks Structural Analysis of Highly Durable Si-O-C Or Sn-O-C Composite Anodes for Lithium Secondary Battery By Means of Electrodeposition – Tetsuya Osaka (Institute for Nanoscience and Nanotechnology, Waseda University), Tokihiko Yokoshima, Hiroki Nara, and Toshiyuki Momma (Faculty of Science and Engineering, Waseda University) Electrodeposition in Ionic Liquids: From Nanoscale Processes to Macroporous Materials – Frank Endres (Clausthal University of Technology) Break

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Recent Advances in the Theory and Simulation of Underpotential Deposition – Ezequiel Pedro Marcos Leiva, Marcos Villarreal, Oscar Alejandro Oviedo, Patricio Velez, Lucas Farigliano (INFIQC), Alejandro Pinto (UNSE), and Luis Reinaudi (INFIQC) Electrochemical Deposition of Pt-(Fe, Co, Ni) Alloys: Self-Terminated Growth to Underpotential Co-Deposition – Thomas P Moffat, Yihua Liu, Carlos Hangarter, Dincer Gokcen, Liang-Yueh Ou Yang (NIST), and Ugo Bertocci (National Institute of Standards and Technology)

15:20

Electrochemical Analysis of the Underpotential Deposition of Cadmium and Zinc On Different Substrates – Remigiusz Kowalik (AGH University of Science and Technology, Faculty of Non-Ferrous Metals, Department of Physical Chemistry and Metallurgy of Non – Ferrous Metals al A Mickiewicza), Piotr Zabinski (AGH University of Science and Technology, Faculty of NonFerrous Metals, Department of Physical Chemistry and Metallurgy of Non-Ferrous Metals al A Mickiewicza), and Krzysztof Mech (AGH University of Science and Technology, Faculty of Non-Ferrous Metals, Department of Physical Chemistry and Metallurgy of Non – Ferrous Metals al A Mickiewicza Krakow) Lead UPD On Ru(0001) – Qiuyi Yuan, Stanko Brankovic, and Dongjun Wu (University of Houston) Lead Underpotential Deposition On Ru Sub-Monolayer Modified Au(111) Surface – Stanko Brankovic and Qiuyi Yuan (University of Houston) Electrodeposition of Semiconductors Thin Films With Different Composition and Band Gap – Massimo Innocenti (CNR, Istituto dei Composti Organometalli, University of Florence), Ilaria Bencistà, Lucia Becucci (Dipartimento di Chimica, Università di Firenze), Francesco Di Benedetto (Dipartimento di Scienze della Terra, Università di Firenze), Serena Cinotti (Dipartimento di Chimica, Università di Firenze), Lianqin Wang, Alessandro Lavacchi (ICCOM-CNR), Maria Vincenza Pagliaro (Dipartimento di Chimica, Università di Firenze), Francesco Vizza (ICCOM-CNR), Claudio Zafferoni, and Maria Luisa Foresti (Dipartimento di Chimica, Università di Firenze) Intermission

Nucleation and Mechanistic Studies – 15:40 – 18:00 Co-Chair(s): Natasa Vasiljevic and Gery R. Stafford 15:40

2329

Dynamic Stress Analysis At Solid Electrodes – Manon C Lafouresse, Ugo Bertocci, and Gery R Stafford (National Institute of Standards and Technology)

135

Tuesday, October 29


16:20

2330

16:40

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17:00

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Tuesday, October 29

17:20

17:40

2334

Study of Pt Dissolution During Formic Acid Oxidation On Thin Films Deposited Via Surface Limited Redox Replacements – Natasa Vasiljevic (School of Physics, University of Bristol), Matthew Fayette (Department of Chemistry, SUNY at Binghamton), Jeerapat Nutariya (School of Physics, University of Bristol), and Nikolay Dimitrov (Department of Chemistry, SUNY at Binghamton) In Situ TEM Observation of Electrochemical Growth – Yoshifumi Oshima (Osaka University, JST–CREST) Nucleation Study On Dendrite Suppressing Lithium-Sodium Electrolyte for Lithium Batteries – Johanna Karolina Stark and Paul A Kohl (Georgia Institute of Technology) Early Stages of Electrochemical Nucleation and Growth On Carbon Substrates: Nanocluster Aggregation, Coalescence and Recrystallization – Jon Ustarroz (Research Group Electrochemical and Surface Enigineering (SURF), Vrije Universiteit Brussel), Thomas Altantzis (Electron Microscopy for Materials Science (EMAT), University of Antwerp), Joshua Hammons (Advanced Photon Source, Argonne National Laboratory), Annick Hubin (Research Group Electrochemical and Surface Enigineering (SURF), Vrije Universiteit Brussel), Sara Bals (Electron Microscopy for Materials Science (EMAT), University of Antwerp), and Herman Terryn (Research Group Electrochemical and Surface Enigineering (SURF), Vrije Universiteit Brussel) Electrodeposition of Silver On Ultra Thin Polypyrrole Films Approach to Unusual Nucleation of Metal – Tomasz Rapecki, Zbigniew Stojek, and Mikolaj Donten (University of Warsaw)

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F5

Emerging Opportunities in Electrochemical Deposition for Nanofabrication Electrodeposition / Physical and Analytical Electrochemistry Union Square 23/24, Tower 3, 4th Floor, Hilton San Francisco Union Square

Electrochemical Nanofabrication in Emerging Applications – 08:00 – 11:50 Co-Chair(s): M. Buck and Mark Anderson 08:00

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08:30

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09:20

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Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Posters – 18:00 – 20:00 Co-Chair(s): Massimo Innocenti •

136

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Synthesis and Technological Application of Electrodeposited Semiconductors By EC-ALD – Ilaria Bencistà (Dipartimento di Chimica, Università di Firenze), Francesco Borgatti, Massimiliano Cavallini (CNR, Istituto per lo studio dei materiali nanostutturati), Francesco Di Benedetto (Dipartimento di Scienze della Terra, Università di Firenze), Alessandro Lavacchi (ICCOM-CNR), and Massimo Innocenti (Dipartimento di Chimica, Università di Firenze, CNR, Istituto dei Composti Organometalli) Next Experimental Confirmation of Validity of the Phenomenon of Phase Formation Through a Stage of Liquid State in Metals Being Electrodeposited – Oleg B Girin (Ukrainian State University of Chemical Technology)

Effect of Organic Additives On Electrochemical Reduction Assessment Using SERS Analysis – Mikiko Saito (Institute for Nanoscience and Nanotechnology) In Situ X-Ray Characterizations of Bismuth Electrodeposition Under Different Nucleation Mechanisms – Xin Huang, Manuel Dominguez Plaza (School of Applied and Engineering Physics, Cornell University, Energy Materials Center at Cornell), Jun Young Peter Ko (Cornell High Energy Synchrotron Source), and Joel Donald Brock (School of Applied and Engineering Physics, Cornell University, Cornell High Energy Synchrotron Source) Silver Electrodeposition From Ionic Liquids: Coatings Morphology and Mass Transport Issues – Alessandro Lavacchi (ICCOM-CNR), Serena Cinotti (Dipartimento di Chimica, Università di Firenze), Massimo Innocenti (Dipartimento di Chimica, Università di Firenze, ICCOMCNR), Lucia Becucci (Dipartimento di Chimica, Università di Firenze), Lianqin Wang (CENMAT, University of Trieste, ICCOM-CNR), Elena Banchelli, and Leandro Luconi (BLUCLAD srl)

09:40 10:00 2383

Self-Healing Electrostatic Shield Mechanism for Dendrite Control During Electrodeposition – Ji-Guang Zhang, Fei Ding, Wu Xu, Xilin Chen, Yaohui Zhang, Eduard N Nasybulin (Pacific Northwest National Laboratory), Gordon L Graff, and Maria Sushko (Pacific Northwest National Laboratory, Richland) Nonvolatile Resistance Switching in Electrodeposited Metal Oxide Thin Films – Jay A Switzer, Jakub A Koza, and Ian Schroen (Missouri University of Science and Technology) Superconformal Film Growth: Challenges and Opportunities – Thomas P Moffat, Guokun Liu (NIST), Shouzhong Zou (Miami University), Lee Richter, LiangYueh Ou Yang, Daniel Wheeler, and Daniel Josell (NIST) The Advanced Monitoring of Organic Additives in Copper Electroplating Baths – Michael Pavlov, Eugene Shalyt, Peter Bratin (ECI Technology), and Xiaoxuan Sun (Columbia University) Break Electrochemical Synthesis of Soft Ferromagnetic Thin Films and Nanostructures for Magnetic Recording and MEMS Application – Stanko Brankovic (University of Houston)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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11:30

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Palladium-Free Surface Metallization of Polycarbonate Substrate By InkjetPrinting Technology – Huei-Fang Huang (Department of Chemical Engineering National Chung Hsing University) and Wei-Ping Dow (National Chung Hsing University) Numerical Simulation of the Effect of Additives On Copper Electro-Deposition – Litao Yin, Ying Jin, Lei Wen (National Center for Materials Service Safety, University of Science and Technology Beijing), and Xiuli Zhang (North China Electric Power Research Institute Co Ltd.) Influence of Polyalkyl Glycol Polymers On Copper Filling of Damascene Interconnects – Kevin Ryan, Kathleen A Dunn (College of Nanoscale Science and Engineering), Jobert van Eisden, and James D Adolf (Atotech USA) Extreme Bottom-Up Filling of Through Silicon Vias: Cu and Au – Daniel Josell and Thomas P Moffat (NIST)

Novel Nano-materials via Electrochemical Routes – 14:00 – 17:50 Co-Chair(s): Rohan Akolkar and Mark Anderson 14:00

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15:30

16:00

16:30

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Electrodeposition of Macroporous Materials and of Free Standing Nanowires From Ionic Liquids – Frank Endres (Clausthal University of Technology) Electrochemical Fabrication of Magnetic Nanostructures- Analysis, Control, and Design of Deposition Processes - – Takayuki Homma, Siggi Wodarz, Bin Jiang, Masahiro Kunimoto (Waseda University), and Masahiro Yanagisawa (Nanotechnology Laboratory, Waseda University) Adhesion of Electroless Nib Film On Modified Polyimide With Aminosilane – Tetsuya Osaka (Faculty of Science and Engineering, Waseda University, Institute for Nanoscience and Nanotechnology, Waseda University), Shumpei Matsui, Kazuya Tadokoro (Faculty of Science and Engineering, Waseda University), Takuma Hachisu, Atsushi Sugiyama (Institute for Nanoscience and Nanotechnology, Waseda University), Itsuaki Matsuda, and Tokihiko Yokoshima (Faculty of Science and Engineering, Waseda University) Electrochemical Processing of Carbon Nanostructures – Philippe M Vereecken (imec, University of Leuven, B-3001 Leuven, Belgium), Aleksandar Radisic (imec Belgium), and Daire J Cott (imec) Near-Surface Atomic and Electronic Structural Effects in Layer-By-Layer Derived Core-Shell Catalysts – Faisal M Alamgir (School of Materials Science and Engineering, Georgia Institute of Technology) Superconformal Deposition of Au in a Sulfite Electrolyte – Daniel Josell and Thomas P Moffat (NIST)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

16:50

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Electrodeposition of Cobalt-Tungsten Alloys From An Alkaline CitrateContaining Bath As Barrier Layers in Electronic Application – Nazila dadvand, G jarjoura, and G J kipouros (Dalhousie University) Cu Electroless Deposition By Using Cu Nanoparticles As Catalysts for a Printed Circuit Board Metallization – YiChun Chung (Department of Chemical Engineering) and Wei-Ping Dow (National Chung Hsing University) Electroless Co-B-P-W Deposition Using Dmab As reducing Agent – Eugenijus Norkus, Aldona Jagminiene, Ina Stankeviciene, Loreta TamasauskaiteTamasiunaite, and Zita Sukackiene (Center for Physical Sciences and Technology)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Emerging Applications - Poster Session – 18:00 – 20:00 •

H1

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The Application of Nico Alloy Electroforming On Products With Microstructure – Hsi-Jhu Chen (Metal Industries Research & Development Centre)

Carbon Nanostructures 4 - Fullerenes to Graphene

Fullerenes, Nanotubes and Carbon Nanostructures / Dielectric Science and Technology / Energy Technology / Physical and Analytical Electrochemistry / Sensor Union Square 13, Tower 3, 4th Floor, Hilton San Francisco Union Square

Carbon Nanostructures 2 - Catalysis – 08:00 – 12:20 08:00

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Platinum Nanoparticles Immobilized On CVD-Grown Graphene As a Transparent and Efficient Counter Electrode Materials for Dye-Sensitized Solar Cells – VanDuong Dao (Chungnam National University), Joong-Kee Lee (Korea Institute of Science and Technology), and Ho-Suk Choi (Chungnam National University) Synthesis, Structure, and Properties of C60Pd Spherical Nanoparticles – Krzysztof Winkler, Ewa Brancewicz, and Emilia Gradzka (Institute of Chemistry, University of Bialystok) Electrochemically Generated Highly Fluorescent Boron-Doped Graphene Quantum Dots for Fluorescent Crystal, Sensors and Bioimaging – Louzhen Fan and Zetan Fan (Beijing Normal University) Application of Positively Charged Carbon Nanotubes to Layer-By-Layer Assemblies of Dehydrogenase Enzymes for Molecular Bioelectronic Devices – Barbara Kowalewska, Maciej Dzwonek, and Pawel J Kulesza (University of Warsaw, Department of Chemistry)

137

Tuesday, October 29

10:30


09:20

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Tuesday, October 29

09:40 10:00 2442

10:20

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138

Controlled Deposition of Carbon Nanotubes Within a Smectite Nanoclay By Means of a Modified Langmuir-Schaefer Approach – Antonios Kouloumpis, Panagiota Zygouri, Konstantinos Spyrou (Department of Materials Science and Engineering, University of Ioannina, GR45110 Ioannina, Greece), Theodoros A Tsoufis, Panagiota Stathi, Petra Rudolf (Zernike Institute for Advanced Materials, University of Groningen, Nijenborgh 4, 9747AG Groningen, The Netherlands), and Dimitrios Gournis (Department of Materials Science and Engineering, University of Ioannina, GR-45110 Ioannina, Greece) Break Electrocatalytic Features of Selectively Attached Microperoxidase-11 On to NanoCarbon Structures – Sudhakaraprasad Kariate and Sadagopan Krishnan (Oklahoma State University) Controllable Synthesis of HeteroatomDoped Carbon Nanotubes As Efficient Catalysts for Electrochemical Detection of Dopamine – Ta-Jen Li (Department of Chemical Engineering, National Taiwan University), Kuo–Chuan Ho (Department of Chemical Engineering, National Taiwan University, Institute of Polymer Science and Engineering, National Taiwan University), and WeiHung Chiang (Department of Chemical Engineering, National Taiwan University of Science and Technology, Material and Chemical Research Laboratories, Industrial Technology Research Institute (ITRI)) Networked Graphitic Structures Grown From Dense Microemulsions As High Performance Electrode Material – Emanuela Negro (Delft University of Technology), Maurizio Dieci, Ger Koper, and Daniela Sordi (TU Delft) Evaluation of MEAs Prepared By Pt/C Catalysts With Improved Durability Through the Heat Treatment – Xiaojing Zhao (Faculty of Engineering, Kyushu University), Akari Hayashi, Zhiyun Noda (International Research Center for Hydrogen Energy, Kyushu University), and Kazunari Sasaki (Faculty of Engineering, Kyushu University, International Research Center for Hydrogen Energy, Kyushu University) Hydrogen-carbon Bond on the Nanostructured Graphite for Hydrogen Sensor – Y Zhang (University of Birmingham, University of Birmingham) Comparative Study of the Growth of CNTs On Stainless Steel With and Without the External Catalyst – Mazdak Hashempour, Antonello Vicenzo, and Massimiliano Bestetti (Politecnico di Milano)

12:00

2448

Enhanced Photocatalytic Activity of ZnORgo Nanocomposites in Degradation of Gaseous Acetaldehyde – Yu-Chih Chen (National Chiao-tung unversity), Ken-ichi Katsumata (Tokyo Institute of Technology), and Yung Jung Hsu (Materials Science and Engineering National Chiao Tung University)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Carbon Nanostructures 4 - Fullerenes to Graphene Poster Session – 18:00 – 20:00 •

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Preparation of Graphene-ZnO Nanocomposites Using a Facile, Green Antisolvent Method – Wen-Chen Hu (National Chiao Tung University) and Yung Jung Hsu (Materials Science and Engineering National Chiao Tung University) Fabrication of Graphene By Electrochemical Exfoliation in Alkaline Electrolytes – Li-Chung Chang (Graduate Program for Science and Technology of Accelerator Light Source, National Chiao Tung University, 1001 Ta Hsueh Road, Hsinchu City, Taiwan 300), Yu-Chi Hsieh, Yong-Min Chen, Pu-Wei Wu (Department of Materials Science and Engineering, National Chiao Tung University, 1001 Ta Hsueh Road, Hsinchu City, Taiwan 300), and Jyh-Fu Lee (National Synchrotron Radiation Research Center, 101 Hsin-Ann Road, Hsinchu Science Park, Hsin-Chu 30076, Taiwan ROC) Charge Selective Ion Transport Through Graphene Oxide Based Membranes – Jeasun Nham, Sung Hoon Ha, Yo Sub Jeong, Ju Ho Kim, and Yun Jung Lee (Hanyang University) Novel Dendrimer Intercalated GrapheneBased Materials – Theodoros A Tsoufis, Fotios Katsaros, Zili Sideratou (National Center for Scientific Research), Oleksii Ivashenko, Petra Rudolf (Zernike Institute for Advanced Materials, University of Groningen, Nijenborgh 4, 9747AG Groningen, The Netherlands), and Michael A Karakassides (Department of Materials Science & Engineering, University of Ioannina, GR45110, Ioannina, Greece) Supercapacitors Based On HighSurface-Area Graphene – Xiaolin Zhou (Heilongjiang University) and Yongfu Lian (Heilongjiang Uuniversity) Oxygen Reduction Reaction On Glassy Carbon Electrodes Modified With Amino‑functionalized Carbon Nanotubes and Iron Phthalocyanines – Paulina CañeteRosales, Juan Francisco Silva Sr, and Jose H Zagal Sr (Universidad de Santiago de Chile)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Physical and Analytical Electrochemistry Union Square 15/16, Tower 3, 4th Floor, Hilton San Francisco Union Square

General Session 3 – 08:00 – 12:00 Co-Chair(s): Kaido Tammeveski, Jerzy Chlistunoff, and Pawel J. Kulesza 08:00

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08:40

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09:00

09:20

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09:40 10:00 2478

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10:40

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Magnetron Sputtered Ptnp/MWCNT Composite Electrocatalysts for Oxygen Reduction Reaction – Kaido Tammeveski, Kristel Jukk (Institute of Chemistry, University of Tartu), Jekaterina Kozlova, Peeter Ritslaid (Institute of Physics, University of Tartu), Väino Sammelselg (Institute of Physics, University of Tartu, Institute of Chemistry, University of Tartu), and Nadezda Alexeyeva (Institute of Chemistry, University of Tartu) Effects of Axial Ligation and Electron Donors On Oxygen Reduction Catalysis By Metalloporphyrins – Jerzy Chlistunoff and José-María Sansiñena (Los Alamos National Laboratory) Electrodeposited Nickel-Based Electrocatalysts for Oxygen Evolution Reaction (OER) – Yun Cai (Lawrence Berkeley National Laboratory) and Alexis T Bell (Department of Chemical and Biomolecular Engineering, University of California Berkeley, Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory) Applications of Fourier Transformed Large Amplitude Ac Voltammetry for Kinetics Studies At Stationary and Rotating Disc Electrodes – Jie Zhang, Alan M Bond, Kiran Bano (Monash University), and Gareth F Kennedy (Monash University, Monash University) Optimizing 3D Amperometry for Analyte Identification in Liquid Chromatography – Jun Cheng, Petr Jandik, Yan Liu, and Chris Pohl (Thermo Fisher Scientific) Break Bromide Oxidation On a Polycrystalline Platinum Rotating Disk Electrode in Aqueous Solutions – Daniel A Scherson (Case Western Reserve University, Department of Chemistry) and Jing Xu (Case Western Reserve University) Electrochemical Analysis of Antioxidants Using Bicontinuous Microemulsion – Eisuke Kuraya (Okinawa National College of Technology), Syota Nagatomo, Kouhei Sakata, Shinobu Uemura, and Masashi Kunitake (Department of Applied Chemistry & Biochemistry, Graduate School of Science and Technology, Kumamoto University) A Highly Sensitive Hybrid Film Sensor for Voltammetric Detection of Calcium Antagonist Cilnidipine – Rajeev Jain and Dhanjai Kumar (Jiwaji University, Gwalior (MP) India)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

11:00

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Studies of Adiponitrile As An Electrochemical Solvent – Graham T Cheek (United States Naval Academy) Characterization of a Conductive Agar Electrolyte – Jeffrey Kagan (SSC Pacific) Quinone Electrochemical Mysteries: Thick Cyclic Voltammograms and Tiny Redox Waves – Patrick Andrew Staley (San Diego State University, University of California, San Diego), Laurie A Clare, Eric M Lopez, and Diane K Smith (San Diego State University)

General Session 4 – 14:00 – 17:00 Co-Chair(s): John Justin Gooding and Pawel J. Kulesza 14:00

2484

14:20

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14:40

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15:00

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15:20 15:40 2488

16:00

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Eectroactive Monolayers On n-Type Silicons – John Justin Gooding, Moinul Haque Choudhury, Simone Ciampi, Xunyu Lu, and Chuan Zhao (The University of New South Wales, Sydney, Australia) Characterization of Flow-Through Porous Electrodes for Microfluidic Electrochemical Cells – Marc-Antoni Goulet (Simon Fraser University) and Erik Kjeang (School of Mechatronic Systems Engineering, Simon Fraser University, 25013450 102 Avenue, Surrey, BC V3T0A3 Canada) X-Ray Absorption Spectroscopy Study of Water Molecules At the Water/Electrode Interfaces – Chenghao Wu, Juan J VelascoVelez, and Miquel B Salmeron (Materials Science Division, Lawrence Berkeley National Laboratory) Electrooxidation of Para-Chloroaniline At Gold Electrode – Inam ul Haque (University of Engineering and Technology) Break Thermodynamics in Porous Electrodes for One- and Two-Component Electrolytes – Kenji Kiyohara and Kinji Asaka (National Institute of Advanced Industrial Science and Technology (AIST)) A Grand Canonical Ensemble Model for Electrolytes Confined in Mesoporous Domains – Mark Kobrak (Graduate center of the City University of New York) Directed Immobilization of a Heme Protein On Nanostructured Electrodes – Charuksha Walgama, Rajasekhara Nerimetla, and Sadagopan Krishnan (Oklahoma State University) Preparation and Physicochemical Characterisation of Novel Ru-Based Catalyst for Oxygen Reduction Reaction – Anna Dobrzeniecka (University of Warsaw)

139

Tuesday, October 29

I1

Physical and Analytical Electrochemistry Division General Session


Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

2500

2501

Tuesday, October 29

I1 Poster Session – 18:00 – 20:00 •

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140

2499

Physico-Chemical Properties of Ionic Liquid Analogous Based On Magnesium Chloride Hexahydrate and Dimethylformamide – Yan Jing, Huaiyou Wang, Yongzhong Jia, Duyuan Yue, Ying Yao, Xiaohua Wang, and Jun Ma (Qinghai Institute of Salt Lakes, Chinese Academy of Sciences) Influence of Aromatic and Unsaturated Substituents On Physical and Electrochemical Properties of Phosphonium Ionic Liquids – Katsuhiko Tsunashima, Seiya Kikuchi, Chihiro Nagai, Yuki Sakai (Wakayama National College of Technology), and Masahiko Matsumiya (Yokohama National University) Quasi-Solid-State Dye-Sensitized Solar Cells Assembled With Polymer Electrolyte Containing Core-Shell Structured Polymeric Ionic Liquid – Sung-Geun Jo and Dong-Won Kim (Hanyang University) Dye-Sensitized Solar Cells Assembled With Polymeric Ionic Liquid and Poly(3,4ethylenedioxythiophene) Counter Electrode – Nawon Jeon, Sung-Geun Jo, Dong Ki Hwang (Hanyang University), SeungSoon Im (Hanynag University), and Dong-Won Kim (Hanyang University) The Electrolytic Dissociation of 1,3-Cyclopentanedicarboxylic Acids – Elene Kvaratskhelia (RAgladze Institute of Inorganic Chemistry and Electrochemistry, IvJavakhishvili Tbilisi State University), Ramaz Kvaratskhelia (RAgladze Institute of Inorganic Chemistry and Electrochemistry, IvJavakhishvilii Tbilisi State University), and Rusudan Kurtanidze (RAgladge Institute of Inorganic Chemistry and Electrochemistry, Ivjavakhishvili Tbilisi State University) Catalytic Oxidation of Liquid Fuels On Palladium Nanoparticles Loaded Carbon Nanotubes – Qijin Wan, Mingzhen Han, Hualing Liao (Wuhan Institute of Technology), and Nianjun Yang (Fraunhofer IAF) Electrode Surface Fouling for Sensitive Electroanalytical Determination of Phenols – Abdel-Nasser M Kawde (King Fahd University of Petroleum and Minerals) Heavy Metal Extraction and Electroseparation From Wastewater By Acidic Solutions – Yassine Addi (USTHBENPEI)

I2

Electrochemical Determination of Copper and Thiourea in the Presence of An Animal Glue From Strongly Acidic Solutions Employed in the Electrorefining Processes of Copper – María Gabriela Lobos, Daniel Luis Ramírez Sr, Gonzalo Riveros (Departamento de Química y Bioquímica, Facultad de Ciencias, Universidad de Valparaíso), Patricia Díaz (Departamento de Química y Bioquímica, Facultad de Ciencias, Universidad de Valparaíso), and Humberto Gomez (Instituto de Química Pontificia Universidad Católica de Valparaíso) Degradation Route for Amaranth Dye By Sonoelectrochemical Process Using BDD Anode – Artur de Jesus Motheo (Institute of Chemcistry at Sao Carlos / University of Sao Paulo), Juliana R Steter (Institute of Chemistry at Sao Carlos / University of Sao Paulo), Marcos Roberto Vasconcelos Lanza (University of Sao Paulo), and Willyam Róger Padilha Barros (Institute of Chemistry at Sao Carlos / University of Sao Paulo)

Invitational Symposium in Honor of Adam Heller on his 80th Birthday

Physical and Analytical Electrochemistry / Battery / Energy Technology / Organic and Biological Electrochemistry Golden Gate 3, Tower 3, Lobby Level, Hilton San Francisco Union Square

Bioelectrochemistry & Biomaterials 1 – 08:20 – 11:40 Co-Chair(s): Scott Calabrese Barton and Shelley D. Minteer 08:20

2512

08:40

2513

09:00

2514

09:20

2515

09:40 10:00 2516

Enzyme-Catalyzed Direct Electron Transfer: An Inspiration for Electrocatalyst Design – Plamen Atanassov (The University of New Mexico) Functionalization of Multi Walled Carbon Nanotubes with Pyrene-based Groups for Enhanced Oxygen Reduction by Laccase – Fabien Giroud (University of Utah) and Shelley D Minteer (The University of Utah) Development of Non-Gassing Electroosmotic Pump and Its Application for Drug Infusion System – Woonsup Shin (Department of Chemistry and Interdisciplinary Program of Integrated Biotechnology, Sogang University) Sacrificial dye electrode for non-gassing electro-osmotic pumps – Rajaram K Nagarale (Indian Institute of Technology) Break Design of Redox Polymers for Reagentless Biosensors, Biofuel Cells, and Photobioelectrochemistry – Wolfgang Schuhmann (Ruhr-University Bochum)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2517

11:00

2518

11:20

2519

Redox Mediators Coupled to Surfaces and Supports: Operation of Enzymatic Biofuel Cells in Physiological Buffers, Human Saliva and Blood – Peter O Conghaile, Domhnall MacAodha (National University of Ireland Galway), Magnus Falk, Sergey Shleev (Malmö University), Lo Gorton (Department of Biochemistry and Structural Biology, Lund University, PO Box 124, SE-22100 Lund, Sweden), and Dónal Leech (National University of Ireland Galway) Optimizing the Electrocatalytic Oxidation of NADH At Nitrogen-Doped Carbon Nanotubes – Jacob M Goran, Carlos A Favela (University of Texas at Austin), and Keith J Stevenson (Department of Chemistry and Biochemistry - University of Texas at Austin) Metabolic Control Analysis of Bioelectrodes for Multistep Oxidation of Biofuels – Scott Calabrese Barton, Benjamin Piering (Michigan State University), and Shelley D Minteer (The University of Utah)

Bioelectrochemistry & Biomaterials 2 – 14:00 – 17:00 Co-Chair(s): Woonsup Shin and Wolfgang Schuhmann 14:00

2520

14:40

2521

15:00

2522

15:20 15:40 2523

Improving Implanted Glucose Sensor Performance - Designing the Next Generation of Sensors – Michael Pishko (Texas A&M University) Impedance Biosensors: Remaining Technical Challenges – Ian Ivar Suni (Southern Illinois University) and Rajeswaran Radhakrishnan (Clarkson University) Design, Synthesis and Characterization of Polyoxometalates for Use As Electrochemical Labels for Detection of Single Nucleotide Polymorphisms Using Electrochemical Array Based Primer Extension – Ciara O Sullivan (Universitat Rovira i Virgili) Break Wireless Communication By An Autonomous Self-Powered Cyborg Insect – Jamie J Matic (Case Western Reserve University, Department of Chemistry), Michelle J Rasmussen (The University of Utah), Alan J Pollack (Case Western Reserve University, Department of Biology), William Weeman (Case Western Reserve University, Department of Electrical Engineering and Computer Science), Irene Lee (Case Western Reserve University, Department of Chemistry), Mark A Willis (Case Western Reserve University, Department of Biology), Steve Garverick (Case Western Reserve University, Department of Electrical Engineering and Computer Science), Roy E Ritzmann (Case Western Reserve University, Department of Biology), and Daniel A Scherson (Case Western Reserve University, Department of Chemistry)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

16:00

2524

16:20

2525

16:40

2526

I3

Wired Microbe Electrodes – Darryl Boyd (National Research Council), Jeffrey Erickson, Nikolai Lebedev (Naval Research Laboratory, Center for Bio/ Molecular Science and Engineering), Jared Roy (George Mason University), Rachel M Snider (University of Minnesota Biotechnology Institute), Sarah StrycharzGlaven, Leonard Tender (Naval Research Laboratory, Center for Bio/Molecular Science and Engineering), and Stanislav Tsoi (Naval Research Laboratory, Chemistry Division) Improvement of Interdigitated Array Electrodes for the Investigation of Electron Transfer Through Biofilms of Geobacter Sulfurreducens mutants – Rachel M Snider and Daniel R Bond (University of Minnesota Biotechnology Institute) Structural Transition of Alkylthiol/Au(111) Interface During Self-Assembly Process – K Uosaki (National Institute for Materials Science (NIMS)) and Toshihoro Kondo (Ochanomizu University)

Photoelectrochemistry and Photoassisted Electrocatalysis Physical and Analytical Electrochemistry Imperial B, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Advanced PEC Materials – 08:00 – 09:50 Co-Chair(s): Thomas A. Zawodzinski and Heli Wang 08:00

2546

08:30

2547

09:00

2548

09:30

2549

(Invited) Copper Gallium Selenide Based Photocathode For Sunlight Driven Water Splitting – Tsutomu Minegishi, Salim Umar, Li Zhang, Hiromu Kumagai, Jun Kubota, and Kazunari Domen (The University of Tokyo) (Invited) P-(In,Ga)N Nanowire Photocathodes For Solar Hydrogen Evolution – Peter Bogdanoff (Helmholtz Center Berlin, Institute for Solar Fuels), Jumpei Kamimura, Jonas Lähnemann, Christian Hauswald, Lutz Geelhaar (Paul-Drude-Institute, Berlin, Germany), Sebastian Fiechter (Helmholtz Center Berlin, Institute for Solar Fuels), and Henning Riechert (Paul-Drude-Institute, Berlin, Germany) (Invited) High Bandgap Copper Indium Gallium Disulfide Materials For SolarAssisted Water Splitting – Nicolas Gaillard, Dixit Prasher, Jess Kaneshiro, Marina Chong (University of Hawaii), Jian Hu (MVSystems), Michael Weir, and Clemens Heske (University of Nevada, Las Vegas) Evaluation of Photoelectrochemical Properties of AgInS2 Coated With TiO2 By Atomic Layer Deposition – Qian Cheng and Candace Chan (Arizona State University)

III-V Surface Validation – 10:10 – 12:00 Co-Chair(s): Nicolas Gaillard 10:10

2550

Materials for Photoelectrochemical Water Splitting – Heli Wang (National Renewable Energy Laboratory) 141

Tuesday, October 29

10:40


10:30

Tuesday, October 29

10:50

2551

2552

11:20

2553

11:40

2554

Solar Hydrogen Production With Epitaxial III-V Tandem Absorber Structures – Henning Döscher (National Renewable Energy Laboratory), Todd G Deutsch (NREL), John F Geisz (National Renewable Energy Laboratory), Michael Weir, Sarah L Alexander, Monika Blum, Lothar Weinhardt (University of Nevada, Las Vegas), Frank Meyer (University of Würzburg), Wanli Yang (Lawrence Berkeley National Laboratory), Markus Bär (Helmholtz Zentrum Berlin für Materialien und Energie), Heli Wang, Arrelaine Dameron, Ryan M France (National Renewable Energy Laboratory), Clemens Heske (University of Nevada, Las Vegas), and John A Turner (National Renewable Energy Laboratory) (Invited) Achieving High STH Efficiency and Corrosion Resistance: Theoretical Insights – Tadashi Ogitsu (Lawrence Livermore National Laboratory) Structural and Chemical Properties of III-V Semiconductor-Water Interfaces for Photoelectrochemical Hydrogen Production – Brandon C Wood, Woon Ih Choi, Eric Schwegler, and Tadashi Ogitsu (Lawrence Livermore National Laboratory) Nitrogen Chemical Environments After N2+ Bombardment On GaInP2: Theoretical X-Ray Emission Study – Woon Ih Choi, Brandon C Wood (Lawrence Livermore National Laboratory), David Prendergast (Lawrence Berkeley National Laboratory), and Tadashi Ogitsu (Lawrence Livermore National Laboratory)

Performance – 16:00 – 18:00 Co-Chair(s): Li-Chyong Chen 16:00

2559

16:30

2560

17:00

2561

17:20

2562

17:40

2563

Solar Energy Conversion Cells – 14:00 – 15:40 Co-Chair(s): Gunther Wittstock 14:00

2555

14:30

2556

15:00

2557

15:20

142

2558

(Invited) Enhancement Of Photoelectrochemical Water Splitting and Solar Energy Coversion Through Utilization Of Plasmonic and Electrocatalytic Noble Metal Nanoparticles – Pawel J Kulesza, Renata Solarska, and Iwona Agnieszka Rutkowska (University of Warsaw) (Invited) Sensitization Of Single Crystal Semiconductor Electrodes With Dyes, Quantum Dots and Polymers – Bruce A Parkinson (University of Wyoming) Spectroelectrochemical Investigation of ZnCr2O4 for High Photovoltage p-Type Sensitized Solar Cells – Vineet Vijayakrishnan Nair and Matt Law (University of California-Irvine) Critical Factors of Dye-Sensitized Solar Cell Using TiO2 Nanotubes – Seulgi So, Ning Liu, and P Schmuki (University of Erlangen-Nuremberg (FAU))

I5

(Invited) Cold Gas Sprayed Semiconductor-Based Electrodes For The Photo-Induced Water Oxidation – Iris Herrmann-Geppert (HelmutSchmidt-University, Helmholtz-Zentrum Geesthacht), Henning Gutzmann (HelmutSchmidt-University), Peter Bogdanoff (Helmholtz Center Berlin, Institute for Solar Fuels), Thomas Emmler (HelmholtzZentrum Geesthacht), Philipp Hillebrand (Helmholtz Center Berlin, Institute for Solar Fuels), Mauricio Schieda (Helmholtz-Zentrum Geesthacht), Frank Gaertner (Helmut-Schmidt-University), and Thomas Klassen (Helmut-SchmidtUniversity, Helmholtz-Zentrum Geesthacht) (Invited) Metal-Insulator-Semiconductor Photoelectrodes As a Platform For Efficient and Stable Photoelectrochemical Water Splitting – Daniel V Esposito, Youngmin Lee (National Institute of Standards and Technology), A Alec Talin (National Institute of Standards and Technology, Sandia National Laboratories), and Thomas P Moffat (NIST) Oxide Thin-Films for Protection and Functionalization of Photocathodes in Tandem Water-Splitting Devices – Peter C K Vesborg, Brian Seger (DTU), Ib Chorkendorff (Technical University of Denmark), and Ole Hansen (DTU) Solar Water Splitting By Transition Metal Oxide – Silicon Photoanodes Prepared Under Cathodic Electrochemical Conditions – Michael Lublow (HelmholtzCentre Berlin for Materials and Energy, Institute Solar Fuels, Technical University Berlin, Institute of Chemistry), Thomas Schedel-Niedrig (Helmholtz-Centre Berlin for Materials and Energy, Institute Solar Fuels), and Anna Fischer (Technical University Berlin, Institute of Chemistry) Electrodeposited Zinc Oxide Nanorods ALD-Coated With Iron Oxide: Their Photocatalytic and Photoelectrochemical Properties – Taha Ahmed, Mattis Fondell, Mats Boman, and Jiefang Zhu (Uppsala university)

Processes 8

Physical and Analytical Electrochemistry / Energy Technology Union Square 14, Tower 3, 4th Floor, Hilton San Francisco Union Square

Electrode Processes 1 – 08:00 – 11:40 Co-Chair(s): Andrew Campion Hillier 08:00

2618

A Self-Healing Phenomenon of Thin δ-MnO2 Film in the Oxidative Decomposition of Hydrogen Peroxide – Masaharu Nakayama and Ayu Sato (Yamaguchi University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2619

08:40

2620

09:00

2621

09:20

2622

09:40 10:00 2623

10:20

10:40

2624

2625

11:00

2626

11:20

2627

Electrolytic Formation of Pt-Li Alloy and Its Excellent Electrocatalysis for Formic Acid Oxidation – Zaenal Awaludin, Takeyoshi Okajima (Tokyo Institute of Technology), and Takeo Ohsaka (Tokyo Institute of Technology, Tokyo Institute of Technology) Photo-Assisted Boosting of Formic Acid Electrooxidation On TiO2 Nanotube-Pt Electrode – Nazrul Mojumder, Swagotom Sarkar, Syed Abbas, and Vaidyanathan (Ravi) Subramanian (University of Nevada, Reno) Activity and Stability Trends for Oxygen Evolution Reaction Electrocatalysts – Nemanja Danilovic (Argonne National Laboratory) Electrochemical SERS Study On WellDefined Catalytic Metal Surfaces Using Hybridized Plasmon Modes – Katsuyoshi Ikeda, Jian Hu (Hokkaido University), and K Uosaki (National Institute for Materials Science (NIMS)) Break Potential Dependent Structures At Pt(111) Single Crystal Electrode/Perchloric Acid Electrolyte Interface Studied By Surface X-Ray Scattering – Toshihoro Kondo (Ochanomizu University), K Uosaki (National Institute for Materials Science (NIMS)), Nana Aoki (Ochanomizu University), and Takuya Masuda (National Institute for Materials Science (NIMS)) Modeling of Magnetic Enhancement of Homogeneous Electron Transfer Reactions – Heung Chan Lee (University of Iowa), Shelley D Minteer (The University of Utah), and Johna Leddy (University of Iowa) Nanoscale Electrochemical Processes On Cu(111) Surface Using Periodic DFT and Quantum/Classical Simulations – Aslihan Sumer, Martin Losada, and Santanu Chaudhuri (ISP/Applied Sciences Laboratory, Washington State University) Factors That Influence the Reduction of Organic Halides At Silver Cathodes – Lauren M Strawsine and Dennis G Peters (Indiana University) Structural and Compositional Control of Mesostructured Thin Film Electrocatalysts – Joshua David Snyder, Nenad Markovic, and Vojislav R Stamenkovic (Argonne National Lab)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Electrode Processes 2 – 14:00 – 15:20 Co-Chair(s): Andrew Campion Hillier 14:00

2628

14:20

2629

14:40

2630

15:00

2631

J1

Electrocatalytic Oxygen Reduction and Water-Oxidation On Transition Metal Ions-Doped MnO2, RuO2 and IrO2 in Alkaline Aqueous Solutions – Arcokiam John Jeevagan (Kanagawa University), Govindachetty Saravanan (CSIRNational Environmental Engineering Research Institute (CSIR-NEERI)), Toshiaki Onobuchi, Yukiko Suzuki, Erika Murakoshi (Kanagawa University), Shingo Kaneko (Research Institute for Engineering, Kanagawa University), Genki Kobayashi, and Futoshi Matsumoto (Kanagawa University) Direct Electrolytic Reduction of Hematite Pellets in Alkaline Electrolyte for Iron Production – Geir Martin Haarberg (Norwegian University of Science and Technology) and Boyan Yuan (Teknova AS) Tin Oxide and Nickel Ferrite Anodic Behaviour in Molten Chlorides – Geir Martin Haarberg, Eirin Kvalheim (Norwegian University of Science and Technology), and Ana Maria Martinez (SINTEF) An All-Inorganic Responsive Surface: Electrochemical Switching of Boron Nitride Nanomesh Corrugation – Stijn F L Mertens (KU Leuven), Adrian Hemmi, Stefan Muff, Rafael Küng (Universität Zürich), Steven De Feyter (KU Leuven), Jürg Osterwalder, and Thomas Greber (Universität Zürich)

Sensors, Actuators, and Microsystems General Session Sensor Union Square 25, Tower 3, 4th Floor, Hilton San Francisco Union Square

Chemical Sensors and Analytical Methods 2 – 08:00 – 11:40 Co-Chair(s): Praveen K. Sekhar 08:00

2647

08:20

2648

08:40

2649

Reaction of the Electrogenerated Superoxide Species With BindingMaterials in Commercial Pt ScreenPrinted Electrodes, and Its Implication in Amperometric O2-Gas Sensing – Junqiao Lee, Krishnan Murugappan, Damien WM Arrigan, and Debbie S Silvester (Nanochemistry Research Institute, Department of Chemistry, Curtin University) Metallic Atom-Scale Junction for Chemical Noise Detection: Study of Surface Molecular Adsorption/Desorption Kinetics Using Fluctuation Spectroscopy – TaiWei Hwang (University of Notre Dame, Department of Chemical and Biomolecular Engineering) and Paul W Bohn (University of Notre Dame, Department of Chemical & Biomolecular Engineering) Supermolecule Functionalized Graphene and Application in Electrochemical Sensor – Guowang Diao and Ming Chen (Yangzhou University) 143

Tuesday, October 29

08:20


09:00

2650

09:20

2651

Tuesday, October 29

09:40 10:00 2652

10:20

2653

10:40

2654

11:00

2655

11:20

2656

Preparation and Characterization of Microcomposite Based On Environmentally Sensitive Microgel and Conducting Polymer – Marcin Karbarz, Marcin Mackiewicz, Tomasz Rapecki, and Zbigniew Stojek (University of Warsaw) Hydrogen Resistivity Sensors From Nanoparticle Assembles: Palladium Versus Platinum – Khalil Rajoua (Institut Charles Gerhardt Montpellier, CNRS, UM2) and Frederic Favier (Institut Charles Gerhardt Montpellier UMR 5235 CNRS,Université Montpellier 2, Montpellier, France) Break Characterization of Mediator-Less Sugar/Oxygen Enzymatic Fuel Cells in Vitro – Peter Lamberg (Department of biomedical science), Sergey Shleev (Malmö University), Roland Ludwig (Department of Food Sciences and Technology, Department of Food Sciences and Technology), and Tautgirdas Ruzgas (Department of biomedical science) Electrochemical Reduction of 2,4,6-Trinitrotoluene On Vanadium Dioxide – Matthew C Casey, Alexander J Raubach, Jed I Ziegler, Richard F Haglund, and David E Cliffel (Vanderbilt University) Synergistic Effects of Graphene Based Nano Hybrid Materials for the Electrochemical Sensing Applications – Thiagarajan Soundappan, Sumitava De (Washington University in St Louis), Venkatasailanathan Ramadesigan (Washington University in St Louis, Indian Institute of Technology, Bombay), and Venkat R Subramanian (Washington University in St Louis) Electrochemical Characterization of Screen Printed Au Electrodes – Qiang Huang, Brett Baker-O’Neal, and Shafaat Ahmed (IBM, T J Watson Research Center) Engineering An Electrochemical Sensor for the Characterization of Bond Vibration Frequencies of a Chemical Analyte – Chaitanya Gupta, Shuai Chang, and Roger T Howe (Stanford University)

14:40

2659

15:00

2660

15:20 15:40 2661

16:00

2662

16:20

2663

16:40

2664

17:00

2665

Biosensors and Biological Applications – 14:00 – 17:20 Co-Chair(s): Aleksandr Simonian 14:00

2657

14:20

2658

144

Electrochemical Mass Immunosensor for Insulin Detection in Human Serum – Vini Singh and Sadagopan Krishnan (Oklahoma State University) Voltammetric Glucose Sensor Using POLY(2,5 DIMETHOXY ANILINE) As A Polymer Support – Prabhuraj Balakrishnan (University of Manchester) and Sivakumar Chinnaiah (Central Electrochemical Research Institute (CECRI), India)

A Novel Electrochemical Immunosensor for Mirnas Detection Using Reduced Graphene Oxide Electrodes – Chau Minh Pham, Hoang Vinh Tran, Benoit Piro, Steeve Reisberg (Univ Paris Diderot, Sorbonne Paris Cité, ITODYS,UMR 7086 CNRS), Duc Thien Huynh (Univ Paris 11, INSERM U-1014, Hôpital Paul Brousse-94800 Villejuif, France), and David Stollar (TUFTS University, Department of Biochemistry, 136 Harrison Avenue, Boston, MA) Glucose Detection At Films Composed of Ir Oxide Nanoparticles On Carbon Supports – Holly Bri Campbell and Viola Birss (University of Calgary) Break Electrochemical Interference in a CatecholModified Chitosan Redox Cycling Amplification System for Clozapine Detection – Thomas E Winkler, Hadar BenYoav, Sheryl E Chocron, Eunkyoung Kim (University of Maryland, College Park), Deanna L Kelly (University of Maryland School of Medicine), Gregory F Payne, and Reza Ghodssi (University of Maryland, College Park) Tapered Optical Fibers for Biosensing Applications – Branden King, Ighodalo Idehenre, Peter E Powers, Andrew M Sarangan, Joseph W Haus, and Karolyn M Hansen (University of Dayton) Bioimaging Using LSI-Based Amperometric Biosensing System With 400- Electrodes – Kumi Y Inoue (Micro System Integration Center, Tohoku University), Kosuke Ino, Mustafa Sen, Masanori Nakano, Kosuke Takara, Reyushi Kubo (Graduate School of Environmental Studies, Tohoku University), Masahki Matsudaira (Micro System Integration Center, Tohoku University), Atsushi Suda, Ryota Kunikata (Japan Aviation Electronics Industry, Limited), Hitoshi Shiku (The World Premier International Research Center Advanced Institute for Materials Research (WPI-AIMR), Tohoku University, Graduate School of Environmental Studies, Tohoku University), and Tomokazu Matsue (Graduate School of Environmental Studies, Tohoku University, The World Premier International Research Center Advanced Institute for Materials Research (WPI-AIMR), Tohoku University) Electrochemically Actuated, Screen Printed, Capillarity-Driven Microsystems for Food Safety and Clinical Analysis – Sonia Molina, Alemayehu Washe, Oumaya Msehli, Bruno Teixeira-Dias, and Ioanis Katakis (Universitat Rovira i Virgili) Characteristics of Fully ScreenPrinted Paper-Based Chromatographic Electrochemical Biosensor – Isao Shitanda, Tasuku Yamaguchi, Yoshinao Hoshi, and Masayuki Itagaki (Tokyo University of Science)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2672

2673

2674

2675

2676

2677

2678

J1 Poster Session – 18:00 – 20:00 Co-Chair(s): Michael T. Carter •

2666

2667

2668

2669

2670

2671

Two-Step Microwave Synthesis of Highly Dispersed Ordered Intermetallic Ptpb Nanoparticles On Carbon Black – Arockiam John Jeevagan, Naoyuki Sawano (Kanagawa University), Govindachetty Saravanan (CSIR-National Environmental Engineering Research Institute (CSIRNEERI)), Takao Gunji, Shou Usui, Taiki Kojima (Kanagawa University), Shingo Kaneko (Research Institute for Engineering, Kanagawa University), Genki Kobayashi, and Futoshi Matsumoto (Kanagawa University) Preparation and Voltammetric Behavior of a Hybrid Silsesquioxane Chemically Modified With 4-Amino-5-(4-pyridyl)-4H1,2,4-Triazole-3-Thiol (APTT) and Copper Hexacyanoferrate(III): A Sensor of Nitrite – Devaney Ribeiro Do Carmo (UNESP Universidade Estadual Paulista) Intelligent Detector of Internal Combustion Engine Cylinder Pressure and Sensitivity Temperature Coefficient Compensation – B R Zheng, C Zhou, X M Pan, and W Xue (Wenzhou University) Internal Stress Effect On Nonlinearity of Absolute Pressure Sensor Fabricated With Single-Sided Surface-Micromachining Processes – Quan Wang (School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China, State Key Laboratories of Transducer Technology, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China), Y M Zhang, W Mao (School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China), and Daohan Ge (State Key Laboratories of Transducer Technology, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China, School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China) Development of a Bifunctional Pt/ Au Platform Microelectrode Modified With Glucose Oxidase for Glucose Determination – Tony Rogerio Lima Dadamos (Institute of Chemistry of São Carlos, University of São Paulo), Livia Florio Sgobbi (Institute of Chemistry of São Carlos, University of São Paulo,), and Sergio Antonio Spinola Machado (Instituto de Química de São Carlos) Voltammetric Determination Of Dipyrone Using Graphite Paste Electrode Modified With Nanoparticles Of Nickel Hexacyanoferrate – Urquisa Oliveira Bicalho (UNESP - Universidade Estadual Paulista “Júlio de Mesquita Filho”- Ilha Solteira)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Effect of Amyloid Conformation On the Response of Field Effect Transistor Biosensor to Sup35NM Protein – Sho Hideshima (Institute for Nanoscience and Nanotechnology, Waseda University), Shofarul Wustoni (Graduate School of Advanced Science and Engineering, Waseda University), Shigeki Kuroiwa, Takuya Nakanishi (Institute for Nanoscience and Nanotechnology, Waseda University), Ayumi Koike-Takeshita (Department of Applied Bioscience, Kanagawa Institute of Technology), and Tetsuya Osaka (Institute for Nanoscience and Nanotechnology, Waseda University, Graduate School of Advanced Science and Engineering, Waseda University) Label-Free Detection of Alanine Aminotransferase Using a Low Operation Voltage and Single Reaction Step of Graphene Field-Effect Biosensor – TungMing Pan, Kai-Sheng Wang (Chang Gung University), Chieh Cheng (Graduate Program for Nanotechnology Department of Materials Science and Engineering, National Chiao Tung University, Hsinchu 300,Taiwan), Ching-Chang Lin (National Chiao Tung University), Fu-Hsiang Ko (Graduate Program for Nanotechnology Department of Materials Science and Engineering, National Chiao Tung University, Hsinchu 300,Taiwan), and Lifeng Chi (Westfälische WilhelmsUniversität Münster) Improved Hydrogen Sensing Characteristics of Flat Type Micro Catalytic Hydrogen Gas Sensor of Smaller Size – Chi-Hwan Han and Sang-Do Han (Korea Institute of Energy Research) Electrochemical Determination of Hormones Using Sensor Based On Graphene Nanosheets – Fernando Henrique Cincotto, Paulo Augusto RaymundoPereira, Fernando Cruz Moraes (Instituto de Química de São Carlos - Universidade de São Paulo - USP), and Sergio Antonio Spinola Machado (Instituto de Química de São Carlos) Effect of Hydrogen Treatment On Characteristics of Titanium Oxide Nanotube Micro Hydrogen Gas Sensors – Tsubasa Tobe, Ryota Kojima, Yasuo Kimura, and Michio Niwano (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University) Study of Ultrathin TiO2 Metal Oxide Gas Sensor Deposited By Atomic Layer Deposition for Environmental Monitoring – Steven Christopher Mills, Bongmook Lee, and Veena Misra (North Carolina State University) Electrochemically Active Graphene oxide used as an electrochemical Indicator for Biosensor – Kyuwon Kim and Dongchul Choi (Incheon National University)

145

Tuesday, October 29

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square


2679

2680

2681

Tuesday, October 29

J2

2682

Impedimetric Hg2+ Analysis By Employing Thrombin Label – Kyuwon Kim and Hyunjun Ko (Incheon National University) The I-V Characteristics of a TerminationControlled Borondopedpolycrystalline Diamond Field Effect Transistor pH Sensor for Using At Harsh Environment – Yukihiro Shintani (Waseda University,) Toxic Gas Sensors Using Ionic Liquids – Andreas Nauber (Draeger Safety AG & Co KGaA) and Peter Tschuncky (Draegerwerk AG & Co KGaA) Reduced Graphene Oxide and SingleWalled Carbon Nanotubes Composite Material for Electrocatalytic Oxidation of NADH – Tzu-Yen Huang (Research Center for Applied Sciences, Academia Sinica, Department of Chemical Engineering, National Taiwan University), Kuo–Chuan Ho (Department of Chemical Engineering, National Taiwan University), and ChihWei Chu (Research Center for Applied Sciences, Academia Sinica, Taipei 115, Taiwan)

Impedance Techniques, Diagnostics, and Sensing Applications

2683

08:20

2684

08:40

2685

09:00

2686

146

2687

09:40 10:00 2688

The Influence of Coupled Faradaic and Charging Currents On Impedance Spectroscopy – Shao-Ling Wu (Lawrence Berkeley Lab), Mark E Orazem (University of Florida), Bernard Tribollet (CNRSLISE), and Vincent Vivier (Université P et M Curie) The Role of the Reference and Counter Electrodes in Electrochemical Impedance Measurement – Petr Vanýsek (Northern Illinois University), Hadi Tavassol (University of Illinois, UrbanaChampaign), and Kate-Leigh Pilson (Northern Illinois University) Investigation of Transport/Insertion Processes in Mixed and Ionic Conducting Thin Films By Ac Electrogravimetry – Loan Kim To (UPMC), Ozlem Sel, Claude Gabrielli, and Hubert Perrot (CNRS UPMC) Diffusion Impedance of Microband Electrode Array By FEM – Yoshinao Hoshi (Tokyo University of Science), Masaharu Ohya (Tokyo University of science), Isao Shitanda, and Masayuki Itagaki (Tokyo University of Science)

Carbon Nanotube Coated Paper Sensor for Damage Diagnosis Using Electrical Impedance Tomography – Beomseok Kim, Yijiang Lu (ELORET Corporation at NASA Ames Research Center), Taemin Kim (SGT at NASA Ames Research Center), Jin-woo Han (USRA at NASA Ames Research Center), Meyya Meyyappan, and Jing Li (NASA Ames Research Center) Break (2013 ECS Fellow Inductee) Information from Noise – Jiri Janata (Georgia Institute of Technology) and Ryan West (National Institute of Standards)

Impedance Applications - Analysis of Corrosion and Electrodeposition Mechanisms – 10:20 – 11:40 Co-Chair(s): Douglas C. Hansen and Mark E. Orazem 10:20

2689

10:40

2690

11:00

2691

11:20

2692

Sensor / Corrosion / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Franciscan B, Tower 1, Ballroom Level, Hilton San Francisco Union Square

Impedance Techniques, Diagnostics, and Sensing Applications Theory, Techniques, and Instrumentation – 08:00 – 10:20 Co-Chair(s): Vadim Lvovich and Matthew Smiechowski 08:00

09:20

Impedance Analysis of Copper Alloys At the Corrosion Potential in Seawater – Isabelle Frateur (CNRS-LISE), Blanca Estela Torres Bautista (CNRS-LPCS), Maria Leonor Carvalho (RSE), and Bernard Tribollet (CNRS-LISE) Study of Pickling and Over-Pickling Mechanisms of Silicon High Alloyed Steel Grade By Electrochemical Impedance Spectroscopy – Amine Alaoui Mouyad (UPR 15 CNRS and UPMC, ArcelorMittal Maizières Research), Mark E Orazem (University of Florida), Eliane Sutter (UPR 15 CNRS and UPMC), Bernard Tribollet (CNRS-LISE), and Alexey Koltsov (ArcelorMittal Maizières Research) Galvanic Deposition of Mo Atop Al 6061 Alloy – Bamidele D Falola, Aarti Krishnamurthy, Rajeswaran Radhakrishnan (Clarkson University), and Ian Ivar Suni (Southern Illinois University) Phosphate Adsorption On Thin Films Made of Transition Metal Oxides, As Measured By Electrochemical Impedance Spectroscopy – Rodolfo Ernesto Pérez-Roa, Rachel Elizabeth Moss (Environmental Chemistry & Technology Program, University of Wisconsin - Madison), Juan Ma, Daniel Ricardo Noguera (Department of Civil & Environmental Engineering, University of Wisconsin - Madison), and Marc Arlen Anderson (Environmental Chemistry & Technology Program, University of Wisconsin - Madison, Department of Civil & Environmental Engineering, University of Wisconsin - Madison)

Impedance Applications - Energy Sources – 11:40 – 12:20 Co-Chair(s): Mark E. Orazem and Matthew Smiechowski 11:40

2693

Applications of AC Impedance Spectroscopy As Characterization and Diagnostic Tool in Rechargeable Energy Storage Devices – Vadim Lvovich (NASA Glenn Research Center)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2694

Impedance Behavior of Binderless Ni-Mo Composite Cathode for a Li-O2 Battery Via Impedance Spectroscopy – Ruben Nelson, Mark H Weatherspoon, Joyce Kosivi, Eric E Kalu, and Jim P Zheng (Florida A&M University - Florida State University College of Engineering)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Impedance Techniques, Diagnostics, and Sensing Applications Posters – 18:00 – 20:00 Co-Chair(s): Matthew Smiechowski •

2704

2705

2706

Impedance Applications - Automotive Gas Sensors – 14:00 – 15:20 Co-Chair(s): Petr Vanýsek and Douglas C. Hansen 14:00

14:20

14:40

15:00

2695

2696

2697

2698

Impedance As a Diagnostic Tool to Characterize Mixed-Potential Sensor Response – Cortney R Kreller (Los Alamos National Laboratory), Praveen K Sekhar (Washington State University, Vancouver), Dusan Spernjak (Los Alamos National Laboratory), Wenxia Li, Ponnusamy Palanisamy (ESL ElectroScience), Eric L Brosha, Rangachary Mukundan, and Fernando H Garzon (Los Alamos National Laboratory) Role of Porosity in Impedancemetric NOx Gas Sensors Using Yttria-Stabilized Zirconia (YSZ) Electrolyte and AuBased Electrodes – Leta Woo, Robert Glass (Lawrence Livermore National Laboratory), Robert Novak, Jaco Visser (Ford Motor Company), Joe Fitzpatrick, Klaus Allmendinger, Jim Steppan, Victor Wang, Brett Henderson, and Anthoniraj Lourdhusamy (EmiSense Technologies) Mixed Ion and Electron Conducting Ceramics for Gas Sensors – Venkataraman Thangadurai (Calgary University), Suresh Mulmi, and Ramaiyan Kannan (University of Calgary) Pd Decorated TiO2 Nanotube Arrays Schottky Barrier Diodes for Efficient Hydrogen Sensing Application – Yunhan Ling (Tsinghua University)

J3

Luminescence and Display Materials - Fundamentals and Applications Luminescence and Display Materials Union Square 3/4, Tower 3, 4th Floor, Hilton San Francisco Union Square

Luminescent Materials - General Session 1 – 08:00 – 12:00 Co-Chair(s): Prasanth Kumar Nammalwar 08:00

2717

08:40

2718

09:00

2719

09:20

2720

09:40

2721

Impedance Applications - Biosensing – 15:40 – 17:20 Co-Chair(s): Vadim Lvovich and Petr Vanýsek 15:40

2699

16:00

2700

16:20

2701

16:40

2702

17:00

2703

AC Impedance Characterization of Microbes in Skim Milk – Matthew Smiechowski (Guild Associates, Inc) and Kelsey Klopfer (Air Products and Chemicals, Inc) Covalent Immobilization of Thiolated Oligonucleotide Onto Glassy Carbon: A Cost-Effective Alternative for Genosensor Fabrication – Ciara O Sullivan (Universitat Rovira i Virgili) Development of Novel Routes for Surface Functionalisation With Diazonium Derivatives and Their Application in Electrochemical Genosensing – Ciara O Sullivan (Universitat Rovira i Virgili) Characterization of Tau Protein Films On Surfaces – Sanela Martic and Hanna Trzeciakiewicz (Oakland University) Immobilization of Protein Aptamers On Binary SAM for Protein Sensing Applications – Hamid Feyzizarnagh, Nathan Reaver, Dong Shik Kim (University of Toledo), and Brent D Cameron (Unversity of Toledo)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Equivalent Electrical Circuits of Impedances of Pt, Ir and Ni Electrodes Under Anodic Polarization – Elena Baranova (University of Ottawa), Oleksandr Kuznetsov (Dniprodzerzhins’k State Technical University), and Anis Allagui (University of Ottawa) Investigation of Oxygen Reactions in a Screenprinted Pt/YSZ-Model Electrode System – Yingjing Zheng (Robert Bosch GmbH, University of Bayreuth, Functional Materials), Ulrich Sauter, Lothar Kunz, Martin Streeb, Gudrun Oehler, Kathy Sahner (Robert Bosch GmbH), and Ralf Moos (University of Bayreuth, Functional Materials) Analysis of Electrochemical Characteristicsof Organic-Inorganic Hybrid Titanophosphitemembranes – Yoshikatsu Ueda (RISH, Kyoto University), Yomei Tokuda (ICR, Kyoto University), Hiroyuki Nagai (RISH, Kyoto University), Hirokazu Masai, and Toshinobu Yoko (ICR, Kyoto University)

10:20 10:40 2722

Interconfigurational d-f Luminescence of Ce3+ and Pr3+ in Double Phosphate Hosts – Marco Bettinelli (Department of Biotechnology, University of Verona) Optical Spectroscopy of Six Coordinated Eu2+ and Ce3+ in M2+Al2B2O7 (M2+=Ca, Sr, Ba) – Sam Jospeh Camardello and Alok Srivastava (GE) Systematic Crystal Field Studies of Mn4+Doped Perovskites – Alok Srivastava (GE) and Mikhail G Brik (University of Tartu) The Sensitization of the Pr3+ Photon Cascade Emission in YF3 – Sam Jospeh Camardello and Alok Srivastava (GE) Interesting Theoretical Problems in Luminescence From Solids – Kailash C Mishra (OSRAM SYLVANIA), Keith H Johnson (MIT), and Alan Piquette (OSRAM SYLVANIA) Break Development of All-Solid Thin Film Electro-Chromic Devices and Applications – Chetan J Panchal (The MS University of Baroda) and Ajit Khosla (Simon Fraser University, Microinstrumentation Laboratory)

147

Tuesday, October 29

12:00


11:00

2723

11:20

2724

Tuesday, October 29

11:40

2725

Synthesis of Conjugated Materials for Organic Photovoltaics and Luminescence – Drahomír Výprachtický, Veronika Pokorná, Ivan Kmínek, Vagif Dzhabarov, and Věra Cimrová (Institute of Macromolecular Chemistry AS CR, vvi) Photophysical and Electrochemical Properties of Novel Luminescent and Photoconductive Copolymers – Vera Cimrova, Drahomír Výprachtický, Ivan Kmínek, Vagif Dzhabarov, and Veronika Pokorná (Institute of Macromolecular Chemistry AS CR, vvi) Mixed Electron and Lithium Ion Conduction in Nanocrystal-Polymer Composites for Electrochromic Applications – Evan Runnerstrom (The Molecular Foundry, Lawrence Berkeley National Laboratory, Department of Materials Science and Engineering, UC Berkeley), Guillermo Garcia, Raffaella Buonsanti, Anna Llordes, Brett A Helms, and Delia J Milliron (The Molecular Foundry, Lawrence Berkeley National Laboratory)

17:00

2731

17:20

2732

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square J3 Poster Session – 18:00 – 20:00 •

2733

2734

2735

2736

2737

2738

2739

2740

2741

Luminescent Materials - General Session 2 – 14:00 – 17:40 Co-Chair(s): John Collins and Madis Raukas 14:00

2726

14:40

2727

15:00

2728

15:40 16:00 2729

16:40

148

2730

Glycothermal Synthesis and Characterization of YAG:Ce3+ Nanophosphors – Tetsuhiko Isobe (Department of Applied Chemistry, Keio University) Effect of Synthesis Methods On the Powder Characteristics and Luminescence Properties of Nanophosphors – Jinkyu Han (UC San Diego), Jae Ik Choi, J B Talbot (University of California, San Diego), John Seung-Hyo Lee (UC San Diego), and Joanna McKittrick (University of California, San Diego) Thermal Quenching in II-VI Semiconductor Nanocrystals: What Causes It and How to Eliminate It – David F Kelley, Xichen Cai, Ke Gong (University of California, Merced), James E Martin, and Lauren Shea Rohwer (Sandia National Laboratories) Break Quantum Dots for LED Downconversion in Display Applications – Seth CoeSullivan, Wenhao Liu, Peter Allen, and Jonathan S Steckel (QD Vision) Synthesis Of Fluorescent Nanocomposites Constituted Of GdPO4:Eu3+ and Tb3+ Nanowires Embedded In A Silicon Polymer – Damien Boyer, Aristeo Garrido Hernandez, Audrey Potdevin (ICCF), Geneviève Chadeyron (Institut de Chimie de Clermont Ferrand (ENSCCF-UBPCNRS)), Antonieta García Murillo, Felipe de J Carrillo Romo (IPN), and Rachid Mahiou (ICCF)

Combined Crystal Field and First Principles Studies of the Y2O2s Phosphor Doped With Yb3+ and Er3+ – Ajith Kumar Gangadharan (The University of Texas at San Antonio), Madhab Pokhrel (University of texas at San Antonio, University of texas at San Antonio), Mikhail G Brik (University of Tartu), Dhiraj Kumar Sardar (The University of Texas at San Antonio), and Chong Geng Ma (University of Tartu) Improved Multiplet Energy Diagrams for D3 Ions in Oxides Based On Correlation Corrections – Kazuyoshi Ogasawara, Fatimah Alluqmani, and Mega Novita (Department of Chemistry, Kwansei Gakuin University)

Prediction of Pressure Dependence of R-Line Emission for d3 Ions in α-Al2O3 Based On First-Principles Calculations – Mega Novita and Kazuyoshi Ogasawara (Department of Chemistry, Kwansei Gakuin University) Enhanced Luminescent Properties of Europium Complex By Replacement of Water Molecules By 2, 2’-Bipyridine – Rajesh Kumar Lather (UIET, MDURohtak) First-Principles Calculations of 4f-5d Transition Spectra for Ce3+ in Silicate Garnets – Eman Haji, Mega Novita, and Kazuyoshi Ogasawara (Department of Chemistry, Kwansei Gakuin University) A Comparison of Excitation and Emission Properties of Pr-Doped LiNbO3, CaNbO3, and CaTiO3 – John Collins (Wheaton College), Johannes Tsehay (Depaertment of Physics and Astronomy, Wheaton College), and Shereen Velupillai (Department of Physics and Astronomy, Wheaton College) Synthesis and Photoluminescent Properties of Ba2V2O7:Eu Phosphors – Sheetal Lohra (MDUniversity) Synthesis and Optical Properties of Tb3+- Doped LaSrAl3O7 phosphors – Ritu Langyan (Kurukshetra University, Kurukshetra(INDIA)) Fabrication and Spectral Investigation of Y2O3:Nd3+ Nano-Particles – John Collins (Wheaton College), Baldassare Di Bartolo (Department of Physics, Boston College), and Gokhan Bilir (Istanbul Technical University) Crystallinity and Photoluminescence Improvement of YAG:Ce Phosphor Ceramics By Solid State Reaction With Silica Addition – Yung-Tang Nien (Department of Materials Science and Engineering, National Formosa University) The Photoluminescence Properties of Ce+3 Doped Nano Sized SiO2 for Transparent Coating Application – Burcu Becer, Zerin Yesil, Nadir Kiraz, and Meltem Asiltürk (Akdeniz University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2742

2743

J4

2744

Blue-Emitting Metal Chloride Phosphor: High Color Purity Phosphor in Near-UV for White LED Applications – Sun Joong Gwak and Won Bin Im (Chonnam National University) Enhanced Photoluminescence of Spray Pyrolysis Deposited Y2O3: Er+3 Thin Films By Li+ Co-Doping – Abraham Meza (Centro de Investigación y de Estudios Avanzados del IPN, Departamento de Física), Evelyn Huerta (Universidad Autónoma Metropolitana-Iztapalapa), Efrain Zaleta-Alejandre, Zacarias Rivera-Álvarez (Centro de Investigación y de Estudios Avanzados del IPN, Departamento de Física), and Ciro Falcony (Centro de Investigación y Estudios Avanzados, Instituto Politécnico Nacional, Departamento de Física) Luminescent Characteristics of Polyethylene Terephthalate (PET) Thin Films Deposited By Spray Pyrolysis Using Rare Earths (RE3+) As Dopants – Salvador Carmona-Tellez (Centro de Investigación y Estudios Avanzados, Instituto Politécnico Nacional, Departamento de Física), Miguel Angel Aguilar-Frutis, Gilberto Alarcón-Flores (Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada del Instituto Politécnico Nacional), Manuel GarcíaHipolito (Instituto de Investigaciones en Materiales, Universidad Nacional Autónoma de México), Efraín ZaletaAlejandre, Abraham MezaRocha, Zacarias Rivera-Álvarez (Centro de Investigación y Estudios Avanzados, Instituto Politécnico Nacional, Departamento de Física), Rafael Martínez-Martínez (Instituto de Física y Materiales de la Universidad Tecnológica de la Mixteca), and Ciro Falcony (Centro de Investigación y Estudios Avanzados, Instituto Politécnico Nacional, Departamento de Física)

Microfluidic MEMS/NEMS, Sensors and Devices

Sensor / Physical and Analytical Electrochemistry / New Technology Subcommittee Union Square 5/6, Tower 3, 4th Floor, Hilton San Francisco Union Square

09:30

2767

09:55

2768

10:15

2769

10:35 10:55 2770

11:20

2771

11:40

2772

Microfluidic MEMS/NEMS, Sensors and Devices - 4 – 14:00 – 18:00 Co-Chair(s): Sam Kassegne and Anja Boisen 14:00

2773

14:30

2774

14:55

2775

15:20

2776

Microfluidic MEMS/NEMS, Sensors and Devices - 3 – 08:00 – 12:00 Co-Chair(s): Jin-Woo Choi and Sushanta Mitra 08:00

08:40

09:05

2764

2765

2766

Keynote-Long-Term Viability of DNABased Bionanoelectronics: Studies in Transient Effects On Electrical Property of DNA Molecular Wires – Sam Kassegne (San Diego State University) Distinguished Invited Speaker-InkjetPrinted Carbon Nanotube Electrodes for Electrochemical Sensor Applications – Ryan P Tortorich, Edward Song, and JinWoo Choi (Louisiana State University) Electrochemical Alloying-Dealloying in Ionic Liquids for Fabricating Nanoporous Microelectrodes – Junhua Jiang (University of Illinois at Urbana-Champaign)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Redox cycling at nanowire-based interdigitated comb electrodes: Enhancedelectrochemical sensitivity and electrode kinetics – Alan O’ Riordan (Tyndall National Institute) Centrifugal Microfluidic Platform With Real-Time Electrochemical Detection – Anna Line Brogger, Sune Z Andreasen, Filippo G Bosco, Karsten B Andersen, Dorota Kwasny, Winnie E Svendsen, and Anja Boisen (DTU Nanotech, Technical University of Denmark) Carbon-MEMS Based Multi-Sides Electrode Array Fabric for Neural Sensing and Recording – Nasim W Vahidi (SDSU), Sam Kassegne (San Diego State University), and T McDowell (Department of Chemistry, San Diego State University) Break Non-enzymatic electrochemical sensor technology basedon vertically aligned 3-D nanowire array platform – Kafil Razeeb (Tyndall National Institute) Electrochemical Characterization of DNA Attachment On Graphitic Carbon Microelectrodes for Bionanoelectroics Platforms – Mieko Hirabayashi, Beejal Mehta, Sam Kassegne (San Diego State University), and Ajit Khosla (Simon Fraser University, Microinstrumentation Laboratory) Dynamic Contact Angles in Low Voltage Electrowetting-On-Dielectric Systems – Marcel Mibus (Materials Science and Engineering, University of Virginia), Xiaoyu Hu (Electrical and Computer Engineering, University of Virginia), Carl Knospe (Mechanical and Aerospace Engineering, University of Virginia), Michael L Reed (Electrical and Computer Engineering, University of Virginia), and Giovanni Zangari (Materials Science and Engineering, University of Virginia)

15:45

Distinguished Invited Speaker-Patch Type Glucose Sensor for Low-Invasive Glucose Monitoring – Mikito Yasuzawa, Shinya Sato, and Kazuaki Edagawa (Department of Chemical Science and Technology, The University of Tokushima) Electrochemical Sensors for Point-of-Care Measurements of Metals – Ian Papautsky (University of Cincinnati) Electrochemical Screening of Peptides for Targeting CD13 – Sanela Martic (Oakland University), Kamaljit Kaur, and Rania Soudy (University of Alberta) Probing the Three Phase Interface to Understand Electrochemical Screening of Gas Phase Pollutants – Praveen K Sekhar (Washington State University, Vancouver) and Kumar Subramanian (Washington State University Vancouver) Break

149

Tuesday, October 29


16:05

2777

16:30

2778

16:55

2779

Tuesday, October 29

17:20

17:40

J6

2780

2781

A Polyaniline Nanowire Network With Catalytic Nanoparticles for Chemical Sensing – Edward Song and Jin-Woo Choi (Louisiana State University) Tunable Surface Area Electrochemical Biosensors Through Self-Assembly – Byron D Gates, Michael TY Paul, and Brandy Kinkead (Simon Fraser University) Distinguished Invited Speaker-SelfAssembly of Nanostructures On Electron Beam Lithographically Patterened Templates for Biomedical and Nanoelectronic Sensor Applications – Aswini K Pradhan (Norfolk State University) Graphene Based Microsensors for the Assay of Adenine, Guanine and Epinephrine – Jacobus Frederick VAN Staden, Jacobus Frederick VAN Staden, Ramona Georgescu, and Raluca Ioana Stefan-VAN Staden (INCEMC) Design and Simulation of Sensors to Detect Methanol – Subramaniam Chittur Krishnaswamy (School of Advanced Sciences VIT University India), Muthuraja S (School of Electronic Engineering, VIT University, Vellore, India), Velayutham Guruviah (Anabond Sainergy Fuel Cell India Pvt, Ltd.), and Sri Bollepalli (Sainergy Tech Inc)

Sensors for Agriculture

08:45 09:00 2805

2806

10:20 10:35 2807

11:15

2808

11:55 14:15 2809

150

2810

15:35 15:45

Welcoming Remarks Current Sensor Research and Future Needs in Agriculture, Natural Resources, and Food Systems – Daniel Schmoldt (National Institute of Food & Agriculture) Hyperspectral Imaging Techniques for Quality and Safety Inspection of AgroFood Products – Moon Sung Kim, Kuanglin Chao, Alan Lefcourt, and Diane Chan (USDA-ARS) Break Nanobiosensing Technology for Foodborne Pathogen and Toxin Detection – Bosoon Park (United States Department of Agriculture, Agricultural Research Service) Biosensor Funding At the National Science Foundation – Alexander Revzin (National Science Foundation) Intermission Center for Produce Safety - Industry Wide Research Needs – Bonnie FernandezFenaroli (Center for Produce Safety)

Microcantilever Sensors Loaded With Sensing Nanomaterial for On-Site Detection and Monitoring of Trace-Level Bio/Chemical Molecules – Xinxin Li (State Key Lab of Transducer Technology, Shanghai Institute of microsystem and Information Technology, Chinese Academy of Sciences) Afternoon Break Panel Discussion

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square J6 Poster Session – 18:00 – 20:00 •

2811

2812

2813

2814

2815

2816

2817

Sensor / Physical and Analytical Electrochemistry Franciscan A, Tower 1, Ballroom Level, Hilton San Francisco Union Square

Sensors for Agriculture – 08:45 – 16:45 Co-Chair(s): Bryan A. Chin and Aleksandr Simonian

09:40

14:55

A Cost-Efficient Microfluidic Device for Study of Chemotaxis and Bacteria Separation Purposes – Alireza Mahdavifar (Georgia Institute of Technology), Jie Xu (Georgia Tech Research Institute), and Peter J Hesketh (Georgia Institute of Technology) Single-Walled Carbon Nanotubes for Enantioanalysis of Malic Acid in Wines – Ionela Comnea, Raluca Ioana Stefan-van Staden, Jacobus Frederick VAN Staden (INCEMC), and Iuliana Moldoveanu (Laboratory of Electrochemistry and PATLAB, NIRECM) Characterization and Validation of Phage Oligopeptide Probes for Detection of Salmonella Enterica serotypes Using a Magnetoelastic Sensor – James M Barbaree (Department of Biological Science, Auburn University) Self-Powered Herbicide Biosensor Utilizing Thylakoid Membranes – Michelle J Rasmussen and Shelley D Minteer (The University of Utah) Micron-Scale Phage-Based Magnetoelastic Biosensors for the Enhanced Detection of Salmonella Typhimurium On Fresh Spinach Leaves – Shin Horikawa, Yating Chai, David F Dyer, and Bryan A Chin (Auburn University) Microfabricated Coil Detector for Bacteria Detection With Magnetoelastic Biosensors – Yating Chai (auburn university) A Pulse System With Cascade Amplifier for Detection of Bacillus Anthracis Spores On Micron-Scale, Phage-Immobilized Magnetoelastic Biosensors – Hong Xie, Kanchana Weerakoon (Materials Research & Education Center, Auburn University, Auburn, AL), Shin Horikawa (Auburn University), Yating Chai (Materials Research & Education Center, Auburn University, Auburn, AL), and Bryan A Chin (Auburn University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2818

2819

2820

2821

2822

2823

2824

2825

2826

2827

Complementary RNA-Based Biosensors for Rapid Detection of RNAs Derived From a Single Pathogenic Bacterial Cell – Jacek Wower, Iwona Katarzyna Wower (Department of Animal Sciences, Auburn University), and Christian Zwieb (Department of Biochemistry, University of Texas Health Science Center at San Antonio) Instant Detection of Pathogens Using Programmable RNA Aptamer Networks – Jacek Wower, Iwona Katarzyna Wower (Department of Animal Sciences, Auburn University), and Christian Zwieb (Department of Biochemistry, University of Texas Health Science Center at San Antonio) Aptamer-Based Microfluidic Biosensor for Rapid Detection of RNA Degrading Agents in Challenging Environments – Jacek Wower (Department of Animal Sciences, Auburn University), Morgan Hamon, Jing Dai, and Jong Wook Hong (Materials Research and Education Center, Department of Mechanical Engineering, Auburn University, Auburn, AL 36849) Improving the Phage-Displayed Oligopeptide:Magnetoelastic Particle Biosensors – Sang-Jin Suh, Zhou Tong (Auburn University), and Laura A Silo-Suh (Mercer University School of Medicine) Magnetostrictive Biosensors With Sampling Capability – Z-Y Cheng (Materials Research and Education Center, Auburn University, Auburn, AL 36849, USA) Fabrication of Nano-Biosensors Using Nano-Sized Magnetostrictive Resonator – Z-Y Cheng (Materials Research and Education Center, Auburn University, Auburn, AL 36849, USA) Strategies for Isolation of Phage Displayed Oligopeptide Probes for Rapid Detection of Pathogenic Salmonellae – Zhou Tong (Auburn University), Laura A Silo-Suh (Mercer University School of Medicine), and Sang-Jin Suh (Auburn University) Microbeads for Sampling and Mixing in a Complex Sample – Drew Owen, Wenbin Mao, Matt Ballard, Alex Alexeev, and Peter J Hesketh (Georgia Institute of Technology) Highly Selective VOCs Sensor Fabrication Via Combinatorial ZnO and Graphene Oxide Solution – Hosang Ahn (Korea Institute of Construction Technology), Jin Chul Joo (Korean Institute of Contruction Technology), Hyejin Park, and Dong-Joo KIM (Auburn University) Detection of Heavy Metals With Fluorescent Biosensors – Peng Zheng, Nianqiang Wu, and Ming Li (West Virginia University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

2828

2829

2830

2831

2832

2833

2834

2835

2836

2837

Micro Gas Chromatography System for detection of Volatile Organic Compounds Released By Fungi – Milad Navaei (Georgia Institute of Technology), Jie Xu (Georgia Tech Research Institute), P J Hesketh (Georgia Institute of Technology), Robert Wallace, and Gary McMurray (Georgia Tech Research Institute) A Step Towards a Discriminative Neurotoxin Biosensor: Guarding of Acetylcholinesterase From Organophosphate Compounds – Yuanyuan Zhang, Jeffrey Kirsch, Mary Arugula, and Aleksandr Simonian (Auburn University) Electrochemical Interfaces in Plants – Victoria Fanta Forde - Tuckett, Alexander George Volkov (Oakwood University), and Vladislav S Markin (University of Texas) Lytic Phage in Biosensing – Vitaly Vodyanoy, Iryna Sorokulova, Rajesh Guntupalli (Auburn University), Eric Olsen (81st Medical Group, Keesler AFB MS), Ludmila Globa, and Oleg Pustovyy (Auburn University) Lytic Phage for Foodborne Pathogens Detection – Iryna Sorokulova (Auburn University), Eric Olsen (81st Medical Group, Keesler AFB MS), Ludmila Globa, James M Barbaree, and Vitaly Vodyanoy (Auburn University) Citrus Greening (huanglongbing): Fast Electrochemical Detection and Phytomonitoring of Tree Diseases – Alexander George Volkov (Oakwood University) and Corydon R Brown (Bioelectrochemistry, LLC, 8027 Madison Blvd, Madison, Alabama 35758) A Biosensor Based On Magnetic Resonance Relaxation – Marianne Sullivan and Bart Prorok (Auburn University) Magneto-Mechanical MEMS Sensors for Bio-Detectio – Bart Prorok and Marianne Sullivan (Auburn University) Gene Direct Identification By Site-Specific Enzyme Cutting Double-Strand DNA On a Resonant-Cantilever – Xinxin Li (State Key Lab of Transducer Technology, Shanghai Institute of microsystem and Information Technology, Chinese Academy of Sciences), Tiegang Xu (Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences), and Dan Zheng (Shanghai Institute of Technology) AlGaN High Electron Mobility Transistor Based DNA Sensor – Minseo Park, Resham Thapa, Fei Tong (Auburn University), Moonil Kim (Tuskegee University), Michael Bozack, and Ahjeong Son (Auburn University)

151

Tuesday, October 29


Tuesday, October 29

• •

2838 SiO2-Coated Magnetostrictive Biosensors for Campylobacter Jejuni Detection – Lin Zhang (Materials Research and Education Center, Auburn University, Auburn, AL 36849, USA), Ou Wang, Tung-Shi Huang (Department of Nutrition and Food Science, Auburn University, Auburn, AL 36849, USA), and Z-Y Cheng (Materials Research and Education Center, Auburn University, Auburn, AL 36849, USA) 2839 Electrochemical Ethylene Sensor for Fruit Monitoring Based On An Ionic Liquid Electrolyte – Jos F M Oudenhoven, Marcel A G Zevenbergen, Wout Knoben, Daan Wouters, and Rob van Schaijk (Holst Centre/imec) 2840 Electronic Nose Fabricated From Compositionally Gradient Oxides for Agriculture Applications – Dong-Joo KIM, Hyejin Park (Auburn University), Yoonsung Chung (Auburn University, Auburn University), and Hosang Ahn (Korea Institute of Construction Technology) 2841 Development of a SMART Trap for Asian Ambrosia Beetles – Dong-Joo KIM, Hyejin Park, Austin Gorzlancyk, Jaeyoung Jeong, Yoonsung Chung, and David Held (Auburn University) 2842 The Establishment of Sensitive and Rapid Pathogenic Bacteria Detection Method Using Magnetic Nanoparticle Clusters and Optical Nanoparticle Probes – Donghoon Kwon, Changyong Yim, and Sangmin Jeon (Department of Chemical Engineering, POSTECH) 2843 Salmonella detection in Soil Using PhageBased Magnetoelastic Biosensors – MiKyung Park (Auburn University) 2844 Magnetic Propulsion of Magnetoelastic Sentinels – Howard Clyde Wikle III (Auburn University)

Wednesday, October 30 A2

Nanotechnology General Session

All Divisions / New Technology Subcommittee Franciscan C, Tower 1, Ballroom Level, Hilton San Francisco Union Square

A2 Wednesday Morning Session – 08:00 – 12:20 Co-Chair(s): William E. Mustain and Frank E. Osterloh 08:00

171

08:20

172

08:40

173

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174

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09:40 10:00 176

152

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Nitinol Surface Modification in Gentle Conditions By in Situ Generated Diazonium Salt – Amory Jacques, Sébastien Devillers, Joseph Delhalle, and Zineb Mekhalif (University of Namur) Polyelectrolyte Multilayer Deposition On Modified Phynox Substrates – Bastien Barthélémy, Grégory Fonder, Sébastien Devillers, Joseph Delhalle, and Zineb Mekhalif (University of Namur) Lithium-Doped Nickel Oxide and Nanostructured Tungsten Oxide Thin Films Made By USP, Toward Improved Electrochromic Performances – Jessica Denayer (université de liège), Philippe Aubry (Environmental and Material Research Association (CRIBC-INISMa)), Pierre Colson, Catherine Henrist, and Rudi Cloots (université de liège) Efficient Electrochemical System for Waste Heat Recovery – Yuan Yang (Massachusetts Institute of Technology), Seok Woo Lee, Yi Cui (Stanford University), and Gang Chen (Massachusetts Institute of Technology) Carbohydrazide Assisted Combustion Synthesis and Photoluminescent Properties of Sr2V2O7:Eu Nanophosphor – Satyender Pal Khatkar (University Institute of Engineering & Technology, MDUniversity, Rohtak) Break Synthesis and Photoluminescence Properties of Sm3+ Doped SrLa2O4 nanophosphor – Vinod Bala Taxak (MDUniversity, Rohtak) SERS On Ag Dendrites Fabricated On Porous Aluminum Oxide During Anodizing of Electrodeposited Aluminum On Silver – Lidija D Rafailovic (CEST, Center of Electrochemical Surface Technology), Christoph Nowak (AIT, Austrian Institute of Technology GmbH, Vienna, Austria, CEST, Center of Electrochemical Surface Technology), Jozef Rahel (Masaryk University, Faculty of Science), and Christoph Kleber (CEST, Center of Electrochemical Surface Technology) Photoabsorption and Photoelectric Conversion Properties of InP Porous Structures Formed By Electrochemical Process – Taketomo Sato, Yusuke Kumazaki, Ryohei Jinbo, and Zenji Yatabe (Hokkaido University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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11:20

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11:40

181

12:00

182

Photoelectrochemical Stability of CdSe and CdSe/ZnS Quantum Dots in Different Solvents – Suman Parajuli and Mario A Alpuche-Aviles (University of Nevada, Reno) Hydrogen Absortion Properties of Nanostructured Graphite-Based Materials for Hydrogen Sensor – Y Zhang (Waseda University) Label-Free Detection of Cardiac Troponin-I Using Carbon Nanofiber Based Nanoelectrode Arrays – Jessica E Koehne, Adaikkappan Periyakaruppan, Ram P Gandhiraman, and Meyya Meyyappan (NASA Ames Research Center) Anomalous Ionic Conduction Within Nanoporous Metals – Roger Newman (University of Toronto), Smrutiranjan Parida (IIT Bombay), Anatolie G Carcea, and Monika Patel (University of Toronto)

17:00

192

17:20

193

17:40

194

A2 Wednesday Afternoon Session – 14:00 – 18:00 Co-Chair(s): P. Schmuki and O. M. Leonte 14:00

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183

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186

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Structure Control of Mesoporous Anodic Crystalline TiO2 Films By Changing Basicity of Hot Phosphate/Glycerol Electrolytes – Etsushi Tsuji, Yoshiaki Taguchi, Yoshitaka Aoki, and Hiroki Habazaki (Hokkaido University) Strongly Accelerated Growth Rate of Highly Ordered Anodic TiO2 Nanotube Layers – Seulgi So, Ning Liu, and P Schmuki (University of ErlangenNuremberg (FAU)) Reliable Metal Deposition Into TiO2 Nanotubes for Interdigitated Electrode Structures – Ning Liu, Seulgi So, and P Schmuki (University of ErlangenNuremberg (FAU)) Preparation Of Manganese Oxides Hollow Nanotubes – Trung-Dung Dang (Yeungnam University) Electrical Properties of Carbon Nanotube Sheets Fabricated By Inkjet Printing – Tianming Wang and Brian Derby (Manchester University) Architecture and Properties of Several Molecular Aggregate Nanostructures – Yulliang LI (Institute of Chemistry,Chinese Academy of Sciences) Synthesis of Monoderpersed Starburst Carbon Spheres / Tin Oxide Composite and Their Electrochemical Properties – Narihito Tatsuda, Hideyuki Nakano, and Kazuhisa Yano (Toyota Central R & D Laboratories, Inc) Real-Time STM Imaging of the Reversibility of Polyaniline’s Conformation in Response to Potential Modulation of Au (111) Electrode – Ssu Tzu Chen and Shueh Lin Yau (Department of Chemistry, National Central University) A Scanning Electrochemical Microscopy Module for Commercial AFM Systems: AFM-SECM for Simultaneous Topography and Electrochemical Imaging – Shijie Wu (Agilent Technologies, Inc) and Christine Kranz (University of Ulm)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Interfacial Liquids Shear Elasticity Measurements – David Mendez Soares (Universidade Estadual de Campinas Instituto de Física), Wyllerson Evaristo Gomes (Universidade Estadual de Campinas - Instituto de Física “Gleb Wataghin”), Celso Aparecido Bertran (Instituto de Química-), and Omar Teschke (Universidade Estadual de Campinas Instituto de Física “Gleb Wataghin”) Structural Changes in Interfacial Water Layers Induced By Electric Field – David Mendez Soares (Universidade Estadual de Campinas - Instituto de Física), Wyllerson Evaristo Gomes, Omar Teschke (Universidade Estadual de Campinas Instituto de Física “Gleb Wataghin”), and Celso Aparecido Bertran (- Instituto de Química-) Stern Potential and Debye Screening Length of Electrolytic Solutions From Capacitive Force Measurements Using Atomic Force Microscopy – Scott R Crittenden and Bharat Kumar (University of South Carolina)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square A2 Poster Session – 18:00 – 20:00 Co-Chair(s): O. M. Leonte and William E. Mustain •

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196

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Microwave Assisted Hydrothermal Synthesis of NiO-Ce1-XEuxO2-y powders for Fuel Cell Catalytic Anodes – Amanda Lucena de Medeiros, Antonio Eduardo Martinelli, Dulce Maria de Araujo Melo (UFRN), Marcelo Ornaghi Orlandi (UNESP), and Daniel Araujo Macedo (UFRN) Electric Field-Assisted Assembly and Alignment of Gold Nanorods – ChingChang Lin, Wei-Ling Lin, Szu-Yu Wang, Chieh Cheng, Chia-Tien Wu, Fu-Hsiang Ko (Graduate Program for Nanotechnology Department of Materials Science and Engineering, National Chiao Tung University, Hsinchu 300,Taiwan), and Tung-Ming Pan (Chang Gung University) Porous Conjugated Polymer Nanotip Arrays for High Stable Field Emitter – Huibiao Liu, Yulliang LI, and Yongjun Li (Institute of Chemistry,Chinese Academy of Sciences)

153

Wednesday, October 30

11:00


Wednesday, October 30

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154

Adsorption of Methylene Orange On Embedding Carbon Nanotubes Sodium Alginate /Chitosan Gel Beads – FangChang Tsai (Faculty of Materials Science and Engineering, Hubei University), Tai-Chin Chiang (Graduate School of Materials Science and Engineering, National Taiwan University of Science and Technology, Graduate School of Materials Science and Engineering, National Taiwan University of Science and Technology), Ning Ma (Faculty of Materials Science and Engineering, Hubei University), Lung-Chang Tsai (Department of General Education Center, Chienkuo Technology University), Jing-Jing Shi, Tao Jiang (Faculty of Materials Science and Engineering, Hubei University), and Shuenn-Kung Su (Graduate School of Materials science and Engineering, National Taiwan University of Science and Technology) Determination of Noradrenaline Using a Glassy Carbon Electrode Modified With Cobalt Ferrite Nanoparticles On Carbon Nanotubes – Daniely Ferreira de Queiroz (Institute of Chemistry of São Carlos), Tony Rogerio Lima Dadamos (Institute of Chemistry of São Carlos, University of São Paulo), Sergio Antonio Spinola Machado (Instituto de Química de São Carlos), and Marco Antonio Utrera Martines (Departament of Chemistry) Amorphous Ni-P Alloy Deposition By Electroforming Technology – Tai-Chang Chen (Metal Industries Research & Development Centre) Electrochemical Oxidation of Glucose At Nanoporous Black Gold Surface in the Presence of High Concentration of Chloride Ions – Hwakyeung Jeong and Jongwon Kim (Chungbuk National University) Highly Reproducible SERS-Active Au Nanostructures Prepared By Simple Electrodeposition: Origin of SERS Activity for Electroanalytical Application – Suhee Choi, Miri An, and Jongwon Kim (Chungbuk National University) Synthesis, Characterization and Optical Properties of Eu3+ Doped MgZrO3 Nanophoshor – Sonika Singh (Chemistry Department , MDUniversity, Rohtak124001(INDIA)) Growth and Electrical Properties of Nanostructured Ytterbium Stabilized Zirconia Thin Films – Adriana BenitezRico, Guillermo Santana Rodriguez, Marel Monroy-Pelaez (IIM-UNAM), and Mario F Sanchez- Garcia (UPIITA-IPN) The Conductivities of Electrically Conductive Adhesives Containing Silver-Coated Graphite Particles By SelfActivated Deposition – Shi-Chern Yen, Ti-Chiang Chueh, and Chi-Hsien Hu (National Taiwan University)

206

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Preparation of Controllable, Well-Ordered and Taper Porous Anodic Alumina Templates By Innovated Phosphoric Acid Hard Anodization – Chieh Cheng, Hui Chun Wang, Ching-Chang Lin, Chia-Tien Wu, Fu-Hsiang Ko (Graduate Program for Nanotechnology Department of Materials Science and Engineering, National Chiao Tung University, Hsinchu 300,Taiwan), and Tung-Ming Pan (Chang Gung University) Synthesis, Characterization and Electrochemistry of Water Soluble Palladium Nanoparticles – Ashok Kumar (Department of Chemistry and Biochemistry, Arizona State University) and Daniel A Buttry (Arizona State University) Towards Understanding Electronic Structure of High Aspect-Ratio TiO2 Nanotube Arrays – Jen-Wei Wu (Institute of Physics, Academia Sinica, Taiwan), Hsin-Hua Hsu (National Synchrotron Radiation Research Center, Taiwan), ChiLiang Chen (Institute of Physics, Academia Sinica, Taiwan), Chung-Li Dong, Chia-Hao Chen (National Synchrotron Radiation Research Center, Taiwan), Chin-Jung Lin (Department of Environmental Engineering, National Ilan University, Taiwan), Ya-Hsuan Liou (Department of Geosciences, National Taiwan University, Taiwan), and Jinghua Guo (Advanced Light Source, Lawrence Berkeley National Laboratory) Transforming a Ion-Cut Silicon Layer From Damage-Dense to Defect-Free Status Via Microwave-Anneal and Recrystallization – C -C Ho, C -H Huang, F S Lo, Y -L Chang, G -C Huang, and T -H Lee (Dept of Mechanical Engineering, National Central University) Electrocatalytic Activity of RuO2 With Varying Structural Water Content for Hydrogen Evolution Reaction – Matte Venkata Sivaiah, D Abirami, and How Ghee Ang (Nanyang Technological University) Surface Morphology and Electrical Properties of ZnO:Ga Films Formed By Magnetron Sputtering – Naoki Yamamoto and Kirihiko Morisawa (Research Institute, Kochi University of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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09:40 237 10:00

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241

All Divisions / New Technology Subcommittee Franciscan D, Tower 1, Ballroom Level, Hilton San Francisco Union Square

Deionization and Desalination – 08:00 – 11:40 Co-Chair(s): Yury Gogotsi and Yi Cui

09:20

11:20

238

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240

Three-Dimensional Mesoscale Conducting Networks For Clean Water and Energy Generation – Yi Cui (Stanford University) High Electrosorption Capacity Electrodes for Capacitive Deionization – Kelsey B Hatzell (Drexel University), Etsuro Iwama, Barbara Daffos, Pierre-Louis Taberna, Theo Tzedakis (Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France), Alexei Gogotsi (Materials Research Centre, Kiev, Ukraine), Patrice Simon (Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France), and Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University) Practical Considerations Towards Implementing a Capacitive Deionization Device for Water Treatment – Julio Lado (IMDEA Water), Rodolfo Ernesto PérezRoa, Jesse Wouters, Maria Isabel Tejedor (Environmental Chemistry & Technology Program, University of Wisconsin Madison), and Marc Arlen Anderson (Environmental Chemistry & Technology Program, University of Wisconsin Madison, Electrochemical Processes Unit, IMDEA Energy) Break Capacitive Deionization With Ion Exchange Spacer for High Purity Water Treatment – Hyunseok Kim, Joonseon Jeong, Myungdong Cho, Dahye Park, and Hyorang Kang (Samsung Electronics) Desalination Using Pulsed Potential Capacitive Deionization – Luis Augusto Martins Ruotolo (Environmental Chemistry & Technology Program, University of Wisconsin-Madison, Department of Chemical Engineering, Federal University of Sao Carlos, Brazil), Maria Isabel Tejedor (Environmental Chemistry & Technology Program, University of Wisconsin Madison), and Marc Arlen Anderson (Environmental Chemistry & Technology Program, University of Wisconsin Madison, Electrochemical Processes Unit, IMDEA Energy) Development of Thin Anion-Exchange Membranes for Reverse Electrodialysis – Seo-Yoon Lee, Mun-Sik Shin (Sangmyung University), Kyeong-Ho Yeon, Woo-Gu Kim (Taeyoung E&C), Moon-Sung Kang, and Jin-Soo Park (Sangmyung University) Modification of Carbon Xerogels for Negative Electrode in a Capacitive Deionization Cell – Xin Gao, James Landon, James K Neathery, and Kunlei Liu (University of Kentucky)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Development of High-Capacity Electrodes for Capacitive Deionization – Dong-Ju Lee, Moon-Sung Kang, and Jin-Soo Park (Sangmyung University)

Photocatalysis and Photosynthesis – 14:00 – 16:40 Co-Chair(s): Shelley D. Minteer and David E. Cliffel 14:00

242

14:40

243

15:20 15:40 244

16:00

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16:20

246

B1

Applied Photosynthesis: Photoelectrochemistry of Photosystems – David E Cliffel, Gabriel LeBlanc, Evan Alexander Gizzie, Gongping Chen, Darlene Gunther, and G Kane Jennings (Vanderbilt University) Oxide Semiconductors for Water Purification Using Sunlight – Armand J Atanacio (Australian Nuclear Science and Technology Organisation (ANSTO)), Tadeusz Bak (University of Western Sydney (UWS)), Mihail Ionescu (Australian Nuclear Science and Technology Organisation (ANSTO)), and Janusz Nowotny (University of Western Sydney (UWS)) Break Integrated Ozone Microreactor Technology for Water Treatment – Amol G Shirke (KWJ Engineering, Inc), Suiqiong Li (KWJ Engineering Inc), Daniel D Ebeling (Wisconsin Lutheran College), Michael T Carter (KWJ Engineering, Inc), and Joseph R Stetter (KWJ Engineering Inc) NADH Regeneration for Use in Bioelectrofuels Production – Shelley D Minteer (The University of Utah) and Braden Ohlsen (University of Utah) Photocatalytic Reduction and Removal of Cr(VI) and Se(VI) Using TiO2 and NaTaO3 Nanopowder – Qian Cheng and Candace Chan (Arizona State University)

Energy Technology/Battery - Joint General Session Battery / Energy Technology Continental 4, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Flow Batteries – 08:00 – 11:00 08:00

293

08:20

294

08:40

295

A Membrane-Free Lithium/Polysulfide Semi-Liquid Battery for LargeScale Energy Storage – Yuan Yang (Massachusetts Institute of Technology), Guangyuan Zheng, and Yi Cui (Stanford University) The Performance Analysis Study of Vanadium Redox Flow Battery Influenced By Critical Properties of Ion Exchange Membrane – Ji Hyun Kong and Dong Seok Ko (Hyundai Heavy Industries) Non-Aqueous Redox Flow Batteries Using Pore-Filled Anion-Exchange Membranes Prepared By Direct-Polymerization of Imidazolium Monomers – Do-Hyeong Kim (Sangmyung University, Sangmyung University), Seok-Jun Seo (Sangmyung University), Myung-Jin Lee (Samsung Advanced Institute of Technology (SAIT)), Jin-Soo Park, and Moon-Sung Kang (Sangmyung University) 155

Wednesday, October 30

A3

The Energy–Water Nexus


09:20

297

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298

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301

Electrokinetic Studies of Iron-Ligand Complexes for An All-Iron Redox Flow Battery Application – Krista L Hawthorne, Jesse Wainright, and Robert F Savinell (Case Western Reserve University) High Surface Area Carbon Electrodes for the Bromine Reactions in H2-Br2 fuel Cells – Venkata Yarlagadda (The University of Kansas) and Trung Van Nguyen (University of Kansas) The Electrolyte Monitoring of a Vanadium Redox Flow Battery – Hassan AbdulZehra Al-Fetlawi (University of Babylon / College of Engineering) Mechanism of Dioxovanadium(V) Ion Reduction On Oxygen-Enriched Carbon Surface – Jun Maruyama, Takahiro Hasegawa, Satoshi Iwasaki, Tomoko Fukuhara (Osaka Municipal Technical Research Institute), and Mitsuzo Nogami (KRI, Inc) Investigation of Graphite-Based Electrodes for Vanadium Flow Cell – Alessandra Di Blasi, Orazio Di Blasi, Nicola Briguglio (CNR ITAE), Antonino S Aricò (CNRInstitute of Advanced Energy Technologies (ITAE)), David Sebastian (CNR ITAE), Maria Lázaro (CSIC), and Vincenzo Antonucci (National Research Council of Italy - Institute for Advanced Energy Technologies)

16:20

308

16:40

309

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Battery and Energy Technology Poster Session – 18:00 – 20:00 •

Wednesday, October 30

Fuel Cells – 14:00 – 17:00 14:00

14:20

14:40

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302

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15:40 16:00 307

156

Durability of Pt and PtRu Electrocatalysts Supported in Carbons With a Hollow Core and a Mesoporous Shell of Varying Thickness – Kwong-Yu Chan (The University of Hong Kong) and Chunzhen Yang (University of Hong Kong) Sensitivity Analysis of Impedance Characteristics of a Laminar Flow-Based Fuel Cell – Seyed Mohammad Rezaei Niya, Paul Barry, and Mina Hoorfar (University of British Columbia) Electrochemical Fuel Oxidation With a Novel Iron-Nickel Nanoparticle Catalyst – Lauren F Greenlee (National Institute of Standards & Technology), Nicholas A Sather (Colorado School of Mines), James L Horan, and Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) Resistance of Metal-Organic Framework Based ORR Catalysts to Phosphate Ion Adsorption – Kara Strickland, Elise Miner, and Sanjeev Mukerjee (Northeastern University) Mn Based NPM Catalyst for Oxygen Reduction Reaction in Acidic Medium for Pemfcs – Kothandaraman Ramanujam and Karthikayini M P (Indian Institute of Technology) Break Microbial Fuel Cell As An Alternative for Glycerin Utilization – Jose J Linares and Amanda Queiroz Guimarães (Universidade de Brasília)

Effect of Oxidation States of Vanadium in V-N-C Based Non-Precious Metal Catalyst for Fuel Cells in Acidic Medium – Anjaiah Sheelam (Indian Institute of Technology Madras) and Kothandaraman Ramanujam (Indian Institute of Technology) Microwave-Assisted Synthesis of Palladium-Decorated FeCo@Fe/C CoreShell: Applications in Direct Alcohol Alkaline Fuel Cells – Kenneth I Ozoemena (Council for Scientific and Industrial Research (CSIR)) and Omobosede Fashedemi (Department of Chemistry, University of Pretoria)

Anodic Dissolution Suppression of the Aluminum Current Collector in High Voltage Stable Electrolytes Containing Lithium Imide Salts – Paul Meister, Julian Kalhoff, Sergej Rothermel, Olga Fromm, Jessica Huesker, Hinrich Wilhelm Meyer, Tobias Placke, Stefano Passerini, and Martin Winter (MEET Battery Research Center, University of Muenster) 311 On the Improvement of Energy Efficiency of the Organic Hydride System – Yoshihiro Kobori (JX Nippon Oil & Energy Corporation), Shunsuke Maekawa (JX Nippon Oil & Energy Corporation, JX Nippon Oil & Energy Corporation), and Yasushi Sato (JX Nippon Oil & Energy Corporation) 312 Polymer-Ceramic-Glass Electrolyte Composites: Progress Toward Achieving Stable and Safe Lithium Metal Anodes – Nancy J Dudney, Wyatt Tenhaeff, Sergiy Kalnaus, Ezhiylmurugan Rangasamy (Oak Ridge National Laboratory), and Jeff Sakamoto (Michigan State University) 313 Effect of Samaria-Doped Ceria Cathodic Interlayer On LT-SOFC Kinetics – YoungBeom Kim (Hanyang University), Jihwan An, Turgut M Gür, and Fritz B Prinz (Stanford University) 314 Synthesis and Modification of Pore-Filled Membranes for Efficient All-Vanadium Redox Flow Batteries – Do-Hyeong Kim, Seok-Jun Seo (Sangmyung University), Myung-Jin Lee (Samsung Advanced Institute of Technology (SAIT)), Jin-Soo Park, and Moon-Sung Kang (Sangmyung University) 315 MnO2-Carbon Nanotube Electrodes for Electrochemical Supercapacitor – YoungGab Chun (Korea Institute of Energy Research) 316 Printable Polymer-Based Quasi-Solid State Electrolytes Including Cobalt Redox Shuttles for Dye-Sensitized Solar Cell Application – Hyeon-Jung Cha, Han-Sol Park (Sangmyung University, Sangmyung University), Seok-Jun Seo, Jin-Soo Park, and Moon-Sung Kang (Sangmyung University) 310

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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A Metal-Free, Lithium-Ion Oxygen Batteries for Improving Safety – Jin-Bum Park, WonJin Kwak (Hanyang University), Chang Dae Shin, Gang-Jun Park (Hanyang University, Hanyang University), Y-K Sun (Hanyang University), and Bruno Scrosati (Rome University) High Surface Nickel-Based Air Electrode for Rechargeable Alkaline Metal-Air Batteries – Florian Bueker (Department of microsystems engineering, University of Freiburg) The Use of Polypyrrole As a Platform for Different Mediators in Glucose/O2 biofuel Cell – Laís Boracini Crepaldi, Sidney Aquino Neto, Franciane Pinheiro Cardoso, and Adalgisa Rodrigues De Andrade (University of Sao Paulo) Lithium Plating in the Presence of Alkali and Alkaline Earth Cations – Johanna Karolina Stark and Paul A Kohl (Georgia Institute of Technology) Solid Oxide Fuel Cell for a Methane Internal Reforming – Seung Ho Lee (Yeungnam University), Young Min Park (Research Institute of Science and Engineering), and Haekyoung Kim (Yeungnam University) In Situ X-Ray Diffraction Studies of Abused LiMn2O4–LiNi1/3Co1/3Mn1/3O2 Composite Cathode Materials in Li-Ion Batteries – Hae-sik Kim, Ji-Young Kim, Kyung-Yoon Chung (Korea Institute of Science and Technology), and Ho-Chul Shin (Hyundai Mobis Co, Ltd.) Effect of Aluminium Doping On the Ionic Conductivity of Li2s-Ges-P2S5 Solid Electrolyte System – Amaresh Samuthira Pandian, Kwang Jin Kim, Min Chul Kim, Sennu Palanichamy, Shin Ho Kim, and Yun Sung Lee (Faculty of Applied Chemical Engineering, Chonnam National University, Gwangju, South Korea) Ruthenium Based Catalysts/Reduced Graphene Oxidecomposite for Air Breathing Electrodes of Lithium-Air Batteries – Yo Sub Jeong, Ju Ho Kim, and Yun Jung Lee (Hanyang University) Sol-Gel Synthesis of Li3xLa2/3-XTiO3 Solid Electrolyte Using Acetate Precursor for All-Solid-State Battery – Kwang Jin Kim, Amaresh Samuthira Pandian, Shin Ho Kim, Min Chul Kim, and Yun Sung Lee (Faculty of Applied Chemical Engineering, Chonnam National University, Gwangju, South Korea) A Green Lib Fabrication Process Using An Efficient, Low Cost and Environmentally Benign Polymer Binder – Min Ling (Lawrence Berkeley National Lab, Griffith University), Gao Liu (Lawrence Berkeley National Laboratory), and Shanqing Zhang (Griffith University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Facile Synthesis of Aliovalent Vanadium Doped High Voltage LiNi05Mn15O4 Cathode With Extraordinary High Temperature Performance – Min Chul Kim, Won Hee Jang, Hyo Sang Kim, Kwang Jin Kim, and Yun Sung Lee (Faculty of Applied Chemical Engineering, Chonnam National University, Gwangju, South Korea) 328 Improving Electrochemical Performances of 025Li(Mn15Ni05)O4 – 075[Li2MnO3Li(Mn05Ni05)O2] Cathode Materials for Lithium Secondary Batteries By ZrO2 Coating – Shin Ho Kim, Amaresh Samuthira Pandian, Jae Youn An, Sol Nip Lee, and Yun Sung Lee (Faculty of Applied Chemical Engineering, Chonnam National University, Gwangju, South Korea) 329 Dilatometric Study of Lithium Electrode During Its Cycling in Electrolyte Containing Lithium Polysulfides – Vladimir Kolosnitsyn, Alexey Ivanov, Sergey Mochalov, and Elena Kuzmina (Institution of the Russian Academy of Sciences Institute of Organic Chemistry of Ufa Scientific Centre of the Russian Academy of Sciences) 330 Effect of Physicochemical Properties of Electrolyte Systems On Behavior of Lithium Sulfur Cells – Vladimir Kolosnitsyn, Elena Kuzmina, Elena Karaseva, and Ludmila Sheina (Institution of the Russian Academy of Sciences Institute of Organic Chemistry of Ufa Scientific Centre of the Russian Academy of Sciences) 331 On Measurement Possibility of Internal Resistance of Lithium Sulfur Cells By Pulsed Method – Vladimir Kolosnitsyn, Elena Kuzmina, and Sergey Mochalov (Institution of the Russian Academy of Sciences Institute of Organic Chemistry of Ufa Scientific Centre of the Russian Academy of Sciences) 332 Electrochemical Reactivity of Magnesium Ions With Sn-Based Binary Alloys – Atsushi Kitada (Department of Materials Science and Engineering, Kyoto University, JST-CREST), Yuu Kang (Department of Materials Science and Engineering, Kyoto University), Yoshiharu Uchimoto (JST-CREST), and Kuniaki Murase (Department of Materials Science and Engineering, Kyoto University) 333 Mn3-XCuxO4 (x = 10 – 15) Spinel Coatings On Metallic Interconnects for Solid Oxide Fuel Cells – Jong-Won Lee (Fuel Cell Research Center, Korea Institute of Energy Research, Korea Institute of Energy Research), Nurhadi S Waluyo, BeomKyeong Park (Korea Institute of Energy Research), Seung-Bok Lee, Tak-Hyoung Lim, Seok-Joo Park, and Rak-Hyun Song (Fuel Cell Research Center, Korea Institute of Energy Research) 327

157

Wednesday, October 30


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Wednesday, October 30

334

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Ni-YSZ Anodes With 3-Dimensional Ordered Macropores for Direct Carbon Fuel Cells – Jong-Won Lee, Ji-Yong Lee (Korea Institute of Energy Research), Seung-Bok Lee, Tak-Hyoung Lim, SeokJoo Park, and Rak-Hyun Song (Fuel Cell Research Center, Korea Institute of Energy Research) Direct Growth of Carbon Electrodes for Battery Applications – Jason Komadina, Jose Flores, Vipawee Limsakoune, Yang Liu, and Jennifer Lu (UC Merced) Synthesis and Characterization of Magneli Phase Titania Powder/Activated Carbon Composite Materials for Electrochemical Applications – Meltem Asilturk (Akdeniz University) Zinc Oxide Nanorod Arrays Based DyeSensitized Solar Cells and Its Photovoltaic Performance in Indoline Dye System – Hyungjin Kim, Sawanta S Mali (Chonnam National University), and Chang Kook Hong (Chonnam National University, Chonnam National University) The Influence of Zinc Ions On the Properties of Non-Sintered Ni(OH)2 Electrodes – Ladislav Chladil (Department of Electrical and Electronic Technology FEEC, Brno University of Technology) and Vitezslav Novak (Department of Electrical and Electronic Technology FEEC, Brno University of Technology, CEITEC BUT, Brno University of Technology) Three-Dimensional Modeling the Thermal Behavior of a Lithium-Ion Battery for Electric Vehicle Applications – Jaeshin YI, Jeongbin Lee, Chee Burm Shin (Department of Energy Systems Research, Ajou University), Taeyoung Han (Development Research Lab, GM R&D Center), and Seongyong Park (R&D Korea Science Offï cer, GM Korea) Cathode Material for Advanced HighEnergy and Safty Rechargeable Lithium Batteries – S-J Youn, E-J Lee, H-J Noh, and Y-K Sun (Hanyang University) Multifunctional Binder-Electrolyte for Use in Lithium Battery Cathodes – Anna E Javier (Lawrence Berkeley National Lab), Shrayesh N Patel (University of California at Berkeley), and Nitash P Balsara (Lawrence Berkeley National Lab, University of California at Berkeley)

B2

Battery Chemistries Beyond Lithium Ion Battery / Energy Technology Yosemite B, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Sodium-ion Batteries - Anodes 1 – 08:00 – 10:00 Co-Chair(s): Christopher Johnson and Jun Liu 08:00

415

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09:00 09:20 418

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419

Advanced Sodium-Ion Rechargeable Battery Based On a Sn/C Anode and Layered Oxide Framework Cathode – Seung-Min Oh (Hanyang University), Seung-Taek Myung (Sejong University), Jang Yoen Hwang (Hanyang University), Bruno Scrosati, Jusef Hassoun (Rome University), and Y-K Sun (Hanyang University) Electrochemical Performance of Sb Anode Using Three-Dimensional Porous Cu Foam Substrate for Na-Ion Batteries – Do-Hwan Nam, Kyung-Sik Hong, Sung-Jin Lim, and HyukSang Kwon (Korea Advanced Institute of Science and Technology) Synthesis and Application of Graphite Oxide By Utilizing PEDOT:PSS As High Performance Binder for Sodium-Ion Battery – Yu-Ting Weng and Nae-Lih Wu (Department of Chemical Engineering, National Taiwan University) Break Reactivity of AV4S8 (A=Ga,Ge) As a Negative Electrode for Sodium-Ion Batteries – Cédric Michelet, Adèle Renaud, Nicolas Dupré, Olivier Crosnier, Dominique Guyomard (Institut des matériaux Jean Rouxel (IMN) - CNRS - Nantes), Thierry Brousse (IMN JR CNRS UMR 6502 – Université de Nantes (Fr)), and Philippe Moreau (Institut des matériaux Jean Rouxel (IMN) - CNRS Nantes) The Reaction of Sb-Based (inter)Metallics As Na-Ion Negative Electrode Materials – Gabriel M Veith (Oak Ridge National Laboratory), Thomas A Zawodzinski (University of Tennessee), Che-Nan Sun, Loic Baggetto (Oak Ridge National Laboratory), P Ganesh, and Joanna Gorka (ORNL)

Franciscan B, Tower 1, Ballroom Level, Hilton San Francisco Union Square Flow Batteries – 09:00 – 10:30 Co-Chair(s): Fikile Brushett 09:00

420

09:30

421

Investigation of Redox-Active Organic Molecules for Non-Aqueous Flow Batteries – Fikile Brushett (Massachusetts Institute of Technology) Aqueous Semi-Solid Flow Cell – Zheng Li, Kyle C Smith, Yajie Dong, Nir Baram, Frank Fan, Jing Xie (Massachusetts Institute of Technology), Pimpa Limthongkul (24M Technologies, Inc), W Craig Carter, and Yet-Ming Chiang (Massachusetts Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


422

10:10

423

Development of Lithium-Organic Redox Flow Battery – Wei Wang, Xiaoliang Wei, Wu Xu, Lelia Cosimbescu, Daiwon Choi, and Vincent Sprenkle (Pacific Northwest National Laboratory) Advection Management in SuspensionBased Flow Batteries – Kyle C Smith, Yet-Ming Chiang, and W Craig Carter (Massachusetts Institute of Technology)

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Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square Lithium Air Batteries 3 – 09:00 – 11:50 Co-Chair(s): Bryan D. McCloskey 09:00

09:30

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09:50

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427

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Molecular Level Understanding of Magnetism in Discharge Product and Oxygen Crossover Effect At the Anode in a Li-O2 Battery Using An Ether-Based Solvent – Khalil Amine (Chemical Sciences and Engineering Division, Argonne National Laboratory, King Abdulaziz University), Jun Lu (Chemical Sciences and Engineering Division, Argonne National Laboratory), Larry Curtiss, Rajeev Assary (Materials Science Division, Argonne National Laboratory), and Y-K Sun (Hanyang University) Development of Catalytic Systems for Rechargeable Li-O2 Batteries – Eduard N Nasybulin, Wu Xu (Pacific Northwest National Laboratory), Mark H Engelhard (EMSL, Pacific Northwest National Laboratory), Jianming Zheng, Priyanka Bhattacharya, Yuyan Shao, Zimin Nie, and Ji-Guang Zhang (Pacific Northwest National Laboratory) Continuum-Scale Modeling of LithiumAir Batteries – Jing Liu (University of Michigan) and Charles Monroe (Department of Chemical Engineering, University of Michigan, Ann Arbor 48109, USA) Monitoring the Electrochemical Processes in the Lithium-Oxygen Battery By Solid State NMR Spectroscopy – Michal Leskes (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Amy J Moore (University of Cambridge), Gillian R Goward (McMaster University), and Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK) Break

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

The Rate Capability of Li-O2 Batteries With Ether-Based Electrolyte – Mario Marinaro (Zentrum für Sonnenenergieund Wasserstoff-Forschung BadenWürttemberg, 89081 Ulm, Germany), Santhana K Eswara Moorthy (Central Facility of Electron Microscopy, Group of Electron Microscopy of Material Science, University of Ulm, 89081 Ulm, Germany), Ute Riek (Zentrum für Sonnenenergieund Wasserstoff-Forschung BadenWürttemberg, 89081 Ulm, Germany), Ute Kaiser (Central Facility of Electron Microscopy, Group of Electron Microscopy of Material Science, University of Ulm, 89081 Ulm, Germany), Margret WohlfahrtMehrens, and Ludwig Jörissen (Zentrum für Sonnenenergie- und WasserstoffForschung Baden-Württemberg, 89081 Ulm, Germany) The Role of Electrolyte Solution Solvent Stability On the Electrooxidation of Li2O2 in Li-O2 batteries – Stefano Meini (Technical University of Munich), Nikolaos Tsiouvaras (BMW Group), Juan Herranz, Michele Piana, and Hubert Gasteiger (Technical University of Munich) Pore-Scale Transport Resolved Model of Li-Air Batteries – Gang Qiu, Charles Andersen, and Ying Sun (Drexel University)

Yosemite C, Tower 2, Ballroom Level, Hilton San Francisco Union Square Magnesium Batteries 1 – 09:30 – 12:00 Co-Chair(s): John Muldoon 09:30

431

10:00

432

10:20

433

10:40 11:00 434

Non-Aqueous Mg Electrochemistry for Rechargeable Batteries – Doron Aurbach (Bar-Ilan University), Hyun Deog Yoo, Ivgeni Shterenberg, and Yosef Gofer (Bar Ilan university) Magnesium Battery Current Collectors for Evaluation of Positive Electrode Active Materials in a Grignard Reagent-Based Electrolyte – Shunsuke Yagi, Akira Tanaka (Osaka Prefecture University), Tetsu Ichitsubo, and Eiichiro Matsubara (Kyoto University) A Novel Approach to Preparing Highly Active and Oxidatively stable Mg2+ Electrolytes for Mg Batteries – Tianbiao Liu, Yuyan Shao, Guosheng Li, and Jun Liu (Pacific Northwest National Laboratory) Break Application of Polyanion Compounds for Magnesium Battery Cathode – Yuki Orikasa, Kentaro Yamamoto, Titus Masese, Takuya Mori, Zhen-Dong Huang (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of Society-Academia Collaboration for Innovation, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University)

159

Wednesday, October 30

09:50


11:20

11:40

435

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Simple Approach to Non-Nucleophilic Electrolytes With Good Performance for Rechargeable Magnesium Batteries – Zhirong Zhao-Karger (Karlsruhe Institute of Technology (KIT)) and Maximilian Fichtner (Helmholtz Institute Ulm (HIU), Karlsruhe Institute of Technology (KIT)) A Possible Way of Utilizing a Polyvalent Metal As a Negative Electrode of Storage Battery – Yoshimasa Shirai, Tetsu Ichitsubo (Kyoto University), Shunsuke Yagi (Osaka Prefecture University), Shingo Yanai (Kyoto University), Takayuki Doi (Doshisha University), and Eiichiro Matsubara (Kyoto University)

Yosemite B, Tower 2, Ballroom Level, Hilton San Francisco Union Square Sodium-ion Batteries - Anodes 2 – 10:00 – 12:20 Co-Chair(s): Gabriel M. Veith and Hui (Claire) Xiong 10:00

442

10:20

443

Franciscan A, Tower 1, Ballroom Level, Hilton San Francisco Union Square Solid Electrolytes and Solid State Batteries 1 – 10:00 – 11:40 Co-Chair(s): Nancy J. Dudney 10:00

Wednesday, October 30

10:20

10:40

11:00

11:20

160

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Cycling Stability, Interfacial Impedance, and Ionic Transport Characterization of Garnet Ceramic Electrolyte Membranes – Jeff Sakamoto, Travis Thompson (Michigan State University), Jeff Wolfenstine (Army Research Lab), Jan L Allen (US Army Research Laboratory), Wyatt Tenhaeff, Ezhiylmurugan Rangasamy, and Nancy J Dudney (Oak Ridge National Laboratory) Stable Interfaces of Solid Electrolytes With LiFePO4 Cathode During Charge and Discharge Operations – Tomochika Kurita, Satoru Watanabe (Fujitsu Laboratories, Ltd.), Tamotsu Yamamoto (Fujitsu Laboratories, Ltd., Fujitsu Laboratories, Ltd.), and Tsutomu Tanaka (Fujitsu Laboratories, Ltd.) Microstructure and Surface Impurity Segregation in Al-Substituted Li7La3Zr2O12 – Lei Cheng (Lawrence Berkeley National Laboratory, University of California, Berkeley), Joong Sun Park (Lawrence Berkeley National Laboratory), Huaming Hou (Lawrence Berkeley National Laboratory, Ocean University of China), Guoying Chen, Jordi Cabana, Vassilia Zorba, Thomas Richardson, Richard Russo, and Marca Doeff (Lawrence Berkeley National Laboratory) Aliovalent Doping of Tetra Lithium OrthoSulfidostannate Li4SnS4 As Air Stable Solid Electrolyte With High Ionic Conductivity – Gayatri Sahu, Zhan Lin, Adam J Rondinone, Nancy J Dudney, and Chengdu Liang (Oak Ridge National Laboratory) A High Conduction Composite Li Superionic Conductor – Ezhiylmurugan Rangasamy, Jong Kahk Keum, Gayatri Sahu, Adam J Rondinone, Nancy J Dudney, and Chengdu Liang (Oak Ridge National Laboratory)

10:40 11:00 444

11:20

445

11:40

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447

Electrochemical and Theoretical Investigations of Na2Ti3O7 and Na2Ti6O13 As Na+ Intercalation Anodes – Anthony Greg Dylla, Penghao Xiao, Graeme Henkelman, and Keith J Stevenson (Department of Chemistry and Biochemistry - University of Texas at Austin) Electrode-Electrolyte Solution Interactions Between TiO2 Nanotube Electrode and Nonaqueous Electrolytes for Sodium-Ion Batteries – Hui (Claire) Xiong (Boise State University) Break New Materials Based On a Layered Sodium Titanate for Dual Electrochemical Na and Li Intercalation Systems – Marca Doeff, Mona Shirpour, and Jordi Cabana (Lawrence Berkeley National Laboratory) Surface Studies of Na2Ti3O7 Electrodes for Rechargeable Sodium-Ion Batteries – Miguel Ángel Muñoz Márquez, Maider Zarrabeitia, Elizabeth Castillo-Martínez, Aitor Eguía (CIC energiGUNE), Teófilo Rojo (CIC energiGUNE, Universidad del Pais Vasco (UPV)), and Montserrat CasasCabanas (CIC energiGUNE) The Reaction of Sn and Cu6Sn5 As NaIon Anodes – Loic Baggetto (Oak Ridge National Laboratory), Jean-Claude Jumas (ICG Montpellier), Roberta Meisner, P Ganesh, Joanna Gorka, Craig A Bridges (ORNL), and Gabriel M Veith (Oak Ridge National Laboratory) Nuclear Magnetic Resonance Studies of Sodium Titanate Cathode Materials for Na-Ion Batteries – Mallory Gobet, Tetiana Nosach, Steven Greenbaum (Department of Physics and Astronomy, Hunter College of City University of New York), Mona Shirpour, and Marca Doeff (Lawrence Berkeley National Laboratory)

Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square Lithium Air Batteries 4 – 13:20 – 16:40 Co-Chair(s): Peter Bruce and Lynn Trahey 13:20

448

13:40

449

Stability of Electrolyte Solutions for Non-Aqueous Li‑O2 Cells and Effect of Impurities On Cell Cycling Behavior – K Uta Schwenke, Stefano Meini, Michele Piana, Juan Herranz, and Hubert Gasteiger (Technische Universität München) Microelectrode Investigations of Oxygen Reduction Reactions in Lithium-Air Batteries – Iromie Gunasekara, Sanjeev Mukerjee, and KM Abraham (Northeastern University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


14:20

450

451

14:40 15:00 452

15:20

453

15:40

454

16:00

455

16:20

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Coated Lithium Powder (CLiP) Electrodes for Lithium-Air Cells – Jennifer Heine, Peter Bieker (MEET Battery Research Center, University of Muenster), Christoph Hartnig, Ulrich Wietelmann (Rockwood Lithium GmbH), and Martin Winter (MEET Battery Research Center, University of Muenster) Palladium Nanoparticles As Catalysts for Li-O2 battery Cathodes – Hugh Geaney, Gillian Collins, Colm Glynn, Justin D Holmes (University College Cork), and Colm O’Dwyer (University College Cork, Ireland) Break Synthesis of Porous Carbon Supported Palladium Nanoparticle Catalysts By Atomic Layer Deposition: Application for Rechargeable Lithium-O2 Battery – Jun Lu (Chemical Sciences and Engineering Division, Argonne National Laboratory), Yu Lei (Argonne National Laboratory), Xiangyi Luo (Chemical Sciences and Engineering Division, Argonne National Laboratory), Tianpin Wu, Xiaoyi Zhang (Advanced Photon Sources, Argonne National Laboratory), Yang Ren (X-ray Science Division, Argonne National Laboratory), Y-K Sun (Hanyang University), Jeffrey W Elam (Argonne National Laboratory), and Khalil Amine (Chemical Sciences and Engineering Division, Argonne National Laboratory) Stoichiometric Analysis of Li2O2stored in Li-O2 Batteries – Yoko Hase, Emi Ito, Tohru Shiga (Energy Creation & Storage Division, Toyota Central R&D Labs, Inc), Fuminori Mizuno (Toyota Research Institute of North America, Battery Research Division, Toyota Motor Corporation), Hidetaka Nishikoori, Hideki Iba (Battery Research Division, Toyota Motor Corporation), and Kensuke Takechi (Energy Creation & Storage Division, Toyota Central R&D Labs, Inc) Factors Affecting the Electrochemical Performances of Lithium-Air Cells in Tetraglyme Based Electrolytes – Marian Cristian Stan, Greta Marie Haselmann, Frank Wolfram Seeberger (MEET Battery Research Centre, University of Muenster, Germany), Peter Bieker, and Martin Winter (MEET Battery Research Center, University of Muenster) Pt Nanoparticle Deposited α-MnO2 Nanotube: A Higher Active Electrocatalyst for Li–O2 Batteries – Jia Liu, Jiefang Zhu, Torbjörn Gustafsson, and Kristina Edström (Department of Chemistry - Ångström Laboratory, Uppsala University) In Situ Scanning Probe Microscopy for Observing Electrode Surfaces Under Operating Conditions – Eric Kreidler, Qingmin Xu, Kaoru Omichi, and Christopher Brooks (Honda Research Institute, Inc)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Franciscan A, Tower 1, Ballroom Level, Hilton San Francisco Union Square Solid Electrolytes and Solid State Batteries 2 – 14:00 – 15:20 Co-Chair(s): Nancy J. Dudney 14:00

457

14:20

458

14:40

459

15:00

460

Effect of Cathode Structure On Electrochemical Properties of Solid-State Li-Air Batteries – Sang Bok Ma (Samsung Advanced Institute of Technology (SAIT)), Changhoon Jung (SAIT, SEC), Dong Joon Lee, Tae Young Kim, Woo Sung Jeon, Dongmin Im, and Seok-Kwang Doo (Samsung Advanced Institute of Technology (SAIT)) Chemical and Electrochemical Properties of a Dual Electrolyte Cell Employing a Solid Electrolyte Membrane for Large Scale Energy Storage – KyuSung Park, Joon Hee Cho, Kadhiravan Shanmuganathan, Christopher J Ellison, and John B Goodenough (The University of Texas at Austin) Quantifying Polarization Losses At Liquid Electrolyte / Single Ion Conductor (SIC) Interface – Amal Mehrotra and Venkat Srinivasan (Lawrence Berkeley National Laboratory) Effect of Composite Electrode Thickness On the Electrochemical Performances of All-Solid- State Li-Ion Batteries – Renaud Bouchet (LEPMI CNRS UMR 5279, Grenoble Polytechnique Institute), Agnieszka Kubanska (MADIREL UMR 7246, Aix Marseille University), Laurent Castro (CEMES UPR 8011), Laurence Tortet (MADIREL UMR 7246, Aix Marseille University), and Mickael Dollé (CEMES UPR 8011)

Yosemite C, Tower 2, Ballroom Level, Hilton San Francisco Union Square Magnesium Batteries 2 – 14:30 – 15:50 Co-Chair(s): Claudiu Bucur 14:30

461

14:50

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Electrolytes for Mg-Secondary Batteries Based On Emimcl Ionic Liquid, AlCl3 and δ-MgCl2 – Federico Bertasi, Enrico Negro, Keti Vezzù, Sandra Lavina (Department of Chemical Sciences - University of Padova), Giuseppe Pace (Istituto di Scienze e Tecnologie Molecolari, ISTM-CNR and INSTM, Department of Chemical Sciences, University of Padova), and Vito Di Noto (Department of Chemical Sciences University of Padova) Electrochemical Modeling of Insertion/ Extraction Reactions of Mg in Mg/Bi Electrode – Mayandi Ramanathan, Aadil Benmayza, Jai Prakash (Illinois Institute of Technology), Nikhilendra Singh, Timothy S Arthur, and Fuminori Mizuno (Toyota Research Institute of North America)

161

Wednesday, October 30

14:00


15:10

15:30

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Electrochemical Deposition and Dissolution of Magnesium Metal in Various Ether-Based Electrolytes – Ryohei Yasui, Keisuke Asaka, Kohei Miyazaki, Tomokazu Fukutsuka, Takeshi Abe, Koji Nishio (Graduate School of Engineering, Kyoto University), and Yoshiharu Uchimoto (JST-CREST, Graduate School of Human and Environmental Studies, Kyoto University) Fabrication of Ether-Based Electrolyte Solutions for Mg-Rechargeable Batteries – Takeshi Abe, Kohei Miyazaki, Tomokazu Fukutsuka, Koji Nishio (Graduate School of Engineering, Kyoto University), and Yoshiharu Uchimoto (JST-CREST)

471

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Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

Wednesday, October 30

B2 Poster Session – 18:00 – 20:00 Co-Chair(s): Christopher Johnson and Arumugam Manthiram •

465

466

162

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All Solid-State Iron-Air Redox Battery for Advanced Energy Storage – Xuan Zhao, Yunhui Gong, Nansheng Xu, Xue Li, and Kevin Huang (Department of Mechanical Engineering, University of South Carolina) Charge Transfer Resistance Reduction By Bromine Complexation in Zinc/Bromine Flow Battery – Jung Hoon Yang, Jae-Deok Jeon, Joonmok Shim, Bum-seok Lee, and Myung-Seok Jeon (Korea Institute of Energy Research) Hierarchically Meso-Macroporous LaMnO3 Electrode Prepared By SurfactantTemplated Method – Wen-Sheng Chang (Industrial Technology Research Institute), Chao-Ming Haung (Kun Shan University), Yi-Cheng Lee (Industrial Technology Research Institute), Po-Yang Peng (National Taipei University of Technology), Ming-Hsiu Lu (National Taiwan University of Science and Technology), and Kan-Lin Hsueh (Green Energy & Environment Research Labs, Industrial Technology Research Institute) Inexpensive Flow Batteries Based On Organic Redox Couples – Bo Yang, Lena Hoober-Burkhardt (University of Southern California), G K Surya Prakash (Loker Hydrocarbon Research Institute, University of Southern California), and S R Narayanan (University of Southern California) Impact of Cycling Conditions On the Lifetime of Aqueous Rechargeable Lithium-Air Cells – Philippe Stevens, Gwenaëlle Toussaint (Electricité de France, R&D division), Laurent Puech, and Philippe Vinatier (ICMCB) Improving Lithium-Air Batteries By Correlated Modeling and Experiment – Marie Kane, Donald Ward, Karla Reyes, Jeremy Templeton, Reese Jones, and Jonathan Lee (Sandia National Laboratories)

Enhanced Oxygen Evolution in LithiumOxygen Battery Using RuO2 Nanoparticles and Its Mechanism – Eda Yilmaz and Hye Ryung Byon (Byon Initiative Research Unit, RIKEN) Reduced Graphene Oxide for Li-Air Batteries: The Effect of Oxidation Time and Reduction Conditions for Graphene Oxide – Mie Møller Storm, Marc Overgaard, Reza Younesi (Technical University of Denmark), Nini Elisabeth Abildgaard Reeler, Tom Vosch (University of Copenhagen), and Poul Norby (Department of Energy Conversion and Storage, Technical University of Denmark) Chemical Stability of DMSO and Acn Solvents Incontact With Li2O2 – Reza Younesi (Technical University of Denmark), Poul Norby (Department of Energy Conversion and Storage, Technical University of Denmark), and Tejs Vegge (Technical University of Denmark) Inverse Opal Carbons As Cathodes in Lithium/Oxygen Batteries – Mara Olivares-Marín, Mohamed Aklalouch (ICMAB-CSIC), Eduardo Eduardo Enciso (ICMM-CSIC, Universidad Complutense de Madrid (UCM)), and Dino Tonti (ICMAB-CSIC, MATGAS) Analysis of Aqueous Rechargeable Li-Air Batteries – Yangchuan Xing (Department of Chemical Engineering,University of Missouri-Columbia), Mark Salomon (MaxPower Inc), and Owen Crowther (EaglePicher Technologies) Intercalation Na2Ti3O7 Anode for Na-Ion Batteries With Ultra Low Voltage – Chuze Ma, Jing Xu, Dae Hoe Lee, and Shirley Meng (University of California San Diego) Electrochemical Properties of Stable Organic Radicals for Rechargeable Na Ion Battery – Shinji Nakanishi (TOYOTA MOTOR CORPORATION) Electrochemical Properties of Tin Oxide Anodes for Sodium-Ion Batteries – YingChing Lu, Nikolay Dimov, and Shigeto Okada (Kyushu University) Electrochemical Behavior of Sb Anode Synthesized By Electrodeposition for NaIon Batteries – Kyung-Sik Hong, Do-Hwan Nam, Sung-Jin Lim, and HyukSang Kwon (Korea Advanced Institute of Science and Technology) Olivine-Structured MgxFePO4: Cathode Material for Mg-Ion Batteries – Rajeev Ranjan (Arizona State University) Investigation of Performance and Stability of Li-O2 Batteries in Terms of Electrolyte and Catalyst Material – Ramchandra S Kalubarme and Chan-Jin Park (Chonnam National University) Li/Lipon/Li-Conducting Glass Ceramic Composite for Li-Air Batteries With NonAqueous Electrolyte – Harsharaj S Jadhav, Ramchandra S Kalubarme, Yong-Han Kim, and Chan-Jin Park (Chonnam National University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


483 PEO18 LiTFSI- Pyr14TFSI Ternary Polymer As An Interlayer for Lithium Protected Electrode in Li-Air Battery – Yong-Han Kim, Harsharaj S Jadhav, Ramchandra S Kalubarme, and Chan-Jin Park (Chonnam National University) 484 La17Sr03NiO4 Layered Perovskite : a Potential Electrocatalyst for Metal-Air Batteries – Kyu-Nam Jung, Sukeun Yoon, Kyung-Hee Shin, and Jong-Won Lee (Korea Institute of Energy Research) 23na NMR Mobility Studies On New 485 Electrolytes for Sodium-Ion Batteries – Marc Brian Berman (Department of Physics and Astronomy, Hunter College of City University of New York, The Graduate Center, City University of New York), Xavier Bogle, and Steven Greenbaum (Department of Physics and Astronomy, Hunter College of City University of New York) 486 Analysis of Polysulfide Shuttle Currents in Lithium-Sulfur Cells – Derek Moy (Department of Chemistry, Loker Hydrocarbon Research Institute, University of Southern California, Los Angeles, CA), Ayyakkannu Manivannan (US Department of Energy), and S R Narayanan (Department of Chemistry, Loker Hydrocarbon Research Institute, University of Southern California, Los Angeles, CA) 487 Snsb Anode in a Snsb/NaNi1/3Mn1/3Fe1/3O2 Na-Ion Battery – Christopher Johnson, Dehua Zhou, Michael Slater, Donghan Kim, Eungje Lee (Argonne National Laboratory), and Jacob Jorne (University of Rochester) 488 Ionic Liquid Based Gel Polymer Electrolyte for Lithium-Oxygen Battery – Kyu-Nam Jung, Sukeun Yoon, Kyung-Hee Shin, and Jong-Won Lee (Korea Institute of Energy Research) 489 Electrochemical Activity of Non-Precious Metal Tungsten Loaded Ceria Cathodes for Polymer Electrolyte Fuel Cell Application – Keisuke Fugane (Catalysis Research Center, Hokkaido University), Toshiyuki Mori (Graduate School of Chemical Science and Engineering, Hokkaido University, National Institute for Materials Science, Global Research Center for Environment and Energy based on Nanomaterials Science), Tatsuya Takeguchi (Graduate School of Chemical Science and Engineering, Hokkaido University, Catalysis Research Center, Hokkaido University), and Wataru Ueda (Catalysis Research Center, Hokkaido University, Graduate School of Chemical Science and Engineering, Hokkaido University) 490 Fabrication and Electrical Characteristics of Graphite Composite Materials With Resin Binder for Bipolar Plate of Redox Flow Battery – Min-Young Kim, HoSung Kim (Korea Institute of Industrial Technology (KITECH),Gwangju,Korea), and Hee-Sook Noh (ENERGY&HVAC Co, Ltd.,Gwangju,Korea)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Storage Performances of Sodium Ion Batteries Consisting of Layered Oxide Cathode / Hard Carbon Anode – Jun-ichi Kageura, Shingo Matsumoto, Satoru Kuze, and Takitaro Yamaguchi (The Electrochemical Society of Japan) Electrochemical Properties of SulfoneBased Electrolytes for Rechargeable Lithium-Sulfur Batteries – Sukeun Yoon, Kyu-Nam Jung, Kyung-Hee Shin, Chang-Soo Jin (Korea Institute of Energy Research), and Youngchul Kim (Agency for Defense Development) An Alternative Configuration for Room Temperature Sodium Ion-Sulfur Battery – Dong-Ju Lee, Ju-Won Park (Hanyang University), Ivana Hasa (Rome University), Y-K Sun (Hanyang University), Bruno Scrosati, and Jusef Hassoun (Rome University) Anti-Site Mixing Governs Electrochemical Performances of Olivine Type MgMnSiO4 for Magnesium Ion Battery Cathode – Takuya Mori, Titus Masese, Tetsuya Okado, Kentaro Yamamoto, Zhen-Dong Huang (Graduate School of Human and Environmental Studies, Kyoto University), Jungeun Kim (Japan Synchrotron Radiation Research Institute), Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) Electrochemical Properties of MOF Anode Materials for Rechargeable Na Ion Battery – Hideki Nakayama, Masafumi Nose, Kunihiro Nobuhara, Shinji Nakanishi, and Hideki Iba (Battery Research Division, Toyota Motor Corporation) Lithium Polymer Cells Assembled With Gel Polymer Electrolytes Cured By Reactive Ceramic Particles – Ji-Hyun Yoo (Hanyang University), Wooyoung Yoon (Department of Materials Science and Engineering, Korea University), and DongWon Kim (Hanyang University) Mesoporous Carbon Catalyst for Cathode in Non-Aqueous Electrolyte Based Li-O2 Battery – Imgon Hwang, Eunsaem Ahn, and Yongsug Tak (Department of chemical engineering, Inha university) The Magnesium Sulfide Accumulator –An Alternative to Lithium – Sonja Lepper (Fraunhofer Institute for Manufacturing Technology and Advanced Materials), Johannes Neumann, Philipp Thiele (Brandenburgische Kondensatoren GmbH), and Ralf Ludwig (University of Rostock, Institute for Chemistry, Department of Physical Chemistry)

163

Wednesday, October 30


500

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Wednesday, October 30

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164

Lisicon-Type Magnesium Iron Silicate As Cathode Material for Magnesium Ion Batteries – Titus Masese, Yuki Orikasa, Kentaro Yamamoto, Takuya Mori, Tetsuya Okado, Zhen-Dong Huang (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of Society-Academia Collaboration for Innovation, Kyoto University), Jungeun Kim (Japan Synchrotron Radiation Research Institute), Cedric Tassel, Yoji Kobayashi, Hiroshi Kageyama (Graduate School of Engineering, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) Synthesis and Electrochemical Characterization of Spinel-Type Mg Complex Oxides As Positive Electrode Active Materials for Mg Batteries – Yuya Ichikawa, Shunsuke Yagi (Osaka Prefecture University), Tetsu Ichitsubo, and Eiichiro Matsubara (Kyoto University) Advanced Lithium Sulfur Batteries With a Ternary Sulfur/Polyaniline/ Carbon Composite As Cathode Material – Jou-Hyeon Ahn (Gyeongsang National University, Gyeongsang National University) and Xiaohui Zhao (Gyeongsang National University) Optimization of Block Copolymers As Electrolytes for Lithium Metal Batteries – Renaud Bouchet (LEPMI CNRS UMR 5279, Grenoble Polytechnique Institute), Didier Devaux (MADIREL UMR7246, Aix Marseille University), David Gle, Trang N T Phan, Didier Gigmes (ICR UMR 7273, Aix Marseille University), and Marc Deschamps (BatScap Company) Effect of Manganese Oxides On the Performance of Lithium-Air Battery – Jianling, Li (State Key Laboratory of Advanced Metallurgy,University of Science and Technology Beijing) Lithium-Oxygen Battery Chemistry for High Pressure O2 Cells – E Joseph Nemanick (The Aerospace Corporation) Electrochemical Properties of Na4Co3XMx(PO4)2P2O7 [M = Ni and Mn] for Sodium-Ion Battery – Masafumi Nose, Hideki Nakayama, Kunihiro Nobuhara, Shinji Nakanishi, and Hideki Iba (Battery Research Division, Toyota Motor Corporation) Fabrication of Porous Carbon Supported Fe Nanoparticles By Arc Plasma Deposition (APD): Application for Rechargeable Li-Air Battery – Xiangyi Luo (Chemical Sciences and Engineering Division, Argonne National Laboratory, Metallurgical Engineering Department, University of Utah), Jun Lu (Chemical Sciences and Engineering Division, Argonne National Laboratory), Evan Sohm (ULVAC Technologies, Inc), and Khalil Amine (Chemical Sciences and Engineering Division, Argonne National Laboratory)

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B3

Characteristics of Nitrogen-Doped Graphene Cathode Synthesized Via Microwave-Hydrothermal Method for LiAir Battery – Il To Kim, Young Bok Kim, Myeong Jun Song, and Moo Whan Shin (School of integrated Technology, Yonsei University) Bis(oxalato)Borate Containing Solid Polymer Electrolytes for Lithium Metal Batteries – Rene Jakelski, Peter Bieker, and Martin Winter (MEET Battery Research Center, University of Muenster) Electrically Rechargeable Zinc-Air Battery – Gwenaëlle Toussaint, Philippe Stevens (Electricité de France, R&D division), Fabrice Fourgeot, and Robert Rouget (SCPS) α-MnO2 Nanorods Decorated With Ag Nanoparticles As a Bifunctional Catalyst for Lithium Air Battery Application – Awan Zahoor, KeeSuk Nahm, YunJu Hwang, HoSaeng Jang, JeongSook Jeon, and Maria Christy (Chonbuk National University)

Battery Safety

Battery / Industrial Electrochemistry and Electrochemical Engineering Union Square 13, Tower 3, 4th Floor, Hilton San Francisco Union Square

Battery Safety 1 – 08:00 – 12:00 Co-Chair(s): D. H. Doughty, Christopher J. Orendorff and Gerardine G. Botte 08:00 08:05 536

08:45

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Welcoming Remarks Perspectives On Factors Controlling Thermal Runaway of Li-Ion Batteries – Suresh Sriramulu, Richard Stringfellow, Christopher McCoy, Jane Rempel, YooEup Hyung, and Brian Barnett (TIAX LLC) Thermal Runaway Behavior of Commercial 18650 Li-Ion Batteries – Andrey Golubkov, David Fuchs (VIRTUAL VEHICLE Research Center, Inffeldgasse 21a, 8010 Graz, Austria), Julian Wagner (Graz Centre for Electron Microscopy, Steyrergasse 17, 8010 Graz, Austria), Helmar Wiltsche (Institute of Analytical Chemistry and Food Chemistry, Graz University of Technology, Stremayrgasse 9 / III, 8010 Graz, Austria), Christoph Stangl, Gisela Fauler (Varta Micro Innovation GmbH, Stremayrgasse 9, 8010 Graz, Austria), Gernot Voitic (Institute of Chemical Engineering and Environmental Technology, Graz University of Technology, Inffeldgasse 25/C/II, 8010 Graz, Austria), Alexander Thaler (VIRTUAL VEHICLE Research Center, Inffeldgasse 21a, 8010 Graz, Austria), and Viktor Hacker (Institute of Chemical Engineering and Environmental Technology, Graz University of Technology, Inffeldgasse 25/C/II, 8010 Graz, Austria)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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In Situ Measurement of Li-Ion Battery Internal Temperature – Guangsheng Zhang, Lei Cao, Shanhai Ge (Electrochemical Engine Center (ECEC) and Department of Mechanical & Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802), Chao-Yang Wang (Electrochemical Engine Center (ECEC) and Department of Mechanical & Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802, EC Power, State College, PA 16803), Christian E Shaffer (EC Power, State College, PA 16803), and Christopher D Rahn (Electrochemical Engine Center (ECEC) and Department of Mechanical & Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802) Study of the Strain Evolution of LithiumIon Cells to Provide a State of Charge and State of Health Indicators – Sylvie Geniès (CEA-Grenoble (DRT/Liten/DEHT)), Caroline Coutier (CEA-Grenoble (DRT/ Leti/DCOS)), Sophie Mailley (CEAGrenoble (DRT/Liten)), and Mélanie Alias (CEA-Grenoble (DRT/Liten/DTS)) Intermission A Study On Safety of Internal Short in Li-Ion Batteries for Electrical Vehicles – Soojin Kim (Samsung SDI Co, Ltd.) Stable Reversible Overcharge Protection for High-Voltage Rechargeable Lithium Batteries – Guoying Chen, Bin Wang, and Thomas Richardson (Lawrence Berkeley National Laboratory) Thermal and Overcharge Abuse Analysis of a Redox Shuttle for Overcharge Protection of LiFePO4 – Joshua Lamb, Christopher J Orendorff (Sandia National Laboratories), Khalil Amine, Gregory Krumdick, Zhengcheng Zhang, Lu Zhang (Argonne National Laboratory), and Antoni S Gozdz (A123 Systems, LLC) Radical Cation Stability Vs Redox Shuttle Performance in Lithium-Ion Batteries – Susan A Odom, Selin Ergun, Pramod P Poudel, Corrine Nina Faye Elliott, and Nelson Ng (Department of Chemistry, University of Kentucky) Impact Response of Lithium Ion Batteries – Shriram Santhanagopalan (National Renewable Energy Laboratory)

Battery Safety 2 – 14:00 – 17:00 Co-Chair(s): D. H. Doughty, Christopher J. Orendorff and Gerardine G. Botte 14:00

545

14:40

546

15:00

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15:20

548

15:40

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551

16:40

FT-IR Measurements of Generative Gas From Lithium-Ion Batteries At Abuse Temperature – Shinji Koike, Masahiro Shikano, Hikari Sakaebe, and Hironori Kobayashi (National Institute of Advanced Industrial Science and Technology (AIST)) Electrochemical Performance of Composite Polymer Coated Cathodes for Enhanced Battery Safety – Jose A Vega, Christopher M Lang, and Peter D Moran (Physical Sciences Inc) Effects of Electrode Density On the Safety of NCA Positive Electrode for High Capacity Li-Ion Batteries – Gu-Yeon Kim (Dalhousie University) and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) Materials Development for Improved Lithium-Ion Battery Safety – Kyle R Fenton, Ganesan Nagasubramanian, Michael Brumbach, and Christopher J Orendorff (Sandia National Laboratories) The Origins of An Unsafe Li Battery: the Fundamentals of Oxygen Evolution From Cathodes Interrogated With In Operando Soft X-Ray Absorption Studies – Faisal M Alamgir (School of Materials Science and Engineering, Georgia Institute of Technology) Concluding Remarks

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Poster Battery Safety – 18:00 – 20:00 •

552

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Thermal Failure and Combustion Behavior Study On LiFePO4/Graphite Energy Storage Batteries – Jianling, Li (State Key Laboratory of Advanced Metallurgy,University of Science and Technology Beijing) Synthesis and Characterization of P2Na2/3FexMn1-XO2 for Na-Ion Batteries – Jie Zhao (Kyushu University), Jing Xu, Dae Hoe Lee, Shirley Meng (University of California San Diego), and Shigeto Okada (Kyushu University) Corrosion Behavior of Cathode Current Collector Materials On Molten Carbonate Fuel Cell – MinJoong Kim, SooHoon Ahn, JuYoung Youn, YoungJun Kim, and HyukSang Kwon (Korea Advanced Institute of Science and Technology)

Safer Electrolyte for Lithium-Ion Batteries – Chi-Kyun Park and Robert Rubino (Greatbatch Medical) Ionic Liquid-Nanoparticle Hybrid Electrolytes and Their Applications in Rechargeable Lithium Metal Batteries – Yingying Lu (Cornell University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

165

Wednesday, October 30

09:05


B4

Computational Science of Battery Materials

Wednesday, October 30

09:00

575

576

09:20

577

09:40

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10:00 10:20 579

10:40

11:00

166

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11:40

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Battery / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Sutter Room, Tower 3, 6th Floor, Hilton San Francisco Union Square

Computation 3 – 08:30 – 12:00 Co-Chair(s): Shyue Ping Ong and Long-Qing Chen 08:30

11:20

580

581

Phase transformation kinetics and morphology in LiFePO4 – Gerbrand Ceder, Aziz Abdellahi (Massachusetts Institute of Technology), Oncu Akyildiz (University of Michigan), Rahul Malik (Massachusetts Institute of Technology), and Katsuyo Thornton (University of Michigan) Effect of Rb and Ta Doping On the Ionic Conductivity and Stability of the Garnet Li7+2x-Y(La3-xRbx)(Zr2-yTay)O12 (0≤x≤0375, 0≤y≤1) Superionic Conductor – a First Principles Investigation – Lincoln J Miara (Samsung Electronics), Shyue Ping Ong, Yifei Mo, William Davidson Richards (Massachusetts Institute of Technology), Youngsin Park (Samsung Electronics), Jae-Myung Lee (Samsung Electronics, Samsung Electronics), Hyo Sug Lee (Samsung Electronics), and Gerbrand Ceder (Massachusetts Institute of Technology) Ab Initio Molecular Dynamics Study of Garnet-Type Li7-XLa3Zr2-XTaxO12 (0≤x≤2) – Randy Jalem, Masanobu Nakayama, Toshihiro Kasuga (Nagoya Institute of Technology), and Kiyoshi Kanamura (Tokyo Metropolitan University) Computational Investigation and Design of Solid Lithium-Ion Electrolytes Based On the Li10GeP2S12 Superionic Conductor – Shyue Ping Ong, Yifei Mo, William Davidson Richards (Massachusetts Institute of Technology), Lincoln J Miara, Hyo Sug Lee (Samsung Electronics), and Gerbrand Ceder (Massachusetts Institute of Technology) Break Phase-Field Modeling of Li Deposits Growth in Li-Ion Batteries – Linyun Liang (The Pennsylvania State University), Yue Qi, Stephen J Harris (General Motors R&D Center), and Long-Qing Chen (The Pennsylvania State University) Mechanistic Study in Delithiations of Sulfur-Substituted Li2FeSiO4 By FirstPrinciples Calculations – Ying Zhang, Xuan Cheng, and Yunsong Li (Xiamen University) Dilute Mixing Thermodynamics in LixMA1-YMByPO4 (M=Mn,Fe,Ni) From First Principles Calculations – David Snydacker (Northwestern University) and Chris Wolverton (Materials Science and Engineering Department, Northwestern University)

Elastic-Strain Effects On the Phase Separation in LiFePO4 / FePO4 System – Tetsu Ichitsubo (Kyoto University), Takayuki Doi (Doshisha University), Shunsuke Yagi (Osaka Prefecture University), Tomoya Kawaguchi, and Eiichiro Matsubara (Kyoto University) Modeling Binder-Free and Carbon-Free High Energy Density LiCoO2 Electrodes for Rechargeable Lithium Batteries – Corie Lynn Cobb (PARC, A Xerox Company) and Chang-Jun Bae (PARC, a Xerox Company)

Computation 4 – 14:00 – 18:00 Co-Chair(s): Maria K. Y. Chan and Craig Andrew James Fisher 14:00

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14:40

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15:00

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15:20

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15:40 16:00 589

Improving Li2O2 Conductivity Via Polaron Preemption: First Principles Study of Si Doping – Vladimir Timoshevskii, Zimin Feng (Institut de Recherche d’HydroQuébec (IREQ)), Kirk H Bevan (McGill University), John B Goodenough (The University of Texas at Austin), and Karim Zaghib (Institut de Recherche d’HydroQuébec (IREQ)) Modeling of Fundamental Charge Transfer Processes in Stable Free-Radical Organic Polymers – Ross E Larsen, Travis Kemper, Wade Braunecker, and Thomas Gennett (National Renewable Energy Laboratory) Li-Ion Disolvation and Transport Through Model SEI/Electrolyte Interface – Dmitry Bedrov (The University of Utah) and Oleg Borodin (US Army Research Laboratory) Predicting the Electrochemical Behavior of Lithium Nitrite in Aprotic Solvents – Vyacheslav S Bryantsev, Jasim Uddin, Vincent Giordani, Wesley Thomas Walker, Gregory V Chase, and Dan Addison (LIOX Power, Inc) Oxygen Transport in Porous Cathodes of Li-O Cells: A Simplified Model Approach – Thomas Schied (Leibniz Institute for Solid State and Materials Research, Dresden, Germany, HelmholtzInstitute Ulm for Electrochemical Energy Storage, Ulm, Germany), Frieder Scheiba, Helmut Ehrenberg (Karlsruhe Institute of Technology, IAM-ESS, Karlsruhe, Germany, Helmholtz-Institute Ulm for Electrochemical Energy Storage, Ulm, Germany), and Jürgen Eckert (Leibniz Institute for Solid State and Materials Research, Dresden, Germany, Technical University Dresden, Dresden, Germany) Break Understanding the Role of Graphene Oxide in Li/S Cells From Quantum Mechanics Calculations – Ted H Yu, Boris V Merinov, and William A Goddard III (California Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


16:40

17:00

17:20

17:40

590

591

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Lithium-Air Batteries: A DFT-MD Study of Li+ + O2*– and LiO2* in DMSO and PC electrolytes – Johan Scheers (Chalmers University of Technology), Keitaro Sodeyama (International Center for Materials Nanoarchitectonics (WPIMANA), National Institute for Materials Science (NIMS), Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University), Zdenek Futera (National Institute for Materials Science), and Yoshitaka Tateyama (International Center for Materials Nanoarchitectonics (WPI-MANA), National Institute for Materials Science (NIMS), Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University) DFT Study On Effects of CO2 Contamination in Non-Aqueous Li-Air Batteries – Yedilfana Setarge Mekonnen (Department of Energy Conversion and Storage, Technical University of Denmark, Frederiksborgvej 399 Building 238, DK4000 Roskilde, Denmark) How NiOOH Electrode in Ni-MH Battery Works: First Principles Molecular Dynamics Analysis – Tamio Ikeshoji (Tohoku University), Minoru Otani, Tetsuya Morishita (National Institute of Advanced Industrial Science and Technology), Kunihiro Nobuhara, Shigeki Sato (Battery Research Division, Toyota Motor Corporation), Ikutaro Hamada, and Shin-ichi Orimo (Tohoku University) Simulation of Electrolyte Composition Effects On High Energy Lithium-Ion Cells – Robert Spotnitz (Battery Design LLC), Kevin L Gering (Idaho National Laboratory), Steve Hartridge, and Gaetan Damblanc (CD-adapco) DFT-MD Study of Additive Effects On Reductive Decomposition of CarbonateBased Solvent Toward Solid Electrolyte Interphase Formation – Keitaro Sodeyama (Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, International Center for Materials Nanoarchitectonics (WPI-MANA), National Institute for Materials Science (NIMS)), Keisuke Ushirogata, Yukihiro Okuno (Research and Development Management Headquarters, FUJIFILM Corporation), and Yoshitaka Tateyama (International Center for Materials Nanoarchitectonics (WPI-MANA), National Institute for Materials Science (NIMS), Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square B4 Poster – 18:30 – 20:00 Co-Chair(s): Shirley Meng •

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B5

Electrochemical Capacitors: Fundamentals to Applications Battery / Energy Technology Union Square 19/20, Tower 3, 4th Floor, Hilton San Francisco Union Square

Electrolyte – 08:00 – 10:00 Co-Chair(s): Jeffrey W. Long and Prashant N. Kumta 08:00

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Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Effects of Delithiation On Lithium Manganese Oxides: A Combined DFT and NMR Based Study – Ieuan David Seymour, Derek Stewart Middlemiss, Michal Leskes, and Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK) Atomistic Simulation Studies On Lithiation of MnO2 Nano-Architectures – Phuti E Ngoepe, Kenneth M Kgatwane (University of Limpopo), and Dean C Sayle (University of Kent) Computational Thermodynamic Modeling of Mixed Polyanion Glasses for Lithium Ion Battery Cathode Materials – Dongwon Shin, Andrew Keith Kercher, Jim Kiggans Jr, and Nancy J Dudney (Oak Ridge National Laboratory) Evaluation of Carbon NanotubeEncapsulated Silicon and Germanium Nanowires As Proposed Lithium-Ion Battery Anode Materials – Jaewoong Hur (Hyundai Heavy Industries co,ltd) and Steven J Stuart (Clemson University)

The Influence Ofelectrochemical Stability and Solubility of Conductive Salts On the Behavior of High Voltage Electrochemical Double Layer Capacitors – Andrea Balducci (University of Muenster- Institute of Physical Chemistry, Battery Research Centre MEET), Adrian Brandt (MEET Battery Research Center, University of Muenster), and Sebastian Pohlmann (Westfälische Wilhelms University of Muenster) A Comparative Study of Solid Pseudocapacitive Electrochemical Capacitors – Keryn Lian, Han Gao, Kayeung Lee, Haoran Wu, Matthew Genovese, and Hani Naguib (University of Toronto) Characterization of Quaternary Solvent Mixture and Na-Salt Based Electrolytes in a Wide Temperature Range – Ronald Väli, Ann Laheäär, Alar Jänes, and Enn Lust (Institute of Chemistry, University of Tartu) Hydroxide Ion Conductive Polymer Electrolytes for Electrochemical Supercapacitors – Han Gao, Jak Li, and Keryn Lian (University of Toronto) Break

167

Wednesday, October 30

16:20


Wednesday, October 30

Electrode Materials 2 – 10:00 – 12:00 Co-Chair(s): Andrea Balducci and Enn Lust 10:00

635

10:20

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10:40

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11:00

638

11:20

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11:40

640

Polypyrrole and Composite Electrodes for Electrochemical Supercapacitors – Igor Zhitomirsky (McMaster University) Lanthanum Based Perovskites Exhibiting Hydroxide Ion Storage for Pseudocapacitor Electrodes – J Tyler Mefford (Department of Chemistry and Biochemistry - University of Texas at Austin), William G Hardin (Texas Materials Institute - University of Texas at Austin), Sheng Dai (Oak Ridge National Laboratory), Keith P Johnston (McKetta Department of Chemical Engineering University of Texas at Austin), and Keith J Stevenson (Department of Chemistry and Biochemistry - University of Texas at Austin) Titania Nanotube Array/Bismuth Oxide Interfacial Capacitance Electrode – York R Smith, Biplab Sarma, Abraham L Jurovitzki, Swomitra K Mohanty, and Mano Misra (University of Utah) Doped Transition Metal Oxide/CNT: New Heterostructures for Supercapacitor Application – Prashanth Jampani Hanumantha (University of Pittsburgh), Ayyakkannu Manivannan (US Department of Energy), and Prashant N Kumta (University of Pittsburgh) Diamond Nanowires Decorated With Metal Layers for Supercapacitors – Fang Gao, Nianjun Yang, Rene Hoffmann, Georgia Lewes-Malandrakis, and Christoph E Nebel (Fraunhofer IAF) Reduced Graphene Oxide Decorated With V2O5 Nanowires As An Efficient Electrode Material for Supercapacitor Applications – Minoh Lee, Suresh Kannan Balasingam (Ulsan National Institute of Science and Technology (UNIST)), Byung Hoon Kim (Incheon National University), and Yongseok Jun (Ulsan National Institute of Science and Technology (UNIST))

Graphene-based Electrodes – 14:00 – 16:00 Co-Chair(s): Keryn Lian and Alar Jänes 14:00

168

641

Layer-By-Layer Assembled Reduced Graphite Oxide/Pdda Thin Film As a Model to Evaluate the Capacitance of a Single Layer of Graphene – Takahiro Mitsui, Zhongwei Lei, and Wataru Sugimoto (Shinshu University)

14:40

642

15:00

643

15:20

644

15:40

High Volumetric Performance Aligned Nano-Porous Graphene-Based Electrochemical Capacitors – Mehdi Ghaffari (Department of Materials Science and Engineering, Materials Research Institute, The Pennsylvania State University), Yue Zhou (Department of Electrical Engineering, Materials Research Institute, The Pennsylvania State University), Minren Lin (Materials Research Institute, The Pennsylvania State University), TaeYoung Kim, Rodney S Ruoff (Department of Mechanical Engineering and the Materials Science and Engineering Program, The University of Texas at Austin), and Qiming Zhang (Department of Electrical Engineering, Department of Materials Science and Engineering, Materials Research Institute, The Pennsylvania State University) Vertically Oriented Graphene Electrical Double Layer Capacitors On Ni Substrates RF-PECVD Synthesized From C2H2 – Minzhen Cai (The College of William and Mary), Ronald A Outlaw (The College of William & Mary), Ronald A Quinlan (The College of William and Mary, Naval Surface Warfare Center), Sue M Butler (JME, Inc), and John R Miller (JME, Inc, Case Western Reserve University) Diamond Nanoparticles/Reduced Graphene Oxide Nanocomposites As Supercapacitors – Wang Qi (Institut de Recherche Interdisciplinaire (IRI, USR 3078), Université Lille1), Nareerat Plylahan (Aix Marseille University), Musen Li (Shandong University), Emmanuelle Pichonat, Henri Happy (Institute of Electronics, Microelectronics and Nanotechnology (IEMN), UMR-CNRS 8520, Université Lille 1,), Palaniappan Subramanian (Institut de Recherche Interdisciplinaire (IRI, USR 3078), Université Lille1), Thierry Djenizian (Aix Marseille University, Alistore ERI, CNRS FR3104), Rabah Boukherroub, and Sabine Szunerits (Institut de Recherche Interdisciplinaire (IRI, USR 3078), Université Lille1) Break

Electrode Materials 3 – 16:00 – 18:00 Co-Chair(s): Igor Zhitomirsky and Jean-Francois Pierson 16:00

645

16:20

646

Effects of Functionalities On Selfdischarge Process: A Step-Forward Study On Energy Retention of Single-Walled Carbon Nanotube Based Supercapacitors – Qing Zhang, Chuan Cai, Jinwen Qin, and Bingqing Wei (University of Delaware) Characterization of Surface Groups On Activated Carbon Materials and Correlation With Electrochemical Performance in Non-Aqueous Electrolyte Edlcs – Dana Totir, Shkelqim Letaj, Melissa Petruska, Donald Carruthers, and Mackenzie King (Advanced Technology Materials, Inc)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


647

17:00

648

17:20

17:40

649

650

Three Dimensional Graphene-Based Assemblies – Marcus A Worsley, Mathew Merrill, Elizabeth Montalvo, Patrick G Campbell, Jianchao Ye, Supakit Charnvanichborikarn, Swanee Shin, Monika M Biener, Sergei O Kucheyev, Michael Stadermann, Yinmin M Wang, Juergen Biener, and Theodore F Baumann (Lawrence Livermore National Laboratory) One-Step Synthesis of Co(OH)2/Graphene Nanocomposites From Graphite for Electrochemical Supercapacitors – HaeMin Lee (Department of Chemical Engineering and Division of Energy Systems Research, Ajou University), Gyoung Hwa Jeong (Center of Molecular Science and Technology, Ajou University), Sang-Wook Kim (Department of Molecular Science and Technology, Ajou University), and Chang-Koo Kim (Department of Chemical Engineering and Division of Energy Systems Research, Ajou University) Carboxyl-Functionalized Graphene Oxide/ Polyaniline Composite As a Promising Supercapacitor Material – Yan LIU (the Central South University) Preparation of Highly Porous Carbon from Resins after the Treatment of Wastewater Containing Heavy Metal Ions for Supercapacitors – Zhou Guang Lu (Department of Micro-Nano Materials and Devices, South University of Science and Technology of China)

656

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Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Poster Session – 18:00 – 20:00 •

651

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Enhanced Rate Capability of Hybrid Capacitors in Terms of Electrode Density of Graphite – Sunhye Yang, Sungdo Yun, In-Sik Choi, and Ick-Jun Kim (Korea Electrotechnology Research Institute) Mesoporous Graphene-Based Bulk Materials With Hierarchical Morphologies for Energy Applications – Patick G Campbell, Elizabeth Montalvo, Juergen Biener, Theodore F Baumann, and Mathew Merrill (Lawrence Livermore National Laboratory) Electrochemical Performance of Supercapacitors Formed By Pani/FC and Pani/CNT/CF – Neidenei Gomes Ferreira, Dalva Alves de Lima Almeida, Alexandre Augusto Rocha Carvalho Jr, Carla Polo Fonseca, and Mauricio Ribeiro Baldan (Instituto Nacional de Pesquisas Espaciais) New Preparation Method of NiO Electrode for Super Capacitor Using Aqueous Electrolyte – Masanobu Chiku, Masanari Toda, Eiji Higuchi, and Hiroshi Inoue (Osaka Prefecture University) Hierarchical Nanostructured Carbon Materials for Ultrahigh Electrical Charge Storage – Baizeng Fang (University of British Columbia)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Outer and Inner Surface Contribution in Manganese Dioxides Energy Storage Characterization By Cavity Microelectrode Technique – Laurence Athouël, Paul Arcidiacono, Claudia Ramirez-Castro, Olivier Crosnier (CNRS-IMN), Daniel Guay (INRS-EMT), Daniel Bélanger (Département Chimie, Université du Québec à Montréal), and Thierry Brousse (IMN JR CNRS UMR 6502 – Université de Nantes (Fr)) Electrochemically Deposited MultiLayered Phosphotungstic Acid – Manganese Dioxide Materials From Square Wave Pulse Deposition for Electrochemical Capacitor Applications – Scott W Donne and Andrew J Gibson (University of Newcastle) Mass Transport Properties of Manganese Dioxide Phases for Use in Electrochemical Capacitors: Structural Effects On Solid State Diffusion – Scott W Donne and Madeleine F Dupont (University of Newcastle) Surface Area and Morphology of Electrodeposited Manganese Dioxides for Electrochemical Capacitor Applications – Scott W Donne and Madeleine F Dupont (University of Newcastle) Synthesis and Characterization of Vanadium Oxide Nanotube Electrode Material for Electrochemical Capacitors – Yiying Wei (Centre for Clean Energy Technology, University of Technology Sydney, Centre for Electrical Machines and Power Electronics, University of Technology Sydney), Guoxiu Wang (Centre for Clean Energy Technology, University of Technology Sydney), and Jianguo Zhu (Centre for Electrical Machines and Power Electronics, University of Technology Sydney) Electrochemical Study Of Effect Of The Concentration Of Monomer In The Growht Of Polyaniline and Its Capacitive Properties – Omar Martinez Alvarez, José German Arroyo Martinez (Universidad Politécnica de Guanajuato), Ma Concepción Arenas Arrocena (Departamento de Ingeniería Molecular de Materiales, Centro de Física Aplicada y Tecnología Avanzada, Universidad Nacional Autónoma de México), and Beatriz Ruiz Camacho (Universidad Politécnica de Guanajuato) Fluoroethylene Carbonate and Propylene Carbonate Mixtures Based Electrolytes for Supercapacitors – Alar Jänes, Thomas Thomberg, Jaanus Eskusson, and Enn Lust (Institute of Chemistry, University of Tartu) Laser Ablation Process for Surface Engineering of Current Collectors for Supercapacitor Applications – Dongfang Yang (National Research Council Canada)

169

Wednesday, October 30

16:40


Wednesday, October 30

664

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170

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Fabrication of Metal Oxide/Graphene Nanocomposites for Electrochemical Capacitors – Hae-Min Lee (Department of Chemical Engineering and Division of Energy Systems Research, Ajou University), Gyoung Hwa Jeong (Center of Molecular Science and Technology, Ajou University), Sang-Wook Kim (Department of Molecular Science and Technology, Ajou University), and Chang-Koo Kim (Department of Chemical Engineering and Division of Energy Systems Research, Ajou University) Preparation and Characterization of Carbon Aerogel/Polymer Composites for Supercapacitor – Woon Yeong Jang and Chang Kook Hong (Chonnam National University) Nano-Scale Morphology Control of Graphene, Conducting Polymer, and Carbon Nanotube Electrodes for High Performance Energy Storage – Yue Zhou (Department of Electrical Engineering, Materials Research Institute, The Pennsylvania State University), Noa Lachman (Department of Aeronautics and Astronautics, Massachusetts Institute of Technology, Cambridge, MA 02139, USA), Mehdi Ghaffari (Department of Materials Science and Engineering, Materials Research Institute, The Pennsylvania State University), Haiping Xu (School of Urban Development and Environmental Engineering Shanghai Second Polytechnic University, Shanghai 201209, P R China), Brian L Wardle (Department of Aeronautics and Astronautics, Massachusetts Institute of Technology, Cambridge, MA 02139, USA), and Qiming Zhang (Department of Electrical Engineering, Department of Materials Science and Engineering, Materials Research Institute, The Pennsylvania State University) Development of a Prototype of Supercapacitor Based On Activated Carbon and a Neutral Aqueous Electrolyte – Orazio Di Blasi, Pietro Staiti, Francesco Lufrano (CNR ITAE), Vincenzo Antonucci (National Research Council of Italy - Institute for Advanced Energy Technologies), and Antonino Brigandi (CNR ITAE) Supercapacitor Calendar Ageing and Post Mortem Analysis – Hamid Gualous (Université de Caen Basse Normandie), Noshin Omar, Ahmadou Samba, Peter Van den Bossche, and Joeri Van Mierlo (Vrije Universiteit Brussel) Natural Fiber Welding: The Preparation of Cotton-Based Activated Carbon Electrodes – David P Durkin, Luke M Haverhals (US Naval Academy), Kristy Jost, John McDonough, Carlos R Perez (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Genevieve Dion (Shima Seiki Haute Technology Laboratory, Excite Center, Drexel University), Yury Gogotsi (AJ

670

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B6

Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Hugh C De Long (US Air Force Office of Scientific Research), and Paul C Trulove (US Naval Academy) Electrochemical Properties of Carbon Nano Fiber As Negative Material in Capacitor – Seongki Ahn (Chungbuk National University), Hanjoo Kim, Hongil Kim (Pureechem), and Soo-gil Park (Chungbuk National University) Electrochemical Characteristics of CarbonCoated Li4Ti5O12 By Carbon Source and Structure for Hybrid Capacitor – Sujin Yun (Chungbuk National University), Hanjoo Kim, Hongil Kim (Pureechem), Soo-gil Park (Chungbuk National University), and Kyuwon Jeong (school of mechanical engineer, Chungbuk national university) Electrochemical Impedance Spectra of Hybrid Electrolyte for Energy Conversion – Guoqing Zhang Sr, Yong Jiang Sr, and Zhu Xiong (Yangtze Normal University)

Electrochemical Synthesis of Fuels 2

High Temperature Materials / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Union Square 1/2, Tower 3, 4th Floor, Hilton San Francisco Union Square

High Temperature Electrolysis – 08:00 – 12:00 Co-Chair(s): Cortney R. Kreller and Xiao-Dong Zhou 08:00

715

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09:40 10:00 719 10:40

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11:00

721

(Invited) Recent Developments in Solid Oxide Fuel Cells and Solid Oxide Electrolyzer Cells: An Overview of SOFCXIII Symposium – Subhash C Singhal (Pacific Northwest National Laboratory) Progress Toward Enabling Storage of Off Peak Nuclear and Intermittent Renewable Energy As Sustainable Domestic Transportation Fuels – Joseph J Hartvigsen, S Elangovan, Daniel Milobar, and Lyman J Frost (Ceramatec, Inc) Chemical Storage of Electrical Energy With Carbon Monoxide As An Intermediate Product – Igor Lubomirsky and Valery Kaplan (Weizmann Institute of Science) Electrochemical Systems for Production of Syngas and Co-Products – Tedd E Lister, Eric J Dufek (Idaho National Laboratory), and Simon G Stone (Giner, Inc) Break (Invited) From Power to Fuels and Fuels to Power Via Soec/Syntheses/SOFC – John Bøgild Hansen (Haldor Topsoe A/S) Electrosynthesis of Ammonia Using Solid-State Proton Conductors – Cortney R Kreller, Rangachary Mukundan, and Fernando H Garzon (Los Alamos National Laboratory) Reverse Water Gas Shift Reaction Over Pt Nanoparticles Supported On Oxygen Ion Conductive Ceramics – Elena Baranova, Maxime Lortie, Spyridon Ntais, and Rima Isaifan (University of Ottawa)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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723

Stability of Air Electrode in Solid Oxid Electrolysis Cell – Sun Jae Kim and Gyeong Man Choi (POSTECH) Effect of Composition and Atmosphere on Electrical Properties of Donor-doped BaCe1-(x+y)ZrxNbyO3 – Colin M Gore (University of Maryland Energy Research Center), Joseph O White, Harmanpreet Singh (University of Maryland, College Park), Venkataraman Thangadurai (University of Calgary), and Eric D Wachsman (University of Maryland Energy Research Center)

16:40

730

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Electrofuel Poster Session – 18:00 – 20:00 •

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Solar Fuels – 14:00 – 17:00 Co-Chair(s): Anne C. Co and Nick Wu 14:00

724

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15:40 16:00 728

16:20

729

(Invited) Plasmon-Enhanced Photoelectrochemical Fuel Generation – Nianqiang Wu (West Virginia University) Electrochemical and Photoelectrochemical Properties of the Copper Hydroxyphosphate Mineral Libethenite – Man Li, Qian Cheng, Reed Wittman, Xihong Peng, and Candace Chan (Arizona State University) Effect of Temperature Treatment on CoTiOx Catalyst for the Oxygen Evolution Reaction – Linsey C Seitz, Blaise A Pinaud (Stanford University), Dennis Nordlund (Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory), and Thomas Francisco Jaramillo (Stanford University) Simulations of the Irradiation and Temperature Dependence of the Efficiency of Tandem Photoelectrochemical Watersplitting Systems – Sophia Haussener (Laboratory of Renewable Energy Science and Engineering, EPFL), Shu Hu, Chengxiang Xiang (Caltech), Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory), and Nathan S Lewis (Caltech) Break Enhanced Carbon Dioxide Photoconversion Efficiency By 1D Structured Platinized TiO2 Films – Wei-Ning Wang, Woo-Jin An (Washington University in St Louis), Balavinayagam Ramalingam, Somik Mukherjee (University of Missouri, Columbia), Dariusz M Niedzwiedzki (Washington University in St Louis), Shubhra Gangopadhyay (University of Missouri, Columbia), and Pratim Biswas (Washington University in St Louis) Transient Performance Modeling of Photoelectrochemical Hydrogen Generation Systems – Mikael Dumortier (Laboratory of Renewable Energy Science and Engineering, EPFL), Jan Rongé, Johan Martens (Centre for Surface Chemistry and Catalysis, KU Leuven), and Sophia Haussener (Laboratory of Renewable Energy Science and Engineering, EPFL)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Evaluation of Micro- and Nanostructured Nickel Oxide As Photocatalyst for Hydrogen Evolution From Water – Frank E Osterloh, Jorie M Fields, and Benjamin A Nail (Department of Chemistry, University of California, Davis)

Solid Oxide Fuel Cells Based On Perovskite Components for Intermediate Temperature Operation – Giuseppe Monforte (CNR ITAE), Massimiliano Lo Faro (CNR-ITAE), Vincenzo Antonucci (National Research Council of Italy - Institute for Advanced Energy Technologies), and Antonino S Aricò (CNR-Institute of Advanced Energy Technologies (ITAE)) The effect of particle size on the performance of LSFC perovskite anode of proton conducting solid oxide fuel cell (PC-SOFC) – Yifei Sun, Ning Yan, Guangya Wang, Jingli Luo, and Karl T Chuang (University of Alberta) Electrochemical Conversion of Carbon Dioxide to Methane By Depolarized Anode Alkaline Membrane CO2 Electrolizer (DAAM-CE) – Manuela Bevilacqua, Francesco Vizza, Andrea Marchionni, Jonathan Filippi, Hamish Andrew Miller, Alessandro Lavacchi, Werner Oberhauser, and Simonetta Moneti (ICCOM-CNR) Crystal and Electronic Structures of LaP3O9-Based Protonic Conductors Synthesized By Liquid-Phase Method – Naoto Kitamura, Junpei Yamamoto, and Yasushi Idemoto (Tokyo University of Science) Surface Modification of NiO Cathode for Molten Carbonate Fuel Cells (MCFCs) – Hee Seon Choi, Keon Kim (Korea University), and Cheol-Woo Yi (Sungshin Women’s University) MEA Technology and Power Performance of Core-Shell catalyst – Kenji Kobayashi (DAIDO UNIVERSITY, DAIDO UNIVERSITY), Akimasa Daimaru, Michio Hori (DAIDO UNIVERSITY), Minoru Inaba (Doshisha University), and Hideo Daimon (Faculty of Science and Engineering, Doshisha University) 3-D Numerical Analysis of Solid Oxide Electrolysis Cell(SOEC) With CoElectrolysis Operation – Juhyun Kang and Joongmyeon Bae (Korea Advanced Institute of Science and Technology (KAIST))

171

Wednesday, October 30

11:20


739

740

Wednesday, October 30

738

741

742

743

744

745

746

747

172

Electrochemical Property Evaluation of Continuously Graded Functional Electrode Deposited By Electrostatic Slurry Spray Deposition – Inyu Park (Department of Fuel Cells and Hydrogen Technology, Hanyang University), Sewook Lee, Hunhyeong Lee (Division of Materials Science and Engineering, Hanyang University), and Dongwook Shin (Division of Materials Science and Engineering, Hanyang University, Department of Fuel Cells and Hydrogen Technology, Hanyang University) Increasing Conductivity in Proton Conductors BaCeO3-δ doped with Pr – Juan Felipe Basbus (AGNPCyT-CNEA), Alberto Caneiro (CONICET - Centro Atómico Bariloche, CNEA), and Liliana Veronica Mogni (CONICET-CNEA) Validation of Nd2NiO4+δ As Oxygen Electrode Material for Intermediate Temperature Solid Oxide Cells With Lsgm Electrolyte – Alejandra MontenegroHernandez (CONICET), Liliana Veronica Mogni (CONICET-CNEA), and Alberto Caneiro (CONICET - Centro Atómico Bariloche, CNEA) Mechanism of Ammonia Oxidation At NiFe/SDC Anode in Ammonia-Fueled SOFCs – Wataru Akimoto, Morihiro Saito, Minoru Inaba (Doshisha University), Hiroyuki Yoshida, and Toru Inagaki (The Kansai Electric Power Company) Soft Chemical Route Improving IT-SOFC Cathode Performance: The Lanthanum Barium Cobaltites Case – Diana Garces (Instituto Balseiro-CNEA) and Liliana Veronica Mogni (CONICET-CNEA) Nonstoichiometric A-Site Deficient Nickelates As High Performance SOFC Cathodes – Emir Dogdibegovic, Jingbo Yan (University of South CarolinaColumbia), and Xiao-Dong Zhou (University of South Carolina) An Investigation of the Performance of the HI Concentration By Elctrodialysis Cell for Hydrogen Production in Sulfur Iodine Process – Chang Hee Kim, Byung-Woo Lee, Seong Uk Jeong, Won Chul Cho, Kyoung Soo Kang, Chu Sik Park, and Ki Kwang Bae (Korea Institute of Energy Research) Effect of Sulfur Dioxide Concentration On Cell Performance and Sulfur Dioxide Crossover – Seong Uk Jeong, Chang Hee Kim, Chu Sik Park, Ki Kwang Bae, Won Chul Cho, and Kyoung Soo Kang (Korea Institute of Energy Research) Sr-Rich Chromium Ferrites As Electrode Materials for Symmetrical Solid Oxide Electrolysis Cells – Paul Kwesi Addo, Beatriz Molero-Sanchez, Min Chen, Scott Paulson, and Viola Birss (University of Calgary) Oxidation Behavior of Ashless Coal Extracted From a Bituminous Coal in a Coin Type Direct Carbon Fuel Cell – Choong-Gon Lee (Hanbat National University)

748

749

750

B7

Numerical Investigation of the High Temperature PEM Electrolyzer: Effect of Flow Channel Configurations – Diego De Haro Ruiz, Agus P Sasmito, and Tariq Shamim (Masdar Institute of Science & Technology) Nickel-Cerium Electrodes for Hydrogen Evolution in Alkaline Water Electrolysis – Diogo MF Santos, Luis Amaral, Biljana Sljukic (Materials Electrochemistry Group, Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, TU Lisbon), Daniele Macciò, Adriana Saccone (Università degli Studi di Genova, Dipartimento di Chimica e Chimica Industriale (DCCI), via Dodecaneso 31, I-16146 Genova, Italy), and Cesar Sequeira (Materials Electrochemistry Group, Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, TU Lisbon) Fundamental Investigation of Hydrogen Transport in Ferritic Stainless Steel for SOFC Interconnect Applications – Christopher I Zimny, Roberta Amendola, Paul E Gannon, and Chaparral Berry (Montana State University)

High Temperature Experimental Techniques and Measurements

High Temperature Materials / Energy Technology / Physical and Analytical Electrochemistry Union Square 17/18, Tower 3, 4th Floor, Hilton San Francisco Union Square

High Temperature Reaction Measurements – 08:20 – 10:40 Co-Chair(s): Viola Birss and Gregory S. Jackson 08:20

781

09:00

782

(2013 ECS High Temperature Materials Division J Bruce Wagner, Jr Award Lecture) Simulating Unique High Temperature Corrosion Environments – Paul E Gannon, Roberta Amendola, and Preston White (Montana State University) A Rotating Electrolyte Disc (RED) for Operation in Liquid Metal Anode SOFCs – Aliya Toleuova (Electrochemical Innovation Lab, University College London, London, WC1E 7JE, UK, School of Engineering, Nazarbayev University, Astana, 010000, Kazakhstan), Vladimir Yufit (Department of Earth Science and Engineering, Imperial College London, London, SW7 2AZ, UK), Stefaan J R Simons (International Energy Policy Institute, UCL Australia, University College London, Adelaide, SA5000, Australia), William C Maskell (Electrochemical Innovation Lab, University College London, London, WC1E 7JE, UK, Department of Earth Science and Engineering, Imperial College London, London, SW7 2AZ, UK), and Dan J L Brett (Electrochemical Innovation Lab, University College London, London, WC1E 7JE, UK)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


783

09:40

784

10:00

785

10:20

786

Electrochemical Oxidation of Graphite Electrodes Contaminated With Common Coal Minerals in a Molten Carbonate Electrolyte – Scott W Donne and John Tulloch (University of Newcastle) Modeling of the Electrochemical Oxidation of Contaminated Carbon in a Molten Carbonate Electrolyte – Scott W Donne and John Tulloch (University of Newcastle) In Situ TGA Measurements During High Temperature Air Exposure of ReverseBiased Ni Anodes – Jason L Young and Viola Birss (University of Calgary) High Temperature Measurements for Simulated Solar Thermal Reduction of Metal Oxides – William T Gibbons (University of Maryland), Luke J Venstrom, Jane H Davidson (University of Minnesota), and Gregory S Jackson (Colorado School of Mines)

High Temperature Fuel Cell Measurements – 14:00 – 17:40 Co-Chair(s): Paul E. Gannon and Fanglin (Frank) Chen 14:00

787

14:20

788

14:40

789

15:00

790

15:20

791

15:40 16:00 792

16:20

793

Feasibility of Dual-Perturbation Electrochemical Impedance, Employing Simultaneous Chemical and Electrochemical Perturbations – TJ McDonald and Stuart Adler (University of Washington) Electrochemical Measurements On Cells, I: Simulation of Potential Distribution With An Embedded Probe – Lei Zhang, Feng Liu, and Anil V, Virkar (University of Utah) Electrochemical Impedance Spectroscopy of Gadolina-Doped Ceria: Role of Leads/ Instrument Impedance – Lei Zhang, Feng Liu, and Anil V, Virkar (University of Utah) Synthesis and Electrochemical Characterization of T* La084Sm096Sr02CuO4 as a Cathode Material for IT-SOFC – Akshaya Kumar Satapathy and John TS Irvine (University of St Andrews,) Theory and Application of Nonlinear Electrochemical Impedance Spectroscopy (NLEIS) – Stuart Adler (University of Washington) Break New Structure of Cathode Function Layer of SOFC By Nanoporous Columnar YSZ Films – Huanhuan Jiang (University of Science and technology of China), Ming Li (University of science and technology of China), and Bin Xie (University of Science andtechnology of China) Development of Hermetic Sealant Material Based On the Temperature Distribution in IT-SOFC – Ahmet Bakal Sr (HITIT UNIVERSITY, NIGDE UNIVERSITY)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

16:40

794

17:00

795

17:20

796

Iso-Octane Internal Reforming in a Solid Oxide Fuel Cell Using Co/CeO2 as Anodic Composites – Abdullah Abdulaziz Al-Musa (King Abdulaziz City for Science and Technology), Vasileios Kyriakou (Aristotle University of Thessaloniki), Mohammed Al-Saleh (King Abdulaziz City for Science and Technology), Riyadh Al-Shehri (king abdulaziz city for science and technology), George Marnellos (chemical process & engineering research institute), and Nikolaos Kaklidis (University of Western Macedonia) Nonlinear Analysis of Porous La09Ca01FeO3-δ Electrodes in Oxygen Environments – Tim Geary and Stuart Adler (University of Washington) Effects of Humidified Gas Environments On the Electrode Behavior of La06Sr04CoO3-δ – TJ McDonald and Stuart Adler (University of Washington)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square High Temperature Experimental Techniques and Measurements Posters – 18:00 – 20:00 Co-Chair(s): Gregory S. Jackson •

797

798

799

800

Metal-Doped Pyrochlore As Novel Electrode Materials for Intermediate Temperature Solid Oxide Fuel Cell – ChiaKan Hao and Chi-Shen Lee (Department of Applied Chemistry, National Chiao Tung University) B-Site Doped Pyrochlore for IT-SOFC Application – Chi-Shen Lee, Chia-Kan Hao (Department of Applied Chemistry, National Chiao Tung University), and Hao-En Hung (Department of Applied Chemistry, National Chiao Tung University, Department of Applied Chemistry, National Chiao Tung University) Thermochemistry of Alkaline Earth Silicate and Sub – Orthosilicate Glasses – Nektarios K Nasikas and Alexandra Navrotsky (Peter A Rock Thermochemistry Laboratory and NEAT ORU, University of California, Davis) Characterization of Novel LSM/ GDC Composite and Electrochemical Characterization of LSM/GDC Based Cathode-Supported Direct Carbon Fuel Cells – Seung-Bok Lee (Fuel Cell Research Center, Korea Institute of Energy Research), Bilal Ahmed (Departement of Advanced Energy Technology, University of Science and Technology), Rak-Hyun Song (Fuel Cell Research Center, Korea Institute of Energy Research), Jong-Won Lee (Korea Institute of Energy Research), Tak-Hyoung Lim, and Seok-Joo Park (Fuel Cell Research Center, Korea Institute of Energy Research)

173

Wednesday, October 30

09:20


Wednesday, October 30

B8

801

802

Characterization of (La,Sr)(Ti,Co)O3 Oxides for Symmetrical Solid Oxide Fuel Cell Electrodes – Federico Napolitano (CONICET - Centro Atómico Bariloche, S C de Bariloche, Argentina), Analía Soldati (CONICET - Centro Atómico Bariloche, CNEA), Jochen Geck (Leibniz Institute for Solid State and Materials Research IFW Dresden, Dresden, Germany), Leopoldo Suescun (Cryssmat-Lab, Facultad de Química, Universidad de la Republica, Montevideo, Uruguay), Leandro Acuña (CINSO, Centro de Investigaciones en Sólidos, CITEFA-CONICET, Villa Martelli, Argentina), Afra Fernandez Zuvich (CONICET - Centro Atómico Bariloche, S C de Bariloche, Argentina), Diego German Lamas (Laboratorio de Caracterización de Materiales, Facultad de Ingeniería, Universidad Nacional Del Comahue, Neuquén, Argentina), and Adriana Serquis (CONICET - Centro Atómico Bariloche, CNEA) Investigation of SOFC Interconnect Coating Material for Protecting Cathode From Cr Deposition – Kunho Lee (Korea Advanced Institute of Science and Technology) and Joongmyeon Bae (Korea Advanced Institute of Science and Technology (KAIST))

Intercalation Compounds for Rechargable Batteries

824

08:20

826

08:40

827

174

828

09:20 09:40 829

10:00

830

10:20

831

10:40

832

11:00

833

11:20

834

Battery / Industrial Electrochemistry and Electrochemical Engineering Imperial A, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Spinels and Olivines – 08:00 – 12:00 Co-Chair(s): Esther S. Takeuchi and Jan L. Allen 08:00

09:00

Time-Resolved XRD Study On Phase Transition Behavior Between LiFePO4 and FePO4 – Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Yukinori Koyama, Katsutoshi Fukuda (Office of Society-Academia Collaboration for Innovation, Kyoto University), Takehiro Maeda, Titus Masese, Kentaro Yamamoto, Takuya Mori (Graduate School of Human and Environmental Studies, Kyoto University), Haruno Murayama, Hagime Tanida, Hajime Arai (Office of Society-Academia Collaboration for Innovation, Kyoto University), Eiichiro Matsubara (Kyoto University), Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University), and Zempachi Ogumi (Office of SocietyAcademia Collaboration for Innovation, Kyoto University) Insight Into the Structural Changes of High-Voltage Spinel During the Lithium Intercalation – Qingliu Wu, Yuzi Liu, Christopher Johnson, Dennis W Dees, and Wenquan Lu (Argonne National Laboratory) Electrochemical Shock in Cubic Spinels – William Woodford, W Craig Carter, and Yet-Ming Chiang (Massachusetts Institute of Technology)

Surface Stability of Oxygen Deficient LiMn2O4 Thin Films – Nancy Missert, Jeyavel Velmurugan, and Robert Garcia (Sandia National Laboratories) Break Nanoscale Visualization and Intercalation in Many-Particle LiFePO4 Electrodes – Yiyang Li (Department of Materials Science and Engineering, Stanford University), Farid El Gabaly, Joshua D Sugar (Materials Physics Department, Sandia National Laboratories), Tolek Tyliszczak (Advanced Light Source, Lawrence Berkeley National Laboratory), and William C Chueh (Department of Materials Science and Engineering, Stanford University) Interparticle Phase-Separation Dynamics in Dense Agglomerates of Lithium Iron Phosphate Nanoparticles – Bernardo Orvananos, Hui-Chia Yu (University of Michigan), Rahul Malik (Massachusetts Institute of Technology), Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Gerbrand Ceder (Massachusetts Institute of Technology), and Katsuyo Thornton (University of Michigan) Comparative Study On the Phase Diagram of AxFePO4 (A = Li, Na) – Jiechen Lu, Saicheong Chung (The University of Tokyo), Shinichi Nishimura, and Atsuo Yamada (The University of Tokyo, ESICB, Kyoto University) Challenges in High Voltage Lithium-Ion Chemistry Development – David Ofer, Jack Treger, Leah Nation, and Suresh Sriramulu (TIAX LLC) A Combined Solid-State Nuclear Magnetic Resonance and in Situ X-Ray Diffraction Study of the Lithium Deintercalation Mechanism for LiFexCo1-XPO4 (0 ≤ x ≤ 1) – Fiona C Strobridge (University of Cambridge - Department of Chemistry), Michal Leskes (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Olaf J Borkiewicz (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), Kamilla Wiaderek (Argonne National Laboratory), Karena W Chapman, Peter J Chupas (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), and Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK) Substituted LiCoPO4 as Li-Ion Cathode – Jan L Allen (US Army Research Laboratory), Samuel A Delp (Army Research Laboratory), T Richard Jow (US Army Research Laboratory), and Jeff Wolfenstine (Army Research Lab)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


14:00

835

14:20

836

14:40

837

15:00

838

15:20

839

15:40 16:00 840

16:40

841

Beyond One-Lithium Reaction Mechanism in Li2FeSiO4 – Titus Masese, Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Cedric Tassel (Graduate School of Engineering, Kyoto University), Hajime Arai, Taketoshi Minato (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Kentaro Yamamoto, Takuya Mori (Graduate School of Human and Environmental Studies, Kyoto University), Koji Nakanishi, Toshiaki Ohta (Ritsumeikan University), Jungeun Kim (Japan Synchrotron Radiation Research Institute), Yoji Kobayashi, Hiroshi Kageyama (Graduate School of Engineering, Kyoto University), Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University), and Zempachi Ogumi (Office of SocietyAcademia Collaboration for Innovation, Kyoto University) Structures and Performances of Vanadium Substituted Li2FeSiO4 Prepared By Different Vanadium Sources – Xuan Cheng, Hong Yang, Ying Zhang, and Sui Gu (Xiamen University) Characterization of Li2MSiO4 Compounds for Cathodes in Li Based Batteries – Raynald Gauvin, Nicolas Brodusch, George P Demopoulos (McGill University), and Karim Zaghib (HydroQuebec) Mixed Polyanion Glasses As Lithium Ion Battery Cathode Materials – Andrew Keith Kercher (Oak Ridge National Laboratory, IMTECH Corporation), Jim Kiggans Jr, Joanne Ramey, Lynn Boatner, Dongwon Shin, and Nancy J Dudney (Oak Ridge National Laboratory) Silver Vanadium Phosphates AgwVxPyOz: Electrochemistry and Characterization of Reduced Material Providing Mechanistic Insights – Esther S Takeuchi (Stony Brook University, Brookhaven National laboratory), Amy C Marschilok, and Kenneth J Takeuchi (Stony Brook University) Break Beyond the Inductive Effect to Increase the Working Voltage of Cathode Materials – Marie-Liesse Doublet, Matthieu Saubanère, Mouna Ben Yahia, and Frédéric Lemoigno (ICG-CTMM, RS2E : French Network on Electrochemical Energy Storage) Identifying Defect Sites in Lithium Intercalation Electrodes: Local Disorder in LiVPO4F and Its Influence On Bulk Properties – Robert Messinger (CEMHTICNRS), Michel Ménétrier, Dany Carlier (ICMCB-CNRS, University of Bordeaux), Jean-Marcel Ateba Mba (ICMCB-CNRS, LRCS-CNRS), Laurence Croguennec (ICMCB-CNRS, University of Bordeaux), Christian Masquelier (LRCS-CNRS, University of Picardie Jules-Verne),

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

17:00

842

17:20

843

17:40

844

Dominique Massiot, and Michaël Deschamps (CEMHTI-CNRS, University of Orléans) In Situ Study of High Voltage Performance of Li3Fe2(PO4)3 Cathodes for Li Ion batteries – Ane Sælland Christiansen, Rune E Johnsen, Poul Norby, Søren Højgaard Jensen (Department of Energy Conversion and Storage, Technical University of Denmark), Cathrine Frandsen, Steen Mørup (Department of Physics, Technical University of Denmark), Kent Kammer Hansen, and Peter Holtappels (Department of Energy Conversion and Storage, Technical University of Denmark) Oxidative Processes in LiFeBO3 – ShouHang Bo (Stony Brook University), Kyung-Wan Nam (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), Olaf J Borkiewicz (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), Yan-Yan Hu (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Xiao-Qing Yang (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), Peter J Chupas, Karena W Chapman (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), and Peter Khalifah (Brookhaven National Lab, Stony Brook University) Electrochemical Properties of Copper Hydroxysulfate Mineral Brochantite Upon Reaction With Lithium – Ran Zhao, Ting Yang, and Candace Chan (Arizona State University)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Poster Session – 18:00 – 20:00 Co-Chair(s): M. Doeff and Gerardine G. Botte •

845

846

First Principles Investigation of the Electronic and Structure Changes for TiSubstituted Lithium Nickel Manganese Cobalt Oxide Cathodes – Isaac Manny Markus (University of California-Berkeley, Lawrence Berkeley National Laboratory), Feng Lin (Lawrence Berkeley National Laboratory), Mark Asta (Lawrence Berkeley National Laboratory, University of California-Berkeley), and Marca Doeff (Lawrence Berkeley National Laboratory) Spectroscopy and Microscopy to Unravel the Advantages of Ti Substitution in LiNi04Mn04Co02O2 Cathode Materials – Feng Lin (Lawrence Berkeley National Laboratory), Isaac Manny Markus (University of California-Berkeley), Dennis Nordlund, Tsu-Chien Weng (Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory), Mark Asta (University of California-Berkeley), and Marca Doeff (Lawrence Berkeley National Laboratory) 175

Wednesday, October 30

Polyanionic Compounds – 14:00 – 18:00 Co-Chair(s): Shirley Meng and Philip N. Ross


Wednesday, October 30

847

848

849

850

851

852

853

Bulk and Surface Structural Changes of Layered Li120Mn055Ni016Co009O2 Material With Cycles – Hironori Kobayashi (National Institute of Advanced Industrial Science and Technology (AIST)), Toyoki Okumura (National Institute Advanced Industrial Science and Technology (AIST)), Masahiro Shikano (National Institute of Advanced Industrial Science and Technology (AIST)), Yoshinori Arachi, Keita Takada (Kansai University), and Hiroaki Nitani (KEK) Facile Synthesis of Li-Rich layered Li123Ni009Co012Mn056O2 and Its Structural Transformation At First Cycle Measured By in Situ X-Ray Diffraction – ChongHeng Shen (Dept of Chem Xiamen University) and Ling Huang (Deptof Chem Xiamen University) Coprecipitation and Characterization of Nickel-Cobalt- Manganese Hydroxides Precursor for Battery Cathode Materials – Hyun Jin Kim, Kyoung Mo Nam, En Jeong Lee (Chungnam National University), Yong Suk Kim, Dong Hyun Kang (EMT, Co Ltd.), and Seung-Wan Song (Chungnam National University) Electrochemical Performances of the Acid-Treated and Ceramic-Coated 03Li2MnO3•07LiMn060Ni025Co015O2 Cathode Materials for Li-Ion Batteries – Mansoo Choi, Bong-Soo Jin, and HyunSoo Kim (KERI) Preparation of Cathode Film With Use of Aqueous Solvent System – Tatsuya Nakamura, Yoshihiro Oka (University of Hyogo), Hideyoshi Matsumoto, and Yuto Watanabe (Graduate School of Engineering, University of Hyogo,) Improved Performance of LiNi05Mn15O4 Spinel With Electrolytes Containing 1,3,5 Trihydroxybenzene – Alexis Perea (Université du Québec à Montréal), Karim Zaghib (Hydro-Quebec), and Daniel Bélanger (Département Chimie, Université du Québec à Montréal) In Situ XRD Study of the Phase Evolution in Undoped and Cr-Doped LixMn15Ni05O4 As 5-Volt Cathode Materials for Li-Ion Batteries – Wen Zhu (IREQ), Dong Liu (nergy Storage and Conversion Division, IREQ,), Julie Trottier (Institut de Recherche d’Hydro-Québec), Pierre Hovington (Institut de Recherche d’HydroQuébec), Catherine Gagnon (Institut de Recherche d’Hydro-Québec), Karim Zaghib (Hydro-Quebec), Alain Mauger, and Christian M Julien (Université Pierre et Marie Curie)

176

Reactivity of Electrolyte With the Surface of 5-V Cathode Materials for Li-Ion Batteries – Julie Trottier (Institut de Recherche d’Hydro-Québec), Catherine Gagnon (Institut de Recherche d’HydroQuébec), Dong Liu (nergy Storage and Conversion Division, IREQ,), Abdelbast Guerfi, Pierre Hovington (Institut de Recherche d’Hydro-Québec), Karim Zaghib (Hydro-Quebec), Alain Mauger, and Christian M Julien (Université Pierre et Marie Curie) 855 Bulk and Surface Modification of LiMn15Ni05O4 Materials As 5-V Cathodes for Li-Ion Batteries – Dong Liu (nergy Storage and Conversion Division, IREQ,), J Hamel-Paquet, Julie Trottier (Institut de Recherche d’Hydro-Québec), F Barray (Institut de Recheche d’Hydro-Québec), Vincent Gariepy (Institut de Recherche d’Hydro-Québec), Catherine Gagnon (Institut de Recherche d’Hydro-Québec), Pierre Hovington, Abdelbast Guerfi (Institut de Recherche d’Hydro-Québec), Karim Zaghib (Hydro-Quebec), Alain Mauger, and Christian M Julien (Université Pierre et Marie Curie) 856 Study of the Crystal Growth Process and the Electrochemical Properties of High Voltage Cathode Active Materials: LiNi1/2Mn3/2O4 – Masaki Matsui, Takahiro Sanda, Yasuo Takeda, and Nobuyuki Imanishi (Mie University) 857 Synthesis of Li2FeSiO4 Cathode Materials Using Inexpensive and Abundant Materials By Conventional Methods – Tommy Mokkelbost, Anita Fossdal, Sidsel Meli Hanetho, Edel Sheridan (SINTEF Materials and Chemistry), Haitao Zhou, and Fride Vullum-Bruer (Norwegian University of Science and Technology) 858 A Novel Fluoro-Polyanionic Cathode LiV05Fe05PO4f for Lithium Ion Batteries – Zhen-Dong Huang, Yuki Orikasa, Titus Masese, Kentaro Yamamoto, Takuya Mori (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Yoji Kobayashi, Cedric Tassel, Hiroshi Kageyama (Graduate School of Engineering, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) 859 Li2FeP2O7 As Cathode Material for Li-Ion Batteries – Andreas Blidberg (Department of Chemistry-Ångström Laboratory, Uppsala University), Torbjörn Gustafsson, and Fredrik Björefors (Department of Chemistry - Ångström Laboratory, Uppsala University) 860 Exploring Li-Fe-F Phases As Cathode Materials for Li-Ion Batteries – Tanghong Yi, Chunjoong Kim, and Jordi Cabana (Lawrence Berkeley National Laboratory) 854

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


861

862

863

864

865

866

867

868

Anion Intercalation Into Graphite From Organic Solvent Based Electrolytes With High Oxidative Stability – Olga Fromm, Paul Meister, Sergej Rothermel, Jessica Huesker, Hinrich Wilhelm Meyer, Tobias Placke, and Martin Winter (MEET Battery Research Center, University of Muenster) High-Temperature Performance of Cathode With DLC Over-Coating Layer – Yoshihiro Oka, Toshihiro Noiri, Taiki Obata (University of Hyogo), Yoshimi Nishimura (Kurita Seisakusho Co, Ltd.), and Tatsuya Nakamura (University of Hyogo) Novel Hydrothermal Synthesis of NanoLiFePO4 Via Solution Steering – Vincent Gariepy (Institut de Recherche d’HydroQuébec), Kumaran Vediappan (McGill University), Julie Trottier (Institut de Recherche d’Hydro-Québec), Catherine Gagnon (Institut de Recherche d’HydroQuébec), F Barray (Institut de Recheche d’Hydro-Québec), Pierre Hovington, Abdelbast Guerfi (Institut de Recherche d’Hydro-Québec), Karim Zaghib (HydroQuebec), Alain Mauger, and Christian M Julien (Université Pierre et Marie Curie) Structural Effects of Carbonization of LiFePO4 Nanoparticles – Vincent Gariepy (Institut de Recherche d’Hydro-Québec), Kumaran Vediappan (McGill University), Pierre Hovington (Institut de Recherche d’Hydro-Québec), Julie Trottier (Institut de Recherche d’Hydro-Québec), Catherine Gagnon (Institut de Recherche d’HydroQuébec), F Barray (Institut de Recheche d’Hydro-Québec), Abdelbast Guerfi (Institut de Recherche d’Hydro-Québec), Karim Zaghib (Hydro-Quebec), Alain Mauger, and Christian M Julien (Université Pierre et Marie Curie) Chemical Grafted Carbon-Coated LiFePO4 olivine Using Diazonium Chemistry – Nicolas daniel Delaporte, Alexis Perea, Ruhul Amin (Département Chimie, Université du Québec à Montréal), Karim Zaghib (Hydro-Quebec), and Daniel Bélanger (Département Chimie, Université du Québec à Montréal) Structural Analysis and Electrochemical Studies of Carbon-Li4Ti5O12 Nanocomposites Used As Anode for Lithium Ion Battery – Xiangcheng Sun (ECE department, Univeristy of Waterloo) and Bo Cui (ECE department, University of Waterloo) NiO Nanowire As a High Performance Anode Materials for Lithium Ion Batteries – Hyo-Jin Oh, Sun-Jae Kim, and SeungTaek Myung (Sejong University) A Facile Synthesis of Silicon OxideGraphene Composite for Rechargeable Lithium Battery Anode – Dan Thien Nguyen, Cao Cuong Nguyen, and Seung-Wan Song (Chungnam National University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

B9

869

Potential Step Study Of Intercalation Processes – Semen M Lipkin (South Russian State technical university), Yuriy Y Gerasimenko (DonSTU), and Svetlana V Kucherenko (DonSAU)

Interfacial Phenomena in Battery Systems

Battery / Physical and Analytical Electrochemistry Golden Gate 6, Tower 3, Lobby Level, Hilton San Francisco Union Square

Interfacial Processes on Li-Ion Cathodes 1 – 08:00 – 11:20 Co-Chair(s): Yangchuan Xing and Robert Kostecki 08:00

920

08:20

921

08:40

922

Li-Ion Battery Solid Electrolyte Interface (SEI) Investigation With in-Situ Attenuated Total Reflection-Infrared (ATR-IR) Spectroscopy – Feifei Shi (Mechanical Engineering Department, UC Berkeley, Berkeley, CA, United States, Material Science Division, LBNL, Berkeley, CA, United States), Kyriakos Komvopoulos (Mechanical Engineering Department, UC Berkeley, Berkeley, CA, United States), Philip N Ross (Material Science Division, LBNL, Berkeley, CA, United States), and Gabor Somorjai (Chemistry Department, UC Berkeley, Berkeley, CA, United States, Material Science Division, LBNL, Berkeley, CA, United States) Ambient-Pressure “Tender” X-Ray Photoelectron Spectroscopy (APXPS) for in Situ study of Liquid-Solid Interface of Pt Foil in 6 M KF – Stephanus Axnanda (LAWRENCE BERKELEY NATIONAL LABORATORY), Ethan J Crumlin, Baohua Mao (Advanced Light Source, Lawrence Berkeley National Laboratory), Sana Rani, Rui Chang (LAWRENCE BERKELEY NATIONAL LABORATORY), Zhi Liu (Advanced Light Source, Lawrence Berkeley National Laboratory), Philip N Ross (Material Science Division, LBNL, Berkeley, CA, United States), and Zahid Hussain (LAWRENCE BERKELEY NATIONAL LABORATORY) In Situ Fluorescence Spectroscopy Studies of Interfacial Processes On LiNi05Mn15O4 High-Voltage Cathodes – Angelique Jarry, Robert Kostecki, Simon Franz Lux, Hugues Duncan, and Guoying Chen (Lawrence Berkeley National Laboratory)

177

Wednesday, October 30


09:00

09:20

923

924

Wednesday, October 30

09:40 10:00 925

10:20

926

10:40

927

11:00

928

178

In situ Total-Reflection Fluorescence X-Ray Absorption Spectroscopic Study On Stability At LiFePO4 / Electrolyte Interface – Kentaro Yamamoto, Shinichiro Mori (Graduate School of Human and Environmental Studies, Kyoto University), Daiko Takamatsu (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of Society-Academia Collaboration for Innovation, Kyoto University), Titus Masese, Takuya Mori (Graduate School of Human and Environmental Studies, Kyoto University), Hagime Tanida, Hajime Arai, Zempachi Ogumi (Office of Society-Academia Collaboration for Innovation, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) In Situ Atomic Force Microscopy Study of Surface Microstructure Stability On LiMn2O4 Thin Films – Jeyavel Velmurugan, Nancy Missert, and Robert Garcia (Sandia National Laboratories) Break Tender XPS Studies of the Interfacial Reactivity Between the High-Voltage Cathode, LiMn15Ni05O4, and the Electrolyte – Ethan J Crumlin (Advanced Light Source, Lawrence Berkeley National Laboratory), Hugues Duncan (Lawrence Berkeley National Laboratory), Philip N Ross (Material Science Division, LBNL, Berkeley, CA, United States), Guoying Chen (Lawrence Berkeley National Laboratory), and Zhi Liu (Advanced Light Source, Lawrence Berkeley National Laboratory) Improved Conductive Carbon Additives for High-Energy Lithium-Ion Batteries – Simon Franz Lux, Yanbao Fu, Alpesh K Shukla, Thomas Richardson, Vince Battaglia, and Robert Kostecki (Lawrence Berkeley National Laboratory) Improved Performance of LiNi05Mn15O4 With Electrolytes Containing 1,3,5-Trihydroxybenzene – Alexis Perea (Université du Québec à Montréal), Karim Zaghib (Hydro-Quebec), and Daniel Bélanger (Département Chimie, Université du Québec à Montréal) Solid Electrolyte Interphase Evolution in the Presence of Vinylene Carbonate and Vinyl Ethylene Carbonate Electrolyte Additives in Li-Ion Battery Anodes – Hadi Tavassol, Joseph W Buthker (University of Illinois, Urbana-Champaign), David G Cahill (Department of Material Science and Engineering, University of Illinois at Urbana-Champaign), and Andrew Gewirth (University of Illinois, Urbana-Champaign)

Interfacial Processes on Li-Ion Cathodes 2 – 14:00 – 17:20 Co-Chair(s): Robert Kostecki and Yangchuan Xing 14:00

929

14:20

930

14:40

931

15:00

932

15:20

933

15:40 16:00 934

Defect Thermodynamics and Diffusion Mechanisms in Li2CO3 and Implications for the Solid Electrolyte Interphase in Li-Ion Batteries – Yue Qi (General Motors R&D Center), Siqi Shi (School of Materials Science and Engineering, Shanghai University, School of Engineering, Brown University), Hong Li (Institute of Physics, Chinese Academy of Sciences), and Louis G Hector Jr (General Motors R&D Center) The Study of Thin Film high–voltage LiIon Cathodes to Reveal Surface Reactions and Coating Performance – Juchuan Li (Oak Ridge National Laboratory), Yoongu Kim (IPS batteries), Chengdu Liang, and Nancy J Dudney (Oak Ridge National Laboratory) Surface-Facet Dependent Reactivity Between LiMn15Ni05O4 and Carbonate Electrolytes – Hugues Duncan, Simon Franz Lux, Robert Kostecki, and Guoying Chen (Lawrence Berkeley National Laboratory) Correlating Electrochemical and Spectroscopic Ellipsometry Signals to Evaluate Energy Storage Interfaces – Eric J Dufek and Lucia M Petkovic (Idaho National Laboratory) Solid Electrolyte Interphase Formation in Iron (II) Fluoride Conversion Electrodes – Stephen Boyd (Stony Brook University), Glenn Amatucci, Nathalie Pereira (Rutgers University, Energy Storage Research Group, North Brunswick, New Jersey), and Steven Greenbaum (Department of Physics and Astronomy, Hunter College of City University of New York) Break Source of Additional Capacities Seen in Metal Oxide/Fluoride Electrodes – Yan-Yan Hu, Zigeng Liu (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Kyung-Wan Nam (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), Olaf J Borkiewicz (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), Jun Cheng, Matthew D Dunstan (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Xiao-Qing Yang (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), Peter J Chupas, Karena W Chapman (X-ray Science Division, Advanced Photon Source, Argonne National Laboratory, IL 60439, USA), and Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK, Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


935

16:40

936

17:00

937

Controlling Conversion Reactions With Multilayer Electrodes – Timothy Fister, Paul Fenter, Bing Shi (Argonne National Laboratory), Xiao Chen, Michael Bedzyk (Northwestern University), Jennifer Esbenshade (University of Illinois, UrbanaChampaign), Brandon R Long (University of Illinois, Urbana-Champaign, Argonne National Laboratory), and Andrew Gewirth (University of Illinois, Urbana-Champaign) Ethylene Carbonate Decomposition On LiMn2O4 (111) Surface – Nitin Kumar (University of Michigan, Sandia National Laboratories), Kevin Leung (Sandia National Laboratories), and Donald Siegel (University of Michigan) Atomic-Level Real-Time Observation of Crystal Growth and Evaporation in LiFePO4 at High Temperature – Sung-Yoon Chung (Korea Adv Institute of Sci & Tech (KAIST))

943

944

945

946

947

948

949

950

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Interfacial Processes Poster – 18:00 – 20:00 Co-Chair(s): Yangchuan Xing and Nina Balke •

938

939

940

941

942

A Novel Ionic Host Solid Electrolyte Interface Formation On Reduced Graphene Oxide of Lithium Ion Battery – Fu-Ming Wang (National Taiwan University of Science and Technology) PES/XPS Studies of the Interface Chemistry in PEO-Based Polymer Electrolyte Lithium Ion Batteries – Chao Xu (Department of Chemistry - Ångström, Uppsala University) A Simple Method of Electrochemical Lithium Intercalation Within Graphite From a Propylene Carbonate-Based Solution – Soon-Ki Jeong (Soonchunhyang University), Hee-Youb Song, Seong In Kim (Kyoto University), Takeshi Abe (Graduate School of Engineering, Kyoto University), Woo Sung Jeon (Samsung Advanced Institute of Technology (SAIT)), Ri-Zhu Yin (Samsung SDI), and Yang Soo Kim (Korea Basic Science Institute) AC Impedance Spectroscopic Study of Electrodeposition Process of Lithium Metal – Hiroko Kuwata, Masaki Matsui, and Nobuyuki Imanishi (Mie University) A Phase Field Model To Simulate Transport At The Electrode/Electrolyte Interface – Debashis Kar and David M Saylor (Division of Chemistry and Materials Science, Office of Science and Engineering Laboratories, Center for Devices and Radiological Health, US Food and Drug Administration)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Thin Layers of Cu2o On ThreeDimensional Copper Current Collectors for Li-Ion Microbatteries – Mario Valvo, David Rehnlund (Department of Chemistry-Ångström Laboratory, Uppsala University), Ugo Lafont (Novel Aerospace Materials – Aerospace Engineering, Delft University of Technology), Maria Hahlin (Department of Chemistry-Ångström Laboratory, Uppsala University), Kristina Edström (Department of Chemistry Ångström Laboratory, Uppsala University), and Leif Nyholm (Department of Chemistry-Ångström Laboratory, Uppsala University) In Situ Light Microscopy On Lithium Plating and Dendrite Growth: New Insights Into An Old Problem – Jens Steiger (Institute for Applied Materials, Karlsruhe Institute of Technology), Dominik Kramer (Helmholtz Institute Ulm (HIU)), and Reiner Mönig (Helmholtz Institute Ulm (HIU), Institute for Applied Materials, Karlsruhe Institute of Technology) Improving Nano/Micro Porous Silicon Electrode Properties By Ultra-Thin Atomic Layer Deposited (ALD) High-k Oxide Passivation for High Energy Density LiIon Battery Application – Michael Lim, Bongmook Lee, and Veena Misra (North Carolina State University) Understanding the Initial Interfacial Reaction Behavior of Tin-Nickel Battery Anode – Sukhyun Hong, Myeong-Ho Choo (Graduate School of Green Energy Technology), Yo Han Kwon, Sang-Wook Woo, Je Young Kim (LG Chem Ltd.), and Seung-Wan Song (Graduate School of Green Energy Technology, Chungnam National University) Potential Dependence of Electrochemical Behavior of Porous Electrodes for Li-Ion Batteries – Nobuhiro Ogiahra, Yuich Itou, Shigehiro Kawauchi, Tetsuro Kobayashi, and Yoji Takeuchi (Toyota Central R&D Labs, Inc,) Electrochemical and Interfacial Reaction Behavior of High-Voltage LiNi05Co02Mn03O2 Cathode for LithiumIon Batteries – Kyoung-Mo Nam, Yu-Mi Lee (Chungnam National University), Eui-Hyeong Hwang, Young-Gil Kwon (Leechem Co, Ltd.), Dong-Hyun Kang (EMT Co, Ltd.), and Seung-Wan Song (Chungnam National University) Self-Discharge Phenomenon of a High Voltage Li(MnNi)O Spinel Investigated By Raman Spectroscopy – Rita BaddourHadjean, Yosra Dridi, and Jean-Pierre Pereira-Ramos (ICMPE-CNRS) Investigation of LiCoO2 Thin-Film Electrode Using Redox Reaction of Metal Cation – Jun-ichi Inamoto, Kohei Miyazaki, Tomokazu Fukutsuka, and Takeshi Abe (Graduate School of Engineering, Kyoto University)

179

Wednesday, October 30

16:20


951

Influence of Electrolyte, Additives and Cycling Conditions On the Chemistry of the Solid Electrolyte Interphase Layer Formed On a-Si:H Films – Catarina Pereira Nabais (CNRS (UMR 7045)/ Chimie ParisTech, CNRS (UMR7575)/ Chimie Paris Tech), Jolanta Swiatowska, Antoine Seyeux, Sandrine Zanna (CNRS (UMR 7045)/Chimie ParisTech), Michel Rosso, François Ozanam (CNRS (UMR 7643)/Ecole Polytechnique Paris), Aurélien Gohier (Renault Guyancourt France), Michel Cassir Sr (CNRS (UMR7575)/ Chimie Paris Tech), and Philippe Marcus (CNRS (UMR 7045)/Chimie ParisTech)

08:20

1116

08:40

1117

09:00

1118

09:20

1119

Lithium-Ion Batteries

B10 Battery Continental 6, Tower 3, Ballroom Level,

Wednesday, October 30

Hilton San Francisco Union Square

Can LiFePO4 be Aliovalently Doped? – Jishnu Bhattacharya (Northwestern University) and Chris Wolverton (Materials Science and Engineering Department, Northwestern University) Multiscale Modeling of Magnetic Susceptibility of a LiFePO4 Battery – Thomas Kadyk and Michael Eikerling (Simon Fraser University) A Facile Microwave-Assisted Route to Co(OH)2 and Co3O4 Nanosheet for Li-Ion Battery – Gen Chen and Hongmei Luo (New Mexico State University) (2013 ECS Fellow Inductee) Active, Inactive and Passive Electrode Materials in Lithium Ion Batteries – Martin Winter (University of Münster, Institute of Physical Chemistry, MEET - Battery Research Center)

Lithium-Ion Batteries: Anodes 8 - Miscellaneous Systems – 08:00 – 09:40

Lithium-Ion Batteries: Electrolytes 1 - Non-aqueous Systems – 10:00 – 12:20 Co-Chair(s): Marshall C. Smart and Brett L. Lucht

08:00

1120

10:00

1132

08:20

1121

08:40

1122

10:20

1133

10:40

1134

09:00

09:20

1123

1124

Preparation and Electrochemical Performances of TiO2-Graphene Composite As Anode Material for HighPower Lithium Ion Batteries – Quanfeng Dong Sr, Linlin Qin Jr, and Mingsen Zheng Jr (Department of Chemistry,College of Chemistry and Chemical Engineering, Xiamen University, Xiamen 361005, Fujian, China) Electrospun Polymer/Particle Composite Nanofiber Anodes for Li-Ion Batteries – Ethan C Self, Ryszard Wycisk, and Peter N Pintauro (Vanderbilt University) Nanostructure-Surface Modified Cu Thin Film for Lithium-Ion Negative Electrode Application – Gao Liu (Lawrence Berkeley National Laboratory) and Ziyan Zheng (Lawrence Berkeley National Lab) On the Lithiation-Delithiation Process of Carbon-Coated α-Fe2O3 Nanoparticles Obtained From Ferrocene – Adrian Brandt (MEET Battery Research Center, University of Muenster), Florian Winter, Rainer Pöttgen (Institute of Inorganic and Analytical Chemistry, University of Muenster), and Andrea Balducci (University of Muenster- Institute of Physical Chemistry, Battery Research Centre MEET) Activation of Graphite for Low Cost and Fast Chargeable Lithium Ion Batteries – Qian Cheng, Noriyuki Tamura, Sadanori Kuroshima, Mika Horie, Ryota Yuge, and Kentaro Nakahara (NEC Corp Ltd.)

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Li-Ion Batteries: Cathodes 8 - General – 08:00 – 09:40 Co-Chair(s): Yet-Ming Chiang and Robert Kostecki 08:00

180

1115

Controlling Morphology and Enhancing Electrochemical Performance of Cobalt Oxide By Addition of Graphite – Ling Fei and Hongmei Luo (New Mexico State University)

New Nonflammable PerfluoropolyetherBased Electrolytes for Rechargeable Lithium-Ion Batteries – Dominica HC Wong (University of North Carolina at Chapel Hill), Jacob L Thelen (University of California at Berkeley), Yanbao Fu (Lawrence Berkeley National Laboratory), Didier Devaux (Lawrence Berkeley National Lab), Ashish A Pandya (University of North Carolina at Chapel Hill), Vince Battaglia (Lawrence Berkeley National Laboratory), Nitash P Balsara (University of California at Berkeley, Lawrence Berkeley National Lab), and Joseph M DeSimone (University of North Carolina at Chapel Hill, North Carolina State University) Understanding Li+-Carbonate Interaction in Electrolytes With 17o-NMR – Xavier Bogle, Rafeal Vazquez-Reina, Steven Greenbaum (Department of Physics and Astronomy, Hunter College of City University of New York), Arthur Cresce (Electrochemistry Branch, U S Army Research Lab), and Kang Xu (US Army Research Laboratory) A Consideration of Electrolyte Additives for LiNi05Mn15O4/Li4Ti5O12 Lithium-Ion Batteries – Sirong Li (CAS Key Laboratory of Materials for Energy conversion, Department of Materials Science and Engineering,University of Science and Technology of China, Dept of Physics and Atmospheric Science, Dalhousie University), Chunhua Chen (CAS Key Laboratory of Materials for Energy conversion, Department of Materials Science and Engineering,University of Science and Technology of China), Kang Xu (US Army Research Laboratory), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1135

11:20

1136

11:40

1137

12:00

1138

The Use of Methyl Propionate-Based Electrolytes With Additives to Improve the Low Temperature Performance of LiNiCoAlO2-Based Li-Ion Cells – Marshall C Smart (Jet Propulsion Laboratory, California Institute of Technology), Michael R Tomcsi (Quallion, LLC), Larry D Whitcanack, Ratnakumar V Bugga (California Institute of Technology), Mikito Nagata, and Vincent Visco (Quallion, LLC) Perfluoroalkyl-Substituted Ethylene Carbonates:Novel Electrolyte Additives for High-Capacity Lithiumionbatteries – Ye Zhu (Argonne National Laboratory), Matthew D Casselman (Purdue University), Yan Li (Argonne National Laboratory), Alexander Wei (Purdue University), and Daniel P Abraham (Argonne National Laboratory) Investigations On Electrolyte Decomposition During Aging Via Headspace GC-MS – Simon Theil (Zentrum fuer Sonnenenergie und Wasserstoff-Forschung (ZSW)) and Margret Wohlfahrt-Mehrens (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg, 89081 Ulm, Germany) Lithium Alkyl Carbonates: Preparation and Investigation of Stability – Brett L Lucht, Dinesh Chalasani, B S Parimalam (University of Rhode Island), Daniel M Seo (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), Rahul Kadam, and Mengqing Xu (University of Rhode Island)

10:20

10:40

11:00

11:20

11:40

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Anodes 9 - Miscellaneous Systems – 10:00 – 12:20 10:00

1125

High Energy and Power Density TiO2/ Li4Ti5O12 Nanotube Electrodes for 3D Li-Ion Microbatteries – Wei Wei, Gabriel Oltean (Uppsala University), Kristina Edström, Fredrik Björefors (Department of Chemistry - Ångström Laboratory, Uppsala University), and Leif Nyholm (Department of Chemistry-Ångström Laboratory, Uppsala University)

12:00

Electrochemical Quartz Crystal Microbalance Measurements of LithiumAluminum Alloy in a Glyme-Lithium Salt Molten Complex – Nobuyuki Serizawa (Materials Science Research Laboratory, Central Research Institute of Electric Power Industry, Department of Applied Chemistry, Faculty of Science and Technology, Keio University), Shiro Seki, Katsuhito Takei, Hajime Miyashiro (Materials Science Research Laboratory, Central Research Institute of Electric Power Industry), Yasushi Katayama (Department of Applied Chemistry, Faculty of Science and Technology, Keio University), Masayoshi Watanabe (Department of Chemistry and Biotechnology, Yokohama National University), and Takashi Miura (Department of Applied Chemistry, Faculty of Science and Technology, Keio University) 1127 Facile, Mild and Green Synthesis of Zn2GeO4/Graphene Oxide Nanocomposite With Superior Electrochemical Performance – Feng Zou, Xianluo Hu, and Yunhui Huang (School of Materials Science and Engineering, Huazhong University of Science and Technology) 1128 Applications of Stabilized Lithium Metal Powder (SLMP) in Lithium-Ion Batteries – Zhihui Wang, Vince Battaglia, and Gao Liu (Lawrence Berkeley National Laboratory) 1129 In Situ Synchrotron XRD Investigation On Hydrogenation Process of Rutile Nanorods for Lithium Ion Batteries – Jingxia Qiu and Shanqing Zhang (Griffith University) 1130 Localized in-Situ Study of Lithium-Ion Transport in Graphene-Based Electrodes By Scanning Probe Microscopy – Yongjie Wang, Hyeongjoo Moon, and Min Hwan Lee (University of California, Merced) 1131 In Situ Electrochemical Quartz Crystal Admittance (EQCA) Methodology for in-Situ Studies of Unique Transport Phenomena in Porous Carbon Electrodes and Insertion Electrodes – Doron Aurbach, Mikhael D Levi (Bar-Ilan University), Sergey Sigalov, Gregory Salitra (Department of Chemistry, Bar-Ilan University, Israel), and Leonid Daikhin (School of Chemistry, Tel-Aviv University) 1126

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Electrolytes 2 - Non-aqueous Systems – 14:00 – 15:40 Co-Chair(s): Jeff Dahn and T. Richard Jow 14:00

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

1139

The Impact of Electrolyte Additives Determined Using Isothermal Microcalorimetry – Laura Downie, Kathlyne Nelson (Dept of Physics and Atmospheric Science, Dalhousie University), Vincent Chevrier (3M Corporate Research Laboratory), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University)

181

Wednesday, October 30

11:00


Wednesday, October 30

14:20

1140

14:40

1141

15:00

1142

15:20

1143

The Use of Methyl Butyrate-Based Electrolytes With Additives to Enable the Operation of Li-Ion Cells With High Voltage Cathodes Over a Wide Temperature Range – Frederick C Krause, Constanza Hwang, Ratnakumar V Bugga (California Institute of Technology), Marshall C Smart (Jet Propulsion Laboratory, California Institute of Technology), Dennis W McOwen, and Wesley A Henderson (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University) Improved Performance of Graphite/ LiNi05Mn15O4 Cells With Electrolyte Additives – Brett L Lucht (University of Rhode Island), Arnd Garsuch (BASF SE), Mengqing Xu, and Liu Zhou (University of Rhode Island) Manganese Trapping By Polymeric Macrocycles in Li-Ion Batteries: What Works, What Doesn’t, and Why – Zicheng Li (Optimal CAE), Timothy J Fuller (General Motors Powertrain), Allen Pauric, Zejia Yan (McMaster University), Nicole Ellison, Michael P Balogh (General Motors Global R&D), Joseph M Ziegelbauer (General Motors Powertrain), Nicholas P Irish (General Motors Global R&D), Gillian R Goward (McMaster University), and Ion C Halalay (General Motors Global R&D) High Precision Studies On a Family of Borate Electrolyte Additives – Nupur Nikkan Sinha, Chris Burns (Dalhousie University - Dept of Physics and Atmospheric Science), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University)

14:40

1146

15:00

1147

15:20

1148

15:40

1149

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Battery: Anode 10 - Miscellaneous Systems – 14:00 – 16:00 14:00

14:20

182

1144

1145

Electrochemical in-Situ Raman Spectroscopic Studies At the Lithium Ion Active Material Particle Surface During the Charge-Discharge Processes – Tadashi Awatani, Ritsuko Kitano, Hideto Imai, Jiping Ye, and Takashi Matsumoto (NISSAN ARC Ltd.) Fabrication of Copolymer-Embedded Titania Nanotubes As a Negative Electrode for 3D Li-Ion Microbatteries – Nareerat Plylahan (Aix Marseille University), Nana Amponsah Kyeremateng, Manon Letiche, Maissa Barr (Aix Marseille University, CNRS, LP3 UMR 7341, 13288, Marseille, France), Frederic Dumur (Aix Marseille University, CNRS, ICR UMR 7273, 13397, Marseille, France), Philippe Knauth (Aix Marseille University, CNRS, MADIREL UMR 7246, 13397, Marseille, France), and Thierry Djenizian (Aix Marseille University, Alistore ERI, CNRS FR3104)

Electrochemical Behavior of Titania Nanotubes in Organic Carbonate and Ionic Liquid Based Li Ion Containing Electrolytes – Svetlozar Dimitrov Ivanov, Lin Cheng (Ilmenau University of Technology, Department of Electrochemistry and Electroplating), Hendrik Wulfmeier, Daniel Albrecht, Holger Fritze (Clausthal University of Technology, Institute of Energy Research and Physical Technologies), and Andreas Bund (Ilmenau University of Technology, Department of Electrochemistry and Electroplating) Novel Porous Nano-Sized Materials Development for Lithium Ion Battery Anode Application – Junwei Wu (School of Materials Science and Engineering, Harbin Institute of Technology Shenzhen Graduate School, Shenzhen, 518055, China, Shenzhen Key Laboratory of Advanced Materials, Shenzhen, 518055, China), Chenqiang Du (Department of Applied Chemistry, School of Chemical Engineering and Technology, Tianjin University, Tiianjin 300072, China), Yanhui Cui, and Andrew Baker (School of Materials Science and Engineering, Harbin Institute of Technology Shenzhen Graduate School, Shenzhen, 518055, China, Shenzhen Key Laboratory of Advanced Materials, Shenzhen, 518055, China) Mesoporous Lithium Titanate - Carbon Composite With Controlled Microstructure – Ching-Kit Ho, Hoi Yung, Ming Zhou, Vanessa Chi-Ying Li, and Kwong-Yu Chan (The University of Hong Kong) Anatase TiO2 Colloidal Nanocrystal-Based Architectures: Models to Assess the Role of Porosity and Nanocrystal Morphology in Li Battery Electrode – Natacha Krins (Lawrence Berkeley National Laboratory), Raffaella Buonsanti (The Molecular Foundry, Lawrence Berkeley National Laboratory), Chunjoong Kim, Teresa Pick, Thomas Richardson (Lawrence Berkeley National Laboratory), Brett A Helms (The Molecular Foundry, Lawrence Berkeley National Laboratory), Jordi Cabana (Lawrence Berkeley National Laboratory), and Delia J Milliron (The Molecular Foundry, Lawrence Berkeley National Laboratory)

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Electrolytes 3 - Non-aqueous Systems – 16:00 – 18:00 Co-Chair(s): Kang Xu and Wesley A. Henderson 16:00

1150

The Effect of Some Electrolyte Additives On LiCoO2/Graphite Pouch Cells – Remi Petibon (Dalhousie University - Dept of Chemistry), Eric Courtney Henry, Nupur Nikkan Sinha, Chris Burns (Dalhousie University - Dept of Physics and Atmospheric Science), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1151

16:40

1152

17:00

17:20

1153

1154

Long Term Cycling Performance of HighCapacity Lithium-Ion Full Cells With Lidfob- and Libob- Electrolyte Additives – Yan Li (University of Rochester), Ye Zhu, Martin Bettge (Argonne National Laboratory), James CM Li (University of Rochester), and Daniel P Abraham (Argonne National Laboratory) Transport Property Measurements for LiPF6 in EC:DEC (1:1) – Amal Mehrotra and Venkat Srinivasan (Lawrence Berkeley National Laboratory) Mixed Litfsi and Libob Salts for HighTemperature LiFePO4-Based Lithium-Ion Battery – Xilin Chen, Wu Xu (Pacific Northwest National Laboratory), Yaohui Zhang (Pacific Northwest National Laboratory, Harbin Institute of Technology), Jianming Zheng, Eduard N Nasybulin, and Ji-Guang Zhang (Pacific Northwest National Laboratory) Solution Structure/Properties of NitrileLithium Bis(fluorosulfonyl)Imide (LiFSI) Electrolytes for Li-Ion Batteries – SangDon Han (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), Oleg Borodin (US Army Research Laboratory), Daniel M Seo (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), Zhi-Bin Zhou (Huazhong University of Science and Technology), and Wesley A Henderson (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University)

17:00

1158

17:20

1159

17:40

1160

18:00

1161

Polymer Electrolyte Fuel Cells 13

Industrial Electrochemistry and Electrochemical Engineering / B11 Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Continental 2, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Anode 11 - Miscellaneous Systems – 16:00 – 18:20 16:00

16:20

16:40

Structural Transformation of Conversion FeO07F13/C nanocomposite Electrode Upon Lithiation/Delithiation – Mahsa Sina (Rutgers University, Department of Materials Science & Engineering), Nathalie Pereira, Glenn Amatucci (Rutgers University, Energy Storage Research Group, North Brunswick, New Jersey), and Frederic Cosandey (Rutgers University, Department of Materials Science & Engineering) 1156 Nanastructured H2Ti8O17 Nanoarrays As Three-Dimensional Anodes for LithiumIon Batteries – Zhongwei Chen, Jinyun Liao (University of Waterloo), and Xingcheng Xiao (General Motors R&D Center) 1157 GeO2-Sncoc Composite Anode Material for Lithium Batteries: Li Insertion and De-Insertion Study – Ali Abouimrane (Chemical Sciences and Engineering

1155

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Division, Argonne National Laboratory), Bo Liu (Argonne National Laboratory), Mahalingam Balasubramanian (Advance Photon Source, Argonne National Laboratory), Yang Ren (X-ray Science Division, Argonne National Laboratory), Zhigang Fang (University of Utah), and Khalil Amine (Chemical Sciences and Engineering Division, Argonne National Laboratory) The Structure and Morphology of TiO2-B Nanoparticles – Yuri Andreev (University of St Andrews), Pooja Panchmatia (University of Huddersfield), Zheng Liu (University of St Andrews), Stephen Parker, M Saiful Islam (University of Bath), and Peter Bruce (University of St Andrews) Direct Spark Plasma Erosion Synthesis of High Performance Tin and Silicon Alloy Nano-Particulate Materials for Lithium Ion Batteries – Emma Marie Hamilton White, Lisa Rueschhoff, Jordan Vetter, Steve W Martin (Iowa State University), and Iver E Anderson (Iowa State University, Ames Laboratory (USDOE)) Electrochemical Activity of Carbon Blacks in LiPF6-Based Organic Electrolytes – Jaroslaw Syzdek (Lawrence Berkeley National Laboratory), Marek Marcinek (Warsaw University of Technology Faculty of Chemistry), and Robert Kostecki (Lawrence Berkeley National Laboratory) Ni-Si Nanowires As An Anode Material for Lithium Ion Batteries – Ozgul Keles and Deniz Billur Polat (Istanbul Technical University)

B-21 Miscellaneous Systems Talks – 08:00 – 11:20 08:00

1368

08:20

1369

Impact of Structural Plastics as Balance of Plant Components on Polymer Electrolyte Membrane Fuel Cell Performance – Paul Taichiang Yu, Eric A Bonn, and Balsu Lakshmanan (General Motors Company) Electrochemical Characterization of Hydrogen Pump With Internal Humidifier and Dead-End Anode Channel – Kohei Ito, Yan Ming Hao (Kyushu University), Hironori Nakajima (Department of Mechanical Engineering, Faculty of Engineering, Kyushu University), Hiroshi Yoshizumi (Kyushu University), and Kazunari Sasaki (International Institute for Carbon-Neutral Energy Research (WPII2CNER), Kyushu University)

183

Wednesday, October 30

16:20


08:40

09:00

Wednesday, October 30

09:20

1370

1371

1372

09:40 10:00 1373

10:20

1374

10:40

1375

184

Mesoporous Niobium-Doped TiO2 Support for Oxygen Evolution Catalyst in SPE Water Electrolyzer – Chuanpu Hao (Clean Energy Automotive Engineering Center, Tongji University, School of Automotive Studies, Tongji University), Hong Lv (Clean Energy Automotive Engineering Center), Bing Li (School of Automotive Studies), and Jianxin Ma (Clean Energy Automotive Engineering Center, Tongji University) A Comprehensive Corrosion Study On Metallic Materials for HT-PEFC Application – Vitali Weissbecker, Uwe Reimer, Klaus Wippermann (Forschungszentrum Jülich GmbH, Institute of Energy and Climate Research IEK-3: Electrochemical Process Engineering), and Werner Lehnert (Modeling in Electrochemical Process Engineering, RWTH Aachen University, Germany, Forschungszentrum Jülich GmbH, Institute of Energy and Climate Research IEK-3: Electrochemical Process Engineering) Effect of Compression Cycling On High-Temperature Polymer Electrolyte Membrane Fuel Cells – Francisco Javier Pinar, Maren Rastedt, Nadine Bruns, Anja Diedrichs, and Peter Wagner (NEXT ENERGY • EWE Research Centre for Energy Technology) Intermission Development and Optimization of a Novel PEM Fuel Cell Using Printed Circuit Board Technology – Oluwamayowa Obeisun (Electrochemical Innovation Lab, University College London, Torrington Place, London WC1E 7JE, UK), Cynthia Attingre (Chemistry Department, Imperial College London, South Kensington London SW7 2AZ, UK), Flora Ashley Daniels, James Robinson, Thomas Mason (Electrochemical Innovation Lab, University College London, Torrington Place, London WC1E 7JE, UK), Christopher Gibbs (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK), Anthony Robert Kucernak (Imperial College London), and Dan J L Brett (Electrochemical Innovation Lab, University College London, London, WC1E 7JE, UK) Performance and Durability of HT-PEM Fuel Cells – Gary W Yeager, Krishnan Lakshmi (GE Global Research Center), Hans A Hjuler, and Thomas Steenberg (Danish Power Systems) Affect of Feature Dimensions On PEM Fuel Cell Performance Under Flow Fields Capable of Switching Between Parallel and Interdigitated Configurations – Anthony Santamaria, Nathanial Cooper, Maxwell Becton, and Jae Wan Park (University of California, Davis)

11:00

1376

A Study of the Durability and Performance of a Proton Exchange Membrane Electrode Assembly Used in the Separation of Hydrogen From Helium – Michael Angelo, Keith Bethune, and Richard Rocheleau (Hawaii Natural Energy Institute, University of Hawaii - Manoa)

Golden Gate 5, Tower 3, Lobby Level, Hilton San Francisco Union Square E-21 Alkaline Oxygen Catalysis – 08:00 – 11:40 Co-Chair(s): Yannick Garsany and Jin Suntivich 08:00

1377

08:40

1378

09:00

1379

09:20

1380

09:40 10:00 1381

10:20

1382

10:40

1383

Trend in Oxygen Reduction Reaction on Transition Metal Oxide Surfaces – Jin Suntivich (Cornell University) and Yang Shao-Horn (Massachusetts Institute of Technology) Templated Non Precious Cathode Catalysts Prepared By Transition Metal and Poly(ethyleneimine) for Oxygen Reduction Reaction in Alkaline Electrolyte – Jingjing Shi, Pang Xu (Donghua University), Mingfu Zheng (Zhejiang Geely Automotive CO,LTD), and Yuyu Liu (Graduate School of Environmental Studies, Tohoku University) “Sandwich-structure” Nanocomposites of Graphene Nanosheets and Alkaline Exchange Ionomer As Superior Catalyst Supporting Materials for Alkaline Exchange Membrane Fuel Cells – Lin Zeng and Tianshou Zhao (The Hong Kong University of Science and Technology) The Role of Heat Treatment in Enhanced Activity of Manganese Oxides for the Oxygen Reduction and Evolution Reactions – Yelena Gorlin (Stanford University, TUM), Dennis Nordlund (Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory), and Thomas Francisco Jaramillo (Stanford University) Intermission Electrocatalysis of Oxygen Reduction Reaction On Nitrogen-Doped Graphene in Alkaline Media – Merilin Vikkisk, Ivar Kruusenberg (Institute of Chemistry, University of Tartu), Urmas Joost, Eugene Shulga, Ilmar Kink (Institute of Physics, University of Tartu), and Kaido Tammeveski (Institute of Chemistry, University of Tartu) Prussian Blue Cubes Dispersed On Carbon As a Non-Precious Oxygen Reduction Catalyst for Alkaline Fuel Cell – Jakkid Sanetuntikul (Daegu Gyeongbuk Institute of Science & Technology (DGIST)) and Sangaraju Shanmugam (DaeguGyeongbuk Institute of Science & Technology (DGIST)) Oxygen Reduction On Pt/[TaOPO4/VC], Pt/[NbOPO4/VC], Pt/[Ta2O5/VC], and Pt/ [Nb2O5/VC] Electrocatalysts in Alkaline Electrolyte – Yannick Garsany (EXCET Inc), Albert Ephsteyn (US Naval Research Laboratory), and Karen Swider-Lyons (Naval Research Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1384

11:20

1385

Electrochemical Properties and Electronic Structure of Crystallographically Oriented Ag100-XPtx Thin Films – Charles C Hays (Caltech Jet Propulsion Laboratory), Daniel Konopka (California Institute of Technology), and Michael A Johnson (Hughes Research Laboratories) A Highly Selective Platinum-Free Oxygen Cathode for the Swiss-Roll Mixed-Reactant Direct Borohydride Fuel Cell – Amin Aziznia, Pooya Hosseini Benhangi (UBC), Alexey Serov, Plamen Atanassov (University of New Mexico), Colin W Oloman (UBC), and Elod Gyenge (Department of Chemical and Biological Engineering, The University of British Columbia)

Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-21 Pt-Alloy and Core-Shell Cathode Catalysts 1 – 08:00 – 12:00 Co-Chair(s): Deborah Myers and Branko N. Popov 08:00

08:20

08:40

1395

1396

1397

Post Treatments of Pt-Co/C Catalysts and Their Impact On Performance and Durability – Prasanna Mani, Harmeet Chhina, Emily Hopkins, and Wendy Lee (Automotive Fuel Cell Cooperation Corporation) Probing Structural Changes of Pt3co Nanocatalysts By Eels and Ex/in Situ XAS Measurement – Julien Durst (Laboratoire d’Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5279 CNRS/Grenoble-INP/U de Savoie/U Joseph Fourier, BP75, 38402 St Martin d’Hères, France, Technical University of Munich), Miguel Lopez-Haro, Pascale Bayle-Guillemaud (CEA, SM/INAC/ SP2M/LEMMA, Service de Physique des Matériaux et des Microstructures, 17, Rue des Martyrs, 38054 Grenoble, France), Laure Guetaz (CEA, LITEN, Département de l’Electricité et de l’Hydrogène pour les Transports, Laboratoire des Composants PEM, 17, Rue des Martyrs, 38054 Grenoble, France), Yvonne SoldoOlivier, Marian Chatenet, and Frederic Maillard (Laboratoire d’Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5279 CNRS/ Grenoble-INP/U de Savoie/U Joseph Fourier, BP75, 38402 St Martin d’Hères, France) Manufacturing and Stabilization of PtCo/C Cocatalysts for PEM Fuel Cells – Christoph Grimmer, Alexander Schenk, Birgit Elvira Pichler (Institute of Chemical Engineering and Environmental Technology, Graz University of Technology, Inffeldgasse 25/C/II, 8010 Graz, Austria), Markus Perchthaler (elcomax GmbH), and Viktor Hacker (Institute of Chemical Engineering and Environmental Technology, Graz University of Technology, Inffeldgasse 25/C/II, 8010 Graz, Austria)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

09:00

1398

09:20

1399

09:40 10:00 1400

10:20

1401

10:40

1402

11:00

1403

11:20

1404

Enhanced Activity and Durability for the Oxygen Reduction Reaction On High Surface Area Multimetallic Aerogels – Mehtap Oezaslan (Paul Scherrer Institut), Céline Bonnaud (Paul-Scherrer Institut), Paramaconi Benito Perez Rodriguez (The University of Birmingham and Paul Scherrer Institut), Wei Liu, Anne-Kristin Herrmann, Nikolai Gaponik, Alexander Eychmüller (TU Dresden; Physical Chemistry), Ruediger Koetz, and Thomas J Schmidt (Paul Scherrer Institut) Catalytic Activity of PrNixCo1-XO3 Graphene nanocomposites for Sustainable Energy Application – Matthew Schrandt (South Dakota School of Mines and Technology), Praveen Kolla (SDSM&T), and Alevtina Smirnova (South Dakota School of Mines and Technology) Intermission The Effects of Polymer Electrolyte Fuel Cell Fabrication On Pt and Pt Alloy Electrocatalysts – Deborah Myers, Nancy Kariuki, and Xiaoping Wang (Argonne National Laboratory) Mesostructured Multimetallic Thin Films As Electrocatalysts for Fuel Cells – Joshua David Snyder (Argonne National Lab), Yijin Kang, Dongguo Li, Nenad M Markovic (Argonne National Laboratory), and Vojislav R Stamenkovic (Argonne National Lab) Development of Ultra-Low Loading Pt Alloy Cathode Catalyst for PEM Fuel Cells – Branko N Popov, Tianyuan Xie, Taekeun Kim, Won-Suk Jung, Joseph C Rotchford, Akos Kriston (University of South Carolina), Hansung Kim (Yonser University), and Prabhu Ganesan (University of South Carolina) in Situ Electrochemical XAFS Study On ORR Activity and Degradation Behavior of Core-Shell Catalyst – Xiaoming Wang, Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Yuki Takesue (Chiba University), Hideo Inoue (Ishifuku Metal Industry Limited Company), Masashi Nakamura (Chiba University), Taketoshi Minato (Office of Society-Academia Collaboration for Innovation, Kyoto University), Nagahiro Hoshi (Chiba University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) Change in ORR Activity of Pd Core/Pt Shell Structured Catalyst With Potential Cycling Durability Test – Hideo Daimon (Faculty of Science and Engineering, Doshisha University), Naoya Aoki (Ishifuku Metal Industry), Ken Nakamura, Akira Shirai (Doshisha University), Takehito NIshikawa, and Yuta Ikehata (Faculty of Science and Engineering, Doshisha University)

185

Wednesday, October 30

11:00


11:40

1405

Flame Based Synthesis of Core-Shell Structures Using Pd-Ru and Pd Cores Prepared From the Vapor Phase With Reactive Spray Deposition Technology – Justin Michael Roller (Center for Clean Energy Engineering, Department of Materials Science and Engineering at the University of Connecticut), Radenka Maric (Department of Materials Science and Engineering at the University of Connecticut, Center for Clean Energy Engineering), Haoran Yu (Department of Chemical and Biomolecular Engineering at the University of Connecticut, Center for Clean Energy Engineering), Miomir Vukmirovic (Chemistry Department, Brookhaven National Laboratory), C Barry Carter (Department of Materials Science and Engineering at the University of Connecticut, Department of Chemical and Biomolecular Engineering at the University of Connecticut), and Radoslav Adzic (Chemistry Department, Brookhaven National Laboratory)

10:00

1390

10:40

1391

11:00

1392

11:20

1393

11:40

1394

Golden Gate 4, Tower 3, Lobby Level, Hilton San Francisco Union Square C-21 Membrane Elaboration and Characterisation – 08:00 – 12:00 Co-Chair(s): Deborah J. Jones and Peter N. Pintauro

Wednesday, October 30

08:00

1386

08:40

1387

09:00

1388

09:20

1389

09:40

186

Pre-Stretched Recast PFSA Films for PEM Fuel Cells – Peter N Pintauro, Angela Zhang, Ryszard Wycisk (Vanderbilt University), Remington Fischer Fischer (Vanderbilt University, Vanderbilt University), Naveed Bakh, and Jun Lin (Vanderbilt University) NMR Investigation of Water Diffusion in a Nafion membrane Under Traction – Jean-Christophe Perrin, Mathieu Klein, Sébastien Leclerc (LEMTA CNRS), Laouès Guendouz (IJL CNRS), Jérôme Dillet, and Olivier Lottin (LEMTA CNRS) Hybrid Organic-Inorganic Membranes Synthesized Via Electrospinning and Sol-Gel Chemistry Proton Transport Characterized By Electrochemical Impedance Spectroscopy – Leslie Dos Santos (Laboratoire Interfaces et Systèmes Electrochimique, Laboratoire de Chimie de la Matière Condensée de Paris, Collège de France), Ozlem Sel, Hubert Perrot (CNRS - UPMC), and Christel LabertyRobert (Laboratoire Chimie de la Matière Condensée de Paris, UMR UPMC-CNRS 7574, Université Pierre et Marie Curie (Paris VI), Collège de France) Controlling Protonic Conductivity in Layer-By-Layer Assembled Thin Films Through the Use of Multivalent Salts for Fuel Cell Applications – David S Liu (Massachusetts Institute of Technology, Massachusetts Institute of Technology) and Paula T Hammond (Massachusetts Institute of Technology) Break

Solvation and Gelation Process of Nafion – Yu Seung Kim, Andrea Labouriau, Cynthia Welch, Rex Hjelm, and Nathan Mack (Los Alamos National Laboratory) Physical Theory of Ionomer Aggregation in Water – Pierre-Éric Alix Melchy (Simon Fraser University, Department of Chemistry) and Michael Eikerling (Simon Fraser University) Sulfonated Poly(pentafluorostyrene) – Vladimir Milanov Atanasov (ICVT) and Jochen A Kerres (University of Stuttgart, Institute of Chem Proc Eng) Design and Modeling of High Temperature Water Free Proton Exchange Membranes in DEA PEMFC Operations – Lale Isikel Sanli, Selmiye Alkan Gursel, and Serhat Yesilyurt (Sabanci University) Structure and Conduction Properties of Polyimide-Poly (Ethylene Glycol) Materials for Fuel Cell Membrane Applications – Elyse Coletta (Stanford University), Michael Toney (Stanford Synchrotron Radiation Laboratory), and Curtis Frank (Stanford University)

Continental 1, Tower 3, Ballroom Level, Hilton San Francisco Union Square A-21 Catalyst Layer 1 – 08:20 – 12:00 Co-Chair(s): Mathew M. Mench and Lorenz Gubler 08:20

Effect of Confinement On Structure, Water Solubility, Water Transport and Mechanical Properties in Nafion Thin Films – Kirt Page, Sangcheol Kim, Brandon Rowe (Materials Science and Engineering Division, NIST), Joseph Dura (Center for Neutron Research, NIST), Christopher Soles (Materials Science and Engineering Division, NIST), Kevin Yager (Center for Functional Nanomaterials, Brookhaven National Laboratory), Ahmet Kusoglu (Electrochemical Technologies Group, Lawrence Berkeley National Laboratory), and Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory) 09:00 1407 Characterization and Performance of Catalyst Layers Prepared By Inkjet Printing Technology – Madhu S Saha, Mickey Tam, Viatcheslav Berejnov, Darija Susac, Scott McDermid (Automotive Fuel Cell Cooperation Corp), Adam P Hitchcock (McMaster University), and Juergen Stumper (Automotive Fuel Cell Cooperation Corporation) 09:20 1408 Improving MEA Kinetic Performance Through Removing Nafion Ionomer Binders in a Catalyst Layer – Jian Xie (Indiana University-Purdue University (IUPUI)) 1409 Structure-Property-Performance 09:40 Correlations - Towards Rational Catalyst Layer Design – Juergen Stumper (Automotive Fuel Cell Cooperation Corporation) Intermission 10:00 1406

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1410

10:40

1411

11:00

1412

11:20

1413

11:40

1414

Effect of PEFC Water Management On Oxygen Transport Resistance in UltraLow Loading Catalyst Layer – AK K Srouji, Lijuan Zheng (The Pennsylvania State University), Robert Dross (Nuvera Fuel Cells Inc), and Mathew M Mench (Electrochemical Energy Storage and Conversion Laboratory, Department of Mechanical, Aerospace and Biomedical Engineering, University of Tennessee) Characterization of Thin Ionomer Layers – David A Cullen (Oak Ridge National Laboratory), Roland Koestner, Ratan S Kukreja (General Motors), Sergiy Minko, Oleksandr Trotsenko, Alexander Tokarev (Clarkson University), Harry M Meyer III (ORNL), and Karren L More (Oak Ridge National Lab) Effect of Ionomer On Mass Transfer of PEFC Catalyst Layer and Design of Optimal Structure – Gen Inoue (Kyoto University, Kyoto University) and Takahiro Matsuoka (Kyushu University) CV or not CV: Development of Electrode Diagnostics for High-Temperature Polymer Electrolyte Fuel Cells – Tom Engl, Kay Waltar, Lorenz Gubler (Electrochemistry Laboratory, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland), and Thomas J Schmidt (Paul Scherrer Institut) In Situ, Ionic Conductivity Measurement of Ionomer/Binder-Free Pt Catalyst Under Fuel Cell Operating Condition – Seong Jin An and Shawn Litster (Carnegie Mellon University)

Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-22 Pt-Alloy and Core-Shell Cathode Catalysts 2 – 14:00 – 18:00 Co-Chair(s): Hideo Daimon and Frederic Maillard 14:00

1437

14:20

1438

Ru@Pt Core-Shell Catalysts for the Oxygen Reduction Reaction (ORR), a New Framework for Tuning Binding Energies – Ariel Jackson (Stanford University), Venkatasubramanian Viswanathan (Stanford University, SUNCAT Center for Interface Science and Catalysis), Arnold J Forman (Stanford University), Jens Nørskov (Stanford University, SUNCAT Center for Interface Science and Catalysis), and Thomas Francisco Jaramillo (Stanford University) Au-Ni@Pt Electrocatalysts for the Oxygen Reduction Reaction: Structural Effects of Cores – Guangyu Chen (School of Chemical Engineering and Technology, Harbin Institute of Technology, Chemistry Department, Brookhaven National Laboratory), Kurian Kuttiyiel, Kotaro Sasaki, David Buceta (Chemistry Department, Brookhaven National Laboratory), Geping Yin (School of Chemical Engineering and Technology, Harbin Institute of Technology), and Radoslav Adzic (Chemistry Department, Brookhaven National Laboratory)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Core-Shell PtOs As An Efficient Catalyst for Oxygen Reduction Reaction – Boris V Merinov, Ho-Cheng Tsai (California Institute of Technology), Yu-Chi Hsieh (Department of Materials Science and Engineering, National Chiao Tung University, 1001 Ta Hsueh Road, Hsinchu City, Taiwan 300), Ted H Yu (California Institute of Technology), Pu-Wei Wu (Department of Materials Science and Engineering, National Chiao Tung University, 1001 Ta Hsueh Road, Hsinchu City, Taiwan 300), and William A Goddard III (California Institute of Technology) 15:00 1440 Robust and Reliable Oxygen Reduction Activity of Porous Pt-Cu Core-Shell Catalysts – Eric J Coleman and Anne C Co (The Ohio State University) 15:20 1441 Ex-Situ accelerated Stress Tests of Pt/C Cathode Catalysts The Importance of Standard Test Procedures – Patrick Urchaga and Cynthia A Rice (Tennessee Technological University) 1442 Platinum Durability in Cathode Catalyst 15:40 Layers of PEM Fuel Cells: An Ex situ Diagnostics Approach – Patrick Urchaga (Tennessee Technological University), Steven G Rinaldo (Simon Fraser University, Automotive Fuel Cell Cooperation Corporation), Jingwei Hu, Wendy Lee, Juergen Stumper (Automotive Fuel Cell Cooperation Corporation), Michael Eikerling (Simon Fraser University), and Cynthia A Rice (Tennessee Technological University) 16:00 Intermission 16:20 1443 Pt3Co Nanoparticles and Carbon to the Test of PEMFC Operation – Miguel LopezHaro (CEA, SM/INAC/SP2M/LEMMA, Service de Physique des Matériaux et des Microstructures, 17, Rue des Martyrs, 38054 Grenoble, France, Laboratoire d’Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5279 CNRS/Grenoble-INP/U de Savoie/U Joseph Fourier, BP75, 38402 St Martin d’Hères, France), Laetitia Dubau, Luis Castanheira, Julien Durst, Marian Chatenet (Laboratoire d’Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5279 CNRS/ Grenoble-INP/U de Savoie/U Joseph Fourier, BP75, 38402 St Martin d’Hères, France), Pascale Bayle-Guillemaud (CEA, SM/INAC/SP2M/LEMMA, Service de Physique des Matériaux et des Microstructures, 17, Rue des Martyrs, 38054 Grenoble, France), Laure Guétaz (CEA, LITEN, Département de l’Electricité et de l’Hydrogène pour les Transports, Laboratoire des Composants PEM, 17, Rue des Martyrs, 38054 Grenoble, France), and Frederic Maillard (Laboratoire d’Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5279 CNRS/Grenoble-INP/U de Savoie/U Joseph Fourier, BP75, 38402 St Martin d’Hères, France)

14:40

1439

187

Wednesday, October 30

10:20


17:00

17:20

17:40

1444

1445

1446

Modelling-Based Diagnostic Method for Ex Situ Characterization of Pt Degradation – Steven G Rinaldo (Simon Fraser University, Automotive Fuel Cell Cooperation Corporation), Patrick Urchaga (Tennessee Technological University), Wendy Lee, Jingwei Hu (Automotive Fuel Cell Cooperation Corporation), Cynthia A Rice (Tennessee Technological University), Juergen Stumper (Automotive Fuel Cell Cooperation Corporation), and Michael Eikerling (Simon Fraser University) PEM Fuel Cell Catalyst Layer Structure Degradation During Carbon Corrosion – Rod L Borup, Rangachary Mukundan, Joseph D Fairweather, Dusan Spernjak, David A Langlois, John R Davey (Los Alamos National Laboratory), Karren L More (Oak Ridge National Lab), and Kateryna Artyushkova (University of New Mexico) Hydrogen Oxidation Reaction Selective Anode for PEM Fuel Cells – Swami Kumaraguru (General Motors) and Balsu Lakshmanan (General Motors Company)

Golden Gate 5, Tower 3, Lobby Level, Hilton San Francisco Union Square

17:00

1453

17:20

1454

17:40

1455

Continental 1, Tower 3, Ballroom Level, Hilton San Francisco Union Square A-22 Gas Diffusion Layer – 14:00 – 18:00 Co-Chair(s): Adam Z. Weber and Roswitha Zeis 14:00

1415

14:20

1416

14:40

1417

15:00

1418

15:20

1419

15:40

1420

E-22 Direct Oxidation Fuel Cells - Anode Catalysis – 14:00 – 18:00 Co-Chair(s): YuYe Jay Tong and Cynthia A. Rice

Wednesday, October 30

14:00

14:40

15:00

15:20

15:40

1447

1448

1449

1450

1451

16:00 16:20 1452

188

New Mechanistic Insights On Methanol Oxidation Reaction On Pt-Based Electrocatalysts As Seen By in Situ Spectroelectrochemistry – YuYe Jay Tong (Department of Chemistry, Georgetown University) Niobium Doped Titania /CNT Hybrid As Pt Electrocatalyst Support for Methanol Oxidation – Yangchuan Xing, Litao Yan, Yougui Chen, and Kan Huang (Department of Chemical Engineering,University of Missouri-Columbia) Novel 3D Tin Nano Structured Electrodes for Methanol Anodes in Fuel Cells – Alex Schechter (Ariel University), Hanan Teller, and Olga Krichevski (Department of Biological Chemistry, Ariel University) Pd-based Bimetallic Catalysts for Direct Formic Acid Fuel Cells – Shuozhen Hu (Washington State University), Haijun Gao (University of Tennessee), Sheng Dai (Oak Ridge National Laboratory), Louis Scudiero, and Su Ha (Washington State University) Effect of pH On the Electrocatalytic Oxidation of Hcooh/HCOO− On Platinum: A Mechanistic Study – Jiyong Joo, Taro Uchida (Hokkaido University), Angel Cuesta (Instituto de Química Física “Rocasolano”, CSIC), Marc T M Koper (Leiden University), and Masatoshi Osawa (Hokkaido University) Intermission Increase Porosity of Anodes in Direct Formic Acid Fuel Cells – Cynthia A Rice (Tennessee Technological University), Akshay Bauskar (Tennessee Tech

University), Pratiti Mandal, and Shawn Litster (Mechanical Engineering, Carnegie Mellon University) The Effect of Nafion Content On DMFC Electrode Characteristics – Andreas Glüsen, Martin Müller (Forschungszentrum Jülich GmbH, Germany), and Detlef Stolten (Forschungszentrum Jülich GmbH) PtRu/Cu Nws Catalysts for Methanol Oxidation Reaction in Direct Methanol Fuel Cells – Jie Zheng (Department of Chemical and Biomolecular Engineering, University of Delaware) and Yushan Yan (Department of Chemical & Biomolecular Engineering, University of Delaware) Carbon Supported Pd-Pt-Cu Nanocatalysts for Efficient Formic Acid Electrooxidation: Facile Syntheses, Componental Functions and Structural Evolutions – Kun Jiang and Wen-Bin Cai (Department of Chemistry, Fudan University)

16:00

Effective Diffusivity Measurement of Partially-Saturated Diffusion Media – Gi Suk Hwang, Joseph Grant, and Adam Z Weber (Lawrence Berkeley National Laboratory) Design of Experiments to Evaluate Material Characteristics of Porous Transport Layers in Polymer Electrolyte Membrane Fuel Cells – Sarah Flick and Walter Mérida (Clean Energy Research Centre, University of British Columbia, Department of Mechanical Engineering, University of British Columbia) The Impact of Fibre Surface Morphology On the Effective Thermal Conductivity of a PEM Fuel Cell Gas Diffusion Layer – Steven Joseph Botelho and Aimy Bazylak (Thermofluids for Energy & Advanced Materials Lab, University of Toronto) Effect of Gdl Material On Thermal Gradients Along the Reactant Flow Channels in Pemfcs – Evan See and Satish G Kandlikar (Rochester Institute of Technology) PTFE Distribution in High Temperature PEM Electrodes and Its Effect On the Cell Performance – Florian Mack (Helmholtz Institute Ulm (HIU)), Tobias Morawietz, Renate Hiesgen (University of Applied Sciences Esslingen), Dominik Kramer, and Roswitha Zeis (Helmholtz Institute Ulm (HIU)) Measurement Technique of Oxygen Diffusion Resistance Through Gas Diffusion Layer – Hironori Ohira, Katsuhide Kikuchi (NIPPON SOKEN,INC), Atsushi Ida, Joji Tomiyasu (TOYOTA Motor Corp), and Atsushi Yamamoto (TOYOTA Mortor Corp) Intermission

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1421

16:40

1422

17:00

1423

17:20

1424

17:40

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Ice-Crystallization Kinetics During ColdStart of a Proton-Exchange-Membrane Fuel Cell – Thomas J Dursch Jr (University of California, Berkeley, Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory), Jianfeng F Liu, Gregory J Trigub, Clayton J Radke (University of California, Berkeley), and Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory) Novel Characterization Technique for the Hydrophilic/Hydrophobic Properties of a Gdl – Rafael Kuwertz, Thomas Turek, and Ulrich Kunz (Institute of Chemical Process Engineering, Clausthal University of Technology) Visualizing Bubble Flows in Electrolyzer GDLs Using Microfluidic Platforms – Faraz Arbabi (Thermofluids for Energy & Advanced Materials Lab, University of Toronto), Ali Kalantarian (Thermofluids for Energy & Advanced Materials Lab, University of Toronto, Engine Research and Development Laboratory (ERDL), University of Toronto), Rami Abouatallah, Rainey Wang (Hydrogenics Corporation), James Wallace (Engine Research and Development Laboratory (ERDL), University of Toronto), and Aimy Bazylak (Thermofluids for Energy & Advanced Materials Lab, University of Toronto) Highly Conductive and Non-Leached Polybenzimidazole/Carbon NanotubeBased Membrane Electrode Assembly With Remarkable Durability – Mohamed Reda Berber, Tsuyohiko Fujigaya, and Naotoshi Nakashima (Kyushu University, Department of Applied Chemistry) Degradation of Gas Diffusion Layers in PEM Fuel Cells During Drive Cycle Operation – Rangachary Mukundan, John R Davey, Karen Rau, David A Langlois, Dusan Spernjak, Joseph D Fairweather (Los Alamos National Laboratory), Kateryna Artyushkova (University of New Mexico), Ruediger Schweiss (SGL Carbon GmbH), and Rod L Borup (Los Alamos National Laboratory)

Golden Gate 4, Tower 3, Lobby Level, Hilton San Francisco Union Square C-22 Characterising and Mitigating Membrane Degradation – 14:00 – 18:00 Co-Chair(s): Ahmet Kusoglu and Renate Hiesgen 14:00

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Physico-Chemical Modeling of Degradation Phenomena in Polymer Electrolyte Membranes – Mahdi Ghelichi, Pierre-Éric Alix Melchy (Simon Fraser University, Department of Chemistry), and Michael Eikerling (Simon Fraser University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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The Effect of Relative Humidity On Chemical Degradation of Styrene Based Radiation Grafted Membranes in the PEFC – Zhuoxiang Zhang, Yves Buchmüller, Thomas J Schmidt, Alexander Wokaun, and Lorenz Gubler (Electrochemistry Laboratory, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland) Influence of Platinum Precipitation On Properties and Degradation of Nafion® Membranes – Stefan Helmly, Benjamin Ohnmacht (German Aerospace Center (DLR), Institute of Technical Thermodynamics, Institute for Thermodynamics and Thermal Engineering, University of Stuttgart), Renate Hiesgen (University of Applied Sciences Esslingen), Erich Gülzow, and KAndreas Friedrich (German Aerospace Center (DLR), Institute of Technical Thermodynamics) Structurally Tuned Nitrogen Doped Cerium Oxide As a Superior Free Radical Scavenger for Mitigating Polymer Electrolyte Membrane Degradation – Venkateshkumar Prabhakaran (Illinois Institute of technology) and Vijay K Ramani (Illinois Institute of Technology) Modeling the Effect of Chemical Membrane Degradation On PEFC Performance – Randhir Singh (Institute for Integrated Energy Systems and Department of Mechanical Engineering, University of Victoria, BC, Canada), Ka Hung Wong (School of Mechatronic Systems Engineering, Simon Fraser University, Surrey, BC, Canada), PangChieh Sui (Institute for Integrated Energy Systems and Department of Mechanical Engineering, University of Victoria, BC, Canada), Erik Kjeang (School of Mechatronic Systems Engineering, Simon Fraser University, 250-13450 102 Avenue, Surrey, BC V3T0A3 Canada), and Ned Djilali (Institute for Integrated Energy Systems and Department of Mechanical Engineering, University of Victoria, BC, Canada) Break In Situ Observation of Membrane Degradation in PEM Fuel Cell Via Raman Spectroscopy – Xinyu Huang, Hongying Zhao, and William A Rigdon (University of South Carolina) Degradation Induced Changes in StructureProperty Relationship of PerfluorosulfonicAcid (PFSA) Membranes – Ahmet Kusoglu and Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory) A Statistical Mechanical Approach to Model Main Chain Scission in PFSA Ionomer Membranes – Ka Hung Wong and Erik Kjeang (School of Mechatronic Systems Engineering, Simon Fraser University, 250-13450 102 Avenue, Surrey, BC V3T0A3 Canada)

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16:20


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Mechanism of Hydroxyl Radical Attack to Chemical Structure of PFSA Ionomer: A Solid State Q-NMR Study – Lida Ghassemzadeh (Department of Chemistry, Simon Fraser University) and Steven Holdcroft (Simon Fraser University) Empirical Lifetime Prediction Model for Heavy Duty Bus Fuel Cell Membranes – Natalia Macauley (School of Mechatronic Systems Engineering, Simon Fraser University, 250-13450 102 Avenue, Surrey, BC V3T0A3 Canada, Ballard Power Systems), Mark Watson (Ballard Power Systems), Elizabeth Durward (Simon Fraser University, Ballard Power Systems), Joanna Kolodziej, Shanna Knights, Mike Lauritzen (Ballard Power Systems), and Erik Kjeang (School of Mechatronic Systems Engineering, Simon Fraser University, 250-13450 102 Avenue, Surrey, BC V3T0A3 Canada) Study of Anhydrous Proton Conducting Hybrid Proton Exchange Membrane By Phase Mode Atomic Force Microscopy – Osung Kwon, Sang C Lee, D H Lee, A K Sahu, Sangaraju Shanmugam (DaeguGyeongbuk Institute of Science & Technology (DGIST)), M H Kim (Ewha Womans University), and Sam Park (University of Louisville)

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Wednesday, October 30

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square PEFC-13 Poster Session – 18:00 – 20:00 Co-Chair(s): Thomas J. Schmidt and James M Fenton •

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The Influence of the Liquid Water Interaction Between Channel, Gdl and CL On Cell Performance – Toshikazu Kotaka, Yuichiro Tabuchi (EV system laboratory, Nissan research center, NISSAN MOTOR CO, LTD), Ugur Pasaogullari (Department of Mechanical Engineering, University of Connecticut), and Chao-Yang Wang (Electrochemical Engine Center (ECEC) and Department of Mechanical & Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802) The Electrostatic Double Layer of Pt/Water Interfaces From First Principles Molecular Dynamics – Clotilde Silvia Cucinotta, Stefano Sanvito (Trinity College Dublin), and Pietro Ballone (Universita’ di Roma “La Sapienza”) Effect of Perforation Structure of Cathode GDL on Liquid Water Removal in PEFC – Go Okuhata, Takeshi Tonoike, Kosuke Nishida (Kyoto Institute of Technology), Shohji Tsushima, and Shuichiro Hirai (Tokyo Institute of Technology) Effect of Through-Plane Polytetrafluoroethylene Distribution in a Gas Diffusion Layer On a Polymer Electrolyte Unitized Reversible Fuel Cell – Chulmin Hwang, Hiroshi Ito, Tetsuhiko Maeda, Akihiro Nakano (National Institute of Advanced Industrial Science and Technology (AIST)), Atsushi Kato (Takasago Thermal Engineering Co,

Ltd.), and Tetsuya Yoshida (Daiki Ataka Engineering Co, Ltd.) Fabrication of the Carbon Paper by WetLaying of Ozone-Treated Carbon Fibers with Hydrophilic Functional Groups – Hyunuk Kim, Young-Ju Lee, Dong-Chul Lee (Energy Materials and Convergence Research Department, Korea Institute of Energy Research), Gu-Gon Park (Fuel Cell Research Center, Korea Institute of Energy Research), and Yoonjong Yoo (Energy Materials and Convergence Research Department, Korea Institute of Energy Research) Multi-Layered Membrane Electrode Assembly Fabrication By Electro-Spraying – JI-Won Oh (Department of Materials Science and Engineering, Korea University, Seoul 136-701, South Korea), Hyunwoong Na (Department of Materials Science and Engineering, Yonsei University, Seoul 120-749, South Korea), Sahn Nahm (Department of Materials Science and Engineering, Korea University, Seoul 136701, South Korea), Yonghwan Kim, and Hanshin Choi (Korea Institute of Industrial Technology, Incheon 406-840, South Korea) Atomic Force Microscopy Detection of Electronic Short-Circuits in Solid Polymer Electrolytes Fuel Cell Membranes After Accelerated Degradation – Tobias Morawietz, Renate Hiesgen (University of Applied Sciences Esslingen), Stefan Helmly (German Aerospace Center, Institute of Technical Thermodynamics), Ines Galm (University of Applied Sciences Esslingen), and KAndreas Friedrich (German Aerospace Center, Institute of Technical Thermodynamics) Manufacturing Study of Membrane Electrode Assembly With Support-Less Pt Catalysts Using Ultrasonic Spray Technique – Xinyu Huang, William A Rigdon (University of South Carolina), Ying Song, Bob Wynne, and Scott Ferguson (Teledyne Energy Systems, Inc) Oxygen Transport Parameters in Nafion® 117 Under Controlled Relative Humidity – David Novitski (Department of Chemistry, Simon Fraser University), Zhong Xie (Energy, Mines & Environment Portfolio, National Research Council), and Steven Holdcroft (Department of Chemistry, Simon Fraser University, Energy, Mines & Environment Portfolio, National Research Council) Characterization of MEAs Fabricated By a Carbon Support With the NanoChannel Structure – Yasuto Minamida, Xiaojing Zhao (Faculty of Engineering, Kyushu University), Zhiyun Noda, Akari Hayashi (International Research Center for Hydrogen Energy, Kyushu University), and Kazunari Sasaki (Faculty of Engineering, Kyushu University, International Research Center for Hydrogen Energy, Kyushu University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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Oxygen Mass Transfer Coefficient Separation Into Gas and Electrolyte Contributions in PEMFC Gdes – Tatyana V Reshetenko (Hawaii Natural Energy Institute, University of Hawaii - Manoa) and Jean St-Pierre (Hawaii Natural Energy Institute, University of Hawaii) Numerical Analysis of PEMFC Unsteady Performance Considering Water and Thermal Transport – Takanori Fukuda, Akira Sato, and Takuto Araki (Yokohama National University) A Computational Study On the Correlations Between Water Content and Degradation of Polymer Electrolyte Membrane – Haruki Motegi and Masakazu Yoneda (Mizuho Information & Research Institute, Inc) Coupling of Deterministic Contact Mechanics Model and Two-Phase Model to Study the Effect of Catalyst Layer|Microporous Layer Interface On Polymer Electrolyte Fuel Cell Performance – Iryna V Zenyuk (Mechanical Engineering,Carnegie Mellon University), Reyhan Taspinar, Arvind R Kalidindi, Emin Caglan Kumbur (Drexel University), and Shawn Litster (Mechanical Engineering, Carnegie Mellon University) The Water Ventilation Method to Prevent Flooding in Outlet of Polymer Electrolyte Fuel Cell Stack – Chulmin Hwang (Innovation KR co, Ltd.,), Youngguan Jung (Kumoh National Institute of technology), and Dae hum Park (Hyundai Engineering Co, Ltd.,) Self-Humidifying Reinforced Membrane Based On Pt/CeO2 and Nafion With Improved Life Time – Liang Wang, Suresh G Advani, and Ajay K Prasad (University of Delaware) Vertically-Oriented Polymer Electrolyte Nanofiber Catalyst Support for Polymer Electrolyte Fuel Cells – Siddharth Komini Babu (Carnegie Mellon University) and Shawn Litster (Mechanical Engineering, Carnegie Mellon University) Ex-Situ Evaluation of DegradationMitigating Additives for Proton Electrolyte Membrane Fuel Cells – Thomas Weissbach, Lida Ghassemzadeh, Timothy J Peckham, and Steven Holdcroft (Department of Chemistry, Simon Fraser University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Nanosilica Synthesis and Modification for PVDF and Nafion Composite Membranes Used in Power Sources – Man Van Tran (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNUHCM), Vietnam, Applied Physical Chemistry Laboratory, University of Science, VNU-HCM, Vietnam), Nhan Thanh Tran (Applied Physical Chemistry Laboratory, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam), Thoa Thi Phuong Nguyen (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam), and Phung My Loan Le (Department of Physical Chemistry, University of Science, VNUHCM, Vietnam) Quantum Chemical Analysis About Deprotonation Reaction of Sulfonic Group of Perfluorosulfonic Acid Species in the Low Hydration Level – Hironori Sakai and Takashi Tokumasu (Institute of Fluid Science, Tohoku University) Impact of Electrolyte On Protonic Conductivity of Perfluorosulfonic-Acid Membranes – Kyu Taek Cho (Lawrence Berkeley National Laboratory), Karen Sugano (University of Berkeley), Markus S Ding (Institute of Technical Electrochemistry, Technische Universität München), and Adam Z Weber (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory) Optimal Pre-Treatment of Sulfonated Poly(ether ether ketone) Membranes for Decal Processes – Young-Jun Byun, MunSik Shin (Sangmyung University), DongHoon Lee, Han-Moon Cho, Moo-Seok Lee (Kolon Central Research Park), MoonSung Kang, and Jin-Soo Park (Sangmyung University) Proton Conductive Areas On HydrocarbonBased Electrolyte Membranes Analyzed By Current Sensing Atomic Force Microscopy Under a Controlled Hydrogen Atmosphere – Masaya Hara (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Masanori Hara, Junji Inukai (Fuel Cell Nanomaterials Center, University of Yamanashi), Takahiro Miyahara (Kaneka Corporation, Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Takayuki Hoshi (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Kenji Miyatake (Clean Energy Research Center, University of Yamanashi, Fuel Cell Nanomaterials Center, University of Yamanashi), and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi)

191

Wednesday, October 30


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Wednesday, October 30

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Dgeba/Pvph-HEM Semi- IPN for Use As Proton Conductive Membranes – Felipe Augusto Moro Loureiro Sr (DPI/EQ/ UFRJ), Hugo Costa Sr (DPI/EQ, UFRJ), and Ana Maria Rocco (DPI-EQ-UFRJ) Polyethyleneimine-based semiinterpenetrating network membranes for fuel cells – Felipe Augusto Moro Loureiro Sr (DPI/EQ/UFRJ), Robson Pacheco Pereira Sr (DEQ/EQ/UFRJ), and Ana Maria Rocco (DPI-EQ-UFRJ) Molecular Dynamics Study of Oxygen Permeation of Ionomer of Hydrocarbon – Yuta Sugaya (Graduate School of Engineering, Tohoku University,) and Takashi Tokumasu (Institute of Fluid Science, Tohoku University) Preparation and Characterization of Speek/ Silicotunstic Acid/Acid Functionalized Polysilsesquioxane Hybrid Composite Membranes for PEM Fuel Cells – Surasak Seesukphronrarak (Fuel Cell Cutting-Edge Research Center Technology Research Association) Nafion-Azole-H3PO4 Composite Membranes Using Solution Processing for High Temperature Pemfcs – Je-Deok KIM (National Institute for Materials Science (NIMS)), Akira Suzuki (National Intitute for Materials Science (NIMS)), and MunSuk Jun (National Institute for Materials Science (NIMS)) A Novel Nafion-1,2,3 Triazole - H3PO4 Composite Membrane for Non-Humidity Condition and High Temperature PEMFC – Mun-Suk Jun and Je-Deok KIM (National Institute for Materials Science (NIMS)) In Operando Soft X-Ray Emission Spectroscopy of Iron PhthalocyanineBased Oxygen Reduction Catalysts for Polymer Electrolyte Fuel Cells – Hideharu Niwa, Hisao Kiuchi (Department of Applied Chemistry, School of Engineering, the University of Tokyo), Jun Miyawaki, Yoshihisa Harada (The Institute for Solid state Physics, the University of Tokyo, Synchrotron Radiation Research Organization, The University of Tokyo), Masaharu Oshima (Department of Applied Chemistry, School of Engineering, the University of Tokyo, Synchrotron Radiation Research Organization, The University of Tokyo), Yuta Nabae, Kiyoyuki Terakura (Tokyo Institute of Technology), Takashi Ikeda (Japan Atomic Energy Agency), and Tsutomu Aoki (Toshiba Fuel Cell Power System Corporation) Kinetic Study of Oxygen Reduction Reaction On Cobalt-Porphyrin-Modified Electrodes – Sato Shino, Kei Murakoshi, and Katsuyoshi Ikeda (Hokkaido University) Co/N/C Catalysts On a Vertically Aligned Carbon Support for Oxygen Reduction Reaction – Takashi Kawasaki, Masato Aizawa, Reiko Hinogami, and Hisaaki Gyoten (Advanced Technology Research Laboratories, Panasonic corporation)

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Alkaline Membranes Based On Poly(vinyl alcohol) for PEM Fuel Cells – Ondrej Bencik, Michal Musil, Miroslav Kunovjanek, Jiri Subarda, Ladislav Chladil (Department of Electrical and Electronic Technology FEEC, Brno University of Technology), and Vitezslav Novak (Department of Electrical and Electronic Technology FEEC, Brno University of Technology, CEITEC BUT, Brno University of Technology) Synthesis of Durable Nb-TiO2 Support for Pemfcs By Electrospinning – ChoRong Kwon (Fuel Cell Research Center, KIST, Korea University), SungJong Yoo, JongHyun Jang, HyoungJuhn Kim (Fuel Cell Research Center, KIST), JiHyun Kim (Korea University), and EunAe Cho (Fuel Cell Research Center, KIST) Highly Active Tantalum Oxide-Based Electrocatalysts Toward Oxygen Reduction Reaction for PEFC – Naoki Uehara, Akimitsu Ishihara, Yuji Kohno, Koichi Matsuzawa, Shigenori Mitsushima, and Ken-ichiro Ota (Green Hydrogen Research Center, Yokohama Nat Univ) Oxygen-Reduction Reaction Analysis of Zirconium-Oxide Catalysts By Using ECXPS – Masashi Matsumoto, Hideto Imai (NISSAN ARC Ltd.), Takashi Miyazaki (NEC Corporation), Shinji Fujieda (Smart Energy Research Laboratories, NEC Corp), Akimitsu Ishihara, and Ken-ichiro Ota (Green Hydrogen Research Center, Yokohama Nat Univ) Pyrolysis Pressure Dependence of MNC Oxygen Reduction Electrocatalysts – Nathaniel Leonard, Selvarani Ganesan, and Scott Calabrese Barton (Michigan State University) Oxygen Adsorption Characteristics of Nitrogen-Doped Graphite Revealed By N 1s X-Ray Absorption Spectroscopy – Hisao Kiuchi (Department of Applied Chemistry, School of Engineering, the University of Tokyo), Takahiro Kondo, Masataka Sakurai (University of Tsukuba), Hideharu Niwa (Department of Applied Chemistry, School of Engineering, the University of Tokyo), Jun Miyawaki (Synchrotron Radiation Research Organization, The University of Tokyo, The Institute for Solid state Physics, the University of Tokyo), Yoshihisa Harada (The Institute for Solid state Physics, the University of Tokyo, Synchrotron Radiation Research Organization, The University of Tokyo), Takashi Ikeda (Japan Atomic Energy Agency), Zhufeng Hou, Kiyoyuki Terakura (Tokyo Institute of Technology), Junji Nakamura (University of Tsukuba, University of Tsukuba), and Masaharu Oshima (Synchrotron Radiation Research Organization, The University of Tokyo, Department of Applied Chemistry, School of Engineering, the University of Tokyo)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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Development of Titanium Oxycarbonitride (TiCNO)-Based Electrocatalyst for Oxygen Reduction Reaction With High Activity and Stability – Masayuki Yoshimura and Takashi Sato (Institute for Advanced and Core Technology, Showa Denko KK) Stabilization and Activation of Zirconium Oxide Based Electrocatalysts As PEFC Cathode By Re-Heat Treatment – Yohei Okada (Yokohama National University), Akimitsu Ishihara (Green Hydrogen Research Center, Yokohama Nat Univ), Masashi Matsumoto, Masazumi Arao, Hideto Imai (NISSAN ARC Ltd.), Yuji Kohno, Koichi Matsuzawa, Shigenori Mitsushima (Yokohama National University), and Ken-ichiro Ota (Green Hydrogen Research Center, Yokohama Nat Univ) Supercritical Hydrothermal Synthesis of ZrO2/C Cathode Catalyst Without NonPrecious-Metal for PEFCs – Hajime Maki, Yutaka Ito, Saori Omura (Advanced Materials Research Laboratory, Sumitomo Chemical Co, Ltd.), and Ken-ichiro Ota (Green Hydrogen Research Center, Yokohama Nat Univ) Scale-Up Synthesis of Au Core/Pt Shell Structured Catalysts and Their Electrochemical Properties – Yuta Ikehata (Faculty of Science and Engineering, Doshisha University), Naoya Aoki, Hideo Inoue (Ishifuku Metal Industry), Hideo Daimon (Faculty of Science and Engineering, Doshisha University), and Minoru Inaba (Doshisha University) ORR Measurements Reproducibility Using a Rrde – Junjie Ge (Hawaii Natural Energy Institute, University of Hawaii - Manoa), Yannick Garsany (EXCET Inc), Yunfeng Zhai, Jean St-Pierre (Hawaii Natural Energy Institute, University of Hawaii Manoa), and Karen Swider-Lyons (Naval Research Laboratory) Bimodal Pt Synthesized On Heat Treated Carbon Black Support in Arc Plasma Process – Hyunwoong NA (Department of Materials Science and Engineering, Yonsei University, Seoul 120-749, South Korea), JI-Won OH (Department of Materials Science and Engineering, Korea University, Seoul 136-701, South Korea), Youlgwun Ji (Taeyoung Materials Co, Cheongwongun 363-933, Chungchungbuk-do, South Korea), Yongsoo Cho (Department of Materials Science and Engineering, Yonsei University, Seoul 120-749, South Korea), and Hanshin CHOI (Korea Institute of Industrial Technology, Incheon 406-840, South Korea) FC Catalyst With Mesoporous Carbon – Mikihiro Hori, Hisao Kato, Shinichi Matsumoto (TOYOTA MOTOR CORPORATION), and Nobuyuki Nishi (Institute for Molecular Science, Kanazawa University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

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Sol-Gel Syntheses of Durable Metal-Oxide Hybrid Platinum Catalysts for PEFC – Tyler Trefz, Natalia Kremliakova, Darija Susac, and Jasna Jankovic (Automotive Fuel Cell Cooperation Corp) In Situ Vibrational Spectroscopy of Pt Oxides Formation On the Low Index Planes of Pt – Nagahiro Hoshi, Hiroyuki Tanaka, Nanami Sakai, Syunsuke Suzuki, Tetsuya Nakamura, Masashi Nakamura (Chiba University), Seiho Sugawara, Toru Sekiba, Kazuhiko Shinohara (Advanced Materials Laboratory, Nissan Research Center, Nissan Motor Co, Ltd.), and Katsuyoshi Ikeda (Hokkaido University) Electrochemical Properties and Durability of Electrocatalysts Supported on SnO2 – Takuya Tsukatsune, Yuma Takabatake (Department of Hydrogen Energy System, Kyushu University), Zhiyun Noda (International Research Center for Hydrogen Energy, Kyushu University), Akari Hayashi (Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University, International Research Center for Hydrogen Energy, Kyushu University), and Kazunari Sasaki (Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University, International Institute for Carbon-Neutral Energy Research (WPII2CNER), Kyushu University) Electrochemical Properties of Pt Catalysts Supported On Nb-Doped SnO2 with Network Structure – Yuichi Senoo (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi, Corporate R and D Center, Mitsui Mining and Smelting @Co, Ltd.), Yuji Chino (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Katsuyoshi Kakinuma, Makoto Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), Hiroyuki Uchida (Clean Energy Research Center, University of Yamanashi, Fuel Cell Nanomaterials Center, University of Yamanashi), Shigehito Deki, and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Electrochemical Characterization of Pt Catalysts Supported On Nb-SnO2–δ and Sb-SnO2–δ With Aggregated Structure in Membrane Electrode Assembly Measurements – Yuji Chino (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Katsuyoshi Kakinuma, Makoto Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), Hiroyuki Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi, Clean Energy Research Center, University of Yamanashi), Shigehito Deki, and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi)

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Wednesday, October 30

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Investigation of Graphene Supported Platinum, Platinum-Nickel and PlatinumNickel-Titania Nanoparticles As Electrocatalysts for Fuel Cells – Loreta Tamasauskaite-Tamasiunaite, Jolita Jablonskiene (Center for Physical Sciences and Technology), Miroslav Semasko (Vilnius University), Aldona Balciunaite, Ausrine Zabielaite, Jurate Vaiciuniene, Rokas Kondrotas, Remigijus Juskenas, and Eugenijus Norkus (Center for Physical Sciences and Technology) High Performance Platinum Black Cathodes By Ultrasonic Spray Deposition – William A Rigdon, Xinyu Huang (University of South Carolina), and Thomas I Valdez (Jet Propulsion Laboratory) Activity and Stability of SubStoichiometric Titanium Oxide Supported Pt Nano-Particles – Tsutomu Ioroi, Tsukasa Nagai, Masafumi Asahi, Shin-ichi Yamazaki, Naoko Fujiwara, and Zyun Siroma (National Institute of Advanced Industrial Science and Technology (AIST)) Activity and Durability of Pt/Tin Oxide/ Ketjen Black Catalyst As PEFC Cathode – Taro Kinumoto, Naoki Eguchi, Miki Matsuoka, Tomoki Tsumura, and Masahiro Toyoda (Oita University) ORR Kinetics Investigation of Pt/Carbon Electrocatalysts With Varying Pt Loading and Electrode Thickness By Rotating Disk Electrode – Chunmei Wang, Nilesh Dale, and Kev Adjemian (Nissan Technical Center North America) Alloy and Nano-Structured Oxygen Reduction Catalysts for Proton Exchange Membrane Fuel Cells – Sung Jong Yoo, Seung Jun Hwang (Korea Institute of Science and Technology), Seung-Cheol Lee (Korea Institute of Science and Technology, Korea Institute of Science and Technology), Jong Hyun Jang, Tae Hoon Lim (Korea Institute of Science and Technology), and Soo-Kil Kim (ChungAng University) Pt/NbC-N Electrocatalyst for Use in Proton Exchange Membrane Fuel Cells – Serban Nicolae Stamatin and Eivind Morten Skou (Department of Chemical Engineering, Biotechnology and Environmental Engineering, University of Southern Denmark) Exploring the Structural Degradation of Monolayer Pt Shell Catalysts in Oxygen Reduction Reaction Based On in Situ X-Ray Absorption Spectroscopy – Xiaoming Wang, Tsukasa Nakai, Yuki Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), Taketoshi Minato (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), and Yoshiharu Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University)

Effects of Interim Cyclic Voltammetry On Pt/CB Catalyst Degradation During Start-Up/Shutdown Cycling Evaluation – Young-Chul Park, Katsuyoshi Kakinuma, Masanori Hara, Makoto Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), Hiroyuki Uchida (Clean Energy Research Center, University of Yamanashi), and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) 1515 TiO2 nanosheets As a Protective Additive for Pt/C Catalyst – Christophe Chauvin, Qingfeng Liu, and Wataru Sugimoto (Shinshu University) 1516 Durability of Pt Catalysts Supported On Ordered Mesoporous Carbon for Proton Exchange Membrane Fuel Cells – Nam-In Kim (Sejong University), Jinhae Seong (Hyundai Hysco), Min-Ji Yang, Sung-Hwa Cho, Jun-Young Park (Sejong University), Hanshin CHOI (Korea Institute of Industrial Technology, Incheon 406-840, South Korea), Sang Hoon Joo (UNIST), and Kyungjung Kwon (Sejong University) 1517 Deterioration Behavior of Pt in a Pt/ Au Nanoparticle-Loaded Carbon Black Catalyst Analyzed By An Accelerated Durability Test – Kohei Okada (Department of Applied Chemistry, Graduated School of Engineering, Osaka Prefecture University), Masanobu Chiku, Eiji Higuchi, and Hiroshi Inoue (Osaka Prefecture University) 1518 Pulse Laser Deposition and Sputtering of Carbon-Free Pt/SnO2 Electrocatalysts for PEFC – Takahiro Higashi (Department of Hydrogen Energy Systems, Kyushu University), Zhiyun Noda (International Research Center for Hydrogen Energy, Kyushu University), Akari Hayashi (International Research Center for Hydrogen Energy, Kyushu University, Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University), and Kazunari Sasaki (Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University, International Institute for Carbon-Neutral Energy Research (WPII2CNER), Kyushu University) 1519 Durability of Cathode Catalysts Under Gas Exchange Start-Up Operation for Fuel Cell Vehicles – Yuya Yamashita (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Shunsuke Itami, Toru Iwanari, Jun Takano (Honda R&D Co, Ltd., Automobile R&D Center), Mika Kodama, Katsuyoshi Kakinuma, Masanori Hara, Makoto Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), Hiroyuki Uchida (Clean Energy Research Center, University of Yamanashi), and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) 1514

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


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Improvement of Durability in Au Core/Pt Shell Structured Catalyst With PtRu Shell Formation – Takehito NIshikawa (Faculty of Science and Engineering, Doshisha University), Naoya Aoki, Hideo Inoue (Ishifuku Metal Industry), Hideo Daimon, and Minoru Inaba (Faculty of Science and Engineering, Doshisha University) Modification of Cathode Catalyst to Improve PEFC Cell Performance Under Low Relative Humidity – Hitoshi Nakajima and Koichi Matsutani (Tanaka Kikinzoku Kogyo K K) ORR Activity of Pd Core/Pt Shell Structured Catalyst Synthesized With Scale-Up Process – Naoya Aoki (Ishifuku Metal Industry), Takehito NIshikawa, Yuta Ikehata, Hideo Daimon (Faculty of Science and Engineering, Doshisha University), Minoru Inaba (Doshisha University), and Hideo Inoue (Ishifuku Metal Industry) Electrocatalytic Performance and Stability of Ptni/MWCNT – Ysmael Verde Gomez, Ana Maria Valenzuela-Muñiz (Instituto Tecnologico de Cancun), Aaron Melo Banda (Instituto Tecnologico de Ciudad Madero), Beatriz Escobar (Instituto Tecnologico de Cancun), and Ziva Anallely Juarez Parrilla (Instituto Tecnologico de Ciudad Madero) Applicability of a Channel Flow Double Electrode As a Quantitative Monitoring Method of Pt Dissolution Under Potential Cycling – Zhongqi Wang (Graduate School of Science and Technology, Tokyo Institute of Technology), Eiji Tada (Dept Chem & Mater Sci, Tokyo Institute of Technology), and A Nishikata (Tokyo Institute of Technology) Tin Nano-Rods As Support for Direct Methanol Fuel Cells – Hanan Teller, Olga Krichevski (Department of Biological Chemistry, Ariel University), and Alex Schechter (Ariel University) Performance of Pdru/C Anode Catalyst for Anion-Exchange Membrane Direct Ethanol Fuel Cell – Rongrong Chen (Indiana University Purdue University Indianapolis), Liang Ma (IUPUI), and Andrew Hsu (San Jose State University) Vanadium Doped TiO2 As a Novel Support Material for Anode Electro Catalyst in Polymer Electrolyte Membrane Water Electrolysers – Hong Lv (Clean Energy Automotive Engineering Center) Structure-Controlled Ternary Electrocatalysts for Selective Ethanol Oxidation to CO2 – Hiroshi Inoue, Akinori Haze, Masanobu Chiku, and Eiji Higuchi (Osaka Prefecture University) Electrochemical Behavior of Pd-Based Nanocatalysts (Hollow@Me@Pd/C) for Direct Alcohol Oxidation in Alkaline Medium – Rodrigo Garcia Da Silva (University of São Paulo) and Adalgisa Rodrigues De Andrade (University of Sao Paulo)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

1530

1531

1532

1533

1534

1535

1536

1537

Graphene-Supported Pt-Pd Nanostructures With Enhanced Catalytic Activities for Methanol Electrooxidation in Alkaline Medium – Won Bae Kim, Youngmin Kim, Eun Ja Lim, Seonhwa Lee, and Yuseong Noh (Gwangju Institute of Science and Technology) Highly Efficienty Palladium-Based ANODE Electrocatalyts For Direct Ethylene Glycol and Glycerol FUEL CELLS – Francesco Vizza, Marco Bellini, Manuela Bevilacqua, Jonathan Filippi (ICCOM-CNR), Massimo Innocenti (Dipartimento di Chimica, Università di Firenze), Alessandro Lavacchi, Andrea Marchionni, Hamish Andrew Miller, Werner Oberhauser, and Lianqin Wang (ICCOM-CNR) Gold-Graphene Modified Titania Nanotubes As Electrocatalysts for Borohydride Oxidation – Loreta Tamasauskaite-Tamasiunaite, Aldona Balciunaite, Ausrine Zabielaite, Algirdas Selskis, and Eugenijus Norkus (Center for Physical Sciences and Technology) New Oxygen Reduction Electrocatalysts Based On Lanthanum Manganite Oxides and Their Application to the Cathode of Aemfcs – Morihiro Saito (Division of Applied Chemistry, Institute of Engineering, Tokyo University of Agriculuture and Technology), Tatsuya Takakuwa, Takuya Kenko (Doshisha University), Hideo Daimon (Faculty of Science and Engineering, Doshisha University), Akimasa Tasaka, Minoru Inaba (Doshisha University), Hidenobu Shiroishi (Tokyo National College of Technology), Takeo Hatai, and Jun Kuwano (Tokyo University of Science) Carbon-Supported Agco Catalysts for Oxygen Reduction Reaction in Anion Exchange Membrane Fuel Cells – Rongrong Chen (Indiana University Purdue University Indianapolis) The Oxygen Reduction Reaction Catalyzed By Carbon-Supported Copper Phthalocyanine Tetrasulfonic Acid (CuPcTSA/C) By High Temperature Treatment – Jinli Qiao (Donghua University), Xin Qin (Donghua Universtiy), Jingjing Shi, and Pang Xu (Donghua University) High Durable Anion-Conducting Ionomer Binder Formed By On-Site Crosslinking – Mun-Sik Shin (Sangmyung University), Young-Woo Choi (Korea Institute of Energy Research), Moon-Sung Kang, and Jin-Soo Park (Sangmyung University) An Amphiphilic Polysulfone-GraftPoly(ethylene) Glycol Random Copolymer for Alkaline Exchange Membrane Fuel Cells – Steve He, Shifan Mao, Andrew Spakowitz, and Curtis Frank (Stanford University)

195

Wednesday, October 30


1538

1539

1540

Effect of SiO2 Additive in Catalyst Layer and Electrolyte On the Performance for Mesothermal Fuel Cell Using Room Temperature Molten Salts – Hazuki Uryu (Yokohama National University), Yuji Kohno, Koichi Matsuzawa (Green Hydrogen Research Center, Yokohama Nat Univ), and Shigenori Mitsushima (Yokohama National University) FTIR Analysis of the State of Water in radiation grafted ETFE Anion Exchange Membrane for Fuel Cell Applications – Tara Prasad Pandey, Matthew W Liberatore, and Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) 19F and 13C PGSTE-NMR Diffusion Study to Understand Ion Transport in Alkaline Anion Exchange Membranes – Himanshu N Sarode (Colorado School of Mines) and Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines)

Stationary and Large-scale Electrical Energy Storage

B12 Systems 3

Battery / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering Golden Gate 8, Tower 3, Lobby Level, Hilton San Francisco Union Square

10:00 10:10 1685

10:30

1686

10:50

1687

11:10

1688

11:30

1689

Membranes and Separators for Redox Systems – 14:00 – 17:10 Co-Chair(s): Vito Di Noto and Daniel A. Steingart 14:00

1690

14:20

1691

14:40

1692

15:00

1693

15:20

1694

Wednesday, October 30

Other Redox Systems 2 – 08:00 – 11:50 Co-Chair(s): Bor Yann Liaw and Sanjeev Mukerjee 08:00

1679

08:20

1680

08:40

1681

09:00

1682

09:20

1683

09:40

1684

196

Assessment of the Iron-Ion/Hydrogen Redox Flow Cell – Michael C Tucker, Kyu Taek Cho, Venkat Srinivasan, Philip N Ross, and Adam Z Weber (Lawrence Berkeley National Laboratory) Advanced Redox Flow Battery R&D At Pacific Northwest National Laboratory – Wei Wang, Qingtao Luo, Zimin Nie, Murugesan Vijayakumar, Xiaoliang Wei, Bin Li, Baowei Chen, Yuyan Shao, Ed Thomsen, David Reed, and Vincent Sprenkle (Pacific Northwest National Laboratory) Roles of Cathode Addivtives for SodiumNickel Chloride (Zebra) Battery – Guosheng Li, Xiaochuan Lu, Jin Yong Kim, John P Lemmon, and Vincent Sprenkle (Pacific Northwest National Laboratory) Performance Stability of Novel SodiumZinc Chloride Battery – Xiaochuan Lu, Guosheng Li, Jin Yong Kim, John P Lemmon, and Vincent Sprenkle (Pacific Northwest National Laboratory) Analysis of Electrochemical Properties of Zn-Br Flow Battery – Santanu Mukherjee, Alex Bates (University of Louisville), Sang C Lee, Osung Kwon (DaeguGyeongbuk Institute of Science & Technology (DGIST)), and Sam Park (University of Louisville) A Large Format Stationary Energy Storage Device Based On a Composite Sodium Titanium Phosphate Anode Materials System – Jay Whitacre (Carnegie Mellon Univerisity)

Break Performance Assessment of Solid Oxide Cells for Electrical Energy Storage – Pejman Kazempoor, Christopher Wendel, and Robert J Braun (Colorado School of Mines) Identifying and Suppressing Side Reactions in Soluble Lead Flow Batteries to Achieve High Efficiency and Cyclability – Michael Verde, Kyler Carroll, and Shirley Meng (University of California San Diego) Applications of Quinone Redox Chemistry for Flow Batteries – Michael P Marshak, Brian Huskinson, Michael R Gerhardt, and Michael J Aziz (Harvard University) A Quinone-Based Flow Battery for LargeScale Electrochemical Energy Storage – Brian Huskinson, Michael P Marshak, Michael R Gerhardt, and Michael J Aziz (Harvard University) New Type of Low Cost, Long Cycle Life, High Power, and Safe Battery – Robert Huggins (Stanford University)

15:40

Double-Membrane Design for HighVoltage and Low-Crossover Redox Flow Batteries – Shuang Gu, Ke Gong, Emily Z Yan, and Yushan Yan (Department of Chemical & Biomolecular Engineering, University of Delaware) Nanoporous Separator Development for Various Redox Flow Batteries At Pacific Northwest National Laboratory – Xiaoliang Wei, Wei Wang, Bin Li, Qingtao Luo, Zimin Nie, Baowei Chen, and Vincent Sprenkle (Pacific Northwest National Laboratory) Improved Membranes for Redox Flow Batteries – Mike L Perry, Wei Xie, Weina Li, and Rob M Darling (United Technologies Research Center) Modeling and Optimal Control of Energy Storage Devices for a Lithium-Ion BatteryPhotovoltaic Hybrid System – Matthew T Lawder (Washington University in St Louis), Akanksha Jagwani (Inidian Institute of Technology - Gandhinagar), Paul W C Northrop (Washington University in St Louis), Venkatasailanathan Ramadesigan (Indian Institute of Technology, Bombay), Pratim Biswas, and Venkat R Subramanian (Washington University in St Louis) Comparing Limits of Performance in Aqueous and Non-Aqueous Redox Flow Batteries – Che-Nan Sun (Oak Ridge National Laboratory), Mathew M Mench (Electrochemical Energy Storage and Conversion Laboratory, Department of Mechanical, Aerospace and Biomedical Engineering, University of Tennessee), and Thomas A Zawodzinski (University of Tennessee) Break

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1695

16:10

1696

16:30

16:50

D1

1697

1698

Cardo-Polyetherketone Anion Exchange Membranes With Suitable Chemical/ Mechanical Stability and Performance for All-Vanadium Redox Flow Battery – Sukhwan Yun, Javier Parrondo, and Vijay K Ramani (Illinois Institute of Technology) Importance of Ion-Ion Interactions in Membranes for All-Vanadium Redox Flow Batteries – Lucas Daniel Griffith (University of Michigan), Sun Ung Kim (Department of Chemical Engineering, University of Michigan, Ann Arbor 48109, USA), Hsun-Yi Chen (National Taiwan Universtiy), and Charles Monroe (Department of Chemical Engineering, University of Michigan, Ann Arbor 48109, USA) Comparing Membrane Properties for Redox Flow Batteries – Thomas A Zawodzinski (University of Tennessee), Zhijiang Tang, Jamie S Lawton (university of tennessee), Michael Bright (University of Tennessee, Knoxville), Amanda Jones (university of tennessee), Ashley Schnyder (University of Tennessee, Knoxville), CheNan Sun (Oak Ridge National Laboratory), and Cy Fujimoto (Sandia National Laboratory) Broadband Electrical Spectroscopy (BES) Studies On Hydroxide-Conducting Membrane – Vito Di Noto (Department of Chemical Sciences - University of Padova), Ashley Maes (Department of Chemical Engineering and Petroleum Refining Colorado School of Mines), Sandra Lavina, Enrico Negro (Department of Chemical Sciences - University of Padova), Bryan E Coughlin (Department of Polymer Science and Engineering - University of Massachusetts Amherst), Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines), and Giuseppe Pace (Istituto di Scienze e Tecnologie Molecolari, ISTMCNR and INSTM, Department of Chemical Sciences, University of Padova)

1701

1702

1703

1704

1705

1706

1707

1708

Corrosion General Poster Session

Corrosion Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

Corrosion General Poster Session – 18:00 – 20:00 •

1699

1700

Formation of An Anti-Bacterial Oxide Film On Ti-Ta Alloy By Anodic Oxidation – Shih-Fu Ou (National Kaohsiung University of Applied Science), Fang-Yu Fan, and Keng-Liang Ou (Taipei Medical University) Oxidation Behavior of Ni-Base Single Crystal Superalloys At 1000oc – YeonSang Hwang, SungBin Won, and Dong Bok Lee (School of Advanced Materials Science and Engineering, Sungkyunkwan University, South Korea)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Influence of the pH On the Corrosion Protection of Epoxy-Silica-Zirconia SolGel Coatings Applied On EN Aw-6063 Aluminium Alloy – I Rute Fontinha, Maria Manuela Salta (Laboratório Nacional de Engenharia Civil - LNEC), Mikhail L Zheludkevich, Mário G S Ferreira (University of Aveiro), Rita Bacelar Figueira (Laboratório Nacional de Engenharia Civil - LNEC, University of Minho), Elsa Vaz Pereira (Laboratório Nacional de Engenharia Civil - LNEC), and Carlos J R Silva (University of Minho) Mesoporous Titania Film As Photoanodes for Cathodic Protection of Stainless Steel – Zude Feng, Caixia LEI, Han Zhou, and Chen WANG (College of Materials, Xiamen University) Electrochemical Growth of β-Ni(OH)2 and NiOOH On Ni Electrodes At Well-Defined Polarization Potential, Polarization Time, and Temperature Conditions – Mohammad Alsabet (Kuwait University) Comparison of Corrosion Resistance of Stainless Steels in Sour Environments With Various Chloride Concentration and Temperature – Jang-Woong Rho, Ga-Eun Park (Chonnam National University), Kwang-Yuk Kim (POSCO), and Chan-Jin Park (Chonnam National University) Dissolution Behavior of Pt-Co Binary Alloy Thin Films in Sulfuric Acid – Azusa Ooi (Mater & Sci, Tokyo Institute of Techonology) Preparation and Evaluation of Zn Doped Hap Plasma Spray Biocombatible Coatings On Titanium – Seisho TAKE, Kazunori Kikuchi, Shota Suda, and Yasuhiko Itoi (Oyama National College of Technology) Thin-Film Ceramic Coatings Based On Sol-Gel Chemistries for Corrosion Protection of Low-Grade Carbon Steels – Rodolfo Ernesto Pérez-Roa, M Isabel Tejedor (Environmental Chemistry & Technology Program, University of Wisconsin - Madison), and Marc Arlen Anderson (Environmental Chemistry & Technology Program, University of Wisconsin - Madison, Electrochemical Processes Unit, IMDEA Energy) Fast Macropore Etching Via Large Current and High HF Concentration On p-Type Silicon – Daohan Ge (School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China, State Key Laboratories of Transducer Technology, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China), Naifei Ren (School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China), and Quan Wang (School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China, State Key Laboratories of Transducer Technology, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China) 197

Wednesday, October 30

15:50


1709

1710

1711

1712

1713

Wednesday, October 30

1714

1715

1716

1717

198

Corrosion Resistance and Mechanism of Zinc Rich Paint in Corrosive Media – Azizul Helmi Sofian (Shibaura Institute of Technology, Universiti Malaysia Pahang (UMP)) and Kazuhiko Noda (Shibaura Institute of Technology) Compositional Characterization of Inclusion/Matrix Boundaries and Relation to Pit Initiation At Mns in Stainless Steel – Masayuki Tohjoh, Izumi Muto, Aya Chiba, Yu Sugawara, and Nobuyoshi Hara (Department of Materials Science, Tohoku University) Controlling the Corrosion of Metals With Polyphenolic Proteins – William Forrester Nelson and Douglas C Hansen (University of Dayton Research Institute) The Effect of Potential Scan Rate and Temperature At Aluminum Passive State in Borate Buffer Solution – Svetlana Kaluzhina and Tatiana Minakova (Voronezh State University) Corrosion Behavior of Bipolar Plate Materials in Acid Media – Man Van Tran (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNUHCM), Vietnam, Applied Physical Chemistry Laboratory, University of Science, VNU-HCM, Vietnam), Trung Quang Tran (University of Tran Dai Nghia, Ho Chi Minh City, Vietnam, Department of Physical Chemistry, University of Science, Viet Nam National University – Ho Chi Minh City), Hoang Thai Nguyen (Center for Molecular and Nanoarchitecture, Vietnam National University – Ho Chi Minh City, Department of Physical Chemistry, University of Science, Viet Nam National University – Ho Chi Minh City), and Thoa Thi Phuong Nguyen (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNUHCM), Vietnam, Applied Physical Chemistry Laboratory, University of Science, VNU-HCM, Vietnam) A Rapid and Facile Measurement for Corrosion Rates Using Dynamic Light Scattering Technique – Changyong Yim, Donghoon Kwon, Sangmin Jeon (Department of Chemical Engineering, POSTECH), Seungnam Kim, and Jaehyun Park (Analysis and assessment center, Research Institute of Industrial Science & Technology (RIST)) Surface Potential Distribution Observation of Surface Modified of 304 Stainless Steel – Teguh Dwi Widodo and Kazuhiko Noda (Shibaura Institute of Technology) Three-Dimensional Networked Nanoporous Anodic Alumina Films With Vertical and Transverse Pores Fabricated On Al With Different Purity – Song-Zhu CHU, Kyosuke Osaka, Hitoshi Yashiro (Iwate University), Hiroyo Segawa, Kenji Wada, and Satoru Inoue (National Institute for Materials Science) Applications of Embedded Sensors for

1718

1719

1720

1721

1722

D2

in-Situ Corrosion Monitoring in Subsea Tunnel – Chaoyang Gong, Sa Zhang, Zaidong Shao, Quan Li, and Xuan Cheng (Xiamen University) Adsorption Behavior of Polyphenolic Proteins Onto High Strength Steel (HY80) and 5083 Aluminum Alloys – Lu Han and Douglas C Hansen (University of Dayton Research Institute) Effect of Stress Intensity Factor On Fatigue Crack Morphology in High-Strength Steels in Sour Environments – Margaret ZiomekMoroz, Jeffrey A Hawk, Keith Collins (US Department of Energy, National Energy Technology Laboratory), Ramgopal Thodla, and Feng Gui (DNV USA) Corrosion Investigation of AISI 316 Stainless Steel With CNT and CNTPolymer Coating Materials Under Simulated PEMFC Working Conditions – Mazdak Hashempour (University of Birmingham, Politecnico di Milano), Antonello Vicenzo, Massimiliano Bestetti (Politecnico di Milano), Surbhi Sharma, and Daniel Gonzalez (University of Birmingham) Biocorrosion Study of Aluminum Aerospace Alloy in Marine and Urban Environments – Mamie Sancy, Andres Abarzua, Estivalia Morales (Academia Politécnica Aeronáutica, Fuerza Aérea de Chile), M Ignacio Azocar, Grace Gomez, Maritza Paez, and Nelson Vejar (Universidad de Santiago de Chile) Corrosion Resistance Of Niobium, Tantalum and Titanium In Sea WATER and Sulfuric ACID – Devaney Ribeiro Do Carmo and Carlos Alberto Picone (UNESP - Universidade Estadual Paulista)

Atmospheric Corrosion

Corrosion / Physical and Analytical Electrochemistry Union Square 15/16, Tower 3, 4th Floor, Hilton San Francisco Union Square

Steels – 07:55 – 12:00 Co-Chair(s): Robert G. Kelly and Douglas C. Hansen 07:55 08:00 1733

08:40

1734

09:00

1735

Welcoming Remarks Revisiting Atmospheric Corrosion of Active Metals : What We Have Learn’t and What We Need to Learn – Ivan stuart Cole (CSIRO) Improving the Corrosion Resistance of Weathering Steel Bridges – Sridhar Ramamurthy (Surface Science Western, The University of Western Ontario), Dave Shoesmith (Western University), Coom Coomarasamy, and David Lai (Ministry of Transportation, Ontario) Atmospheric Corrosion of Plain Carbon Steel Below the Deliquescence Point of Sodium Chloride – Eric Schindelholz, Bailey Risteen, and Robert G Kelly (University of Virginia)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1736

09:40 1737 10:00

10:20

1738

10:40

1739

11:00

1740

11:20

1741

11:40

1742

Marine Aerosol Drop Size Effects On the Corrosion Behavior of Plain Carbon Steel – Bailey Risteen, Eric Schindelholz, and Robert G Kelly (University of Virginia) Break Identification of Hydrogen Uptake Sites and Local Hydrogen Concentrations During Atmospheric Exposure of Steels Using Scanning Kelvin Probe Microscopy and Electrochemical Extraction – Rebecca Filardo Schaller and J R Scully (University of Virginia) Hydrogen Uptake During Atmospheric Corrosion of Galvanized steel – Michael Rohwerder (Christian Doppler Laboratory for Diffusion and Segregation, MaxPlanck-Institut fuer Eisenforschung GmbH) and Stefan Evers (Christian-Doppler Laboratory for segregation and oxidation, Max-Planck Institut für Eisenforschung GmbH) Evaluation of hydrogen absorption Into Steel With Alternating Current Responses – Eiji Tada (Dept Chem & Mater Sci, Tokyo Institute of Technology) Accelerated Atmospheric Corrosion Testing of Steel and AA5083 – Piyush Khullar and Robert G Kelly (University of Virginia) Galvanic Corrosion Behavior of Zinc/Steel Couple Under Thin Electrolyte Layer – Lei Wen, Ying Jin, and Jie Cheng (National Center for Materials Service Safety, University of Science and Technology Beijing) Effect of Various Electrolytes On Zinc Corrosion Investigated By Scanning Flow Cell System With Dynamic Electrolyte Change – Claudius A Laska (Max-PlanckInstitut für Eisenforschung GmbH)

14:40

1745

15:00

1746

Aluminum Alloys – 15:20 – 16:40 Co-Chair(s): Christofer Leygraf and R. L. Calhoun 15:20

1747

15:40 16:00 1748

16:20

1749

Stainless Steels – 14:00 – 15:20 Co-Chair(s): R. L. Calhoun and Christofer Leygraf 14:00

14:20

1743

1744

Effect of Stabilization Treatment and Nb/C Ratio On the Intergranular Corrosion Susceptibility of Super304H Austenitic Heat-Resistant Steel – Yan Gao, Xiahua Xiong, Zhijun Zheng (South China University of Technology), and Chunlei Zhang (Electric Power Research Institute of Guangdong Power Grid Cor) Under-Deposit Chloride-Induced Stress Corrosion Cracking in Austenitic Stainless Steels: Aspects Associated With Deposit Type, Size and Composition – Anthony Cook, Stuart Lyon, Tat-Suen Leung, Bin Gu, Nicholas Stevens (The University of Manchester), Roger Newman (University of Toronto), Matt Gunther, Gordon McFiggans, and Dirk Engelberg (The University of Manchester)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Synchrotron Tomography Study of Atmospheric Pitting Corrosion of Stainless Steel During Wet-Dry Cycles – Liya Guo, Steven Street, Haval MohammedAli, Sarah Glanvill, Na Mi, Majid Ghahari, Andrew Du Plessis, Alison J Davenport (University of Birmingham), Trevor Rayment, and Christina Reinhard (Diamond Light Source Ltd.) Synchrotron Microtomography Studies of Atmospheric Corrosion of Stainless Steel and Aluminum Alloys – Alison J Davenport, Andrew Du Plessis, Na Mi, Liya Guo, Steven Street, Majid Ghahari, Haval Mohammed-Ali (University of Birmingham), Trevor Rayment (University of Birmingham, Diamond Light Source Ltd.), Christina Reinhard (Diamond Light Source Ltd.), Marco Stampanoni, and Peter Modregger (Paul Scherrer Institut)

Evaluation of Atmospheric Corrosion of Bare Metals During a Two Year Outdoor Exposure – Yuhchae Yoon, Douglas C Hansen (University of Dayton Research Institute), Jeremy D Angel (Air Force Research Laboratory), William H Abbott (Battelle), William J Culhane, Leanne Petry, and Christopher A Joseph (University of Dayton Research Institute) Break Atmospheric Pitting and Galvanic Corrosion of High Strength Al Alloys – Zhicao Feng, Sean C Morton, Mark S Thomson, and Gerald Frankel (Fontana Corrosion Center, The Ohio State University) The Stability Criteria for Localized Corrosion of AA7075-T6 and Its Application in Galvanic Interaction With Noble Materials – Yijing Shi and Robert G Kelly (University of Virginia)

Copper – 16:40 – 17:20 Co-Chair(s): R. L. Calhoun and Christofer Leygraf 16:40

1750

17:00

1751

In Situ Monitoring of Ultra Slow Oxide Growth On Copper Protected By a Self Assembled Monolayer – Saman Hosseinpour, Magnus C Johnson, and C Leygraf (Department of Chemistry, Division of Surface and Corrosion Science, KTH Royal Institute of Technology) Mechanistic Studies of Corrosion Product Flaking On Copper and CopperBased Alloys in Marine Environments – Xian Zhang (KTH Royal Institute of Technology, Div Surface and Corrosion Science, School of Chemical Science and Engineering), Sara Goidanich (Department of Chemistry, Materials and Chemical Engineering “Giulio Natta”, Politecnico di Milano), Christofer Leygraf, and Inger Odnevall Wallinder (KTH Royal Institute of Technology, Div Surface and Corrosion Science, School of Chemical Science and Engineering) 199

Wednesday, October 30

09:20


D5

Oxide Films: A Symposium in Honor of Clive Clayton on his 65th Birthday

Wednesday, October 30

Synthesis and Electrochemical Characterizaction of TiO2 Materials – Ivan Erick Castañeda and Jorge Uruchurtu Uruchurtu (CIICAp) 08:20 1823 Parameters and Underlying Mechanisms Affecting the Morphology of Bifurcating TiO2 Nanotube – Darren J LeClere, Adrian Ashari (Toyohashi University of Technology), Go Kawamura (Toyohashi University of Technology, Toyohashi University of Technology), Hiroyuki Muto (Toyohashi University of Technology), and Atsunori Matsuda (Toyohashi University of Technology, Toyohashi University of Technology) 08:40 1824 TiO2 Nanotubes and Mesosponges: Modification Approaches to a Strongly Enhanced Water Splitting Activity – P Schmuki (University of ErlangenNuremberg (FAU)) 1825 TiO2-WO3 Nanotubular Composite 09:00 Synthesized By Anoidzation of Simultaneous Multi-Target Sputtered Thin Films Characterized By Laser Ablation ICP-MS – York R Smith, Karumbaiah N Chappanda, Swomitra K Mohanty, and Mano Misra (University of Utah) 1826 Stability of Photoactive Oxide 09:20 Semiconductors – Dev Chidambaram and Ruchi Gakhar (Materials Science and Engineering Department, University of Nevada Reno) 09:40 Break 10:00 1827 Investigating Surfaces By Complimentary Chemical Spectroscopies – Gary P Halada (Stony Brook University) 10:40 1828 Growth and Characterization of Tubular Oxide Layers On Ti Substrates – Hiroaki Tsuchiya, Shota Yamamoto, and Shinji Fujimoto (Osaka University) 11:00 1829 Porous Anodic Oxide Films Grown On Compound Semiconductor – Sachiko Ono (Department of Applied Chemistry, Kogakuin University), Kosuke Sugawara (Kogakuin University), and Hidetaka Asoh (Department of Applied Chemistry, Kogakuin University) 11:20 1830 Evaluation of Corrosion Resistance of Multilayered Sn/Ag3sn Electroplating On Cu Alloys for Electric Connectors – SongZhu CHU and Hitoshi Yashiro (Iwate University)

200

1831

Corrosion Golden Gate 2, Tower 3, Lobby Level, Hilton San Francisco Union Square

Oxides Formed on Photocatalystic and Electronic Materials – 08:00 – 12:00 Co-Chair(s): Dev Chidambaram 08:00

11:40

Electrical Stability Enhancement of the Thin Filmtransistor With the Back-Channel Deposited By Cosputteringamorphous In-Ga-Zn-O and Siox – Hyoung-Rae Lee (Hanyang University, SAMSUNG DISPLAY), Ji-Heon Kim, Joo-Hyeong Park, Yun-Hyuk Ko, Jin-Sung Park, and Jea-Gun Park (Hanyang University)

Oxides and Passivity 2 – 14:00 – 16:00

1822

14:00

1832

14:20

1833

14:40

1834

15:00

1835

15:20

1836

15:40

1837

Interstitially Hardened 316L Stainless Steel: A Surface Analytical Study of the Oxide – Nicole R Tailleart (American Society for Engineering Education), Paul M Natishan, Farrel J Martin, Roy J Rayne (US Naval Research Laboratory), Harold Kahn, and Arthur H Heuer (Case Western Reserve University) A Super Austenitic 6 Mo Stainless Steel (UNS N08367) Passivity-Breakdown Characterization in Acidic Fluoride Solutions – Enrique Maya Maya Visuet and Homero Castaneda (The University of Akron) The Point Defect Model for the Passive Sulfide Films On Copper – Samin sharifiAsl (Penn State University) and Digby D Macdonald (University of California at Berkeley) Thin Surface Films Over copper–nickel Alloys: Corrosion Behavior in Neutral and Acidic Medium in Presence of Chloride Ions – Faizah M Al-Kharafi, Ahmed Abdel Nazeer, Ragab M Abdullah, and Ahmed Galal (Kuwait University) The Corrosion of Carbon Steel in Simulated Concrete Pore Water Under Anoxic Conditions – Pin Lu (University of California at Berkeley), Ahmed Almarzooqi (Penn State University), Bruno Kursten (SCK-CEN), and Digby D Macdonald (University of California at Berkeley) Steady State Analysis of Thin Oxide Barrier Layers Formed in Neutral and Weakly Alkaline Solutions – Calin Albu (Technical University of Cluj Napoca, Romania, Vrije Universiteit Brussel), Johan Deconinck (Vrije Universiteit Brussel), and Vasile Topa (Technical University of Cluj Napoca, Romania)

Oxides in Biological and Microbial Environments – 16:00 – 17:40 16:00

1838

16:20

1839

Repassivation On Type 316L Stainless Steel With Cyclic Deformation in Simulated Body Fluid Including Cells – Kotaro Doi (Osaka University, Osaka University), Sayaka Miyabe, and Shinji Fujimoto (Osaka University) Electrochemically Fabricated of TiO2 Nano-Layers On Ti-6Al-4V – Sudipta Roy, Jeet Varia, and Jose Portoles (Newcastle University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Effect of Anaerobic Microbial Corrosion On the Surface Film Formed On Steel – Dharshini D Bala and Dev Chidambaram (Materials Science and Engineering Department, University of Nevada Reno) 17:00 1841 ZrO2 Hybrid Sol-Gel Coatings for Active Corrosion Protection of Ti6Al4V Biomedical Alloy in Simulated Body Fluids – Juan Carlos Galván (Centro Nacional de Investigaciones Metalúrgicas, CENIM (CSIC)), Federico R GarcíaGalván (Universidad Carlos III de Madrid Departamento de Ciencia e Ingeniería de Materiales e Ingeniería Química), Amir A El hadad (Centro Nacional de Investigaciones Metalúrgicas, CENIM (CSIC)), Rodrigo Montoya (Centro Nacional de Investigaciones Metalúrgicas, CENIM (CSIC), Universidad Carlos III de Madrid Departamento de Ciencia e Ingeniería de Materiales e Ingeniería Química), and Antonia Jiménez-Morales (Universidad Carlos III de Madrid Departamento de Ciencia e Ingeniería de Materiales e Ingeniería Química) 17:20 Concluding Remarks

E1

1840

Solid State Topics General Session

14:20

14:40

1850

15:20 15:40 1851

16:00

1852

16:20

1853

Dielectric Science and Technology / Electronics and Photonics / Energy Technology Union Square 21, Tower 3, 4th Floor, Hilton San Francisco Union Square

Solid State Topics General Session (Oral) – 14:00 – 16:40 Co-Chair(s): Kalpathy B. Sundaram and O. M. Leonte 14:00

15:00

1847

1848

1849

Enhancement-Mode Algaas/Ingaas Pseudomorphic High-Electron-Mobility Transistor With a Liquid Phase Oxidized GaAs As Gate Oxide – Jung-Sheng Huang, Kuan-Wei Lee, Jyun-Jie Lin (Department of Electronic Engineering, I-Shou University, Kaohsiung, Taiwan), and Yeong-Her Wang (Institute of Microelectronics, Department of Electrical Engineering, National Cheng-Kung University, Tainan, Taiwan) Enhancement-Mode Metal-OxideSemiconductor Metamorphic HighElectron-Mobility Transistor – Jung-Sheng Huang, Kuan-Wei Lee, Hung-Wei Chen (Department of Electronic Engineering, I-Shou University, Kaohsiung, Taiwan), and Yeong-Her Wang (Institute of Microelectronics, Department of Electrical Engineering, National Cheng-Kung University, Tainan, Taiwan) Negative Capacitance Tunnel Field Effect Transistor: A Novel Device With Low Subthreshold Swing and High On Current – Nadim Chowdhury, S M Farhaduzzaman Azad, and Quazi D M Khosru (Bangladesh University of Engineering and Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

An Analytical Model to Determine the Quantized Energy Levels and Wave Functions for Quantum Well Devices – Nadim Chowdhury, Imtiaz Ahmed, Zubair Al Azim, Md Hasibul Alam, Iftikhar Ahmad Niaz, and Quazi D M Khosru (Bangladesh University of Engineering and Technology) Break A Stacked Sputtered Process for β-FeSi2 Formation – Taichi Inamura (Tokyo Institute of Technology), Akito Sasaki, Katsuaki Aoki (Toshiba Materials Co, LTD), Kuniyuki Kakushima (Tokyo Institute of Technology), Yoshinori Kataoka (Toshiba Materials Co, LTD), Akira Nishiyama, Nobuyuki Sugii, Hitoshi Wakabayashi, Kazuo Tsutsui, Kenji Natori, and Hiroshi Iwai (Tokyo Institute of Technology) Photo-Anode Nanostructure Design and Electron Transport Mechanism of Photoelectrochemical Cells – Chun-Ting Liu and Che-Wun Hong (Department of Power Mechanical Engineering, National Tsing Hua University) Modulation Doped Hydrogenated Amorphous Silicon Germanium Superlattice Contacts and Application to Optoelectronic Devices – Bahman Hekmatshoar, Warren Rieutort-Louis, Davood Shahrjerdi, and Richard Haight (IBM T J Watson Research Center)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Solid State Topics General Session (Poster) – 18:00 – 20:00 Co-Chair(s): Kalpathy B. Sundaram and O. M. Leonte •

1854

1855

1856

Epinephrine Detection In Copper Self Assembled Monolayers – Juan Francisco Silva Sr (Universidad de Santiago de Chile) High Quality of Ge1-X Six (09 ≤ x ≤ 095) Buffers Grown On 60 off Si(100) By Using Low Temperature Ge Seed Layer – Chi Lang Nguyen (National Chiao Tung University) Hot Hole-Induced Device Degradation By Drain Junction Reverse Current – KwangSoo Kim (Sungkyunkwan University, Samsung Semiconductor Institute of Technology (SSIT)), Juneui Song, Duheon Song (Samsung Electronics Co), and Byoungdeog Choi (Sungkyunkwan University)

201

Wednesday, October 30

16:40


E2

Atomic Layer Deposition Applications 9

Dielectric Science and Technology / Electronics and Photonics Continental 8, Tower 3, Ballroom Level, Hilton San Francisco Union Square

General Session – 14:10 – 15:40 Co-Chair(s): F. Roozeboom and A. Londergan 14:10 14:20 1857

Wednesday, October 30

14:40

1858

15:20

Introductory Remarks ALD Growth of PbTe and PbSe Superlattices for Thermoelectric Applications – Kai Zhang, Arun Deepak Ramalingom Pillai, David Nminibapiel, Madhavi Tangirala (Old Dominion University), Venkata S Chakravadhanula (Karlsruhe Nano Micro Facility, Karlsruhe Institute of Technology (KIT)), Christian Kübel (Institute for Nanotechnology (INT), Karlsruhe Institute of Technology (KIT)), Helmut Baumgart (Old Dominion University), and Vladimir Kochergin (MicroXact Inc) Synthesis, Characterization, and Application of Tunable Resistance Coatings Prepared By Atomic Layer Deposition – Jeffrey W Elam, Anil U Mane (Argonne National Laboratory), Oswald HW Siegmund, Jason McPhate (Space Sciences Laboratory), Matthew J Wetstein, Andrey Elagin (Enrico Fermi Institute, University of Chicago), Michael J Minot, Aileen O’Mahony (Incom, Inc), Robert G Wagner (Argonne National Laboratory), Henry J Frisch (Enrico Fermi Institute, University of Chicago), William M Tong, Alan D Brodie, and Mark A McCord (KLA-Tencor) Intermission

Reaction Mechanisms & Characterization – 15:40 – 17:40 Co-Chair(s): A. Londergan and A. Mackus 15:40

1859

16:20

1860

17:00

202

1861

Unit Steps of an ALD Half-Cycle – Tom Blomberg (ASM Microchemistry Ltd.) In Situ Characterization of Plasma-Assisted Pt ALD on W ALD Adhesion Layers with Spectroscopic Ellipsometry – Andrew S Cavanagh, Layton Baker, Joel W Clancey (University of Colorado), Jun Yin (University of Colorado, University of Colorado), Anusorn Kongkanand, Fredrick T Wagner (General Motors Research and Development), and Steven M George (University of Colorado at Boulder) Vapor Phase Surface Functionalization using Atomic Layer Deposition (ALD) and Self Assembled Monolayers (SAMs) – Ganesh M Sundaram, Laurent Lecordier, and R Bhatia (Ultratech-Cambridge NanoTech)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square Poster Session – 18:00 – 20:00 Co-Chair(s): S. De Gendt and O. van der Straten •

Diaphragm Durability Enhancement for Valves Supplying Gas for Atomic Layer Deposition – Michio Yamaji (Fujikin Incorporated, Tohoku University), Tsuyoshi Tanikawa, Tadayuki Yakushijin, Takashi Funakoshi, Satoru Yamashita, Atsushi Hidaka, Masaaki Nagase, Nobukazu Ikeda (Fujikin Incorporated), Shigetoshi Sugawa, and Tadahiro Ohmi (Tohoku University) 1863 ZnO Nanorods Grown On ZnO Seed Layer Derived By Atomic Layer Deposition Process – Kai Zhang, Sushil Khadka, David Nminibapiel, Madhavi Tangirala, and Helmut Baumgart (Old Dominion University) 1864 VO2 Films Prepared By Atomic Layer Deposition and RF Magnetron Sputtering – Kai Zhang, Madhavi Tangirala, David Nminibapiel (Old Dominion University), Venkateswara Pallem (American Air Liquide, Delaware Research & Technology Center), Christian Dussarrat (Air Liquide, Delaware Research and Technology Center), Wei Cao, Hani Elsayed-Ali, and Helmut Baumgart (Old Dominion University) 1865 Nanoscale Film Thickness Measurements By X-Ray Fluorescence Spectroscopy for ALD Grown Films – Tarek M AbdelFattah (Christopher Newport University) and Helmut Baumgart (Old Dominion University) 1866 Microstructure Analysis of ALD Bi2Te3/ Sb2Te3 Thermoelectric Nanolaminates – Kai Zhang, David Nminibapiel, Madhavi Tangirala (Old Dominion University), Venkata S Chakravadhanula (Karlsruhe Institute of Technology (KIT)), Christian Kübel (Institute for Nanotechnology (INT), Karlsruhe Institute of Technology (KIT)), Helmut Baumgart (Old Dominion University), and Vladimir Kochergin (MicroXact Inc) 1867 Ultra Dielectrophoresis Using Atomic Layer Deposited Films: Electrothermal Analysis – Sam Emaminejad (Stanford University, Stanford Genome Technology Center), Mehdi Javanmard (Stanford Genome Technology Center), Robert W Dutton (Stanford University), and Ronald W Davis (Stanford Genome Technology Center) 1868 Physical, Electrical, and Reliability Characteristics of Multi-Step DepositionAnnealed HfO2 Film – Yi-Lung Cheng (Department of Electrical Engineering, National Chi-Nan University,), ChengYang Hsieh, and Tian-Cih Bo (National Chi-Nan University) 1862

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1928

08:20

1929

08:40

1930

09:00

1936

11:10

1937

11:30

1938

11:50

1939

12:10

1940

Electronics and Photonics / Dielectric Science and Technology Continental 9, Tower 3, Ballroom Level, Hilton San Francisco Union Square

GaN Power Devices 2 – 08:00 – 10:00 Co-Chair(s): Kenneth A. Jones and Gaudenzio Meneghesso 08:00

10:50

1931

09:20

1932

09:40

1933

III-N High-Power Electronic Devices – Russell D Dupuis, Jeomoh Kim, Zachary Lochner, Mi-Hee Ji, Tsung-Ting Kao (Georgia Institute of Technology), JaeHyun Ryou (University of Houston), Theeradetch Detchphrom, and ShyhChiang Shen (Georgia Institute of Technology) AlGaN/GaN MIS-Hemt Gate Structure Improvement Using Al2O3 Deposited By PEALD and BCl3 Gate Recess Etching – Richard Meunier (CEA-Leti) GaN Power Transistors With Integrated Thermal Management – Charles R Eddy Jr (US Naval Research Laboratory), Travis J Anderson (Naval Research Laboratory), Andrew D Koehler (US Naval Research Laboratory), Neeraj Nepal (Naval Research Laboratory), David J Meyer (US Naval Research Laboratory), Marko J Tadjer, Tatyana I Feygelson, Bradford B Pate (Naval Research Laboratory), Michael A Mastro (US Naval Research Laboratory), Jennifer K Hite (Naval Research Laboratory), Mario G Ancona (US Naval Research Laboratory), Fritz J Kub, and Karl D Hobart (Naval Research Laboratory) Ammonothermal Bulk GaN Substrates for Power Electronics – Mark P D’Evelyn, Dirk Ehrentraut, Wenkan Jiang, Derrick S Kamber, Bradley C Downey, Rajeev T Pakalapati, and Hak Do Yoo (Soraa, Inc) 1000V Vertical Jfet Using Bulk GaN – Quentin Diduck, Hui Nie, Brian Alvarez, Andrew Edwards, David Bour, Ozgur Aktas, Isik C Kizilyalli (Avogy), and Don Disney (Avogy Inc) Multi-Gate Device Architectures for GaN based Power Switching Devices – Leo Mathew, Rajesh Rao (Applied Novel Device Inc), Ed Piner (Texas State University), Jerry G Fossum (University of Florida), and Sanjay K Banerjee (The University of Texas at Austin)

Manufacturing Challenges – 10:10 – 12:30 Co-Chair(s): Rajendra Singh and Sunny Kedia 10:10

1934

10:30

1935

Manufacturing Challenges in Wide Bandgap (WBG) Power Electronics – Krishna Shenai (Argonne National Laboratory) High Voltage GaN Technology in a Silicon CMOS Environment: Challenges and Opportunities – H Rusty Harris, Derek W Johnson (Texas A&M University), Richard JW Hill (SEMATECH), Ed Piner (Texas State University), Man Hoi Wong, and Rinus TP Lee (SEMATECH)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Production Readiness of AlGaN/GaN Hemt On 6”/8” Si – Dong Seung Lee, Jie Su, Balakrishnan Krishnan, George D Papasouliotis, and Ajit Paranjpe (Veeco MOCVD Operations) Performance, Reliability and YIELD Considerations In The Manufacturing Of POWER Electronics Based On SiC and GaN – Rajendra Singh and Githin F Alapatt (Clemson University) Synchrotron X-Ray Topography Studies of the Evolution of the Defect Microstructure in Physical Vapor Transport Grown 4H-SiC Single Crystals – Michael Dudley, Balaji Raghothamachar, Huanhuan Wang, Fangzhen Wu, Shayan Byrappa (Stony Brook University), Gil Chung, Edward K Sanchez, Stephan Mueller, Darren Hansen, and Mark Loboda (Dow Corning Compound Semiconductor Solutions) Basal Plane Dislocation Mitigation Using High Temperature Annealing in 4H-SiC Epitaxy – Nadeemullah A Mahadik (Naval Research Laboratory), Anindya Nath (George Mason University), Eugene A Imhoff, Robert E Stahlbush (Naval Research Laboratory), and Roberta Nipoti (CNR-IMM Bologna) 3D Tcad Simulations for More Efficient SiC Power Devices Design – Luong Viêt Phung, Dominique Planson, Pierre Brosselard, Dominique Tournier (Laboratoire Ampère), and Christian Brylinski (Laboratoire des Multimatériaux et Interfaces)

Power Device Reliability 2 – 14:00 – 15:20 Co-Chair(s): A. Lelis and Sunny Kedia 14:00

1941

14:20

1942

14:40

1943

Heat Dissipation in GaN Based Power Electronics – Jonathan A Malen and Zonghui Su (Carnegie Mellon University) High Voltage InAlN/GaN HFETs Achieved by Schottky-Contact Technology for Power Applications – Qi Zhou, Wanjun Chen (Univ of Electronic Science and Technology of China), Shenghou Liu (Hong Kong Univ of Science and Technology), Bo Zhang (Univ of Electronic Science and Technology of China), Zhihong Feng, Shujun Cai (Hebei Semiconductor Research Inst), and Kevin J Chen (Hong Kong Univ of Science and Technology) Interaction of Defects with Quantum Well States: Electrostatic-Dependant Response Time for Traps in AlGaN/GaN HEMTs – Robert J Kaplar, Sandeepan DasGupta (Sandia National Laboratories), Min Sun (Massachusetts Institute of Technology), Stan Atcitty, Matthew J Marinella (Sandia National Laboratories), and Tomas Palacios (Massachusetts Institute of Technology)

203

Wednesday, October 30

E3

GaN and SiC Power Technologies 3


15:00

1944

Monolithic Integration of High Temperature Silicon Carbide Integrated Circuits – Mihaela Alexandru, Viorel Banu (Centro Nacional de Microelectronica, CNM Instituto de Microelectronica de Barcelona, IMB), Josep Montserrat (IMBCNM, CSIC), Philippe Godignon (Centro Nacional de Microelectronica, CNM Instituto de Microelectronica de Barcelona, IMB), and Jose Millan (Centro Nacional de Microelectronica, CNM Instituto de Microelectronica de Barcelona, IMB)

08:50

1981

09:10

1982

Power Electronics Curriculum – 15:30 – 16:50 Co-Chair(s): Ibrahim Abdel-Motaleb and Aris Christou 15:30

1945

15:50

1946

16:10

Wednesday, October 30

16:30

1947

1948

Power Semiconductor Device Modeling and Simulation – H Alan Mantooth, Shamim Ahmed, and Simon S Ang (University of Arkansas) Application Engineering of Wide Bandgap Semiconductors – Bulent Sarlioglu (University of Wisconsin Madison), Di Han, Jukkrit Noppakunkajorn, and Anuradha Ogale (University of Wisconsin, Madison) Studying the Performance of SeriesConnected GaN FETs in Higher Voltage Switching Applications – Alireza Khaligh (University of Maryland) and Amin Hasanzadeh (University of Maryland) Materials, Components and Devices for Electrical Energy Systems – Guru Subramanyam and Elena Guliants (University of Dayton)

Low-dimensional Nanoscale Electronic and Photonic Devices 3 Photonic Devices – 10:00 – 12:00 Co-Chair(s): Ho Won Jang and Dong Yu 10:00

1983

10:30

1984

11:00

1985

11:30

1986

Panel Session 2 - Manufacturing Challenges in Wide Bandgap Power Modules – 17:00 – 18:30 Co-Chair(s): Mietek Bakowski and Aris Christou 17:00 17:10 17:25 17:40 17:55 18:10

E4

Introduction Krishna Shenai, Argonne National Laboratory John Kajs, SAIC Ty McNutt, APEI Inc Takashi Nakamura, Rohm Co Q&A

Low-Dimensional Nanoscale Electronics and Photonic Devices 6 Electronics and Photonics / Dielectric Science and Technology / Sensor Powell Room, Tower 3, 6th Floor, Hilton San Francisco Union Square

Low-dimensional Nanoscale Electronic and Photonic Devices 2 Photonic Devices – 08:20 – 09:40 Co-Chair(s): Junghyo Nah 08:20

204

1980

Novel Epitaxial Lift-Off Process for GaAs Substrate Reuse and Flexible Electronics – Cheng-Wei Cheng, Kuen-Ting Shiu, Ning Li, Shu-Jen Han, Leathen Shi, and Devendra K Sadana (IBM TJ Watson Research Center)

Textured Mo Rear Electrodes for CuIn(S,Se)2 Solar Cells Applications – Yi-Chung Wang, Yu-Ting Yen, Chia-Wei Chen, Fan Hu (Department of Materials Science and Engineering, National TsingHua University, Hsinchu, Taiwan), and Yu-Lun Chueh (Department of Materials Science and Engineering, National Tsing Hua University, Hsinchu 30013, Taiwan, ROC) In Situ Growth of Si Nanowires Using Transmission Electron Microscopy – Yi-Chia Chou (National Chiao Tung University), Cheng-Yen Wen (National Taiwan University), Mark C Reuter (IBM T J Watson Research Center), Eric A Stach (Brookhaven National Laboratory), and Frances M Ross (IBM T J Watson Research Center)

E5

Manipulating Threshold Voltages of III-V Nanowire Field Effect Transistors – Ning Han, Fengyun Wang, and Johnny C Ho (City University of Hong Kong) Graphene Aerogels for High-Performance Electrochemical Energy Storage – Zach Rousslang (University of Washington, Department of Materials Science & Engineering, University of Washington, Department of Chemistry), Jennifer Hanson (University of Washington, Department of Materials Science & Engineering), and Peter J Pauzauskie (University of Washington, Department of Materials Science & Engineering, Physical Sciences Division, Pacific Northwest National Laboratory) Nanofiber Optic Mechanical Transducers for Measuring Molecular Level Displacements and Forces – Donald Sirbuly (University of California, San Diego) Electroluminescence of n-Ge/i-Ge/p-Si Hetero Junction PIN LEDs – Taek Sung Kim, Yeon-Ho Kil, Hyeon Deok Yang, Jong-Han Yang, Joung Hee Kim, Joo Yong Jeong, Sukill Kang, Tae Soo Jeong, ChelJong Choi, and Kyu-Hwan Shim (Chonbuk National University)

Nonvolatile Memories

Dielectric Science and Technology / Electronics and Photonics Golden Gate 1, Tower 3, Lobby Level, Hilton San Francisco Union Square

Opening Session – 08:00 – 09:40 Co-Chair(s): Shoso Shingubara and Zia Karim 08:00

1987

Non-Volatile Memory Technology: Directions Beyond Floating Gate Devices – Robert Gleixner and Chandra Mouli (Micron Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


09:10

1988

1989

Emerging Memory Technologies for Future Embedded Non Volatile Memories: Challenges and Opportunities BDesalvo, EVianello, GMolas, VSousa, LPerniola CEA/Leti, Advanced Memory Technologies Laboratory, Silicon Component Division Grenoble, France, barbaraDesalvo@CeaFr – Barbara de Salvo (CEA-LETI) Storage Class Memory & NAND Flash Memory Hybrid Solid-State Drives (SSD) – Ken Takeuchi (Chuo University, Chuo University)

15:00

1997

15:20

1998

ReRAM 1 – 10:00 – 12:00 Co-Chair(s): Blanka Magyari-Kope and Hisashi Shima 10:00

10:30

11:00

11:20

11:40

1990

1991

1992

1993

1994

Programmable Metallization Cells in Memory and Switching Applications – Michael N Kozicki, Pradeep Dandamudi, Hugh J Barnaby, and Yago Gonzalez-Velo (Arizona State University) Solid-State Reactions in Resistive Random Access Memory (ReRAM) Induced By Electric Filed and Process Atmosphere – Hisashi Shima (National Institute of Advanced Industrial Science and Technology (AIST)) and H Akinaga (AIST) Observation of Filament Formation and Rupture in Cu/MoOx Rerams – Masaki Kudo, Yuuki Ohno, Kouichi Hamada, Masashi Arita, and Yasuo Takahashi (Graduate School of Information Science and Technology, Hokkaido University) Forming-Free Resistive Switching Characteristics of 15nm Thick ZrBased Metallic Glass Oxide – Berhanu Tulu Kacha, W Z Chang (Department of Materials Science and Engineering, National Taiwan University of Science and Technology, Taipei 10607, Taiwan), S F Wang (Department of Materials and Minerals Resources Engineering, National Taipei University of Technology, Taipei 10608, Taiwan), and Jinn P Chu (Department of Materials Science and Engineering, National Taiwan University of Science and Technology, Taipei 10607, Taiwan) PN-Diode P-Oxide-Semiconductor/NSiC/N-Si Resistive Nonvolatile Memory for Cross-Point Memory Array – Yoshihiko Sato, Atsushi Yamashita, Takahiro Tsukamoto, and Yoshiyuki Suda (Tokyo University of Agriculture & Technology)

STTMRAM 1 – 14:00 – 15:40 Co-Chair(s): Yoshishige Suzuki and K.-J. Lee 14:00

1995

14:30

1996

Challenges of Stt-Mram for High Density Memory – S C Oh (Semiconductor R&D Center, SAMSUNG ElECTRONICS Co, Ltd.) Magnetization Switching Using Spin Orbit Torques in Cofeb|MgO Magnetic Heterostructures – Masamitsu Hayashi (National Institute for Materials Science)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Effect of Pt Capping Layer On Perpendicular-Magnet Anisotropy in Cofeb-MgO-Cofeb Magnetic Tunnel Junction – Du-Yeong Lee, Tae-Hun Shim, and Jea-Gun Park (Hanyang University) Comparison of Ta, Pt and Ti Capping Layer On Perpendicular Magnetic Anisotropy in Cofeb-MgO-Cofeb Magnetic-TunnelJunction – Seung-Eun Lee, Du-Yeong Lee, Min-Su Jeon (Hanyang University), Yasutaka Takemura (Hanyang University, SUMCO Corporation), Kyo-suk Chae (Samsung Electronics Co, Ltd., Hanyang University), Tae-Hun Shim, and Jea-Gun Park (Hanyang University)

Emerging Memories – 16:00 – 17:50 Co-Chair(s): Takasumi Ohyanagi and Y. B. Kim 16:00

1999

16:30

2000

16:50

2001

17:10

2002

17:30

2003

Opportunities and Challenges of Atom Switch For Low-Power Programmable Logic – Munehiro Tada, Toshitsugu Sakamoto, and Hiromitsu Hada (Lowpower Electronics Association & Project (LEAP)) Ferroelectric Gate ZnO Thin Film Transistor With An MgO Buffer Layer – Bo Xiao (Norfolk State University) Polymer:Nanoparticle Nonvolatile Memory Devices With Electrode-Sensitive Resistive Switches – Jianyong Ouyang (National University of Singapore) Flexible Conductive-Bridging RandomAccess Memory Cell Fabricated With Stacked Polymer Electrolyte and Conductive Polymer – Myung-JIn Song, Hyun-Min Seung, Kyoung-Cheol Kwon, Jong-Sun Lee, Dong-Hyun Park, and JeaGun Park (Hanyang University) Conductive Bridging Random Access Memory Cell Fabricated With Top Ag Electrode, Polyethylene Oxide Layer, and Bottom Pt Electrode – Hyun-Min Seung, Dong-Hyun Park, Myung-JIn Song, KiHyun Kwon, Han-Vit Jeoung, and Jea-Gun Park (Hanyang University)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square E5 Poster Session – 18:00 – 20:00 Co-Chair(s): Kiyoteru Kobayashi and Blanka Magyari-Kope •

2004

Effect of Intermetal Dielectric Layer On the Interpoly Dielectric Properties of Nonvolatile Memory Devices – JinYong Ryoo (Samsung Electronics Co, Sungkyunkwan University), Suk-Kang Sung, Yong-Sik Yim, Jun-Eui Song, WangChul Shin, Jai-Hyuk Song, Du-Heon Song, Jeong-Hyuk Choi (Samsung Electronics Co), and Yonghan Roh (Sungkyunkwan University)

205

Wednesday, October 30

08:40


Wednesday, October 30

E7

2005

2006

2007

2008

Impact of STI Gap-Fill Process Deposited By HDP-CVD in Flash Memory – Hyoung-sun Park (Samsung Electronics Co, Ltd., Sungkyunkwan University), Kiyong Kim (Samsung Electronics Co, Ltd.), Ok-cheon Hong (Samsung Electronics Co, Ltd., Samsung Electronics Co, Ltd.), Hongsig Kim, Haebum Lee, Kyu-pil Lee, Insoo Cho (Samsung Electronics Co, Ltd.), and Byoung-deog Choi (Sungkyunkwan University) Temperature Dependence of Resistance in Conductive Filament Formed With Dielectric Breakdown of Ni/TiO2/Pt Structure – Shintaro Otsuka, Yoshifumi Hamada (Graduate School of Science and Engineering, Kansai University), Tomohiro Shimizu, and Shoso Shingubara (Kansai University) Low-Dielectric Constant SiCN Charge Trapping Layer for Nonvolatile Memory Applications – Kiyoteru Kobayashi, Shinji Naito, Shuichi Nakiri, and Yoshina Ito (Tokai University) Analysis of Resistive Switching Characteristics of Nickel Oxide in ITO/ NiO/ITO Structure – Mira Park (Myongji University), Duk Hyun Lee (Konkuk University), Tae-sik Yoon, Young Jin Choi (Myongji University), Bae Ho Park (Konkuk University), and Chi Jung Kang (Myongji University)

Processing, Materials, and Integration of Damascene and 3D Interconnects 5 Dielectric Science and Technology / Electrodeposition / Electronics and Photonics / High Temperature Materials Union Square 21, Tower 3, 4th Floor, Hilton San Francisco Union Square

Copper Electrodeposition Fundamentals – 08:40 – 12:00 Co-Chair(s): Masanori Hayase and Wei-Ping Dow 08:40

2085

09:00

2086

09:20

2087

09:40 2088 10:00

206

Analysis of Cu(I) Complexes in Copper Sulfate Electroplating Solution By Using Reaction Kinetics With a Chelate Reagent – Hiroaki Noma, Toshiaki Koga, Chieko Hirakawa, Kazuhiro Nonaka, and Kazuhisa Shobu (National Institute of Advanced Industrial Science and Technology (AIST)) Cuprous Ion As An Accelerant of Copper Damascene Electrodeposition – Kazuo Kondo (Osaka Prefecture University) Screening Techniques for Selecting Improved Additives for Bottom-Up Copper Metallization – Lindsay Boehme and Uziel Landau (Case Western Reserve University) Break Impurity-Induced Tin Incorporation During Copper Electrodeposition – Sathana Kitayaporn, Marinus Hopstaken (IBM TJ Watson Research Center), Qiang Huang (IBM, T J Watson Research Center), and Brett C Baker-O’neal (IBM TJ Watson Research Center)

10:20

2089

10:40

2090

11:00

2091

11:20

2092

11:40

2093

E8

Copper Plating Uniformity On Resistive Substrate With Segmented Anode – Liu Yang (Vrije Universiteit Brussel), Aleksandar Radisic (imec Belgium), Johan Deconinck (Vrije Universiteit Brussel), and Philippe M Vereecken (imec) Diallylamine Levelers Side Chains Effect On Copper Via Filling – Yasutaka Yamada, Kazuo Kondo (Osaka Prefecture University), Minoru Takeuchi (Nittobo Medical), Takeyasu Saito, Naoki Okamoto (Osaka Prefecture University), Masaru Bunya (Nittobo Medical), and Masayuki Yokoi (Osaka Prefecture University) In Situ Analysis of Peg Surface Adhesion On Cu – Ui-Hyoung Lee, Jinho Choi, Jaihyung Won (Samsung Electronics), Hyo-Jong Lee (Dong-A University), HunJoon Sohn, and Tak Kang (Seoul National University) Analysis of Addtive Role for Copper Electroplating Using Microfluidic Channel – Masanori Hayase, Yu Agarita, and Haruki Egoshi (Tokyo University of Science) Combination of AC Voltammetry and Chemometric Classification for Diagnosis of Disturbances of Electrodeposition Process – Aleksander Jaworski, Hanna Wikiel, and Kazimierz Wikiel (Technic, Inc)

Semiconductor Cleaning Science and Technology 13 (SCST 13) Electronics and Photonics Continental 8, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Non-silicon Material Cleaning and Conditioning – 08:10 – 11:00 Co-Chair(s): Paul W. Mertens and Jeongwon Park 08:10 08:20 2129

09:00

2130

09:20

2131

09:40 10:00 2132

Introductory Remarks (Invited) A Novel Approach to Clean Surface for High Mobility Channel Materials With in-Situ Atomic Hydrogen Clean – Jeongwon PARK, Joe Griffith Cruz, Bo Zheng, Jerry Gelatos, Murali Narasimhan, and Pravin K Narwankar (Applied Materials) Wet-chemical etching of InGaAs for Advanced CMOS Processing – Dennis H van Dorp (imec), S Arnauts (Imec), Daniel Cuypers (KULeuven), Jens Rip, Frank Holsteyns (imec), and Stefan De Gendt (imec, KULeuven) Self-assembly of Alkanethiols to Protect GaAs(100) – Pablo Mancheno-Posso and Anthony J Muscat (University of Arizona) Coffee Break Study of InP Surfaces After Wet Chemical Treatments – Daniel Cuypers (KULeuven), Dennis H van Dorp (Imec), Massimo Tallarida, Simone Brizzi (Brandenburg University of Technology Cottbus), Leonard Rodriguez, Thierry Conard, Sophia Arnauts (Imec), Dieter Schmeisser (Brandenburg University of Technology Cottbus), Christoph Adelmann (Imec), and Stefan De Gendt (KULeuven)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2133

10:40

2134

Selective Ni Removal Deposited On Ge At Different Annealing Temperatures – Masayuki Otsuji (Dainippon screen) Surface Processing for Area Selective Mist Deposition of Nanocrystalline Quantum Dot Films – Ju-Hung Chao (The Pennsylvania State University), Aditya Kshirsagar (Intel Corp), and Jerzy Ruzyllo (The Pennsylvania State University)

10:30

2180

Novel Transistors – 10:50 – 12:10 Co-Chair(s): Kaustav Banerjee and Hemanth Jagannathan 10:50

2181

11:20

2182

11:50

2183

Metallic Contamination Analysis – 11:00 – 11:50 Co-Chair(s): Takeshi Hattori and Jerzy Ruzyllo 11:00

11:20

2135

2136

11:40

Trace Metal Analysis of Cleanroom Dry Wipers By Inductively Coupled Plasma – Mass Spectrometry – Shi Liu and Bin Liu (ChemTrace Analytical Services) Quantitative Analysis of the Metallic Contamination On GaAs and InP Wafers By TXRF and ICPMS Techniques – Hervé Fontaine (CEA, LETI, MINATEC Campus, 17 rue des martyrs, 38054 Grenoble cedex 9, France) and Thierry Lardin (CEA Leti) Concluding Remarks

Semiconductors, Dielectrics, and Metals for

E10 Nanoelectronics 11

Dielectric Science and Technology / Electronics and Photonics Union Square 22, Tower 3, 4th Floor, Hilton San Francisco Union Square

09:20

2177

2178

09:40 10:00 2179

Refined Characterization Up to Millimeter Waves of Ferroelectric KTN Thin Film for Efficient Integrated Tunable Devices – Gregory Houzet, Thierry Lacrevaz, Cedric Bermond (Universite de Savoie), Arnaud Le Febvrier, Stephanie Deputier, Maryline Guilloux-Viry (ISCR, Universite de Rennes 1), Patrick Queffelec (Lab-STICC, Universite de Bretagne Occidentale), and Bernard Flechet (Universite de Savoie) Engineering of the Interface Between Silicon and Rare-Earth-Oxide Buffer for GaN Growth – Rytis Dargis, Andrew Clark, Erdem Arkun, and Robin Smith (Translucent Inc) Break Vanadium Dioxide for Selector Applications – Iuliana P Radu (imec, Belgium, KU Leuven, Leuven, Belgium), Bogdan Govoreanu (imec, Belgium), Koen Martens (imec, Belgium, KU Leuven, Leuven, Belgium), Michael Toeller (Tokyo Electron Ltd.), Antony P Peter (imec, Belgium), M R Ikram (KU Leuven, Leuven, Belgium), Le Qi Zhang (imec, Belgium, KU Leuven, Leuven, Belgium), Hubert Hody, Woosik Kim, Paola Favia (imec, Belgium), Thierry Conard (Imec), Hsing Yi Chou (KU Leuven), Brecht Put (imec, Belgium, KU Leuven, Leuven, Belgium), Valery V Afanas’ev (KU Leuven, Belgium), Andre Stesmans (KU Leuven), Marc Heyns (imec, Belgium, KU Leuven, Leuven, Belgium), Stefan De Gendt (Katholieke Universiteit Leuven, imec and KU Leuven), and Malgorzata Jurczak (imec)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Extremely Short Channel Si-Mosfets Prepared On SOI Substrates Using Anisotropic Wet Etching – Shinji Migita, Yukinori Morita, Meishoku Masahara, and Hiroyuki Ota (National Institute of Advanced Industrial Science and Technology) High-Performance Field-Effect-Transistors On Monolayer-WSe2 – Kaustav Banerjee, Wei Liu, and Jiahao Kang (University of California, Santa Barbara) Improvement of Field-Effect Mobility of P3HT Films By Slow Cooling in Annealing Treatment – Shohei Iino, Daisuke Tadaki, Teng Ma, Jinyu Zhang, Yasuo Kimura, and Michio Niwano (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University)

Characterization – 13:40 – 15:30 Co-Chair(s): Valery V. Afanas’ev and Koji Kita 13:40

2184

14:00

2185

14:30

2186

14:50

2187

15:10

2188

Novel Dielectric Applications – 09:00 – 10:50 Co-Chair(s): S. Van Elshocht and D. Landheer 09:00

Light Wavelength Effect On Tungsten Oxide Dielectric Properties – Chi-Chou Lin and Yue Kuo (Texas A&M University)

Measurement of Complex Conductance and Capacitance in the Phz Frequency Range With Subnanometric Spatial Resolution: Application to the Grain Boundary of Monoclinic Hafnia – Cyril Guedj (CEA, LETI, MINATEC Campus) Electron Band Alignment At Ge/Oxide and AIII-BV/Oxide Interfaces From Internal Photoemission Experiments – Valery V Afanas’ev (KU Leuven, Belgium), Hsing Yi Chou (KU Leuven), Michel Houssa (KU Leuven, Belgium), and Andre Stesmans (KU Leuven) Study On Near-Interface Structure of Thermal Oxides On 4H-SiC Substrates With FTIR-ATR – Hirohisa Hirai and Koji Kita (Department of Materials Engineering, The University of Tokyo) Investigation On Oxygen Diffusion in a High-k Metal-Gate Stack for Advanced CMOS Technology By XPS – Ardem Kechichian (École Nationale Supérieure de Chimie de Paris, STMicroelectronics), Philippe Barboux (École Nationale Supérieure de Chimie de Paris), and Mickael Gros-Jean (STMicroelectronics) Lateral Nonuniformity of the Tunneling Current of Al/SiO2/p-Si Capacitor in Inversion Region Due to Edge Fringing Field Effect – Han-Wei Lu (Graduate Institute of Electronics Engineering/ Department of Electronics Engineering) and Jenn-Gwo Hwu (Graduate Institute of Electronics Engineering / Department of Electrical Engineering)

207

Wednesday, October 30

10:20


InGaAs Channels – 15:40 – 17:00 Co-Chair(s): Alessandro Molle and Samares Kar 15:40

2189

16:10

2190

16:30

2191

16:50

Advanced Physical Characterization of Si-Passivated III-V Semiconductors for Low-Power Logic Applications: Defect Chemistry, Band Bending and Surface Photo-Voltage – Chiara Marchiori (IBM Research GmbH - Zurich Laboratory) Electrical Properties and Charge Transport in the Pd/Al2O3/InGaAs MOS Structure – Y Y Gomeniuk, Y V Gomeniuk, A N Nazarov (ISP NAS of Ukraine, 03028 Kiev, Ukraine), S Monaghan, K Cherkaoui, E O’Connor, I Povey, V Djara, and P K Hurley (Tyndall NI, Lee Maltings, Prospect Row, Cork, Ireland) Electrical Characterization of Atomic Layer Deposited La2O3 Films on In053Ga047As Substrates – Hiroshi Oomine, Dariush Hassan Zadeh (Tokyo institute of Technology), Kuniyuki Kakushima (Tokyo Institute of Technology), Yoshinori Kataoka (Toshiba Materials Co, LTD), Akira Nishiyama, Nobuyuki Sugii, Hitoshi Wakabayashi, Kazuo Tsutsui, Kenji Natori, and Hiroshi Iwai (Tokyo Institute of Technology) Concluding Remarks

ULSI Process Integration 8

and Photonics E12 Electronics Continental 7, Tower 3, Ballroom Level,

10:30

2243

11:00

2244

Device Characterization – 14:00 – 15:50 Co-Chair(s): Toshiaki Tsuchiya and Junichi Murota 14:00

2245

14:30

2246

14:50

2247

15:10

2248

Wednesday, October 30

Hilton San Francisco Union Square

Back-end Processing 2 – 08:40 – 09:40 Co-Chair(s): Makoto Hirayama 08:40

2239

09:00

2240

09:20

2241

Optimization of Cu damascene electrodeposition process in ULSI for yield and reliability improvement – Ingrid Shao (IBM T J Watson Research Center), Tien Cheng (IBM SRDC), James Kelly (IBM Research), Paul Findeis (IBM Microelectronics), Matthew Angyal, Yiheng Xu, Naftali Lustig, Edward Engbrecht (IBM SRDC), Shafaat Ahmed (IBM, East Fishkill, New York, USA), and Bilal Ahmed (Departement of Advanced Energy Technology, University of Science and Technology) ALD W CMP Characteristic for HKMG Integration – Tao Yang, Guilei Wang, Qiang Xu, Yihong Lu, Jiahan Yu, Hushan Cui, Jiang Yan, Junfeng Li, and Chao Zhao (Key Laboratory of Microelectronics Devices & Integrated Technology, Institute of Microelectronics of Chinese Academy of Sciences) Fabrication of Metal-Nitride/Si Contacts with Low Electron Barrier Height – Keisuke Yamamoto, Kojiro Asakawa, Dong Wang, and Hiroshi Nakashima (Kyushu University)

Dopant-Atom-Based Tunnel SOI-Mosfets – Michiharu Tabe, Daniel Moraru, Earfan Hamid, Arup Samanta (Research Institute of Electronics, Shizuoka University), Le The Anh (Japan Advanced Institute of Science and Technology), Takeshi Mizuno (Research Institute of Electronics, Shizuoka University), and Hiroshi Mizuta (Japan Advanced Institute of Science and Technology, School of Electronics and Computer Science, University of Southampton) Wide Bandgap Heterojunctions on Crystalline Silicon – James Sturm, Sushobhan Avasthi, Ken Nagamatsu, Janam Jhaveri, William E McClain, Gabriel Man, Jeffrey Schwartz, Antoine Kahn, and Sigurd Wagner (Princeton University)

Characterization of Oxide Traps Participating in Random Telegraph Noise Using Charging History Effects in NanoScaled Mosfets – Toshiaki Tsuchiya (Shimane University), Naoyoshi Tamura, Akihito Sakakidani, Kenichiro Sonoda, Masayuki Kamei, Shinya Yamakawa, and Sumio Kuwabara (Semiconductor Technology Academic Research Center) Low-Frequency-Noise-Based Oxide Trap Profiling in Replacement High-k/MetalGate Pmosfets – Eddy Roger Simoen, JaeWoo Lee, Anabela Veloso, Vasile Paraschiv (Imec), Naoto Horiguchi, and Cor Claeys (imec) Resistive Switching Properties of SiOx/ TiO2 Multi-Stack in Ti-Electrode Mim Diodes – Akio Ohta (Graduate School of Advanced Sciences of Matter, Hiroshima University), Katsunori Makihara, Motoki Fukusima (Graduate School of Engineering, Nagoya University), Hideki Murakami, Seiichiro Higashi (Graduate School of Advanced Sciences of Matter, Hiroshima University), and Seiichi Miyazaki (Graduate School of Engineering, Nagoya University) Reduction of Interface States Due to Post Oxidation With Formation of Algeo Layer At Al<sub>2</sub>O<sub>3</sub>/Ge Interface – Shigehisa Shibayama (Graduate School of Engineering, Nagoya University, Research Fellow of Japan Society for the Promotion of Science), Kimihiko Kato, Mitsuo Sakashita, Wakana Takeuchi, Noriyuki Taoka, Osamu Nakatsuka, and Shigeaki Zaima (Graduate School of Engineering, Nagoya University)

Tunneling and Quantum Devices – 10:00 – 11:30 Co-Chair(s): Marc Sanquer 10:00

208

2242

Quantum Tunneling for Ultra-Low-Power Scaled CMOS – Paul Berger (The Ohio State University) Meeting Program l October 27–November 1, 2013 l San Francisco, CA


F1

2249

High Electron Mobility in Germanium Junctionless n-MOSFETs – Shoichi Kabuyanagi (Department of Materials Engineering, School of Engineering, The University of Tokyo, JST-CREST), Tomonori Nishimura (JST-CREST, Department of Materials Engineering, School of Engineering, The University of Tokyo), Kosuke Nagashio, and Akira Toriumi (Department of Materials Engineering, School of Engineering, The University of Tokyo, JST-CREST)

Current Trends in Electrodeposition - An Invited Symposium Electrodeposition Franciscan B, Tower 1, Ballroom Level, Hilton San Francisco Union Square

Current Trends in Electrodeposition - An Invited Symposium – 14:00 – 17:20 Co-Chair(s): Christian Bonhôte and Giovanni Zangari 14:00

2250

14:20

15:00

2251

15:40 16:00 2252

16:40

F2

2253

(2013 ECS Electrodeposition Division Research Award Lecture) 30 Years of Electrodeposition of Semi-conductors for Industrial Applications : Dreams, Realities and Dreams Again ! – Daniel Lincot (IRDEP) 2013 Electrodeposition Research Award: 30 Years of Electrodeposition of Semiconductors for Industrial Applications: Dreams, Realities and Dreams Again! D Lincot Electrodeposited High Power and Energy Density Secondary Batteries Based On Three-Dimensionally Mesostructured Current Collectors – Paul Braun (University of Illinois at UrbanaChampaign) Break Semiconductors for Photovoltaic Devices:Electrochemical Approaches – Phillip J Dale, João C Malaquias, and Marc Steichen (University of Luxembourg) Electrochemical Synthesis of Metal Chalcogenides Nanostructures – Nosang Vincent Myung (University of California Riverside)

Emerging Materials and Processes for Energy Conversion and Storage

08:15

2274

08:35

2275

08:55

2276

09:40 10:00 2277

10:20

2278

10:40

2279

11:00

2280

11:20

2281

11:50

2282

Electrodeposition / Battery Golden Gate 7, Tower 3, Lobby Level, Hilton San Francisco Union Square

Catalyst 2 - Challenging – 07:45 – 12:30 Co-Chair(s): Richard Alkire, Takayuki Homma, Giovanni Zangari, L. Deligianni and Thomas Francisco Jaramillo 07:45 07:55 2273

Introductory Remarks ORR Activity and Durability of MBEPrepared Pt Monolayers On Au(hkl) Single Crystal Substrates – Yuki Iijima, Takayuki Kondo, Yu Takahashi, Yohe Bando, Naoto Todoroki, and Toshimasa Wadayama (Graduate School of Environmental Studies,Tohoku University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Application of Tin Oxide-Based Support Materials for Durable Cathode Catalysts in PEFCs – Annett Rabis, Emiliana Fabbri, Ruediger Koetz (Paul Scherrer Institut), and Thomas J Schmidt (Electrochemistry Laboratory, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland) Non-Noble Electrocatalysts for Alkaline Hydrogen Evolution and Oxidation – Maureen Han-Mei Tang, Christopher J Hahn, Desmond Ng, and Thomas Francisco Jaramillo (Stanford University) Design and Synthesis of Multi-Component Colloidal Nanocrystals for Catalysis and Sensing – A Paul Alivisatos (University of California, Berkeley) Break One-Step Preparation of Ag-Loaded Bi4Ti3O12 Nanofibers By Electrospinning and Their Photocatalytic Activity – Dongfang Hou, Xianluo Hu, and Yunhui Huang (School of Materials Science and Engineering, Huazhong University of Science and Technology) Charge Separation Properties of CdSe/Reduced Graphene Oxide Nanoheterostuctures: Graphene Size Effect – Kai An Tsai and Yung Jung Hsu (Materials Science and Engineering National Chiao Tung University) Fast and Economic Preparation of Pt-Based Counter Electrode for Highly Efficient Dye-Sensitized Solar Cell – Tsung Yu Hsieh, Tzu Chien Wei (Department of Chemical Engineering, National Tsing Hua University), Yu Ting Huang, Masashi Ikegami, and Tsutomu Miyasaka (Graduate School of Engineering, Toin University of Yokohama) In Situ Stress and Nanogravimetric Measurements During De-Alloying of PtCu Thin-Film Electrode – Vijay A Sethuraman, Deepa Vairavapandian (Brown University), Manon C Lafouresse (National Institute of Standards and Technology), Naba Karan, Shouheng Sun (Brown University), Ugo Bertocci, Gery R Stafford (National Institute of Standards and Technology), and Pradeep Guduru (Brown University) Electrodeposited Co3O4, Co(OH)2, and CoΟΟH for Catalysis of the Oxygen Evolution Reaction – Jay A Switzer, Jakub A Koza, YIng Chau Liu, and James C Hill (Missouri University of Science and Technology) Electrodeposition of V2O5 On Nanostructured 3-D Aluminium Current Collectors for Li-Ion Microbatteries – David Rehnlund, Mario Valvo (Department of Chemistry-Ångström Laboratory, Uppsala University), Kristina Edström (Department of Chemistry - Ångström Laboratory, Uppsala University), and Leif Nyholm (Department of ChemistryÅngström Laboratory, Uppsala University)

209

Wednesday, October 30

15:30


12:10

F4

2283

Electrochemical Deposition of Terbium From Molten Salts – Dev Chidambaram and Sanjeev Rayaprolu (Materials Science and Engineering Department, University of Nevada Reno)

Fundamentals of Electrochemical Growth– From UPD to Microstructures 3 Electrodeposition Union Square 11, Tower 3, 4th Floor, Hilton San Francisco Union Square

F5

Emerging Opportunities in Electrochemical Deposition for Nanofabrication Electrodeposition / Physical and Analytical Electrochemistry Union Square 23/24, Tower 3, 4th Floor, Hilton San Francisco Union Square

Probing Electrochemical Processes – 08:00 – 09:40 Co-Chair(s): Thomas P. Moffat and M. Buck 08:00

2398

08:30

2399

09:00

2400

09:20

2401

Electrodeposition of Alloys – 08:00 – 10:00 Co-Chair(s): Stanko Brankovic, Giovanni Zangari, and Sudipta Roy

Wednesday, October 30

08:00

2340

08:20

2341

08:40

2342

09:20

2343

09:40

2344

Study of Coni Electrodeposition Mechanism in a Glycine Bath Using Eqcm – Vinícius Primo Graciano (Instituto de Química da Universidade de São Paulo) Electrodeposition of Supersaturated Cuag Alloys in Pyrophosphate-Iodide Electrolytes – Roberto Bernasconi, Luca Nobili, and Luca Magagnin (Politecnico di Milano) Electrodeposition of Binary Alloys Immiscible in the Bulk – Giovanni Zangari (Materials Science and Engineering, University of Virginia) Electrochemical Formation of Brazing Alloys On Metal Substrates – Fulya Ulu, Ishak Karakaya (Middle East Technical University), Gökhan Demirci (Aselsan Inc), Mustafa Serdal Aras (Middle East Technical University), and Metehan Erdogan (Yildirim Beyazit University) An Electrochemical Quartz Crystal NanoBalance Study On Cu-Sn Codeposition From Methane Sulphonic Acid Electrolytes – Sudipta Roy and Naray Pewnim (Newcastle University)

Kinetics and Thermodynamics of Electrodeposition – 10:20 – 12:20 Co-Chair(s): Nikolay Dimitrov and Takayuki Homma 10:20

2345

10:40

2346

11:00

2347

11:40

2348

12:00

210

2349

DFT Analysis On Cathodic Reaction of Au Thiosulfate Complex At Au(111) Surface – Masahiro Kunimoto (Waseda University), Hiromi Nakai (Department of Chemistry and Biochemistry, Waseda University), and Takayuki Homma (Nanotechnology Research Center, Waseda University) Effect of Additives On Dendritic Growth During Zinc Electrodeposition – Stephen J Banik and Rohan Akolkar (Case Western Reserve University) Structural Accelerating Effect of Chloride On Copper Electrodeposition – Yuriy I Yanson and Marcel J Rost (Leiden University) Exploiting the H-Sorption Properties of Pd for the Epitaxial Deposition of Pt – Ben Cyril Rawlings (University of Bristol) and Natasa Vasiljevic (School of Physics, University of Bristol) In Situ STM Study of the Effect of Additives On Copper Bulk Electrodeposition – Andriy Taranovskyy, Yuriy I Yanson, Marcel J Rost, and Joost W M Frenken (Leiden University)

G1

Towards An Atomistic Understanding of the Activation of Plating Additives At the Copper/Electrolyte Interface – Hai Nguyen, Thi Mien Trung Huynh (University of Bern), Alexander Flügel, Marco Arnold, Dieter Mayer (BASF SE), and Peter Broekmann (University of Bern) Using Vibrational Spectroscopy and Electrochemical Stress Measurements to Interrogate Metal Electrode Surfaces – Andrew Gewirth (University of Illinois, Urbana-Champaign), Justin Oberst, Kevin Schmitt (University of Illinois), and Hadi Tavassol (University of Illinois, UrbanaChampaign) Optimization of Leveler Concentrations in Copper Via Filling for Deduction of Contamination – Jae-Ho Lee and Ki-Tae Kim (Hongik University) Effects of Anodizing Parameters On the Formation of Titanium Dioxide Nanotubes – Zeynep Bolukoglu, Ishak Karakaya (Middle East Technical University), and Metehan Erdogan (Yildirim Beyazit University)

Alkaline Electrolyzers

Industrial Electrochemistry and Electrochemical Engineering / Battery / Energy Technology / Physical and Analytical Electrochemistry Union Square 25, Tower 3, 4th Floor, Hilton San Francisco Union Square

Alkaline Electrolyzers – 08:00 – 12:00 Co-Chair(s): Gerardine G. Botte, Katherine E. Ayers, Bor Yann Liaw, Sanjeev Mukerjee and Vijay K. Ramani 08:00 2402 08:05

08:25

2403

08:45

2404

Introductory Remarks Effect of Bubbles Coverage in Gas Evolving Rotating Disk Electrodes – Luis A Diaz, Madhivanan Muthuvel, and Gerardine G Botte (Ohio University) Self-Sustainable Production Of Hydrogen and Chemicals From Renewable Alcohols By Alkaline Electrolysis – Hamish Andrew Miller, Francesco Vizza, Alessandro Lavacchi, Jonathan Filippi, Werner Oberhauser, Manuela Bevilacqua, Andrea Marchionni (ICCOM-CNR), Massimo Innocenti (Dipartimento di Chimica, Università di Firenze), and Lianqin Wang (ICCOM-CNR, CENMAT, University of Trieste) Electrocatalytic Oxidation Mechanism of Urea On Ni/Co Hydroxide Catalyst in Alkaline Medium – Vedasri Vedharathinam and Gerardine G Botte (Ohio University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


09:25

2405

2406

09:45 10:00 2407

10:20

2408

10:40

2409

11:00

2410

11:20

2411

11:40

2412

G2

Well-Defined NiFeAlO4 Inverse Spinel As Efficient Alkaline Water Oxidation Catalyst – Jamie Yung Chieh Chen (University of Wisconsin - Madison), Alexey Serov, Plamen Atanassov (University of New Mexico), and Shannon S Stahl (University of Wisconsin - Madison) Efficient Water Oxidation Using NickelHydroxide As An Electrocatalyst – Minrui Gao (University of Delaware) and Yushan Yan (Univeristy of Delaware) Break Towards Accurate Ab-Initio Prediction of ORR/ Oer Activity of LaBO3 (B=Cr,Mn) Perovskites – Role of Hubbard U and Stable Surface Coverage – Milind Gadre (University of Wisconsin-Madison), YuehLin Lee, Yang Shao-Horn (Massachusetts Institute of Technology), and Dane Morgan (University of Wisconsin-Madison) Enhanced Oxygen Evolution At ‘Aged’ Hydrous Nickel Oxide Electrodes in Alkaline Solution: Kinetics and Mechanism – Ian Godwin and Micheal EG Lyons (Trinity College Dublin) Investigation of the Alkaline Interface for Non-PGM Electrocatalysts in AEM Water Electrolysis – Michael Bates and Sanjeev Mukerjee (Northeastern University) Mixed Metal Mixed Oxides Electrocatalyst for Water Electrolysis – R Kamaraj, D Jonas Davidson, S Vasudevan, G Sozhan, and S Ravichandran (Central Electrochemical Research Institute, Karaikudi, India) Hydrogen Production By Alkaline Membrane Water Electrolysis – Javier Parrondo, Christopher George Arges, and Vijay K Ramani (Illinois Institute of Technology) Durability and Activity of Modified Nickel Anode for Alkaline Water Electrolysis – Hiroki Ichikawa, Koichi Matsuzawa, Yuji Kohno (Green Hydrogen Research Center, Yokohama Nat Univ), Yoshio Sunada (Chlorine Engineers Corp, Ltd.), Ikuo Nagashima (Kawasaki Heavy Industries, Ltd.), Yoshinori Nishiki, Akiyoshi Manabe (Permelec Electrode Ltd.), and Shigenori Mitsushima (Green Hydrogen Research Center, Yokohama Nat Univ)

Synthesis and Electrochemical Engineering General Session

Industrial Electrochemistry and Electrochemical Engineering Union Square 14, Tower 3, 4th Floor, Hilton San Francisco Union Square

Synthesis and Electrochemical Engineering General Session – 08:00 – 12:00 Co-Chair(s): Gerardine G. Botte and John Staser 08:00 08:10 2413

Welcoming Remarks Performance Analysis of Syngas Fueled Solid Oxide Electrolysis Cells – Pejman Kazempoor and Robert J Braun (Colorado School of Mines)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

08:30

2414

08:50

2415

09:10

2416

09:30 10:00 2417

10:20

2418

10:40

2419

11:00 11:20 2420

11:40

2421

Microbial Reverse-Electrodialysis Electrolysis Chemical-Production Cell for H2 Production and CO2 Sequestration – Xiuping Zhu, Marta C Hatzell, and Bruce E Logan (The Pennsylvania State University) Ammonia Synthesis From Urea Using An Electrochemical Approach – Fei Lu (Ohio University) PEM Electrolysis Model With Experimental Validation – David L Fritz III (Forschungszentrum Jülich) Break Current and Voltage Efficiency of High Pressure PEM Water Electrolyzers – Maximilian Schalenbach (Forschungszentrum Jülich) Effect of Cerium Doping On Morphology and Physical Properties of α-Fe2O3 films Prepared By Hydrothermal Electrodeposition – Ceren Yilmaz (Graduate School of Science and Engineering, Koc University) and Ugur Unal (Graduate School of Science and Engineering, Koc University, Koc University Surface Science and Technology Center (KUYTAM)) Electrochemical Performance of Ultrafine Bubble Water – Yoshikatsu Ueda, Takahiro Zushi (RISH, Kyoto University), and Yomei Tokuda (ICR, Kyoto University) Break Electrochemical Carboxylation of Olefins to Form Monocarboxylic Products By Using 12CaO•7Al2O3 Electride Cathode – Jiang Li, Toshio Fuchigami, Shinsuke Inagi, Hideo Hosono (Tokyo Institute of Technology, Japan), and Setsuro Ito (Tokyo Institute of Technology, Japan, Research Center, Asahi Glass Co, Ltd., Japan) Electrochemical Reduction of Tungsten Oxide in Molten LiCl-KCl Using a Novel Fluidised Bed Electrode Approach – Rema Abdulaziz, Leon D Brown, Douglas Inman (Electrochemical Innovation Lab, Department of Chemical Engineering, University College London, Torrington Place, London, WC1E 7JE, United Kingdom), Stefaan J R Simons (International Energy Policy Institute, UCL Australia, 220 Victoria Square, Adelaide, Australia, Electrochemical Innovation Lab, Department of Chemical Engineering, University College London, Torrington Place, London, WC1E 7JE, United Kingdom), Paul R Shearing (Electrochemical Innovation Lab, Department of Chemical Engineering, University College London, Torrington Place, London, WC1E 7JE, United Kingdom), and Dan J L Brett (Electrochemical Innovation Lab, University College London, London, WC1E 7JE, UK)

211

Wednesday, October 30

09:05


Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

I2

Synthesis and Electrochemical Engineering General Poster Session – 18:00 – 20:00 Co-Chair(s): John Staser •

Wednesday, October 30

2422

2423

2424

2425

2426

212

2427

2428

Nickel Phosphide As Hydrogen Evolution Reaction Electrocatalysts – Hua Li (University of Delaware, Minzu University of China), Shuang Gu (Department of Chemical & Biomolecular Engineering, University of Delaware), Zhongbin Zhuang (University of Delaware), Qianrong Fang (Department of Chemical & Biomolecular Engineering, University of Delaware), Ping Liu (Brookhaven National Laboratory), Jingguang Chen (Columbia University), and Yushan Yan (Department of Chemical & Biomolecular Engineering, University of Delaware) Anodes Based On Platinized Ebonex® – Alexander Velichenko, Olga Kasian, and Tatiana Luk’yanenko (Ukrainian State University of Chemical Technology) The Effect of Gas Compositions On the Performance and Durability of Soecs – Sun-Dong Kim, Doo-Won Seo, Sang-Kuk Woo, and Ji-Haeng Yu (Korea Institute of Energy Research) Mo/TiN Novel Composite Powder for An Alkali Metal Thermal to Electric Converter (AMTEC) Electrode – Sun-Dong Kim, Se-Young Kim, Jong-Hoon Joo, Min-Soo Seo, and Sang-Kuk Woo (Korea Institute of Energy Research) Emoval of Radioactive Cs Using Aqueous Sodium Metasilicate With Reduced Volumes of Waste Solution – Yoshikatsu Ueda (RISH, Kyoto University), Yomei Tokuda (ICR, Kyoto University), Hiroshi Goto (KUREHA TRADING CO ,LTD), Tomoyuki Kobayashi, and Yuji Ono (Fukushima Agricultural Technology Centre) Influence of the sp2 Content On Boron Doped Diamond Electrodes Applied in the Textile Dye Electrooxidation – Fernanda Lanzoni Migliorini, Marcela Dalprat Alegre (Instituto Nacional de Pesquisas Espaciais), Suellen Aparecida Alves (Universidade de São Paulo), Mauricio Ribeiro Baldan (Instituto Nacional de Pesquisas Espaciais), Marcos Roberto Vasconcelos Lanza (University of Sao Paulo), and Neidenei Gomes Ferreira (Instituto Nacional de Pesquisas Espaciais) Nitrate Removal By Electrolysis Using Cu/BDD Electrode Cathode – Mildred Caroline Elis Ribeiro, Andrea Boldarini Couto, Neidenei Gomes Ferreira, and Mauricio Ribeiro Baldan (Instituto Nacional de Pesquisas Espaciais)

Invitational Symposium in Honor of Adam Heller on his 80th Birthday

Physical and Analytical Electrochemistry / Battery / Energy Technology / Organic and Biological Electrochemistry Golden Gate 3, Tower 3, Lobby Level, Hilton San Francisco Union Square

Photochemistry & Photovoltaics 2 – 09:00 – 11:40 Co-Chair(s): Lo Gorton and Krishnan Rajeshwar 09:00

2527

09:40

2528

10:00 10:20 2529

10:40

2530

11:00

2531

I3

Electrochemical Communication Between thylakoid Membranes and Osmium Redox Polymers Modified Electrodes – Lo Gorton, Kamrul Hasan (Department of Biochemistry and Structural Biology, Lund University, PO Box 124, SE-22100 Lund, Sweden), Hassan Hamidi, Sinan Cem Emek (Lund University), Yusuf Dilgin (Çanakkale Onsekiz Mart University), Dónal Leech (National University of Ireland Galway), Hans-Erik Åkerlund, and Per-Åke Albertsson (Lund University) Photoelectrochemical Energy Conversion: From Efficient Planar Structures to Nanotopographic Devices – Hans Joachim Lewerenz (California Institute of Technology) Break Series Circuit of Organic Thin-Film Solar Cells for Electrochemical Conversion of Water Into Hydrogen – Atsushi Aoki, Tomoaki Hori, Mitsuru Naruse (Materials Science & Engineering, Graduate School of Engineering, Nagoya Institute of Technology), and Takayuki Abe (Hydrogen Isotope Research Center, University of Toyama) Potential of Copper Indium Selenide for Solar Absorbers in Various Energy Conversion Devices – Shalini Menezes and Yan Li (InterPhases Solar, Inc) Bioinspired Photoelectrochemistry – Krishnan Rajeshwar (university of texas), Csaba Janaky (University of Szeged), and Noseung Myung (Konkuk University)

Photoelectrochemistry and Photoassisted Electrocatalysis Physical and Analytical Electrochemistry Imperial B, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Devices and Systems – 08:00 – 10:00 Co-Chair(s): Frances A. Houle 08:00

2564

08:30

2565

(Invited) Photovoltaic Designs For Integrated and Spontaneous Solar Water Splitting – Joel W Ager III (Joint Center for Artificial Photosynthesis and Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA) (Invited) An Autonomous Solar-ToChemical Energy Conversion System – Syed Mubeen Jawahar Hussaini, Nirala Singh, Joun Lee, Galen Stucky, Martin Moskovits, and Eric McFarland (University of California, Santa Barbara)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2566

09:20

2567

09:40

2568

Optimal Band Gap Combinations of Light Absorbers for Integrated Photoelectrochemical Water-Splitting Systems – Shu Hu, Chengxiang Xiang (Caltech, Joint Center for Artificial Photosynthesis, California Institute of Technology, 1200 E California Blvd, Pasadena, CA, 91125, USA), Sophia Haussener (Laboratory of Renewable Energy Science and Engineering, EPFL, Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA), Alan Berger (University of California, Berkeley, Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA), and Nathan S Lewis (Joint Center for Artificial Photosynthesis, California Institute of Technology, 1200 E California Blvd, Pasadena, CA, 91125, USA, Caltech) Nanowire-Based Device Integration for Direct Solar Water Splitting – Chong Liu (Department of Chemisty, University of California, Berkeley, Materials Sciences Division, Lawrence Berkeley National Laboratory), Jinyao Tang, Hao-Ming Chen, Bin Liu (Department of Chemisty, University of California, Berkeley), and Peidong Yang (Department of Chemisty, University of California, Berkeley, Materials Sciences Division, Lawrence Berkeley National Laboratory) Tandem Junction Si Microwire Based Devices for Water Splitting – Matthew Shaner, Katherine Fountaine (California Institute of Technology, Joint Center for Artificial Photosynthesis), Shane Ardo, Robert Coridan (California Institute of Technology), Yiseul Park, Kyoung-Shin Choi (University of Wisconsin, Madison), Harry Atwater (California Institute of Technology), and Nathan S Lewis (Caltech)

Catalysts and Photocatalysts – 10:20 – 12:10 Co-Chair(s): Eric McFarland 10:20

2569

10:50

2570

11:10

2571

(Invited) Correlation Among Band Structure, Charge Transfer and Photocatalytic/ Photoelectrochemical Performance Of Semiconductors – Nianqiang (Nick) Wu (West Virginia University) Photo/Electrocatalytic Properties of the Hydrogenated TiO2 – Krzysztof Bienkowski (University of Warsaw) and Pawel J Kulesza (University of Warsaw, Department of Chemistry) Effect of the Heterogeneous Catalyst Attachment Method On O2 Production of WO3 Photoanodes in Acidic Aqueous Electrolyte – Joshua M Spurgeon and Jesus M Velazquez (California Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

11:30

2572

11:50

2573

Structure-Activity Relationship in Mixed (Fe,Ni) Oxyhydroxide Catalysts for Electrochemical Oxygen Evolution – Daniel Friebel (Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory, SLAC National Accelerator Laboratory), Kai E Sanwald (SLAC National Accelerator Laboratory, Department of Chemistry, Technische Universität München), Anders Bodin, Anna M Wise, Dimosthenis Sokaras, Roberto Alonso-Mori, Tsu-Chien Weng, Ryan Davis, John Bargar (SLAC National Accelerator Laboratory), Mary Louie (Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory, Department of Chemical and Biomolecular Engineering, University of California Berkeley), Yun Cai, Michal Bajdich (Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory), Alexis T Bell (Department of Chemical and Biomolecular Engineering, University of California Berkeley, Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory), Johannes A Lercher (Department of Chemistry, Technische Universität München), and Anders Nilsson (SLAC National Accelerator Laboratory, Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory) Molybdenum Sulfides Materials As Hydrogen Evolution Catalysts and Surface Protecting Layers for Highly Active and Stable Silicon-Based Water Splitting Photocathodes – Jesse D Benck, Jakob Kibsgaard (Stanford University Department of Chemical Engineering), and Thomas Francisco Jaramillo (Stanford University)

Nano – 14:00 – 17:40 Co-Chair(s): Renata Solarska and Clara Santato 14:00

2574

14:30

2575

14:50

2576

(Invited) A Study Of Interfacial Processes Between Metal Oxide Nanostructured Thin Films and Ionic Liquids For Potential Applications In Photoelectrochemistry – Clara Santato, Jonathan Pison, Dilek Isik, Yuvaraj Sivalingam, and Jonathan Sayago (Ecole Polytechnique Montreal, Engineering Physics Department) Influence of Surface Structure Geometry On the Performance of Electrodes for Photoactivated Hydrogen Generation – Mauricio Schieda, Agnieszka Rzeszutek, Iris Herrmann-Geppert (HelmholtzZentrum Geesthacht), Aafke C Bronneberg, Deirdre L Olynick (Molecular Foundry, Lawrence Berkeley National Laboratory), and Thomas Klassen (Helmholtz-Zentrum Geesthacht) Controlling the Energetics and Activity of Nanocrystal Metal Oxide Water Splitting Catalysts With Potential Determining Ions – Frank E Osterloh and Rachel L Chamousis (Department of Chemistry, University of California, Davis)

213

Wednesday, October 30

09:00


15:10

2577

Wednesday, October 30

15:30 2578 15:50

16:20

2579

16:40

2580

17:00

2581

17:20

2582

Stochastic Photoelectrochemistry of Colloidal Semiconductor Nanoparticles – Mario A Alpuche-Aviles, Ashantha Fernando, and Suman Parajuli (University of Nevada, Reno) Intermission (Invited) Investigation Of Plasmonic Ag@Ag3(PO4)1-X/ZnO Nanoarchitectures For Solar-Hydrogen Application – YanGu Lin (Center for Condensed Matter Sciences, National Taiwan University), Yu-Kuei Hsu (Department of OptoElectronic Engineering, National Dong Hwa University), Li-Chyong Chen (Center for Condensed Matter Sciences, National Taiwan University), and Kuei-Hsien Chen (Institute of Atomic and Molecular Sciences, Academia Sinica) Highly Stable, Efficient, VisibleLight Driven Water Photoelectrolysis System With Use of Nanocrystalline Semiconducting Oxides – Renata Solarska, Krzysztof Bienkowski, Pawel J Kulesza, and Jan Augustynski (University of Warsaw) High Surface Area Transparent Conductive Oxide As Effective Scaffolds for Nanostructured Metal Oxide Photoelectrochemical Electrodes – Pongkarn Chakthranont, Arnold J Forman, Blaise A Pinaud, and Thomas Francisco Jaramillo (Stanford University) Solution Phase Growth and Photoelectrochemical Energy Conversion of Indium Phosphide Nanowires – Nikolay Nikolay Kornienko and Peidong Yang (University of California, Berkeley) Temperature Assisted Tuning of CdTe Nanocrystal Deposits On TiO2 Nanotubes Under Solvothermal Conditions – Swagotom Sarker (University of Nevada - Reno), Bratindranath Mukherjee (Indian Institute of Science, Bangalore), Eric Crone, and Vaidyanathan (Ravi) Subramanian (University of Nevada Reno)

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square I3 Poster Session – 18:00 – 20:00 Co-Chair(s): Candace Chan and Muhammad N. Huda •

214

2583

2584

2585

2586

2587

2588

2589

Improvement in Photo-Potential Characteristics of TiO2 electrode Assembling to Marine Microbial Fuel Cell – Sho Tamura (Tokyo University of Marine Science and Technology, Tokyo university of Marine Science and Technology), Motoaki Morita, Shinichi Motoda (Tokyo university of Marine Science and Technology), Susumu Uematsu (National Maritime Research Institute), and Tadashi Shinohara (National Institute for Materials Science) Aqueous Synthesis of CdSe Quantum Dots – Suman Parajuli and Mario A AlpucheAviles (University of Nevada, Reno) Design Principles for Artificial Photosynthetic Cells Across the pH Spectrum – Alan Berger (Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA, University of California, Berkeley), Miguel A Modestino (Joint Center for Artificial Photosynthesis, University of California, Berkeley), Karl Walczak (Joint Center for Artificial Photosynthesis), Rachel A Segalman, and John Newman (Joint Center for Artificial Photosynthesis, University of California, Berkeley) Reaction Scheme for the Electrochemical Treatment of Alachlor in Water By the Photoassisted Process Photoelectro-Fenton With BDD and Pt Anodes – Angelo Ricardo Fávaro Pipi, Adalgisa Rodrigues De Andrade (Universidade de São Paulo), Enric Brillas, and Ignasi Sirés (Universitat de Barcelona) δ-MnO2 Supported On Carbon Nanotubes for Photocatalytic Water Splitting – Masaharu Nakayama, Shunsuke Mito (Yamaguchi University), Kazumasa Yoshimura (Yamaguchi Prefectural Industrial Technology Institute), Yasuharu Mohri, and Mitsuhiro Shamoto (Yamaguchi University) Electrochemical Preparation of Polyaniline-Photosystem I Composite Films for Biohybrid Solar Energy Conversion – Evan Alexander Gizzie, Gabriel LeBlanc, and David E Cliffel (Vanderbilt University)

Electrochemical Characteristics of the Mixture of 1-Ethyl-3-Methyl Imidazolium Tetrafluoroborate and 1-Ethyl-3Methylimidazolium Iodide – Carolin Siimenson, Liis Siinor, and Enn Lust (Institute of Chemistry, University of Tartu)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2590

2591

2592

2593

2594

Re-Annealing Effect On the Structure and Photo-Electrochemical Character of the Annealed Hematite Nanorods Fabricated By Electrochemical Etching – Mao-Chia Huang (Institute of Materials Science & Engineering, National Central University), Ching-Chen Wu (Green Energy & Environment Research Labs, Industrial Technology Research Institute), Tsing-Hai Wang (Institute of Nuclear Engineering & Science, National Tsing Hua University), Wen-Sheng Chang (Green Energy & Environment Research Labs, Industrial Technology Research Institute), Jing-Chie Lin, Wei-Hsuan Lan (Institute of Materials Science & Engineering, National Central University), Yi-Cheng Lee, and Kan-Lin Hsueh (Green Energy & Environment Research Labs, Industrial Technology Research Institute) Titania Based Mixed Oxide Photoanode for Photoelectrochemical Water Oxidation – R Venkatkarthick, D Jonas Davidson, S Vasudevan, G Sozhan, and S Ravichandran (Central Electrochemical Research Institute, Karaikudi, India) Titanium Oxide Electrodeposition On Diamond/Ti Electrodes With Different Boron Dopings – Andrea Boldarini Couto, Fernanda Lanzoni Migliorini, Mauricio Ribeiro Baldan, and Neidenei Gomes Ferreira (Instituto Nacional de Pesquisas Espaciais) Highly Efficient Photoelectrochemical Hydrogen Production Using CdS/CdSe Co-Sensitized TiO2 Nanorod Array Photoelectrode – Hyun Soo Han (Research Institute of Advanced Materials Seoul National University), Sun Shin, Ju Seong Kim (WCU Hybrid Materials Program, Department of Materials Science and Engineering, College of Engineering, Seoul National University), In Sun Cho (Department of Mechanical Engineering, Stanford University), and Kug Sun Hong (WCU Hybrid Materials Program, Department of Materials Science and Engineering, College of Engineering, Seoul National University, Research Institute of Advanced Materials Seoul National University) Photo-Electrochemical Communication Between Cyanobacteria and Osmium Redox Polymer Modified Electrodes – Kamrul Hasan (Department of Biochemistry and Structural Biology, Lund University, PO Box 124, SE-22100 Lund, Sweden), Huseyin Bekir Yildiz (Department of Chemistry, Karamanoglu Mehmetbey University, 70100 Karaman, Turkey), Eva Sperling (Department of Biochemistry and Structural Biology, Lund University, PO Box 124, SE22100 Lund, Sweden), Michael A Packer (Cawthron Institute, Private Bag 2, Nelson, New Zealand), Dónal Leech (National University of Ireland Galway), Cecilia Hägerhäll, and Lo Gorton (Department of Biochemistry and Structural Biology, Lund University, Sweden)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

2595

2596

2597

2598

J3

Curcumin-Ru Complex for Dye-Sensitized Photoelectrochemical Water Splitting – Raman Vedarajan, Yuichiro Morita, and Noriyoshi Matsumi (Japan Advanced Institute of Science and Technology) The Influence of Polysulfide Electrolyte On CdSe QDs – Laurie Ann King (University of Wyoming, Imperial College London), Helena Tellez Lozano (Department of Materials, Imperial College London), and Jason D Riley (Imperial College London) Photocathodic Activity of Poly(3Hexylthiophene) in Aqueous Acid – Steven Holdcroft, Graeme McCallum Suppes, and Edward Ballard (Department of Chemistry, Simon Fraser University) Synthesis and Preliminary Photoelectrochemical Study of Silver Antimony Sulfide Semiconductor – Suman Parajuli, Pushpa Chhetri, Wess Lee Stephenson, and Mario A Alpuche-Aviles (University of Nevada, Reno)

Luminescence and Display Materials– Fundamentals and Applications Luminescence and Display Materials Union Square 3/4, Tower 3, 4th Floor, Hilton San Francisco Union Square

Phosphors for LED Lighting 2 – 08:00 – 15:00 Co-Chair(s): Joanna McKittrick 08:00

2745

08:40

2746

09:20

2747

10:00

2748

10:20 10:40 2749

Critical Overviews About Conventional Ideas for White-LED (Oxy)Nitride Phosphors: Covalency and Stiffness – Masayoshi Mikami (Mitsubishi Chemical Group Science and Technology Research Center, Inc) Discovery of Novel Oxynitride Phosphors for Use in LEDs – Kee-Sun Sohn (Sunchon National University) Phosphor Crystals for Tailored Spectrum LEDs – Partha S Dutta (Smart Lighting Engineering Research Center and Rensselaer Polytechnic Institute) Effect of Flux On Luminescence of Eu2+ Activated Yellow Oxynitride Phosphor – Prasanth Kumar Nammalwar, Satya Kishore Manepalli, Digamber G Porob (GE India Technology Centre), and Anant A Setlur (GE Global Research) Break Novel Synthesis Methods for Luminescent Materials: Spark Plasma Sintering (SPS) and Micro Arc Oxidation (MAO) – Seong-Hyeon Hong and Eun-Hee Kang (Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University)

215

Wednesday, October 30


11:20

2750

12:00 14:00 2751

14:40

J4

2752

Microstructure and Optical Properties of An Oxynitride Ceramic Phosphor – Madis Raukas, Mark E Hannah, David Johnston, Jason Montaner, Zhengbo Yu (OSRAM SYLVANIA Corporate Technology), Sonja Tragl (OSRAM Corporate Technology), Andreas Rucki, Veronika Klueppel (Siemens Corporate Technology), Eric Jones, Xiang Zhou, Mingsheng Wang, and Silvija Gradecak (MIT Department of Materials Science) Intermission Spectral Tuning in Nitride Phosphors By Compositional Tailoring – Rong-Jun Xie, Naoto Hirosaki, Takashi Takeda, and Takayuki Suehiro (National Institute for Materials Science) Synthesis of Yellow-Emitting NaAlSiO4:Eu2+ Phosphors Using Sio Powder As a Silica Source – Kenji Toda, Takeshi Abe, Tadashi Ishigaki, Sun Woog Kim, Kazuyoshi Uematsu, Mineo Sato (Niigata University), Takaki Masaki (Sungyunkwan University), and Dae Ho Yoon (Sungkyunkwan University)

Wednesday, October 30

2782

08:40

2783

09:50

216

10:30 10:50 2788

11:15

2789

11:40

2790

Sensor / Physical and Analytical Electrochemistry / New Technology Subcommittee Union Square 5/6, Tower 3, 4th Floor, Hilton San Francisco Union Square

08:00

09:30

2787

Microfluidic MEMS/NEMS, Sensors and Devices

Microfluidic MEMS/NEMS, Sensors and Devices - 5 – 08:00 – 12:00 Co-Chair(s): Ronald Pethig and Karan V. I. S. Kaler

09:05

10:10

2784

2785

2786

Keynote-Review of Polymer Magnetic Nanocomposites for Microfluidics Applications – Bonnie L Gray (Simon Fraser University, Microinstrumentation Laboratory) Distinguished Invited SpeakerMicromolding of Nife and Ni Thick Films for 3D Integration of MEMS – Johan Moulin, Marion Woytasik, Olivier Garel, Thi Hong Nhung Dinh, Yanan Zhu, Malika Souadda, and Elie Lefeuvre (IEF, Université Paris Sud) Monolithic Integration of An Optical Microfluidic System for the Detection of Flurophore Tagged Recombinant Bovine Somototropin – Muthukumaran Packirisamy and Jayan Ozhikandathil (Concordia University) Sm-Co Thick Films Micromolding – Johan Moulin, Marion Woytasik, Dounia Belghiti, and Katia Chouarbi (IEF, Université Paris Sud) Fabrication and application of world’s smallestpolymer bonded permanent rare earth micro-magnetsfor MEMS/NEMS Devices – Ajit Khosla (Dept of Mechanical and Industrial Engineering, CONCORDIA University), Sam Kassegne, Mieko Hirabayashi (San Diego State University), and Matt Silvestro (Jobmaster Magnets Canada Inc)

Si Fabrication Technologies for Biomedical Applications: Double Stranded DNA Separation – Bivragh Majeed (imec), Lei Zhang (imec), Nina Tutunjyan, Deniz Sabuncuoglu Tezcan, and Paolo Fiorini (imec) Break Rapid Detection of Total Coliform and EColi in Contaminated Water Using Chemically Modified Microwells – Naga Siva Gunda, Selvaraj Naicker, Maryam Ghoraishi, Subir Bhattacharjee, Thomas Thundat, and Sushanta Mitra (University of Alberta) A Review of Single-Cell Manipulation Techniques for Microfluidic Lab-Ona-Chip Systems – Sean F Romanuik (Simon Fraser University, Burnaby, BC, Canada) and Bonnie L Gray (Simon Fraser University, Microinstrumentation Laboratory) Microfluidic Platform for Specific Capture, Release, and Impedance Based Quantification of Microparticles for Protein and Cellular Quantification – Mehdi Javanmard (Stanford Genome Technology Center), Janine Mok (Stanford University), Ronald W Davis (Stanford Genome Technology Center), and Michael Mindrinos (Stanford University)

Microfluidic MEMS/NEMS, Sensors and Devices - 6 – 14:00 – 18:00 Co-Chair(s): Ajit Khosla and P. J. Hesketh 14:00

2791

14:40

2792

15:05

2793

15:30

2794

15:55 16:15 2795

16:40

2796

Keynote-Using Experience From Explosives Detection in Development of Biosensors Based On Nanomechanical Responses – Anja Boisen (DTU Nanotech, Technical University of Denmark) Distinguished Invited Speaker-CapillaryBased Assay for Cardiac Markers With Cantilever Platform – Naga Siva Gunda and Sushanta Mitra (University of Alberta) Polymer Nanobridge On a Microfabricated Quartz Tuning Fork – Sangmin Jeon (Department of Chemical Engineering, POSTECH, Department of Chemical Engineering, POSTECH), Seongjae Lee (Department of Chemical Engineering, Postech), and Minhyuk Yun (POSTECH) Electrochemical Synthesis of PolymerNanostructures for Thermal Management – Baratunde Cola (Georgia Institute of Technology) Break Transient Thermal Response of Micro TCD for Identification of Gases – Alireza Mahdavifar, Milad Navaei, Ricardo Aguilar, Peter J Hesketh (Georgia Institute of Technology), G Hunter (NASA Glenn Research Center), Melvin W Findlay, and Joseph R Stetter (KWJ Engineering, Inc) Electrochemically Controlled Capillarity of a Liquid Metal Alloy for Shape Reconfigurable Microsystems – Mohammad Rashed Khan, Chris Trlica, Collin B Eaker, and Michael D Dickey (NC State University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


17:30

2797

2798

17:50

Design and Modeling of a Novel Two Dimensional Nano-Scaled Force Sensor Based On Silicon Photonic Crystal – Longqiu Li, Tianlong Li, Wenping Song, Guangyu Zhang, and Yao Li (Harbin Institute of Technology) Electropolishing of n-Type Polycrystalline 3C-Silicon Carbide – Novella Ballarin (Politecnico di Milano), Carlo Carraro (University of California ar Berkeley), Roya Maboudian (University of California: Berkeley), and Luca Magagnin (Politecnico di Milano) Concluding Remarks

Grand Ballroom, Tower 2, Grand Ballroom Level, Hilton San Francisco Union Square

Thursday, October 31 A3

The Energy–Water Nexus

All Divisions / New Technology Subcommittee Franciscan D, Tower 1, Ballroom Level, Hilton San Francisco Union Square Water Disinfection – 08:00 – 09:40 Co-Chair(s): Brian R. Stoner and Paul M. Natishan

08:00

247

08:40

248

09:00

249

09:20

250

J4 Poster Session – 18:00 – 20:00 Co-Chair(s): Peter J. Hesketh and Sushanta Mitra •

2799

2800

2801

2802

2803

2804

Application Of Highly Flexible Conductive Nanocomposite Polymer Electrode Array To Tissue Electrical Impedance Scanning (EIS) – Daehan Chung, Ajit Khosla, Bonnie L Gray (Simon Fraser University, Microinstrumentation Laboratory), Ash M Parameswaran (Simon Fraser University), Ramani Ramaseshan (BC Cancer Agency, Abbotsford Centre), and Kirpal Kohli (BC Cancer Agency, Fraser Valley Centre) Nanocomposites, Microfluidics, MEMS and Nems – Ajit Khosla (Dept of Mechanical and Industrial Engineering, CONCORDIA University) Determination of Liquid Viscosity With Microfabricated Diaphragm Resonating Sensors for the Biomedical Application – Kyo Seon Hwang, Hye Jin Kim, MyungSic Chae (Korea Institute of Science and Technology), Yong Kyoung Yoo (korea Institute of Science and Technology), and Jeong Hoon Lee (Kwangwoon University) Vapor-Solid Growth of Highly Oriented SnO2 Nanorods for Chemical Sensing Applications – Christian G Carvajal (Norfolk State University, Center for Materials Research), Aswini K Pradhan (Norfolk State University), and Candace S Davis (Norfolk State University, Center for Materials Research) Nano-Pored Three-Dimensional PDMS Microchip – Jeong Hoon Lee, Sung Il Han (Kwangwoon University), and Yong Kyoung Yoo (korea Institute of Science and Technology) In Vivo Evaluation Of Fine Needle Type Glucose Sensors Implanted In Rabbit Blood Vessel – Kazuaki Edagawa and Mikito Yasuzawa (Department of Chemical Science and Technology, The University of Tokushima) Break

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

B1

Understanding Chlorite, Chlorate and Perchlorate Formation When Generating Hypochlorite Using Boron Doped Diamond Film Electrodes – James Farrell, David K Hubler, James C Baygents (University of Arizona), and Brian P Chaplin (Villanova University) Energy Minimization in the Electrochemical Disinfection of Human Liquid Waste Using Boron-Doped Diamond Electrodes – Akshay S Raut (Duke University), Ethan J D Klem, Garry B Cunningham (RTI International), Charles B Parker (Duke University), Brian R Stoner (RTI International), Marc A Deshusses, and Jeffrey T Glass (Duke University) Deammonification of Wastewater Through Ammonia Electrolysis – Ali Estejab, Luis A Diaz, and Gerardine G Botte (Ohio University) Old Solutions to New Problems? – John McHardy (J McHardy LLC)

Energy Technology/Battery - Joint General Session Battery / Energy Technology Continental 4, Tower 3, Ballroom Level, Hilton San Francisco Union Square

High Temperature Fuel Cell – 08:00 – 12:00 08:00

342

08:20

343

08:40

344

09:00

345

High Power Low Temperature 3-D Bilayer Nanostructured Solid Oxide Fuel Cell – Jihwan An (Stanford University), YoungBeom Kim (Hanyang University), T Gur, and Fritz B Prinz (Stanford University) Nickel Migration in SOFCs Anode Due to Phosphine Induced Degradation: A Computational Study – Hayri Sezer, Suryanarayana Raju Pakalapati, and Ismail Bektas Celik (Department of Mechanical and Aerospace Engineering West Virginia University) Heat Transfer Considerations in a Tubular Carbon Fuel Cell – David U Johnson, Brentan R Alexander, Kevin D Steinberger, Gregory J Armstrong, Reginald E Mitchell, and Turgut M Gür (Stanford University) Hydrogen Production in a Steam-Carbon Fuel Cell – Kevin D Steinberger, David U Johnson, Brentan R Alexander, Reginald E Mitchell, and Turgut M Gür (Stanford University)

217

Thursday, October 31

17:05


09:20

346

09:40 347 10:00

10:20

Thursday, October 31

10:40

348

349

11:00

350

11:20

351

11:40

352

B2

Numerical Modeling of the Sulfur Poisoning Effect On the Ni-YSZ Porous Anode of SOFCs – Negar Manafi Rasi (Queens-RMC Fuel Cell Research Centre) and Kunal Karan (University of Calgary) Break Modeling Positive-Electrode Reaction Kinetics of a Sodium-Metal Chloride Cell – Saeed Khaleghi Rahimian, Ryan Ruixing Zhu (Columbia University), Michael Vallance, Badri Ramamurthi (GE Global Research), and Alan West (Columbia University) Mechanistic Mathematical Model for Deactivation of Catalysts in Direct Internal Reformer in Molten Carbonate Fuel Cells – Rui Zhang, Ramki Venkataraman (FuelCell Energy, Inc), and Jin-yun Wang (FuelCell Energy, Inc, FuelCell Energy, Inc) Conversion of CH4 Into H2 At 300˚C Using Pd/MnO2 Catalyst Made With An Effect of Water Oxidation – Hideki Koyanaka (Forward Science Laboratory Ltd.), Ken Takeuchi (Tokyo University of Science), and Alexander I Kolesnikov (Neutron Scattering Sciences Division, Oak Ridge National Laboratory) Kinetics of the Carbon Anode in Molten Salt – John Frederick Cooper (John F Cooper Consulting, LLC) and Jan Robert Selman (Illinois Institute of Technology) Investigating Humidity Degradation in An SOFC Cathode Through Multi-Scale Modeling – Emily M Ryan (Boston University), Dayle Smith (Pacific Northwest National Laboratory), Junyue Li (Boston University), and Brian J Koeppel (Pacific Northwest National Laboratory) Graphene-Based Cathodes for Low Temperature Solid Oxide Fuel Cell – Youngseok Jee, Hyeongjoo Moon, and Min Hwan Lee (University of California, Merced)

Battery Chemistries Beyond Lithium Ion

09:00

514

09:20

515

09:40

516

10:00 10:20 517

10:40

518

11:00

519

11:20

520

11:40

521

Battery / Energy Technology Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Other Batteries – 08:00 – 12:00 Co-Chair(s): Jeffrey W. Long and Christopher Johnson 08:00

511

08:20

512

08:40

218

513

Redox Active Molecular Engineer for Energy Storage – Lu Zhang, John T Vaughey, and Anthony K Burrell (Argonne National Laboratory) High Performance Zn-Based Batteries Using 3D Monolithic Sponge Anodes – Joseph F Parker (US Naval Research Laboratory, National Research Council), Christopher N Chervin (US Naval Research Laboratory), Eric S Nelson (US Naval Research Laboratory, Pathways Student), Debra R Rolison, and Jeffrey W Long (US Naval Research Laboratory) Seeing Inside a Liquid Metal Battery – Brice HV Chung (Total New Energies / MIT), Huayi Yin, and Donald R Sadoway (MIT)

Transient Interface Evolution in Cycling Alkaline Batteries Resolved Using Synchrotron X-Rays – Joshua W Gallaway (CUNY Energy Institute at the City College of New York), Can Erdonmez (Energy Storage Group, Brookhaven National Laboratory), Zhong Zhong (National Synchrotron Light Source, Brookhaven National Laboratory), Mark Croft (National Synchrotron Light Source, Brookhaven National Laboratory, Department of Physics and Astronomy, Rutgers University), Lev Sviridov, Sanjoy Banerjee (CUNY Energy Institute at the City College of New York), and Daniel A Steingart (Department of Mechanical and Aerospace Engineering, Princeton University) Solid Electrolytes for Fluoride Ion Batteries – Anji Reddy Munnangi, Carine Rongeat, and Maximilian Fichtner (Karlsruhe Institute of Technology (KIT)) Experimental Considerations Involving Aluminum and Beryllium Battery Development – John Rogosic (Massachusetts Institute of Technology) and Donald R Sadoway (MIT) Break Novel Supercapcitor-Battery Energy Storage System With Hybrid Electrolyte for Stationary Application – Shulei Chou (University of Wollongong) Self-Discharge of Secondary Zinc Electrode Deposits Subjected to Various Plating Conditions – Patrick Bonnick and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) Toward Fully Plastic Batteries: Electroactive Polymer-Carbon Composite Electrodes for Rechargeable Batteries – Burak Esat, Sumeyye Bahceci, Muhammed Aydin, and Sevda Akay (Fatih University) (De)Lithiation Mechanism of Se-Based Lithium Batteries Determined By In Situ Synchrotron X-Ray Probes – Yanjie Cui, Ali Abouimrane, Jun Lu (Chemical Sciences and Engineering Division, Argonne National Laboratory), Trudy Bolin, Yang Ren (X-ray Science Division, Argonne National Laboratory), Wei Weng (Chemical Sciences and Engineering Division, Argonne National Laboratory), Chengjun Sun (X-ray Science Division, Argonne National Laboratory), Victor A Maroni (Chemical Sciences and Engineering Division, Argonne National Laboratory), Steve M Heald (X-ray Science Division, Argonne National Laboratory), and Khalil Amine (King Abdulaziz University, Chemical Sciences and Engineering Division, Argonne National Laboratory) Construction of Aluminum Rechargeable Batteries and Investigation of Their Positive Electrode Materials – Masanobu Chiku, Hiroki Takeda, Takeshi Kunisawa, Eiji Higuchi, and Hiroshi Inoue (Osaka Prefecture University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


15:20

530

15:40

531

16:00

532

Advanced Lithium Ion Batteries – 09:00 – 10:50 Co-Chair(s): Michael D. Slater 09:00

522

09:30

523

09:50

524

10:10

525

10:30

526

Understanding and Predicting Heteroatom Dopants for Carbon Anodes – Gabriel M Veith, Loic Baggetto, Bingkun Guo, Xiao-Guang Sun, Sheng Dai, and Nancy J Dudney (Oak Ridge National Laboratory) Synthesis and Lithiation Paths of Dirutile and Rutile LiMnF4: Two New Conversion Cathode Materials – Nancy Twu, Xin Li, Charles Moore, and Gerbrand Ceder (Massachusetts Institute of Technology) Direct Fluorination of Iron (II, III) Oxide Conversion Electrodes – Hui Zhou, Jagjit Nanda, Surendra K Martha (Oak Ridge National Laboratory), Jamie Adcock (University of Tennessee), Juan C Idrobo, Loic Baggetto, Gabriel M Veith, Sheng Dai, Sreekanth Pannala, and Nancy J Dudney (Oak Ridge National Laboratory) Continuous Solid-Solution Particle of Cathode Material for Rechargeable Lithium Batteries – H-J Noh and Y-K Sun (Hanyang University) The Challenge of Negative Electrode Materials for Advanced Li-Ion Batteries – Doron Aurbach (Bar-Ilan University), Ella Zinigrad, Daniel Hirshberg (Bar Ilan University), Meng Jiang (GM R&D Center, GM R&D Center), Bob Powell (GM R&D Center), and Ortal Yariv (Bar ilan University)

Lithium Metal Batteries – 14:00 – 16:20 Co-Chair(s): Brian Ingram and Johanna Karolina Stark 14:00

527

14:20

528

14:40

529

15:00

Modeling Lithium Plasticity in LithiumMetal Batteries – Anthony Ferrese (University of California at Berkeley) and John Newman (University of California, Berkeley) Effect of Foreign Metal Ions On the Morphology and Redox Efficiency of Lithium Metal – Johanna Karolina Stark and Paul A Kohl (Georgia Institute of Technology) Lithium Metal Batteries Based On New Single-Ion Bab Triblock Copolymers As Solid Electrolytes – Renaud Bouchet (LEPMI CNRS UMR 5279, Grenoble Polytechnique Institute), Abdelmaula Aboulaich (Madirel UMR 7246, Aix Marseille University), Sebastien Maria (ICR UMR 7273, Aix Marseille University), Karim Djellab, Jean-Pierre Bonnet, Michel Armand (LRCS - UMR 7314, Université de Picardie Jules Verne), Livie Lienafa, Trang N T Phan, Didier Gigmes (ICR UMR 7273, Aix Marseille University), and Renaud Denoyel (Madirel UMR 7246, Aix Marseille University) Break

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

B5

Dendrite-Free and High-Efficiency Rechargeable Lithium Metal Batteries – Wu Xu, Xilin Chen (Pacific Northwest National Laboratory), Yaohui Zhang (Pacific Northwest National Laboratory, Harbin Institute of Technology), Eduard N Nasybulin (Pacific Northwest National Laboratory), Fei Ding (Tianjin Institute of Power Sources, Pacific Northwest National Laboratory), Jiulin Wang (Pacific Northwest National Laboratory, Shanghai Jiao Tong University), and Ji-Guang Zhang (Pacific Northwest National Laboratory) Tunable Electrolytes for Studies On Dendrite Growth in Lithium Metal Batteries – Jennifer L Schaefer and Lynden A Archer (Cornell University) Electrochemical Splitting of Lif: A New Approach to Lithium-Ion Battery Materials – Nikolay Dimov (Kyushu University), Ayuko Kitajou (Elements Strategy Initiative for Catalysts and Batteries (ESICB), Kyoto University), Hironobu Hori (Kyushu University), Eiji Kobayashi (Elements Strategy Initiative for Catalysts and Batteries (ESICB), Kyoto University), and Shigeto Okada (Kyushu University)

Electrochemical Capacitors: Fundamentals to Applications Battery / Energy Technology Union Square 19/20, Tower 3, 4th Floor, Hilton San Francisco Union Square

Investigation Techniques – 08:00 – 10:00 Co-Chair(s): Nae-Lih Wu and Daniel Bélanger 08:00

673

Ion Insertion Into Porous Carbon Electrodes Investigated By in-Situ AFM Measurements – Jennifer Black, Pasquale Fulvio, Patrick Hillesheim (Oak Ridge National Laboratory), Min Heon, Majid Beidaghi (Drexel University), Guang Feng (Vanderbilt University), Peter Cummings (Vanderbilt University, Oak Ridge National Laboratory), Sheng Dai (Oak Ridge National Laboratory), Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Sergei Kalinin, and Nina Balke (Oak Ridge National Laboratory)

219

Thursday, October 31

Yosemite B, Tower 2, Ballroom Level, Hilton San Francisco Union Square


08:40

09:00

Thursday, October 31

09:20

674

675

676

09:40

Nuclear Magnetic Resonance Studies of Ion Adsorption On Titanium CarbideDerived Carbons – Alexander C Forse, John M Griffin (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK), Hao Wang (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK, Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA), Nicole M Trease (Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA), Voker Presser (INM – LeibnizInstitute for New Materials, Energy Materials Group, Campus D2 2, D-66123 Saarbrücken, Germany), Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), Patrice Simon (Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France), and Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK, Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA) Time-Resolved Ion Dynamics in Carbon Supercapacitor Electrodes Using In Situ Infrared Spectroscopy – Francis W Richey (Department of Chemical and Biological Engineering, Drexel University, Philadelphia, PA 19104, USA), Boris Dyatkin (Department of Materials Science and Engineering and AJ Drexel Nanotechnology Institute, Drexel University, Philadelphia, PA 19104, USA), Yury Gogotsi (AJ Drexel Nanotechnology Institute, Materials Science and Engineering Department, Drexel University), and Yossef A Elabd (Department of Chemical and Biological Engineering, Drexel University, Philadelphia, PA 19104, USA) Pseudocapacitive Mn3O4 octahedral Nanoparticles: Synthesis, Characterizations and Study of Charge-Transfer Using in Situ XANES and XRD – Xiaowei Teng and Matthew P Yeager (University of New Hampshire) Break

Oxide-based Electrodes – 10:00 – 12:00 Co-Chair(s): Marc Arlen Anderson and Christophe Lethien 10:00

10:20

220

677

678

Application of Electrochemical Impedance Spectroscopy to Manganese-Modified Polypyrrole Thin Films for Electrochemical Capacitors – Scott W Donne and Purnama Ningsih (University of Newcastle) Advanced MnO2/CNT UltracapacitorsTransition From Planar to Micropatterned Array Electrodes – Supil Raina, Shao Hua Hsu, Serkan Akbulut, Mesut Yilmaz, Weng Poo Kang (Vanderbilt University), and Jin Hua Huang (National Tsing Hua University)

10:40

11:00

11:20

11:40

Enhanced Supercapacitor Performance of Graphene/V2O5 Nanocomposites – Ananthakumar Ramadoss (Nanomaterials and System Lab, Faculty of Applied Energy System, Science and Engineering College, Jeju National University, Jeju 690-756, Republic of Korea) and Sang Jae Kim (Nanomaterials and System Lab, Department of Mechatronics Engineering, Engineering College, Jeju National University, Jeju 690-756, Republic of Korea) 680 ZrO2-WO3 Mixed Anodic Oxide Nanotubular Arrays As Electrochemical Capacitors – Krishnan S Raja and Stuart R Whitman (University of Idaho) 681 Controlled Synthesis of Manganese Oxyhydroxide Nanotubes for HighEfficiency Supercapaitor – Hui Teng Tan (Nanyang Technological University, TUM CREATE) 682 Manganese Oxide/Graphene Aerogel Composites As An Outstanding Supercapacitor Electrode Material – Chun Chieh Wang, Hsuan Ching Chen, and Shih Yuan Lu (Department of Chemical Engineering, National Tsing-Hua University, Hsin-Chu, Taiwan) 679

Carbon Electrodes and Devices – 14:00 – 16:40 Co-Chair(s): Thierry Brousse and Wataru Sugimoto 14:00

683

14:40

684

15:00

685

15:20

686

15:40

687

New Procedures and Operational Aspects for Applying Ultracapacitors in Water Treatment Processes: Capacitive Deionization – Enrique García Quismondo, Cleis Santos, Jesús Palma (Electrochemical Processes Unit, IMDEA Energy), and Marc Arlen Anderson (Environmental Chemistry & Technology Program, University of Wisconsin Madison) On the Development of Activated Carbons With High Affinity for Ionic Liquids Based Electrolytes – Claudia RamirezCastro, Christoph Schütter (University of Muenster- Institute of Physical Chemistry, Battery Research Centre MEET), Stefano Passerini (MEET Battery Research Center, University of Muenster), and Andrea Balducci (University of Muenster- Institute of Physical Chemistry, Battery Research Centre MEET) “On Recent Work Related to Super and Pseudo Capacitors” – Doron Aurbach (BarIlan University), Malachi Noked, Sivan Okashi, and Arie Borenstein (Bar Ilan university) Effect of Pore Size Distribution in Carbon/ Carbon Supercapacitors Operating in Phosphododecatungstic Acid – Magdalena Skunik-Nuckowska (University of Warsaw) Sizing Calculations for SubstrateIntegrated Lead-Carbon Hybrid Ultracapacitors and Their Experimental Validation – Anjan Banerjee (Indian Institute of Science, Bangalore) and Ashok Kumar Shukla (Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore-560 012, India)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


688

16:20

B6

3D Microstructure Reconstruction Based Numerical Investigation On the Energy Storage in Electric Double Layer of Super Lithium Ion Capacitor – Ming Jia, Yun Cheng, Shuanglong Du, Yiwei Tang, and Jie Li (School of Metallurgy and Environment, Central South University) Concluding Remarks

Electrochemical Synthesis of Fuels 2

High Temperature Materials / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Union Square 1/2, Tower 3, 4th Floor, Hilton San Francisco Union Square

High Temperature Fuel Electrode – 08:00 – 12:00 Co-Chair(s): Xiangyang Zhou and Xiao-Dong Zhou 08:00

08:40

751

752

09:00

753

09:20

754

09:40 755 10:00

10:20

756

10:40

757

(Invited) Reversible Fuel Cells with Mixed Proton, Oxygen Ion and Electron (Hole) Conductors for Power Generation and Fuel Synthesis – Anil V, Virkar (University of Utah) Stability of Nickel in Ni/Zirconia Electrodes At High Steam Concentrations – Olga A Marina, Larry Chick, Chris Coyle, Danny Edwards, Larry Pederson, and Jeffry Stevenson (Pacific Northwest National Laboratory) In Situ Monitoring of Solid Oxide Electrolysis Cells – Denis J Cumming (University of Sheffield), Rebecca Taylor (Queen’s University Belfast), Jevgenija Manerova (University of Sheffield), Chris Hardacre (Queen’s University Belfast), Derek C Sinclair, and Rachael H Elder (University of Sheffield) Characterization of Ni-BZY anodes for Proton Ceramic Fuel Cells (PCFCs) Novel Nitrate-Free Combustion Route – Nasani Narendar, Paulo Alexandre Neves Dias, and Duncan Paul Fagg (University of Aveiro) Break Origin of Electrolyte-Dopant Dependent Sulfur Poisoning of SOFC Anodes – ZhenHua Zeng (Purdue University, Technical University of Denmark), Mårten E Björketun (Technical University of Denmark), Sune Dalgaard Ebbesen (Department of Energy Conversion and Storage, Technical University of Denmark), Mogens Mogensen, and Jan Rossmeisl (Technical University of Denmark) Rational Design of Sulfur-Tolerant Anode Materialsfor Solid Oxide Fuel Cells – Zhe Cheng (Department of Mechanical & Materials Engineering, Florida International University) and Meilin Liu (School of Materials Science and Engineering, Georgia Institute of Technology) Reduced-Temperature Firing of AnodeSupported Solid Oxide Fuel Cells – Zhan Gao and Scott A Barnett (Northwestern University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

11:00

11:20

11:40

Development and Study of Self-Sustained Electrochemical Promotion Catalysts for Hydrocarbon Reforming – Xiangyang Zhou, Hao Huang, Zedong Wang (University of Miami), Hongtan Liu (Clean Energy Research Institute), Yongsheng Wei, Anchasa Pramuanjaroenkij, Alexi Bordas, Michael Page, Sirui Cai, and Xuyang Zhang (University of Miami) 759 Electrochemical Reduction of Toluene for Energy Storage – Kota Miyoshi (JX Nippon Oil & Energy Corporation), Yasushi Sato (JX Nippon Oil & Energy Corporation, JX Nippon Oil & Energy Corporation), and Shigenori Mitsushima (Green Hydrogen Research Center, Yokohama Nat Univ) 760 Ni-Sr2Fe15Mo05O6-d As Anode Materials for Solid Oxide Fuel Cells – Guoliang Xiao, Siwei Wang, Ye Lin, and Fanglin (Frank) Chen (University of South Carolina) 758

High Temperature Air Electrode – 14:00 – 16:00 Co-Chair(s): Xiangyang Zhou and Olga A. Marina 14:00

761

14:20

762

14:40

763

15:00

764

Dependence of Defect Chemistry and Surface Composition On the Crystal Orientation for LaSrCoO4 dense Thin Films – Yan Chen (Laboratory for Electrochemical Interfaces, Department of Nuclear Science and Engineering, Massachusetts Institute of Technology), Zhuhua Cai (Laboratory For Electrochemical Interfaces, Department of Nuclear Science and Engineering, Massachusetts Institute of Technology), and Bilge Yildiz (Laboratory for Electrochemical Interfaces, Department of Nuclear Science and Engineering, Massachusetts Institute of Technology) Structural and Electrochemical Properties Of A-Site Deficient Nickelates As High Performance Cathode Materials For Solid Oxide Fuel Cells – Emir Dogdibegovic, Jingbo Yan (University of South CarolinaColumbia), and Xiao-Dong Zhou (University of South Carolina) Microstructure and Electrical Properties of Nanocrystalline, Mesoporous Lscf/GDC Thin Films for Micro-SOFC – Guillaume Muller (University of California - Los Angeles, Laboratoire Chimie de la Matière Condensée de Paris, UMR UPMC-CNRS 7574, Université Pierre et Marie Curie (Paris VI), Collège de France), Armelle Ringuedé (Laboratoire d’Electrochimie, Chimie des Interfaces et Modélisation pour l’Energie, UMR 7575 CNRS, Chimie ParisTech), and Christel LabertyRobert (Laboratoire Chimie de la Matière Condensée de Paris, UMR UPMC-CNRS 7574, Université Pierre et Marie Curie (Paris VI), Collège de France) XPS Studies of Yttria-Stabilized Zirconia Interfaced With Pt Nanoparticles for Carbon Monoxide and Ethylene Electrooxidation – Spyridon Ntais, Rima J Isaifan, and Elena Baranova (University of Ottawa) 221

Thursday, October 31

16:00


15:20

765

15:40

766

B8

Morphological Evolution of Solid Oxide Fuel Cell in Operational Environment With X-Ray Nano-Tomography – Yu-chen Karen Chen-Wiegart (Brookhaven National Laboratory), J Scott Cronin, David Kennouche, Kyle J Yakal-Kremski, Scott A Barnett (Northwestern University), and Jun Wang (Brookhaven National Laboratory) Oxygen-Ion Transfer Between YSZ/YSZ and YSZ/LSCF Under Mechanical Contact Stress – Wakako Araki and Yoshio Arai (Saitama University)

10:40

875

11:00

876

11:20

877

11:40

878

Intercalation Compounds for Rechargable Batteries Battery / Industrial Electrochemistry and Electrochemical Engineering Imperial A, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Cathode Materials – 08:00 – 12:00 Co-Chair(s): Atsuo Yamada and Christian Masquelier 08:00

870

08:40

871

09:20

872

Thursday, October 31

09:40 10:00 873

10:20

222

874

Novel Fluorophosphate-Based Cathode Materials for Li- and Na-Ion Batteries – Kisuk Kang (Seoul National University) The Electrochemical Behavior of Sodium Vanadium Oxides in Sodium Batteries – Claude Delmas (ICMCB -CNRS), Marie Guignard (ICMCB-CNRS), Christophe Didier (ICMCB), Dany Carlier (ICMCBCNRS), François Weill (ICMCB2654), Matthew Suchomel (APS), Eric Elkaim (SOLEIL), and Jacques Darriet (ICMCB) In Situ Monitoring of Fast Delithiation (sodiation) Process in Electrode Materials for Li- and Na-Ion Batteries By Using Time-Resolved X-Ray Techniques – Xiqian Yu (Brookhaven National Lab), Kyung-Wan Nam (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), Seong-Min Bak, Yongning Zhou (Brookhaven National Lab), and Xiao-Qing Yang (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA) Break Crystal Structure and Electrochemical Properties of Li2-XNaxm[PO4]F (M= Mn, Fe, Co, Ni, and Mg) – Hamdi Ben Yahia, Masahiro Shikano, Hikari Sakaebe, Shinji Koike, Mitsuharu Tabuchi, K Tatsumi, and Hironori Kobayashi (National Institute of Advanced Industrial Science and Technology (AIST)) Synthesis, Electrochemical Properties, and Reaction Mechanisms of New Lithium-Excess Transition Metal Oxides With Cation Disordered Rock-Salt-Type Structure – Naoaki Yabuuchi, Mitsue Takeuchi (Tokyo University of Science), Daisuke Endo, Tetsuya Ozaki, Tokuo Inamasu (GS Yuasa International Ltd.), Jin-Young Son, Yi-Tao Cui, Hiroshi Oji (JASRI), and Shinichi Komaba (Tokyo University of Science)

Versatile 3D Oxoanion Framework for LiIon Intercalation – Peter Khalifah (Stony Brook University, Brookhaven National Lab), Jue Liu (Brookhaven National Lab, Stony Brook University), Donghee Chang (University of Michigan), XiQian Yu, Yongning Zhou, Jian-Ming Bai (Brookhaven National Lab), Jonathan Ko (Rutgers University), Kyung-Wan Nam, Xiao-Qing Yang (Chemistry Department, Brookhaven National Laboratory, Upton, NY 11973, USA), Anton van der Ven (University of Michigan), Glenn Amatucci (Rutgers University, Energy Storage Research Group, North Brunswick, New Jersey), and Clare P Grey (Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK, Department of Chemistry, Stony Brook University, Stony Brook, NY 11794, USA) Investigations Into Structure and Chemistry of 1D, 2D and 3D Structured Vanadium Oxide Nanomaterials for Li-Ion Batteries – Eileen Armstrong, Michal Osiak, Colm Glynn (University College Cork), and Colm O’Dwyer (University College Cork, Ireland) A Potential 3D Cathode Material for Li-Ion Microbatteries Based On TiOxSy Nanotubes – Thierry Djenizian (Aix Marseille University, Alistore ERI, CNRS FR3104), Nana Amponsah Kyeremateng (Aix Marseille University, CNRS, LP3 UMR 7341, 13288, Marseille, France), Nareerat Plylahan (Aix Marseille University), Ana Camila Santos Santos, Luciano Taveira, and Luis Frederico Pineiro Dick (University Federale Rio Grande do Sul) Ion Transport in Polymeric NitroxideRadical Organic Materials – Heather AS Platt, Ross E Larsen, Travis Kemper, Wade Braunecker, Michele Olsen, and Thomas Gennett (National Renewable Energy Laboratory)

Anode Materials – 14:00 – 18:20 Co-Chair(s): Karim Zaghib and Jeffrey W. Long 14:00

879

14:20

880

14:40

881

High Rate Ti-Based Anode Materials for Rechargeable Batteries – Ki-Tae Kim (Sejong University), Seung-Min Oh, Y-K Sun (Hanyang University), and Seung-Taek Myung (Sejong University) Phase Transformations and Structural Changes in the Li4Ti5O12 Spinel Monitored Using An in Situ Substrate Curvature System – Zungsun Choi (Institute for Applied Materials, Karlsruhe Institute of Technology), Dominik Kramer (Helmholtz Institute Ulm (HIU)), and Reiner Mönig (Institute for Applied Materials, Karlsruhe Institute of Technology) Aqueous Synthesized Mixed-Phase Brookite, Rutile and Anatase Nano-Titania (TiO2) and Their Lithium-Ion Storage Properties – Micah Jeremy Sussman, Jeanne Clouteau, Amrita Yasin, Fuqiang Guo, and George P Demopoulos (McGill University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Influence of TiO2(B) Preparation From Na2Ti3O7 and K2Ti4O9 on Lithium Insertion and Extraction – Yasuhiro Harada, Keigo Hoshina, Hiroki Inagaki, and Norio Takami (Toshiba Corporation) 15:20 883 Structural and Electrochemical Characterization of Silicon Clathrate Materials Upon Lithium Insertion – Rahul Raghavan, Ran Zhao, Nicholas Wagner (Arizona State University), Kwai S Chan (Southwest Research Institute), and Candace Chan (Arizona State University) 15:40 884 Ball-Milled Li7MnN4 : A High Rate Negative Electrode Material for LithiumIon Batteries – Jean-Pierre Pereira-Ramos, Eddie Panabiere, Nicolas Emery, Stephane Bach (ICMPE-CNRS), and Patrick Willmann (CNES Toulouse) 16:00 Break 16:20 885 Dual Reaction Mechanism – Combining Insertion and Conversion – Peter Bleith, Petr Novák, and Claire Villevieille (PaulScherrer-Institute) 16:40 886 Investigation On Lithium Storage Properties of Solvothermal-Synthesized Pyrite FeS2 Nanocubes – Weiling Liu, Xianhong Rui, Hui Teng Tan, Chen Xu, Qingyu Alex Yan, and Huey Hoon Hng (Nanyang Technological University) 17:00 887 A General Polymer-Assisted Solution Approach to Grow Transition Metal Oxide Nanostructures Directly On Nickel Foam As Anodes for Li-Ion Batteries – Yun Xu, Ling Fei, and Hongmei Luo (New Mexico State University) 17:20 888 Structural and Electrochemical Properties of Molybdenum Oxide As An Active Material for Second Rechargeable Batteries – Dae-Yeop Park and Seung-Taek Myung (Sejong University) 17:40 889 Exploiting Cation Vacancies in Nanocrystalline Metal Oxides for Electrochemical Charge Storage – Jeffrey W Long, Benjamin P Hahn (US Naval Research Laboratory), Lisa Dudek (University of California at Los Angeles), Pavel Gogotsi (Drexel University), Christopher N Chervin (US Naval Research Laboratory), Katherine Pettigrew (Nova Research, Inc), and Debra R Rolison (US Naval Research Laboratory) 18:00 890 LiVOPO4 As a Negative Electrode Material for Rechargeable Lithium Batteries – Jae Sang Park and Seung-Taek Myung (Sejong University) 882

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Lithium-Ion Batteries

B10 Battery Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium-Ion Batteries: Cells 1 - General – 08:00 – 09:40 Co-Chair(s): K. M. Abraham and Bor Yann Liaw 08:00

1167

08:20

1168

08:40

1169

09:00

1170

09:20

1171

A Study of the Interactions Between Positive and Negative Electrodes: Charge and Discharge Slippage in LiNi05Mn15O4/Li4Ti5O12 Li-Ion Full Cell – Sirong Li (CAS Key Laboratory of Materials for Energy conversion, Department of Materials Science and Engineering,University of Science and Technology of China, Dept of Physics and Atmospheric Science, Dalhousie University), Chunhua Chen (CAS Key Laboratory of Materials for Energy conversion, Department of Materials Science and Engineering,University of Science and Technology of China), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) Bottlenecks to Fast Charging of LithiumIon-Insertion Cells for Electric Vehicles – Rajeswari Chandrasekaran (Ford Motor Company) Feasibility Study for Assessment the Effects of Charging Profile On the Performance of Commercial LithiumIon Batteries – Mohamed Abdel Monem (Vrije Universiteit Brussel, VITO, Unit of Energy Technology), Noshin Omar, Omar Hegazy (Vrije Universiteit Brussel), Grietus Mulder, Bart Mantels (VITO, Unit of Energy Technology), Jelle Smekens, Yousef Firouz, Ahmadou Samba, Peter Van den Bossche, and Joeri Van Mierlo (Vrije Universiteit Brussel) Depth Profiling of Solid Electrolyte Interphase in Li-Ion Battery Electrodes With Glow Discharge Optical Emission Spectroscopy – Hikari Takahara (Rigaku Corporation), Kumi Shono, Yo Kobayashi (CRIEPI), Masahiro Shikano, Hironori Kobayashi (National Institute of Advanced Industrial Science and Technology (AIST)), and Tatsuya Nakamura (University of Hyogo) Electrochemical Behavior of Li-Ion Full Cell Battery Employing Si-Graphene Negative Electrode and LiMO2 Positive Electrode During Cycling – KwangSup Eom (Georgia Institute of Technology), Inhwan Do (XG Sciences, Inc), and Thomas F Fuller (Georgia Institute of Technology)

223

Thursday, October 31

15:00


Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Li-Ion Batteries: Electrolytes 4 - Non-aqueous Systems – 08:00 – 09:40 Co-Chair(s): T. Richard Jow and Brett L. Lucht 08:00

1162

08:20

1163

08:40

1164

Thursday, October 31

09:00

09:20

1165

1166

Fluorosilane-Based Electrolyte Additives to Improve High Temperature Performance of Graphite/LiMn2O4 Li-Ion Cells – Shinichi Komaba (Tokyo University of Science) Cyclic Organoboron Electrolytes With High Ionic Conductivity – Raman Vedarajan (Japan Advanced Institute of Science and Technology), Prerna Joshi (Delhi University), and Noriyoshi Matsumi (Japan Advanced Institute of Science and Technology) Solvate Structures and Spectroscopic Characterization of LiClO4 Electrolytes – James S Daubert, Taliman Afroz, Daniel M Seo (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), Paul D Boyle (X-ray Structural Facility, Department of Chemistry, North Carolina State University), and Wesley A Henderson (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University) Crafting An Electrolyte Characterization Methodology and Tools – Wesley A Henderson, Daniel M Seo, Sang-Don Han, Joshua Allen (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), Sung-Hyun Yun (School of Environmental Science and Engineering, Gwangju Institute of Science and Technology (GIST)), and James S Daubert (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University) Effect of Anion Receptor On Li-Ion Battery Performance in LiPF6 and Lif containing Electrolytes – Ahmet Oguz Tezel, Svein Sunde, and Ann Mari Svensson (Norwegian University of Science and Technology)

10:20

1173

10:40

1174

11:00

1175

11:20

1176

11:40

1177

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Electrolytes 5 - Liquid and Polymer Electrolytes – 10:00 – 12:20 Co-Chair(s): Nitash P. Balsara and K. M. Abraham 10:00

1178

10:20

1179

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Cells 2 - General – 10:00 – 12:00 Co-Chair(s): Daniel P. Abraham and Vince Battaglia 10:00

224

1172

Electrochemical, AC Impedance Spectroscopy and Cycling Dynamic Methods for the Integrated Extraction and Characterization of Lithium Batteries – Ángel Giancarlo Miranda, Chun-Ting Liu, and Che-Wun Hong (Department of Power Mechanical Engineering, National Tsing Hua University)

Full-Field Chemical Mapping With 2D in Situ X-Ray Nano-Imaging and 3D Nano-Tomography – Yu-chen Karen Chen-Wiegart, Jiajun Wang, and Jun Wang (Brookhaven National Laboratory) In Situ Chemical Mapping of LithiumIon Battery Using Full-Field Hard x-Ray Spectroscopic Imaging – Jiajun Wang, Yuchen Karen Chen-Wiegart, and Jun Wang (Brookhaven National Laboratory) Enhanced Self-Discharge Tests for Lithium-Ion Cells Via Current Pulse Measurements – Jan Philipp Schmidt, Michael Weiss, André Weber, and Ellen Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT)) Detection of Off Gassing From Li-Ion Batteries – Arun S Agarwal, Davion Hill (Det Norske Veritas (USA), Inc), Benjamin Gully (Det Norske Veritas (USA), Inc), Michael Kleinberg, Brandon Zander, Ali Nourai (Det Norske Veritas (USA), Inc), Lora Thrun, Scott Swartz, Mark Koslowske, Steve Cummings (Nextech Materials), John Butkowski, and Brad Moore (Beckett Energy Systems) The Effect of Crystal Structure, Chemical Composition, and Binder On the FullCell Performance of High Voltage Spinel Positive Electrodes for LithiumIon Batteries – Nicholas Paul William Pieczonka (Optimal CAE Inc), Jung-Hyun Kim (General Motors Global Research & Development Center), Ion C Halalay (General Motors Global R&D), Peng Lu (General Motors R&D Center), Ashfia Huq (Neutron Scattering Science Division, Oak Ridge National Laboratory), Miaofang Chi (Materials Science and Technology Division, Oak Ridge National Laboratory), Arumugam Manthiram (The University of Texas at Austin), and Bob Powell (GM R&D Center)

Gel Polymer Electrolyte Comprising Polyurethane-Poly(ethylene oxide) MultiBlock Copolymer Network for Lithium Ion Batteries – Seung Sik Hwang, Jaeman Choi (Samsung Advanced Institute of Technology, Samsung Electronics Co, Ltd.), and Seok-Kwang Doo (Samsung Advanced Institute of Technology (SAIT)) Novel Gel Polymer Electrolyte With Enhanced Intrinsic Safety – Alexandra Lex-Balducci and Philipp Isken (MEET Battery Research Center/Institute of Physical Chemistry)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1180

11:00

1181

11:20

1182

11:40

12:00

1183

1184

Extraction of Organic Carbonate Based Electrolytes With Supercritical Carbon Dioxide for a High Efficient Recycling of Lithium-Ion Batteries – Martin Grützke, Xaver Mönnighoff, Martin Winter, and Sascha Nowak (University of Münster, Institute of Physical Chemistry, MEET Battery Research Center) Oxidation-Induced Decomposition of Electrolytes and Additives From Quantum Chemistry Calculations – Oleg Borodin and T Richard Jow (US Army Research Laboratory) A Thermally Stable Li-Ion Battery Electrolyte Using LiTDI – Dennis W McOwen (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), Samuel A Delp (Army Research Laboratory), and Wesley A Henderson (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University) Investigation of Electrolyte Interaction With High Voltage Li-Ion Battery Cathodes – Samuel A Delp, Jan L Allen, and T Richard Jow (US Army Research Laboratory) Organosilicon-Based Electrolytes With Enhanced Thermal and Electrochemical Stability to Enable High Energy Lithium Ion Batteries – Monica Lee Usrey, Adrian Pena Hueso, Michael Pollina, Jian Dong (Silatronix), Xin Chen (University of Wisconsin-Madison), Robert West, and Robert J Hamers (University of WisconsinMadison, Silatronix)

14:40

1187

15:00

1188

15:20

1189

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Cells 3 - General – 14:00 – 16:00 Co-Chair(s): Ratnakumar V. Bugga and Bor Yann Liaw 14:00

1190

14:20

1191

14:40

1192

Lithium-Ion Batteries: Electrolytes 6 - Polymer and Ionic Liquid Electrolytes – 14:00 – 15:40 Co-Chair(s): Wesley A. Henderson and Karim Zaghib 14:00

14:20

1185

1186

Aprotic and Protic Ionic Liquids in Lithium Ion Batteries: A Comparative Study – Sebastian Menne (Westfälische Wilhelms-Universität Münster, MEET Battery Research Centre, Institute of Physical Chemistry, Corrensstraße 46, 48149 Münster, Germany), Mérièm Anouti (Département de chimie Université de Tours , Avenue Monge, Parc de Grandmont 37200 Tours), and Andrea Balducci (University of Muenster- Institute of Physical Chemistry, Battery Research Centre MEET) Ionic Conduction in Mwcnts Dispersed PVDF-HFP Based Nanocomposites Gel Polymer Electrolytes for Li-Ion Batteries – Rajni Sharma, Anjan Sil (Indian Institute of Technology Roorkee), and Subrata Ray (Indian Institute of Technology Mandi, Indian Institute of Technology Roorkee)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Simulating Transport Behavior of Room Temperature Ionic Liquids for Li-Ion Applications – Vyran Lee George (Georgia Institute of Technology) and Thomas F Fuller (School of Chemical & Biomolecular Engineering, Georgia Institute of Technology) Electroactive Imidazolium Salts Based On 1,4-Dimethoxybenzene Redox Groups : Synthesis, Electrochemical Characterization and Overcharge Protection in Li-Ion Batteries – John Forgie, Soumia El Khakani, Dominic Rochefort, and Dean MacNeil (Université de Montréal) Accelerating Rate Calorimetry and Electrochemical Study of Imidazolium Ionic Salts Based On 2,5-Di-Tert-Butyl1,4-Dimethoxybenzene Used As Additives in Lithium-Ion Batteries for Overcharge Protection – Soumia EL Khakani, John Forgie, Dominic Rochefort, and Dean MacNeil (Université de Montréal)

Thermal Conductivity, Heat Sources and Temperature Profiles of Li-Ion Secondary Batteries – Odne Stokke Burheim (HiST), Morten Andreas Onsrud (NTNU), Jon G Pharoah (Queen’s University), Fride Vullum-Bruer (Norwegian University of Science and Technology), and Preben Johann Svela Vie (IFE) Simcal Project: Calendar Aging Results Obtained On a Panel of 6 Commercial Li-Ion Cells – Arnaud Delaille, Sébastien Grolleau (CEA), François Duclaud (EIGSI), Julien Bernard, Renaud Revel (IFPEN), Serge Pélissier, Eduardo Redondo-Iglesias (IFSTTAR), JeanMichel Vinassa, Akram Eddahech (IMS), Christophe Forgez (UTC), Mahammad Kassem (LRCS), Stéphane Joly, Denis Porcellato (PSA), Philippe Gyan (RENAULT), Sandrine Bourlot (SAFT), and Mathilde Ouattara-Brigaudet (VALEO) Coupling of Dynamic Electrical and Thermal Processes in Prismatic Batteries – Sun Ung Kim (Department of Chemical Engineering, University of Michigan, Ann Arbor 48109, USA, Department of Mechanical Engineering, University of Michigan, Ann Arbor 48109, USA), Lynn Secondo (Department of Chemical Engineering, University of Michigan, Ann Arbor 48109, USA), Anna Stefanopoulou (Department of Mechanical Engineering, University of Michigan, Ann Arbor 48109, USA), and Charles Monroe (Department of Chemical Engineering, University of Michigan, Ann Arbor 48109, USA)

225

Thursday, October 31

10:40


15:00

1193

15:20

1194

15:40

1195

Area-Specific Impedance of a Single Lithium Insertion Electrode: A Measure to Evaluate Polarization – Tsutomu Ohzuku (Osaka City University), Fujika Ohgaki (Osaka City Univeristy), and Kingo Ariyoshi (Osaka City University) Morphological Analysis for the Evaluation of Electrode Structures – Eric J Dufek, Michael V Glazoff, and Kevin L Gering (Idaho National Laboratory) Lithium-Ion Cells With High Charge/ Discharge Performance At Extreme Low Temperature – David Ofer, Leah Nation, Sharon Dalton-Castor, YooEup Hyung, Suresh Sriramulu, and Brian Barnett (TIAX LLC)

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Electrolytes 7 - Solid Electrolytes – 16:00 – 17:20 Co-Chair(s): Paul C. Trulove and Steven Greenbaum 16:00

Thursday, October 31

16:20

1196

1197

16:40

1198

17:00

1199

Simultaneous Substitution in High Lithium Ion Conducting Garnet-Type Oxides; Li7+XLa3-YAYZr2-ZNbZO12 (A = Sr, Ca) – Yuki Kihira, Shingo Ohta, Yusuke Yagi, Haruo Imagawa, and Takahiko Asaoka (Toyota Central R&D Labs, inc) First Principle Analysis of Electrochemical Stability of Li10GeP2S12 – Mayuko Osaki (Toyota Motor Corporation), Yuki Kato (Toyota Motor Corporation, Toyota Motor Corporation), Takamasa Ohtomo, Mitsuru Sakano, and Yoshiumi Kawamura (Toyota Motor Corporation) Lithium Ion Battery Degradation Due to Anode-Electrolyte Reaction – J W Fergus, Song-yul Choe, Victor Agubra, and Rujian Fu (Auburn University) Bulk Ionic Conductivity and Crystallization of Lithium Thiophosphate Solid Electrolytes – Seth S Berbano, Mehdi Mirsaneh, Michael T Lanagan, and Clive A Randall (The Pennsylvania State University)

17:00

1203

17:20

1204

Polymer Electrolyte Fuel Cells 13

Industrial Electrochemistry and Electrochemical Engineering / B11 Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Continental 2, Tower 3, Ballroom Level, Hilton San Francisco Union Square

D-311 Durability of Pt-based Cathode Catalysts – 08:00 – 12:00 Co-Chair(s): Marian Chatenet and Jungmin Song 08:00

1550

08:20

1551

08:40

1552

09:00

1553

09:20

1554

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Cells 4 - General – 16:00 – 17:40 Co-Chair(s): Ayyakkannu Manivannan and T. Richard Jow 16:00

1200

16:20

1201

16:40

226

1202

Particle-Particle Interaction Within the Electrodes of Lithium-Ion Batteries – Cong Zhang and A Terrence Conlisk (The Ohio State University) A New Rechargeable Li-Ion Battery Using Dendrimer-Linked Nitroxide As Cathode Material Through Li-Ion Adsorption/ Desorption Mechanism – Ying Liu (University of Maryland College Park), Gerald Rosen (University of Maryland Baltimore), David Bigio, and Chunsheng Wang (University of Maryland College Park) Lithium Resources Recovery From Seawater By Electrodialysis Using Novel Ion Exchange Membrane – Tsuyoshi Hoshino (Japan Atomic Energy Agency)

Influence of Temperature and Cycling On Electrode Degradation - Experimental and Modeling Study – Matilda Klett, Tommy Georgios Zavalis, Maria H Kjell (KTH Royal Institute of Technology), Rakel Wreland Lindström (KTH - Applied Electrochemistry), Mårten Behm, and Göran Lindbergh (KTH Royal Institute of Technology) A New and Fast Entropy Measurement Method for Lithium-Ion Cell – Jan Philipp Schmidt, André Weber, and Ellen Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT))

09:40 10:00

Degradation Analyses of Meas and Their Correlations to Fuel Cell Performance of Ru85Se15 Cathode Catalysts – Xuan Cheng, Qiaoming Zheng (Xiamen University), Fang-Bor Weng, and A Su (Yuanze University) Investigation of Influence of Pt Oxidation State On Carbon Surface Oxidation in PEMFC Cathode Electrode – Norimitsu Takeuchi (Toyota Motor Corpration, Toyota Motor Corpration), Hideyuki Kumei (Toyota Motor Corpration), and Toshihiko Yoshida (TOYOTA MOTOR CORPORATION) An Rde Assessment of Sputtered IrRu-Pt Overlayer Nanostructured Thin Film Catalysts for Protection of PEMFC Cathodes Against Start-Up and ShutDown: The Durability of Oxygen Reduction Activity – Timothy C Crowtz (Dept of Process Engineering and Applied Science, Dalhousie University), David Stevens, Robbie Sanderson, Jessie Harlow, Cody Watson, and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) Experimental Study of the Activity Change Due to Operation History in PEMFC – Shinji Jomori, Kaori Komatsubara, Nobuaki Nonoyama, Manabu Kato, and Toshihiko Yoshida (TOYOTA MOTOR CORPORATION) Structural Correlations: Design Levers for Performance and Durability of Catalyst Layers – Kateryna Artyushkova (University of New Mexico), Plamen Atanassov (The University of New Mexico), Monica Dutta, David Harvey, Vesna Colbow, and Silvia Wessel (Ballard Power Systems) Intermission PEFC Student Poster Award Ceremony (Chairs: Thomas Schmidt & Jim Fenton) Room of Session D311

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


10:40

1555

1556

11:00

1557

11:20

1558

11:40

1559

Atomic Imaging and Spectroscopy of Sizeand Shape-Dependent Degradation of Pt Bimetallic Fuel Cell Catalysts – Lin Gan (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Technical University Berlin, Germany), Marc Heggen (Ernst Ruska Center for Microscopy and Spectroscopy with Electrons, Forschungszentrum Juelich GmbH, Germany), Chunhua Cui, Stefan Rudi, and Peter Strasser (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Technical University Berlin, Germany) Identical Location Transmission Electron Microscopy in Polymer Electrolyte Environment – Application to the Degradation of Pt/C and Pt3co/C Electrocatalysts Under Accelerated Aging Tests – Flavio R Nikkuni (Universidade de São Paulo, IQSC, Grenoble-INP), Marian Chatenet (Laboratoire d’Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5279 CNRS/ Grenoble-INP/U de Savoie/U Joseph Fourier, BP75, 38402 St Martin d’Hères, France), Edson A Ticianelli (Universidade de São Paulo, IQSC), and Laetitia Dubau (Laboratoire d’Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5279 CNRS/ Grenoble-INP/U de Savoie/U Joseph Fourier, BP75, 38402 St Martin d’Hères, France) Platinum Degradation Model in the Presence of Oxygen – Barathram Jayasankar (Queen’s University), Kunal Karan (University of Calgary), and David Harvey (Ballard Power Systems) Microstructure and Performance of Catalyst Layer Based On Highly Graphitized Carbon Support – Jungmin Song (Samsung SDI), Heetak Kim (Korea Advanced Institute of Science and Technology), Yongbum Park, Kayoung Song, Yeonsu Kim, Sungchul Lee, Nakwon Kong, Taeyoon Kim, Yasuki Yoshida, and Chanho Pak (Samsung SDI) Correlation Between Carbon Spacer Ratio in 3D Reduced Graphite OxideNanoribbon and Catalytic Performance of 3D Carbon Supported PtPd – Hailin Wang, Takanori Tamaki, Bhalchandra A Kakade, and Takeo Yamaguchi (Tokyo Institute of Technology)

Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-312 Non-precious Metal Catalysts 1 – 08:00 – 12:00 Co-Chair(s): Piotr Zelenay and Jun Kubota 08:00

1560

08:20

1561

08:40

1562

09:00

1563

09:40 10:00 10:20

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

1564

Electrochemical Stability Investigation of TiOxNy electro-Catalyst Produced By in-Situ Urea-Based Sol-Gel Method for PEM Fuel Cell Application – Ali Seifitokaldani (Chemical Engineering Department, Polytechnique Montréal, Montréal, QC, Canada, Laboratory of New Materials for Electrochemistry and Energy, Polytechnique Montréal, Montréal, QC, Canada), Michel Perrier (Chemical Engineering Department, Polytechnique Montréal, Montréal, QC, Canada), and Oumarou Savadogo (Chemical Engineering Department, Polytechnique Montréal, Montréal, QC, Canada, Laboratory of New Materials for Electrochemistry and Energy, Polytechnique Montréal, Montréal, QC, Canada) Enhancement of Oxygen Reduction Activity of Zirconium Oxide-Based Cathode for PEFC – Shihong Yin (Green Hydrogen Research Center, Yokohama National University), Akimitsu Ishihara, Yuji Kohno, Koichi Matsuzawa, Shigenori Mitsushima, Ken-ichiro Ota (Green Hydrogen Research Center, Yokohama Nat Univ), Masashi Matsumoto, and Hideto Imai (NISSAN ARC Ltd.) Improving ORR Activity of Group 4 and 5 Metal Oxide-Based Cathodes for PEFCs – Akimitsu Ishihara (Green Hydrogen Research Center, Yokohama Nat Univ), Shihong Yin (Green Hydrogen Research Center, Yokohama National University), Kazuaki Suito, Naoki Uehara (Green Hydrogen Research Center, Yokohama Nat Univ), Yohei Okada (Yokohama National University), Yuji Kohno, Koichi Matsuzawa, Shigenori Mitsushima, Kenichiro Ota (Green Hydrogen Research Center, Yokohama Nat Univ), Mitsuharu Chisaka (Hirosaki University), Yoshiro Ohgi (Kumamoto Industrial Research Institute), Masashi Matsumoto, and Hideto Imai (NISSAN ARC Ltd.) Preparation of Ta, Nb, Ti, and Zr-Based Catalysts for Cathode of Polymer Electrolyte Fuel Cells – Jun Kubota (The University of Tokyo) Intermission PEFC Student Poster Award Ceremony (Chairs: Thomas Schmidt & Jim Fenton) Room of Session D311 Pt-Free Cathode Catalyst Prepared From Polyimide Fine Particles – Yuta Nabae (Tokyo Institute of Technology), Masayuki Chokai (Interactive Technology Research Institute, Teijin Ltd.), Takeo Ichihara (Asahi Kasei Chemicals Corporation), Teruaki Hayakawa (Tokyo Institute of Technology), and Tsutomu Aoki (Toshiba Fuel Cell Power System Corporation)

227

Thursday, October 31

10:20


10:40

1565

11:00

1566

11:20

1567

11:40

1568

The Role of Oxygen Functionalities for Enhanced Oxygen Reduction Activity in Carbon Nanotubes – Haryo S Oktaviano, Raymond A Wong, and Keiko Waki (Tokyo Institute of Technology) Graphene Oxide-Derived Non-Precious Metal Oxygen Reduction Catalysts – Gang Wu, Qing Li, and Piotr Zelenay (Los Alamos National Laboratory) N-Doped Carbon Nanotubes Prepared At Different Temperatures for Oxygen Reduction Reaction – Hengyi Li, Xuan Cheng (Xiamen University), Fang-Bor Weng, and Ay Su (Yuanze University) Electrochemical Oxygen Reduction On Metal-Free Nitrogen-Doped Graphene Foam in Acidic Media – Jianfeng Liu (Faculty of Engineering, Kyushu University, International Institute for Carbon Neutral Energy Research, Kyushu University), Kazunari Sasaki (Faculty of Engineering, Kyushu University, International Research Center for Hydrogen Energy, Kyushu University), and Stephen Matthew Lyth (International Institute for Carbon Neutral Energy Research, Kyushu University)

11:00

1574

11:20

1575

11:40

1576

Golden Gate 5, Tower 3, Lobby Level, Hilton San Francisco Union Square E-31 Alkaline Membranes and Cells – 08:00 – 12:00 Co-Chair(s): Takenori Isomura and Jochen A. Kerres

Continental 1, Tower 3, Ballroom Level, Hilton San Francisco Union Square

08:00

A-31 Microporous and Catalyst Layers – 08:00 – 12:00 Co-Chair(s): K. Andreas Friedrich and Marc Secanell

08:40

09:00

Thursday, October 31

Using Broadband Electric Spectroscopy to Study Transport in Anion Exchange Membranes – Ashley M Maes (Colorado School of Mines), Sandra Lavina (Department of Chemical Sciences, University of Padova), E Bryan Coughlin (University of Massachusetts - Amherst), Vito Di Noto (Department of Chemical Sciences, University of Padova), and Andrew M Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) Designing Highly Efficient OH− Conducting Channels in Alkaline Polymer Electrolytes – Pan Jing, Chen Chen (College of Chemistry and Molecular Sciences, Wuhan University), Lin Zhuang (College of Chemistry and Molecular Sciences,Wuhan University), and Juntao Lu (College of Chemistry and Molecular Sciences, Wuhan University) Performance of Nitrogen-Modified Commercial Catalysts in Acid and Alkaline Media – Kevin Nathaniel Wood, Svitlana Pylypenko, April Corpuz, Prabhuram Joghee (Colorado School of Mines), Arrelaine Dameron, Huyen N Dinh, Thomas Gennett (National Renewable Energy Laboratory), and Ryan O’Hayre (Colorado School of Mines)

09:20

1569

1570

1571

1572

09:40 10:00 10:20

228

1573

The Effect of Water Permeability of AEMs on AMFC Performance – Takenori Isomura, Kenji Fukuta, Shin Watanabe, and Masao Yamaguchi (Tokuyama Corp) Mechanical Characterization of Anion Exchange Membranes – Melissa A Vandiver, Benjamin R Caire, Krysta Waldrop, Andrew M Herring, and Matthew W Liberatore (Department of Chemical and Biological Engineering, Colorado School of Mines) Permethylcobaltocenium Based Hydroxide Exchange Membranes With High Stability – Shuang Gu, Junhua Wang, Qianrong Fang, Robert B Kaspar, Bingzi Zhang, and Yushan Yan (Department of Chemical & Biomolecular Engineering, University of Delaware) Best Practices for Examining Anion Exchange Membrane Alkaline Stability for Solid-State Alkaline Fuel Cells – Christopher George Arges, Lihui Wang, Javier Parrondo, and Vijay K Ramani (Illinois Institute of Technology) Intermission PEFC Student Poster Award Ceremony (Chairs: Thomas Schmidt & Jim Fenton) Room of Session D311 Novel Mixed Alkyl/Aryl Anion-Exchange Membranes for Electrochemical Applications – Jochen A Kerres (University of Stuttgart, Institute of Chem Proc Eng)

08:00

1541

08:40

1542

09:00

1543

Low Pressure Liquid Extrusion Porosimetry for Determination of Pore Size Distribution in Gas Diffusion and Microporous Layers – Gregory Laskey, Charles P Quesnel, and Jeffery T Gostick (McGill University) Assessing the Limits of Water Management With Asymmetric Micro-Porous Layer Configurations – Yasser Ashraf Gandomi and Mathew M Mench (Electrochemical Energy Storage and Conversion Laboratory, Department of Mechanical, Aerospace and Biomedical Engineering, University of Tennessee) Effect of Interfacial Structure Between Micro-Porous Layer and Catalyst Layer On Water Transport in PEFC – Yusuke Aoyama (Hokkaido University), Kengo Suzuki (Hokkaido University, Hokkaido University), Yutaka Tabe, Takemi Chikahisa (Hokkaido University), and Toshihiro Tanuma (ASAHI GLASS CO, LTD)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1544

09:40 10:00 10:20

1545

10:40

1546

11:00

1547

11:20

1548

11:40

1549

Self-Supporting Microporous Layers (MPLs) for PEM Fuel Cells – K Andreas Friedrich, Alexander Bauder (German Aerospace Center (DLR)), Jan Haußmann (Zentrum für Sonnenenergie und Wasserstoffforschung), Henning Markötter (Helmholtz-Zentrum Berlin), Ingo Manke (Helmholtz-Zenrum Berlin), Robert Alink (Fraunhofer-Institut für Solare Energiesysteme ISE), and Joachim Scholta (Zentrum für Sonnenenergie und Wasserstoffforschung) Intermission PEFC Student Poster Award Ceremony (Chairs: Thomas Schmidt & Jim Fenton) Room of Session D311 Influence of Triple MPL Coated GDL on the PEFC Performance under Low and High Humidity – Tatsumi Kitahara, Hironori Nakajima (Department of Mechanical Engineering, Faculty of Engineering, Kyushu University), Masaoki Inamoto, and Kosuke Shinto (Kyushu University) Catalyst Property of High Performance PEMFC MEA Under Low Humidification Conditions – Jung Ock Park, Yoonhoi Lee, JinSu Ha, Suk-Gi Hong, and JoonHee Kim (Samsung Advanced Institute of Technology) Rationalizing Catalyst Inks for PEMFC Electrodes Based On Colloidal Interactions – Shantanu Shukla, Subir Bhattacharjee, and Marc Secanell (University of Alberta) One Step Direct Deposition of Durable Cathodes for High Temperature Proton Exchange Membrane Fuel Cells (PEMFC) – Haoran Yu (Department of Chemical and Biomolecular Engineering at the University of Connecticut), Justin Michael Roller (Department of Materials Science and Engineering at the University of Connecticut), William E Mustain (Department of Chemical and Biomolecular Engineering at the University of Connecticut), and Radenka Maric (Department of Materials Science and Engineering at the University of Connecticut) Surface Analytical Methods for the Development of Electrochemical Components of Polymer Electrolyte Fuel Cells – Indro Biswas, Pawel Gazdzicki, and Mathias Schulze (Deutsches Zentrum für Luft- und Raumfahrt eV)

Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-322 Non-precious Metal Catalysts 2 – 14:00 – 18:00 Co-Chair(s): Shigenori Mitsushima and Viola Birss 14:00

1587

Ab-Initio Computational Studies of Doped Graphene Catalysts in Fuel Cell Application – Byungchan Han (DGIST), Inhye Kwon (LG Chem), and Min-Ho Seo (DGIST)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

14:20

1588

14:40

1589

15:00

1590

15:20

1591

15:40

1592

16:00 16:20 1593

16:40

1594

17:00

1595

17:20

1596

17:40

1597

New Approach to High-Efficiency NonPGM Catalysts Using Rationally Designed Porous Organic Polymers – Di-Jia Liu, Shengwen Yuan, Jianglan Shui, Lauren Grabstanowicz, Chen Chen, Sean Commet (Argonne National Lab), and Gabriel Goenaga (university of tennessee at knoxville, Argonne National Laboratory) Hydrogen Peroxide, Non-Precious Metal Catalysts and Radical Species – Frederic Jaouen, Vincent Goellner, Marta Zaton, and Jacques Roziere Sr (ICGM UMR 5253) Porous Ring Disk Electrode Model for Oxygen Reduction By Non-Precious Electrocatalysts – Scott Calabrese Barton and Nathaniel Leonard (Michigan State University) Rotating Ring-Disk Study of MetalNitrogen-Carbon Catalyst Prepared By High Pressure Pyrolysis – Nathaniel Leonard, Selvarani Ganesan, and Scott Calabrese Barton (Michigan State University) A Solid State NMR Study of PolyanilineFe Non-Precious Metal Cathode Catalysts for Oxygen Reduction in Fuel Cells – Shigeki Kuroki (Tokyo Institute of Technology, Department of Organic and Polymeric Materials) Intermission Constraints for the Interpretation of XPS Spectra of Non-PGM TM-Nx (TM=Fe, Co; x=1,4) ORR Electrocatalysts From First-Principles Simulations – Sadia Kabir, Kateryna Artyushkova, Plamen Atanassov (University of New Mexico), and Boris Kiefer (New Mexico State University) Probing Oxygen Reduction Mechanism of Copper/Triazoles Complexes Based Electrocatalysts By EPR Spectroscopy – Congling Zhang, Jamie S Lawton (university of tennessee), and Thomas A Zawodzinski (University of Tennessee) Influence of Transition Metal On Oxygen Reduction Activity of Metal-NitrogenCarbon Electrocatalysts – Selvarani Ganesan, Nathaniel Leonard, and Scott Calabrese Barton (Michigan State University) Phenylenediamine as a Promising Ligand for Non-Noble Metal ORR Catalysts – Samar Gharaibeh and Viola Birss (University of Calgary) In Situ Spectroscopic Observation of the Fe-N Switching Behaviors of Fe-N4 and Fe-N2+2 Sites During Oxygen Reduction – Qingying Jia, Urszula Tylus, Kara Strickland (Northeastern University), Naggapan Ramaswamy (Nissan Technical Center North America), and Sanjeev Mukerjee (Northeastern University)

229

Thursday, October 31

09:20


Golden Gate 5, Tower 3, Lobby Level, Hilton San Francisco Union Square

17:20

1607

17:40

1608

E-32 Direct Oxidation Fuel Cells - Electrocatalysts – 14:00 – 18:00 Co-Chair(s): Eric M. Stuve and Christophe Coutanceau 14:00

1598

14:20

1599

14:40

1600

15:00

1601

15:20

1602

15:40

1603

Thursday, October 31

16:00 16:20 1604

16:40

17:00

230

1605

1606

Investigation of a cathodic bimetallic catalyst based on Platinum and cobalt for application in direct methanol fuel cells – Claudia D’urso (CNR-ITAE), Vincenzo Baglio (CNR-Institute of Advanced Energy Technologies (ITAE)), David Sebastian (CNR ITAE), Alessandro Stassi (cnr-itae), and Antonino S Aricò (CNR-Institute of Advanced Energy Technologies (ITAE)) Temperature Study On Zr-Oxides for the ORR in DMFCs – Thomas Mittermeier, Pankaj Madkikar, Xiaodong Wang, Michele Piana, and Hubert Gasteiger (Technische Universität München) Reaction Pathways and Current Efficiency for Electrooxidation of Ethylene Glycol At Intermediate Temperatures – Eric M Stuve and Kurt A Spies (University of Washington) Ir-Sn Nanoparticles for the Ethanol Oxidation Reaction – Xiaowei Teng and Wenxin Du (University of New Hampshire) Closely Interacted Pt-SnO2 Electrocatalysts for Methanol Oxidation – Yougui Chen and Yangchuan Xing (Department of Chemical Engineering,University of MissouriColumbia) N-Doped Graphene-Supported PtRu Direct Methanol Fuel Cell Electrocatalysts – Svitlana Pylypenko, Kevin Nathaniel Wood (Colorado School of Mines), Alexey Serov, Plamen Atanassov (University of New Mexico), and Ryan O’Hayre (Colorado School of Mines) Intermission A Study of Au/C Nanoparticles With Pt Monolayer and Sub-Monolayer Electrocatalysts for Ethanol Oxidation Reaction – Rameshwori Loukrakpam (Technical University Berlin), Stanko R Brankovic (University of Houston), and Peter Strasser (The Electrochemical Energy, Catalysis and Materials Science Laboratory, Institute of Chemistry, Technical University Berlin, Germany) EDTA Assisted Ce(III)/Pt Vulcan Xc-72 Catalyst Synthesis for Direct Methanol Fuel Cell Applications – Carlos R Cabrera, Christian Menendez, Rolando GuzmanBlas (University of Puerto RIco at Río Piedras), Kotaro Sasaki (Chemistry Department, Brookhaven National Laboratory), Dario J Stacchiola, Sanjaya D Senanayake (Brookhaven National Laboratory), Damaris Suazo-Dávila, and Carlos A Vélez (University of Puerto RIco at Río Piedras) Performance Stability of Carbon-Supported Vs Metal-Black DMFC Catalysts – Qing Li, Dusan Spernjak, Yu Seung Kim, and Piotr Zelenay (Los Alamos National Laboratory)

Synthesis of Nanostructured Platinum and Platinum-Based Electrocatalyst for Dafc – Man Van Tran (Applied Physical Chemistry Laboratory, University of Science, VNU-HCM, Vietnam, Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam), Giang Huong Nguyen Thi (Applied Physical Chemistry Laboratory, University of Science, VNU-HCM, Vietnam), Hong Phuong Vu Thi (University of BariaVungtau, Vungtau, Vietnam), Phung My Loan Le (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam), and Thoa Thi Phuong Nguyen (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam, Applied Physical Chemistry Laboratory, University of Science, VNU-HCM, Vietnam) Pd-Bi Catalysts for Electrooxidation of Alcohols – Anna Zalineeva (Université de Poitiers, IC2MP, UMR CNRS 7285), Ulises Martinez, Alexey Serov (University of New Mexico), Stève Baranton, Christophe Coutanceau (Université de Poitiers, IC2MP, UMR CNRS 7285), and Plamen Atanassov (University of New Mexico)

Continental 1, Tower 3, Ballroom Level, Hilton San Francisco Union Square A-32 Electrochemical Characterization – 14:00 – 18:00 Co-Chair(s): Dusan Spernjak and Olivier Lottin 14:00

1577

14:40

1578

15:00

1579

15:20

1580

15:40

1581

In Situ Mapping of Electrode Potential in a PEMFC – Gareth Hinds (National Physical Laboratory) Spatially Resolved Degradation During Startup and Shutdown PEM Fuel Cell Operation – Dusan Spernjak, Rangachary Mukundan (Los Alamos National Laboratory), Jérôme Dillet, Adrien Lamibrac, Gael Maranzana, Sophie Didierjean, Olivier Lottin (LEMTA CNRS), Joseph D Fairweather, David A Langlois (Los Alamos National Laboratory), Karren L More (Oak Ridge National Lab), and Rod L Borup (Los Alamos National Laboratory) Polymer Electrolyte Membrane Fuel Cell Active Area Utilization Dependence on Relative Humidity Measured via AC Impedance High Frequency Resistance – Andrew J Steinbach and Daniel M Peppin (3M Company) Pressure Drop and Voltage Response of PEMFC Operation Under Transient Temperature and Loading Conditions – Rupak Banerjee, Evan See, and Satish G Kandlikar (Rochester Institute of Technology) Separate Measurements of Current Under the Channels and the Land in a PEM Fuel Cell With An Interdigitated Flow Field – Song Luo and Hongtan Liu (Clean Energy Research Institute)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


16:40

1583

17:00

1584

17:20

1585

17:40

1586

Intermission Start-Up/Shut-Down Model for Polymer Electrolyte Membrane Fuel Cell – Gael Maranzana, Adrien Lamibrac, Jérôme Dillet, Sophie Didierjean, Olivier Lottin (LEMTA CNRS), and Sofyane Abbou (CNRS - Université de Lorraine - LEMTA) Time Evolution of Local Potentials During PEM Fuel Cell Operation With DeadEnded Anode – Sofyane Abbou (CNRS - Université de Lorraine - LEMTA), Jérôme Dillet (LEMTA CNRS), Dusan Spernjak, Rangachary Mukundan, Joseph D Fairweather, Rod L Borup (Los Alamos National Laboratory), Gael Maranzana, Sophie Didierjean, and Olivier Lottin (LEMTA CNRS) Segmentation of Polymer Electrolyte Fuel Cell (PEFC) With sub–millimeter Resolution in the Land-Channel Direction – Udit N Shrivastava and Kazuya Tajiri (Michigan Technological University) Advanced Durability Tests for High Temperature PEM Fuel Cells – Yukwon Jeon, So-Me Jeon, Jeongho Park, and Yong-gun Shul (Yonsei University) Real Time Measurement of Water Transport in Polymer Electrolyte Fuel Cell – Masao Sudoh, Ryosuke Shimokawa, Hidekazu Nagai, Yukihiro Sugesawa (Department of Materials Science and Chemical Engineering, Shizuoka University), and Hisashi Minakuchi (University of the Ryukyus)

15:20

1613

15:40

1614

16:00 1615 16:20

16:40

1616

17:00

1617

17:20

1618

Continental 2, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-321 Cathode Catalysts with Corrosion Resistant Supports – 14:00 – 18:20 Co-Chair(s): Karren L. More and Akari Hayashi 14:00

14:20

1609

1610

14:40

1611

15:00

1612

Corrosion Study of Mesoporous Carbon Supports for Use in PEM Fuel Cells – Farisa Forouzandeh (University of Calgary), Dustin Banham (Ballard Power Systems), Fangxia Feng, Xiaoan Li (University of Calgary), Siyu Ye (Ballard Power Systems), and Viola Birss (University of Calgary) Covalently, Non-Covalently and Non Functionalized Networked Graphitic Structures As Robust Catalyst Support in PEM Electrodes – Emanuela Negro, Marnix de Vries, Roman Latsuzbaia, and Ger Koper (Delft University of Technology) Development of Ultra-Low Loading Pt/ AGC Catalyst for PEM Fuel Cells – Taekeun Kim, Won-Suk Jung, Tianyuan Xie, and Branko N Popov (University of South Carolina) Pt Catalysts Supported On High Surface Area Graphene Composites for PEFCs – Jian Xie (Indiana University-Purdue University (IUPUI))

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Pt-Decorated graphene foam for Electrochemical Oxygen Reduction With High Mass Activity – Jianfeng Liu (Faculty of Engineering, Kyushu University, International Institute for Carbon Neutral Energy Research, Kyushu University), Kazunari Sasaki (Faculty of Engineering, Kyushu University, International Research Center for Hydrogen Energy, Kyushu University), and Stephen Matthew Lyth (International Institute for Carbon Neutral Energy Research, Kyushu University) Development of Durable Electrocatalysts for PEFC By Controlling Nanostructure of Carbon Supports – Akari Hayashi (International Research Center for Hydrogen Energy, Kyushu University), Xiaojing Zhao, Yasuto Minamida, Zhiyun Noda (Faculty of Engineering, Kyushu University), and Kazunari Sasaki (NextGeneration Fuel Cell Research Center (NEXT-FC), Kyushu University) Intermission Durable and Water Manageable Ordered Mesoporous Supports for Polymer Electrolyte Fuel Cells – Sun-Mi Hwang, Sehui Lee, Young-Jun Sohn, Tae-Hyun Yang, and Gu-Gon Park (Fuel Cell Research Center, Korea Institute of Energy Research) Development of Graphitic-Carbon Nitride Materials as Catalyst Supports for Polymer Electrolyte Fuel Cells – Noramalina Mansor (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK), Ana Belen Jorge, Furio Corà (Department of Chemistry, University College London, London WC1H 0AJ, UK), Christopher Gibbs, Rhodri Jervis (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK), Paul F McMillan, Xiaochen Wang (Department of Chemistry, University College London, London WC1H 0AJ, UK), and Dan J L Brett (Electrochemical Innovation Lab, University College London, London, WC1E 7JE, UK) Application of Mesoporous Carbon Nano Dendrites(MCND) As Catalyst Supporting Materials for PEFCs – Katsumasa Matsumoto (The Electrochemical Society of Japan), Takashi Iijima, and Masataka Hiyoshi (Nippon Steel • Sumitomo Metal Corporation) Highly Dispersed Pt on Mo2C: Durable Catalyst for Oxygen Reduction Reaction – Aaron Roy, Ulises Martinez (University of New Mexico), Eric L Brosha (Los Alamos National Laboratory), Plamen Atanassov, and Tim L Ward (University of New Mexico)

231

Thursday, October 31

16:00 16:20 1582


17:40

18:00

D1

1619

1620

Evidence of Enhanced Activity of In Situ formed Pt Nano-Rafts On Molybdenum Carbide Support – Lior Elbaz (Bar-Ilan University), Tommy Rockward, Neil J Henson (Los Alamos National Laboratory), Kateryna Artyushkova (University of New Mexico), Karren L More (Oak Ridge National Lab), Jonathan Phillips (Naval Post-Graduate School), and Eric L Brosha (Los Alamos National Laboratory) Pt-Based ORR Catalyst On CarbonSupported Amorphous Niobium Oxide Support – Chunchuan Xu, Patrick Pietrasz, Jun Yang, Richard Soltis (Ford Motor Company), Kai Sun (University of Michigan), Mark Sulek, and Robert Novak (Ford Motor Company)

Corrosion General Poster Session

10:40

1729

11:00

1730

11:20

1731

11:40

1732

Corrosion Union Square 3/4, Tower 3, 4th Floor, Hilton San Francisco Union Square

Corrosion General Session – 08:20 – 12:00 Co-Chair(s): R. Buchheit and Masayuki Itagaki 08:20

08:40

Thursday, October 31

09:00

09:20

1723

1724

1725

1726

09:40 10:00 1727

10:20

232

1728

Electrochemical Behaviour of CopperCoated Carbon Steel – Sridhar Ramamurthy (Surface Science Western, The University of Western Ontario), Dmitrij Zagidulin, Jian Chen (Western University), Pellumb Jakupi (The University of Western Ontario), Rebecca Jacklin (Surface Science Western and The University of Western Ontario), Dave Shoesmith (Western University), and Peter Keech (Nuclear Waste Management Organization) Critical Corrosion Temperature (CCorrT) A Novel Electrochemical Methodology to Qualify Coatings At High Temperature in Chloride Containing Environments – Luis Francisco Garfias-Mesias (Intertek) Electrochemical Evaluation of Hot-Dip Galvanized Steel (HDGS) Coated With Organic-Inorganic Hybrid Sol-Gel in Cementitious Materials – Rita Bacelar Figueira (Laboratório Nacional de Engenharia Civil - LNEC, University of Minho), Carlos J R Silva (University of Minho), Elsa Vaz Pereira, and Maria Manuela Salta (Laboratório Nacional de Engenharia Civil - LNEC) Multidimensional Simulation of Corrosion At Coating Defects – John N Harb (Brigham Young University) and Christopher Lueth (CD-adapco) Break Dissolution/Deposition of Zinc in the Deionized Water (60 < T (°C) < 933) – Jong-Hee Park (Eltron Research and Development), Peter Mast (Enercon Services, Inc (ENERCON), Enercon Services, Inc (ENERCON)), and Jeffery Poska (Alion Science and Technology) Corrosion Behavior of Copper-SilverPhosphorus Brazing Alloy in Chloride Containing Electrolyte At Various Temperature – Andrieanto Nurrochman and Kyehyun Cho (Yeungnam University)

D2

Hydrogen Diffusion Coefficients Through Inconel 718 in Different Metallurgical Conditions – Josiah JM Jebaraj, David J Morrison (Clarkson University), and Ian Ivar Suni (Southern Illinois University) Effect of ECAP On the Pitting Corrosion of 304 Stainless Steel – Zhijun Zheng and Yan Gao (South China University of Technology) Bipolar Electrochemistry for HighThroughput Corrosion Screening – Sara Munktell, Mats Tydén, Jonas Högström, Leif Nyholm (Department of ChemistryÅngström Laboratory, Uppsala University), and Fredrik Björefors (Department of Chemistry - Ångström Laboratory, Uppsala University) Corrosion of Buried Plumbing Materials By Soil Chemistry and Leakage Current – Young-bog Park (Waterworks Research Institute, Seoul Metropolitan Government), Young-june Choi (Waterworks Research Institue, Seoul Metropolitan Government), Hyun-jeong Jang, Yong-sang Park (Waterworks Research Institute, Seoul Metropolitan Government), and In-sub Park (Waterworks Research Institute)

Atmospheric Corrosion

Corrosion / Physical and Analytical Electrochemistry Union Square 15/16, Tower 3, 4th Floor, Hilton San Francisco Union Square

Coatings – 08:00 – 11:00 Co-Chair(s): A. Nishikata and Douglas C. Hansen 08:00

1752

08:20

1753

08:40

1754

09:00

1755

Corrosion Performance of Zinc Magnesium Aluminium Coated Steel: Effect of Chloride Deposition and CO2 – Dominique Thierry (French Corrosion Institute) Corrosion Performance of Zinc Magnesium Aluminium Coated Steel: Discussion of Fundamental mechanisms – Michael Rohwerder (Christian Doppler Laboratory for Diffusion and Segregation), Romina Krieg (Max-Planck-Institit für Eisenforschung GmbH), Ashokanand Vimalanandan (Max-Planck-Institut für Eisenforschung GmbH), Dominique Thierry, and Nathalie Le Bozec (French Corrosion Institute) Molecular Studies of Self Assembled Monolayers As Corrosion Inhibitors for Copper – Saman Hosseinpour, Magnus C Johnson (Department of Chemistry, Division of Surface and Corrosion Science, KTH Royal Institute of Technology), and Christofer Leygraf (KTH Royal Institute of Technology, Div Surface and Corrosion Science, School of Chemical Science and Engineering) Characterization of the Inhibition Effect of CaSO4 On Pitting Damage Accumulation of Aluminum Alloy 7075-T6 – Pitichon Klomjit and R Buchheit (The Ohio State University)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


1756

09:40 10:00 1757

10:20

1758

10:40

1759

Atmospheric Corrosion of Different Zinc Coating On Steel – Piotr Zabinski, Krzysztof Mech, and Remigiusz Kowalik (AGH University of Science and Technology, Faculty of Non-Ferrous Metals, Department of Physical Chemistry and Metallurgy of Non – Ferrous Metals al A Mickiewicza 30, 30-059 Krakow) Break Comparison of Atmospheric Parameters On the Corrosion of Epoxy Coated 2024-T3 Al Alloy – Leanne Petry, Douglas C Hansen, Scott A Hayes, Yuhchae Yoon (University of Dayton Research Institute), and Jeremy D Angel (Air Force Research Laboratory) Chromate Mitigation in Atmospheric Corrosion By the Use of Smart-Release Pigments – Hamilton Neil McMurray and Geraint Williams (Swansea University) Atmospheric Corrosion of Top Coats Used to Protect Carbon Steel and Stainless Steels in Chloride Containing Environments – Luis Francisco Garfias-Mesias (Intertek), Jaci Warren (CILAJET), and Juan Valerio Cauich-Rodriguez (CICY (Centro de Investigacion Cientifica de Yucatan))

Modeling – 11:00 – 12:00 Co-Chair(s): A. Nishikata 11:00

1760

11:20

1761

11:40

1762

Predicting Atmospheric Corrosion Rates for 1010 Steel Using a Cumulative Damage Approach – David H Rose (University of Dayton), Scott J McCombie (Booz Allen Hamilton), Jeremy D Angel (Air Force Research Laboratory), and Douglas C Hansen (University of Dayton Research Institute) Dynamic Characterization for Soil/ Environmental Conditions in Coating/ Substrate Metal Interface Systems By Stochastic Modeling – Homero Castaneda (The University of Akron), Ximing Li (The Unviersity of Akron), Ayako Yajima (The University of Akron), and Robert Liang (The University opf Akron) Evaluation of the Maximum Pit Size Model On Stainless Steel Under Atmospheric Conditions – Michael T Woldemedhin, Jayendran Srinivasan (University of Virginia), Mara E Shedd (LUNA), Michael McGrath, and Robert G Kelly (University of Virginia)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

E2

Atomic Layer Deposition Applications 9

Dielectric Science and Technology / Electronics and Photonics Continental 8, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Energy Applications – 08:00 – 12:00 Co-Chair(s): J. W. Elam and G. M. Sundaram 08:00

1869 ALD-TiO2 Preparation and Characterization for Metal-InsulatorSilicon Photoelectrochemical Applications – Andrew G Scheuermann, John P Lawrence, Marika Gunji (Materials Science and Engineering, Stanford University, Stanford, CA, United States), Christopher ED Chidsey (Chemistry, Stanford University, Stanford, CA, United States), and Paul C McIntyre (Materials Science and Engineering, Stanford University, Stanford, CA, United States) 08:20 1870 Characteristics of SnSx By Atomic Layer Deposition for CIGS Solar Cells – Giyul Ham, Seokyoon Shin (Division of Materials Science and Engineering, Hanyang University), Joohyun Park (Department of Nanoscale Semiconductor Engineering, Hanyang University), and Hyeongtag Jeon (Division of Materials Science and Engineering, Hanyang University) 09:00 1871 Atomic Layer Deposition of MultiComponent Metal Sulfides Applied to Thin Film Photovoltaics – Elijah Thimsen (University of Minnesota) and Sergey V Baryshev (Argonne National Laboratory) 09:40 Intermission 10:00 1872 Spatial-ALD of Transparent and Conductive Oxides – A Illiberi (Holst Centre/ TNO 5600 HE Eindhoven, The Netherlands), T Grehl (ION-TOF GmbH Heisenbergstrasse 15, 48149, Muenster, Germany), A Sharma (Holst Center/TNO), B Cobb, G Gelinck, P Poodt (Holst Centre/ TNO), H Brongersma (Department of Materials, Imperial College, SW7 2AZ London, United Kingdom, Department of Applied Physics, Eindhoven University of Technology, 5600 MB Eindhoven, The Netherlands), and F Roozeboom (Department of Applied Physics, Eindhoven University of Technology, 5600 MB Eindhoven, The Netherlands, Eindhoven University of Technology) 10:40 1873 Characteristics of Thin Film YttriaStabilized Zirconia Electrolyte by Atomic Layer Deposition for Thin Film Solid Oxide Fuel Cells – Gu Young Cho, Jun Yeol Paek, Joonho Park, Taehyun Park, Yoon Ho Lee, and Suk Won Cha (Seoul National University, School of mechanical and aerospace engineering) 11:00 1874 Conformal Deposition for 3D Thin-Film Batteries – Philippe M Vereecken (imec, University of Leuven, B-3001 Leuven, Belgium) and Cedric Huyghebaert (imec)

233

Thursday, October 31

09:20


11:40

1875

High Areal Capacity Li-Ion All Solid State 3D Microbattery Based on Anatase TiO2 Deposited by ALD on Silicon Microstructures – Etienne Eustache (IMN JR CNRS UMR 6502 – Université de Nantes (Fr), IEMN CNRS UMR 8520 – Université Lille 1 (Fr)), Pascal Tilmant, Laurence Morgenroth (IEMN CNRS UMR 8520 – Université Lille 1 (Fr)), Pascal Roussel (UCCS), Nathalie Rolland (IEMN UMR CNRS 8520), Thierry Brousse (Institut des Matériaux Jean Rouxel (IMN) - CNRS/University of Nantes), and Christophe Lethien (IEMN CNRS UMR 8520 – Université Lille 1 (Fr))

Oxides and Conductors for Advanced Devices – 14:00 – 18:00 Co-Chair(s): O. van der Straten, C. S. Hwang, J. W. Elam and M. Popovici 14:00

14:40

15:00

1876

1877

1878

Thursday, October 31

15:20 15:40 1879 16:20

1880

17:00

1881

17:20

234

1882

Advanced Dielectrics Targeting 2X nm DRAM MIM Capacitors – Mihaela Popovici, Johan Swerts, Marc Aoulaiche, Augusto Redolfi, Ben Kaczer, Min-Soo Kim, Bastien Douhard, Annelies Delabie, Sergiu Clima, Malgorzata Jurczak, and S Van Elshocht (imec) ALD of SrTiO3 and Pt for Pt/SrTiO3/ Pt MIM structures: Growth and Crystallization study – Valentino Longo, Marcel Verheijen (Eindhoven University of Technology), F Roozeboom (Eindhoven University of Technology and TNO Eindhoven), and Erwin Kessels (Eindhoven University of Technology) Atomic Layer Deposition of Thin Oxide Films for Resistive Switching – Karol Frohlich Sr, Peter Jancovic, Boris Hudec, Jan Derer (Institute of Electrical Engineering, SAS), Albena Paskaleva (Instiute of Solid State Physics, BAS), Thomas Bertaud (IHP GmbH), and Thomas Schroeder (BTU, Konrad Zuse Strasse 1, 03046 Cottbus, Germany, IHP GmbH) Intermission ALD and Pulsed-CVD of Ru, RuO2, and SrRuO3 – Jeong Hwan Han and Cheol Seong Hwang (Seoul National University) Catalytic Surface Reactions during Nucleation and Growth of Atomic Layer Deposition of Noble Metals: a Case Study for Platinum – Adrie Mackus, Ageeth Bol, and Erwin Kessels (Eindhoven University of Technology) Conductivity Improvements of Atomic Layer Deposited Ta3N5 – Hendrik FW Dekkers, S Van Elshocht (imec), and Lucas Petersen Barbosa Lima (University of Campinas) Room Temperature Sensing of O2 and CO By ALD Prepared ZnO Films Coated With Pt Nanoparticles – Ivo Erkens (Eindhoven University of Technology), Michiel Blauw (Holst centre/IMEC), Marcel Verheijen, F Roozeboom, and Erwin Kessels (Eindhoven University of Technology)

17:40

E3

1883

X-ray Characterization of PEALD versus PVD Tantalum Nitride Barrier Deposition and the Impact on Via Contact Resistance – Xunyuan Zhang (GLOBALFOUNDRIES, Inc), O van der Straten (IBM Research), Tibor Bolom, Ming He (GLOBALFOUNDRIES, Inc), J Maniscalco (IBM Systems & Technology Group), and Daniel Edelstein (IBM Research)

GaN and SiC Power Technologies 3

Electronics and Photonics / Dielectric Science and Technology Continental 9, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Material Synthesis and Processing – 10:00 – 12:10 Co-Chair(s): Mietek Bakowski and N. Ohtani 10:00

1949

10:20

1950

10:40

1951

11:00

1952

11:20

1953

11:40

1954

12:00

E5

Elements of GaN-Based Integrated Power Electronics – Christian Wetzel (Rensselaer Polytechnic Institute) Materials Issues for Vertical Gallium Nitride Power Devices – Adrian D Williams and Theodore D Moustakas (Boston University) Electrochemical Hydrogenation of Dimensional Carbon – Kevin M Daniels, Shamaita Shetu, John Staser, John W Weidner, Christopher Williams, Tangali Sudarshan, and MVS Chandrashekhar (University of South Carolina) Abrasive-Free Polishing of SiC Wafer Utilizing Catalyst Surface Reaction – Yasuhisa Sano, Kenta Arima, and Kazuto Yamauchi (Graduate School of Engineering, Osaka University) Growth of GaN By MOCVD On Rare Earth Oxide On Si(111) – Erdem Arkun, Andrew Clark, Robin Smith, Rytis Dargis, Michael Lebby (Translucent Inc), Jeffrey M Leathersich, and F ShahedipourSandvik (College of Nanoscale Science and Engineering, State University of New York) MOCVD Growth of Inaln/GaN Heterostructures On Si Substrate for UV Photodiode Application – Tinh Binh Tran, Edward Yi Chang (National Chiao Tung University), Quan Hong Nguyen (National Chiao Tung University, National Chiao Tung University), Kartika Chandra Sahoo (Taiwan Semiconductor Manufacturing Company), Chung Chen Chen, Lang Chi Nguyen, Ho Quang Luc, and Binh Huy Do (National Chiao Tung University) Concluding Remarks

Nonvolatile Memories

Dielectric Science and Technology / Electronics and Photonics Golden Gate 1, Tower 3, Lobby Level, Hilton San Francisco Union Square

ReRAM 2 – 08:00 – 10:10 Co-Chair(s): Y. B. Kim, H. Akinaga, and Hisashi Shima 08:00

2009

Optimizing HfO2-Based Rram Through Modeling of the Operation Processes – Gennadi Bersuker (SEMATECH)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


2010

09:10

2011

09:30

2012

09:50

2013

Temperature Dependent Studies to Understand the Mechanism of Switching in Resistive Random Access Memory Devices – Branden Long, Wenbo Chen, Yibo Li, Saptarshi Mandal (University of Toledo), Gennadi Bersuker, David Gilmer (Sematech Incorporated), and Rashmi Jha (University of Toledo) Investigation of Thomson Effect in Cu/ TaOx/Pt Resistive Switching Memory – Tong Liu, Tanmay Potnis, Yuhong Kang, Sarah El-Helw, and Marius Orlowski (Department of Electrical and Computer Engineering, Virginia Polytechnic Institute and State University) First-Principles Study of Oxygen Vacancy and Hydrogen Impurity Effects in the Pseudo-Hexagonal Ta2O5 – J Y Kim (Stanford University, SK hynix), B Magyari-Kope, A Hazeghi (Stanford University), K J Lee, H S Kim, S H Lee (SK hynix), and Y Nishi (Stanford University) A CMOS Compatible, Forming Free TaOx Reram – Andrew J Lohn, James E Stevens, Patrick R Mickel, David R Hughart, and Matthew J Marinella (Sandia National Laboratories)

14:30

2019

14:50

2020

15:10

2021

PCRAM – 15:50 – 17:40 Co-Chair(s): A. Sebastian and Zia Karim 15:50

2022

16:20

2023

16:50

2024

17:20

2025

Flash Memories – 10:30 – 12:00 Co-Chair(s): Kiyoteru Kobayashi and Shoso Shingubara 10:30

11:00

11:20

11:40

2014

2015

2016

2017

Improved Operation Characteristics in Charge-Trapping Flash Memory Devices With Engineered Dielectric Stack, Sige and Junctionless Poly-Si Channels – Kuei-Shu Chang-Liao, Zong-Hao Ye, Li-Jung Liu, and Chun-Yuan Chen (National Tsing Hua University) Optimized Contact Engineering to Maximize Cell Current in NAND Flash Memory Technology – Joong Ho Yoon (Samsung Electronics Co LTD), Hong-Sig Kim (Samsung Electronics Co, Ltd.), Yung Sam Kim, Jun Kyoung Lee, Eui Sung Han, YeonUn Jeong, Young Ik Lee, Sung Jin Jang, Hyun Gil Kim, Sung Wook Park, Sae Hui Park (Samsung Electronics Co LTD), Hae-Bum Lee, Kyu-Pil Lee (Samsung Electronics Co, Ltd.), and In-soo Cho (Samsung Electronics Co LTD) CdSe Embedded Zrhfo Gate Dielectric Nonvolatile Memories – Charge Trapping and Breakdown Studies – Yue Kuo and Chi-Chou Lin (Texas A&M University) High-Performance Molecular FLASH Memory With Redox-Active Molecules – Qiliang Li (George Mason University)

STTMRAM 2 – 14:00 – 15:30 Co-Chair(s): K.-J. Lee and Yoshishige Suzuki 14:00

2018

Recent Developments in ST-Mram, Including Scaling – E J O’Sullivan, M J Gajek, J J Nowak, S L Brown, M C Gaidis, G Hu, J Z Sun, P L Trouilloud, D W Abraham, R P Robertazzi, W J Gallagher, and D C Worledge (IBM TJ Watson Research Center)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Voltage-Induced Nonvolatile Change of Magnetic Anisotropy of CoFeB Ultrathin Films Stacked With Multivalent Oxides – Jiro Koba and Koji Kita (Department of Materials Engineering, The University of Tokyo) Surface Roughness Effects of Pt SeedLayer Under Full-Heusler Co2feal/MgOBased Magnetic Tunnel Junctions On Perpendicular Magnetic Anisotropy – KyoSuk Chae (Hanyang University, Samsung Electronics Co, Ltd.), Du-Yeong Lee, MinSu Jeon, Seung-Eun Lee, Tae-Hun Shim, and Jea-Gun Park (Hanyang University) High Thermal Stability of Magnetic Tunnel Junctions With Perpendicular Magnetic Anisotropy Using a Co2feal Full-Heusler Alloy – Min-Su Jeon, DuYeong Lee, Seung-Eun Lee (Hanyang University), Yasutaka Takemura (SUMCO Corporation), Kyo-Suk Chae (Hanyang University, Samsung Electronics Co, Ltd.), Tae-Hun Shim, and Jea-Gun Park (Hanyang University)

F2

Phase Change Memory – The Interplay Between Thermal and Electrical Effects – Rakesh G D Jeyasingh, Scott W Fong, Jaeho Lee, Elah Bozorg-Grayeli, Chiyui Ahn, Mehdi Asheghi, Kenneth E Goodson, and H-S Philip Wong (Stanford University) Correlated Nano-Oxides for Electronic Phase Change Electronics – Hidekazu Tanaka (Institute of Scientific and Industrial Research, Osaka University) Entropy-Controlled Phase Change Memory With An Extraordinary Small Switching Energy – Junji Tominaga, Paul J Fons, Alexander V Kolobov (National Institute of Advanced Industrial Science and Technology (AIST)), and Shuichi Murakami (Tokyo Instutute of Technology) Special Electric Characteristics of Superlattice Phase Change Memory – Takasumi Ohyanagi, Masahito Kitamura, and Norikatsu Takaura (Low-power Electronics Association & Project)

Emerging Materials and Processes for Energy Conversion and Storage Electrodeposition / Battery Golden Gate 7, Tower 3, Lobby Level, Hilton San Francisco Union Square

Storage 2 - Water Splitting - Solar Cell - Silicon – 07:55 – 12:00 Co-Chair(s): Paul A. Kohl, Christopher Johnson, Krishnan Rajeshwar, Shirley Meng, Roya Maboudian, and Daniel Lincot 07:55

2284

Degradation Mechanism of Lithium-Ion Battery in Charge and Discharge Cycling Tests – Tetsutaro Hayashi, Mitsukuni Kondo, Eiji Toda, Ryuichi Kuzuo, Nobumitsu Oshimura, and Jiro Okada (Sumitomo Metal Mining Co, Ltd.)

235

Thursday, October 31

08:40


Thursday, October 31

08:15

Non-Line-of-Sight Deposition of Nanoscale Separator/Electrolytes for 3D All-Solid-State Batteries – Megan Bourg Sassin, Jeffrey W Long, and Debra R Rolison (US Naval Research Laboratory) 08:35 2286 Ultrafast Laser Spectroscopy of Electrode/ Electrolyte Interfaces – Jaroslaw Syzdek, Vassilia Zorba, Xianglei Mao, Richard Russo, and Robert Kostecki (Lawrence Berkeley National Laboratory) 2287 A Technical and Operational Perspective 08:55 On the DOE Energy Innovation Hub in Fuels From Sunlight, the Joint Center for Artificial Photosynthesis – Nathan S Lewis (Caltech) Break 09:40 10:00 2288 Photochemical Route for the Preparation of Complex Amorphous Water Oxidation Catalyst – Rodney D L Smith, Simon Trudel, and Curtis P Berlinguette (University of Calgary) 2289 Composition and Structure Control of 10:20 Copper Oxide (Cu2O and CuO) Nanowires Via Thermal Routes – Fei Wu Sr and Parag Banerjee Sr (Washington University in St Louis) 10:40 2290 Electrodeposition of High-Purity Continuous Indium Thin Films Towards Indium Phosphide Solar Cells – Peter Lobaccaro (University of California: Berkeley), Anahit Raygani (University of California: Berkeley, Politecnico di Milano), Andrea Oriani (Politecnico di Milano, University of California: Berkeley), Luca Magagnin (Politecnico di Milano), Ali Javey, and Roya Maboudian (University of California: Berkeley) 11:00 2291 Influence of Anodization Conditions On the Electronic Structure of TiO2 Nanotubes – Lok-kun Tsui (University of Virginia) and Giovanni Zangari (Materials Science and Engineering, University of Virginia) 11:20 2292 TiO2 As Electron-Extraction-Layer in Reverse Type P3HT/Icba Organic Solar Cells – Noya Loew, Shigehiro Komatsu, Hiroshi Akita (Tokyo Institute of Technology), Katsuya Funayama, Tetsuharu Yuge, Takashi Fujiwara (Mitsubishi Chemical Group Science and Technology Research Center, Inc), and Manabu Ihara (Tokyo Institute of Technology) 11:40 2293 Graphene Oxide and Carbon Nanotubes As Gelators for Gel Electrolytes – Jianyong Ouyang and Chin Yong Neo (National University of Singapore) 2285

Materials Tailoring and Molten Salts – 13:50 – 18:10 Co-Chair(s): Marie-Louise Saboungi, Jay A. Switzer, Turgut M. Gur, Stephen Maldonado, Ken-ichiro Ota, John Lewellen Stickney, R. Penner, and Daniel A. Scherson 13:50

236

2294

14:20

2295

14:40

2296

15:00 15:15 2297

15:35

2298

15:55

2299

16:15

2300

17:00

2301

17:20 18:00

Electrochemical Reduction Behavior of Granular SiO2 in Molten CaCl2 – Xiao Yang (Graduate School of Energy Science, Kyoto University), Kouji Yasuda (Graduate School of Energy Science, Kyoto University, Environment, Safety and Health Organization, Kyoto University), Toshiyuki Nohira, Rika Hagiwara (Graduate School of Energy Science, Kyoto University), Koki Ichitsubo, Kenta Masuda (R&D Center, Taiheiyo Cement Corporation), and Takayuki Homma (Faculty of Science and Engineering, Waseda University) Electrolyte-Electrode Interfacial Study for Si Electrodeposition in Ionic Liquid – Jason Komadina (UC Merced), Yoko Ishibashi, Yasuhiro Tsuyuki, Yinghe Zhang (Waseda University), Yasuhiro Fukunaka (Nanotechnology Research Center, Waseda University), Piero A Pianetta (SLAC National Accelerator Laboratory, USA), and Takayuki Homma (Faculty of Science and Engineering, Waseda University) Break Tuning Electrode Potential With Surface Chemistry – Jessy B Rivest, Guo Li (Lawrence Berkeley National Laboratory), Ian D Sharp (Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laboratory), Jeffrey B Neaton (Lawrence Berkeley National Laboratory), and Delia J Milliron (The Molecular Foundry, Lawrence Berkeley National Laboratory) One-Step Fabrication of Nano-Structured Solid Oxide Fuel Cells By Electrostatic Spray Deposition – J Robert Selman (IIT) Silver-Ceria Composites for Oxygen Separation From Air – Enrique Ruiz-Trejo, Paul Boldrin, Alexandra Lubin, Farid Tariq (Department of Earth Science and Engineering, Imperial College London), Nigel P Brandon (Department of Earth Science and Engineering, Imperial College London, South Kensington Campus), Alan Atkinson, Sarah Fearn, Richard Chater, Stuart Cook (Department of Materials, Imperial College London), Jawwad Darr, and Chris Tighe (Department of Chemistry, University College London) Nano Structuring for Efficient Energy Conversion – S F Bent, Turgut M Gur, and Fritz B Prinz (Stanford University) Dynamic Response Characteristics of Distribution Network Including Distributed Generators and Power System Stability – Yasuyuki Shirai (Kyoto University) Panel Discussion Concluding Remarks

Electrochemical Liquid-Liquid-Solid Crystal Growth of Semiconductors – Stephen Maldonado (University of Michigan)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Electrodeposition Union Square 11, Tower 3, 4th Floor, Hilton San Francisco Union Square

Thin Films – 08:00 – 12:00 Co-Chair(s): Massimo Innocenti and Roberto Felici 08:00

2350

08:20

2351

08:40

2352

09:20

2353

09:40

2354

10:00 10:20 2355

10:40

2356

11:20

2357

Effect of Cyanide Inhibition and Ultrasonic Waves On the Electrocrystallisation of Pure Au-Cu Alloys Prepared From An Alkaline Cyanide Bath – Ronan Botrel, Frédéric Durut, Etienne Brun, Cédric Chicanne, Vincent Brunet (Commissariat à l’Energie Atomique), and Vincent Vignal (CNRS) UPD Layer By Layer Growth of Semiconductor Thin Films On Ag Single Crystals: Effects of Substrate Orientation On Film Structure and Crystallinity – Francesco Carla’ (European Synchrotron Radiation Facility (ESRF)), Massimo Innocenti (Dipartimento di Chimica, Università di Firenze), Roberto Felici (European Synchrotron Radiation Facility (ESRF)), and Maria Luisa Foresti (Dipartimento di Chimica, Università di Firenze) A Spontaneous Morphology Change on the Surface of Electrodeposited Single-Crystal Copper Films during Room-Temperature Aging – Shohei Nakahara (Department of Physics and Energy, Materials & Surface Science Institute, University of Limerick, Ireland), Shafaat Ahmed (IBM, East Fishkill, New York, USA), and D Noel Buckley (Department of Physics and Energy, Materials & Surface Science Institute, University of Limerick, Ireland) Comparison of Structural Properties of Copper Deposits From Sulfate and Pyrophosphate Electrolytes – Burcu Arslan, Nilüfer Ülgüdür, Metehan Erdogan, Ipek Imamoglu, and Ishak Karakaya (Middle East Technical University) Electrochemically Induced Growth of Zinc Oxide On Microelectrodes – Derck Schlettwein, Martina Stumpp, and Christian Lupo (Justus-Liebig-University Giessen, Institute of Applied Physics) Intermission Adherent Electroless Copper Deposition Using Inexpensive Sn/Ag Catalyst On Non-Roughened Epoxy Laminate Substrates – Erdal Uzunlar, Zachary Wilson, and Paul A Kohl (Georgia Institute of Technology) In Situ Studies Of Electrochemical Growth At The ID03 Beamline Of The Esrf – Roberto Felici, Francesco Carla’ (European Synchrotron Radiation Facility (ESRF)), Jakub Drnec, and Olivier Balmes (European Synchrotron Radiation Facility) Influence of Electrodeposition Conditions On the Properties of Samaria Films – Ionut Enculescu, Elena Matei, Monica Enculescu, Camelia Florica, and Andrea Costas (National Institute of Materials Physics)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

11:40

2358

Design of Nanostructured ZnO Films By Electrochemical Deposition – Thierry Pauporté (CNRS)

Nanostructures – 14:00 – 16:40 Co-Chair(s): Nikolay Dimitrov, Natasa Vasiljevic, and Stanko Brankovic 14:00

2359

14:20

2360

14:40

2361

15:20 15:40 2362

16:00

2363

16:20

2364

Hierarchical Shape Evolution of Cuprous Oxide Nano and Micro-Crystals By Surfactant Assisted Electrochemical Deposition – Sanghwa Yoon (Hanyang University), Misung Kim (Electrochemistry Research Group, Materials Processing Division, Korea Institute of Materials Science, Changwon-si, Gyeongnam, 641831, Republic of Korea), Jae-Hong Lim (Korea Institutte of Materials Science), and Bongyoung Yoo (Hanyang University) Electrochemical Growth of Copper Nanowires Inside of Semiconducting TiO2 Nanotubes – Steven J Sitler and Krishnan S Raja (University of Idaho) Contactless Electrodeposition and Micropatterning Via Bipolar Electrochemical Printing – Trevor M Braun and D Schwartz (University of Washington) Break Electrochemical Deposition of Gold Nanoparticles On Rough TiO2 Surfaces – Yasuo Kimura, El Fassy Fihry Mehdi, Taka-aki Miya, Tsubasa Tobe, Ryota Kojima, and Michio Niwano (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University) Porous Silicon With Deposited Iron Oxide As Vehicle for Magnetically Guided Drug Delivery – Klemens Rumpf, Petra Granitzer (Karl Franzens University Graz), Yuan Tian, Giri Akkaraju, Jeffery Coffer (Texas Christian University Fort Worth), Peter Poelt (University of Technology Graz), and Michael Reissner (Vienna University of Technology) Electrodeposited Metal Nanotube/ Nanowire Arrays in Mesoporous Silicon and Their Morphology Dependent Magnetic Properties – Petra Granitzer, Klemens Rumpf (Karl Franzens University Graz), Toshiyuki Ohta, Nobuyoshi Koshida (Tokyo University of Agriculture and Technology), Peter Poelt (University of Technology Graz), and Herwig Michor (Vienna University of Technology)

237

Thursday, October 31

F4

Fundamentals of Electrochemical Growth– From UPD to Microstructures 3


09:20

894

09:40

895

Friday, November 1 B2

Battery Chemistries Beyond Lithium Ion Battery / Energy Technology Yosemite A, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Metal Air Batteries – 09:00 – 10:00 09:00

533

09:20

534

09:40

535

B8

All Solid State Tungsten-Air Battery: A New Metal-Air Chemistry – Xuan Zhao, Kevin Huang, Yunhui Gong, Nansheng Xu, and Xue Li (Department of Mechanical Engineering, University of South Carolina) Liquid Aluminum Air Battery Operated At High Temperature – Masato Ohashi (University of South Carolina) SECM Study of Optimization of the Electrochemical Reaction Mechanism At the Air Cathode for Zinc-Air Secondary Element – Alicia Lei Gui and Gunther Wittstock (Department of Chemistry,Center of Interface Science,Carl von Ossietzky University of Oldenburg)

10:00 10:20 896

10:40

897

11:00

898

11:20

899

11:40

900

Intercalation Compounds for Rechargable Batteries Battery / Industrial Electrochemistry and Electrochemical Engineering Imperial A, Tower 2, Ballroom Level, Hilton San Francisco Union Square

Graphite/Graphene and Techniques – 08:20 – 12:00 Co-Chair(s): Alexandre Ponrouch and Marie-Liesse Doublet 08:20

891

892

09:00

893

Friday, November 1

08:40

238

Challenges and Opportunities of DualGraphite Cells Based On Ionic Liquid Electrolytes – Sergej Rothermel, Guido Schmuelling, Olga Fromm, Paul Meister, Hinrich Wilhelm Meyer, Tobias Placke, and Martin Winter (MEET Battery Research Center, University of Muenster) Dual Graphite Cells Utilizing Anodes With Pre-Formed SEI – Hinrich Wilhelm Meyer, Sergej Rothermel, Tobias Placke, Paul Meister, Olga Fromm, and Martin Winter (MEET Battery Research Center, University of Muenster) Degradation Mechanism of Graphite Negative-Electrodes in LiPF6-Based Electrolyte At Higher Potential Region – Yasuhiro Domi (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Hiroe Nakagawa (Office of Society-Academia Collaboration for Innovation, Kyoto University, Office of Society-Academia Collaboration for Innovation, Kyoto University), Shigetaka Tsubouchi, Manabu Ochida, Takayuki Doi, Toshiro Yamanaka (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Takeshi Abe (Graduate School of Engineering, Kyoto University), and Zempachi Ogumi (Office of SocietyAcademia Collaboration for Innovation, Kyoto University)

How Do the Graphite Characteristics Influence the Anion Intercalation Into a Graphite-Based Cathode in Dual-Ion Cells? – Tobias Placke, Sergej Rothermel, Olga Fromm, Paul Meister, Jessica Huesker, Hinrich Wilhelm Meyer, and Martin Winter (MEET Battery Research Center, University of Muenster) Lithium Storage Mechanism of Reduced Graphene Oxides – Shin-Liang Kuo (Material and Chemical Research Laboratories, Industrial Technology Research Institute), Nae-Lih Wu (Department of Chemical Engineering, National Taiwan University), Hung-Chun Wu (Material and Chemical Research Laboratories, Industrial Technology Research Institute), and Wei-Ren Liu (Department of Chemical Engineering Chung Yuan Christian University, Chung Li) Break Electro-Optical in-Situ Measurements of Li-Intercalation in Graphite Anodes – Daniel Manka, Philipp Berg, André Weber, and Ellen Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT)) A New Room Temperature and Solvant FREE Carbon Coating Process – Alexandre Ponrouch (ICMAB-CSIC), Alejandro Goñi (ICMAB-CSIC, ICREA), and María Rosa Palacín (ICMAB-CSIC) In Situ Broadband Dielectric Spectroscopy of Electrodes for Lithium Batteries From Low Frequencies to Microwaves – Jean-Claude Badot (CNRS - Chimie ParisTech), Kalid Seid, Olivier Dubrunfaut (LGEP - SUPELEC), Stéphane Levasseur (UMICORE), Dominique Guyomard (Institut des matériaux Jean Rouxel (IMN) - CNRS - Nantes), and Bernard Lestriez (IMN - CNRS - Nantes) Application of the Methodology of Design Of Experiments to the Development of Li-Ion Battery Active Materials – Sebastien Martinet, Carole Bourbon, Mariana Amuntencei, David Peralta, Loic Simonin, Marlene Rey-Chapuis, and Sebastien Patoux (CEA-LITEN) Determination of Lithium Diffusion Coefficients in Commercial Electrodes By Impedance Modelling – Michael Weiss, Jörg Illig, Jan-Philipp Schmidt, Moses Ender, André Weber (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT)), and Ellen Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT), DFG Center for Functional Nanostructures (CFN), Karlsruhe Institute of Technology (KIT))

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


B10 Battery Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Lithium-Ion Batteries: Cells 6 - General – 10:00 – 11:40 10:00

1215

10:20

1216

10:40

1217

11:00

1218

11:20

1219

Lithium-Ion Batteries: Modeling 1 – 08:00 – 09:40 Co-Chair(s): Venkat Srinivasan and Ralph E. White 08:00

08:20

1210

1211

08:40

1212

09:00

1213

09:20

1214

Three Dimensional Thermal, Electrical and Electrochemical Modeling of Li-Ion Batteries – Sergiy Kalnaus, Srikanth Allu, Wael Elwasif, Srdjan Simunovic, Sreekanth Pannala, and John A Turner (Oak Ridge National Laboratory) Predicting and Extending the Lifetime of Li-Ion Cells – Chris Burns (Dalhousie University - Dept of Physics and Atmospheric Science), Adil Kassam (E-One Moli Energy), Nupur Nikkan Sinha (Dalhousie University - Dept of Physics and Atmospheric Science), Laura Downie (Dept of Physics and Atmospheric Science, Dalhousie University), Lucie Solnickova, Brian Way (E-One Moli Energy), and Jeff Dahn (Dept of Physics and Atmospheric Science, Dalhousie University) Three-Dimensional Multi-Physics Model for Li-Ion Battery – Meng Guo (ESim LLC) Life Modeling of Ncm Composite/Graphite Cell: A Semi-Empirical Approach – John Wang (HRL Laboratories LLC) Sensitivity Analysis of Material and Design Parameters On Performance of Lithium Ion Battery Using Electrochemical Modeling – Zhenli Zhang and Brian C Sisk (Johnson Controls Power Solutions)

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Continental 5, Tower 3, Ballroom Level, Hilton San Francisco Union Square Lithium-Ion Batteries: Modeling 2 – 10:00 – 12:00 Co-Chair(s): Shriram Santhanagopalan and Partha P. Mukherjee 10:00

1220

10:20

1221

10:40

1222

11:00

1223

Lithium-ion Batteries: Cells 5 - General – 08:00 – 09:40 08:00

1205

08:20

1206

08:40

1207

09:00

1208

09:20

1209

Heterogeneous Degradation of Mechanically Constrained Lithium-Ion Cells – John Cannarella and Craig B Arnold (Princeton University) Capacity Fading Mechanism and Side Reaction Research On Graphite/ LiNi05Mn15O4 Full Cell – Yanbao Fu, Xiangyun Song, Paul Ridgeway, Gao Liu, and Vince Battaglia (Lawrence Berkeley National Laboratory) Fingerprinting Electronic State Evolution During Battery Operations Through Soft x-Ray Spectroscopy – Wanli Yang, Gao Liu, Xiaosong Liu, and Ruimin Qiao (Lawrence Berkeley National Laboratory) Effect of VC in Graphite / NMC Cells: Coulombic Efficiency and Rate Performance – Rutooj D Deshpande (Lawrence Berkeley National Lab) and Vince Battaglia (Lawrence Berkeley National Laboratory) Investigation of Particle Size and Coating Thickness for Pulse Performance of Automotive Lithium Ion Batteries – Brian C Sisk and Zhenli Zhang (Johnson Controls Power Solutions)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Investigation of the µHz to Mhz Frequency Range of Commercial Lithium-Ion Cells – Jan Philipp Schmidt, André Weber, Ellen Ivers-Tiffée, and Jörg Illig (Institut für Werkstoffe der Elektrotechnik (IWE), Karlsruhe Institute of Technology (KIT)) A Layered Carbon Nanotube Architecture for High Power Lithium Ion Batteries – Ankita Shah, Mehmet Nurullah Ates, Sharon Kotz, KM Abraham, Sivasubramanian Somu, and Ahmed A Busnaina (Northeastern University) Diagnostics of Li-Ion Commercial Cells – Experimental Case Studies – Matthieu Dubarry, Arnaud Devie, and Bor Yann Liaw (University of Hawaii at Manoa) Evaluation of High C Rate Cycle Induced Aging On Low Impedance Lithium-Ion Batteries Using In Situ Electrochemical Impedance Spectroscopy (EIS) Analysis – Biju Shrestha, David Wetz Jr, and Peter Novak (The University of Texas at Arlington) Integrated Carbon-Reduced Battery Chemistries for Safer Alternative Li-Ion Cells – Mason Harrup (INL), Eric J Dufek, and Kevin L Gering (Idaho National Laboratory)

Lithium-Ion Batteries – Extended Analysis of Parameter Change and Development of a New Battery Model – Noshin Omar, Mohamed Abdel Monem, Yousef Firouz, Ahmadou Samba, Jelle Smekens (Vrije Universiteit Brussel), Hamid Gualous (Université de Caen Basse Normandie), Peter Van den Bossche, and Joeri Van Mierlo (Vrije Universiteit Brussel) 3D-New Lithium Battery Technology Platform – Jan Prochazka (HE3DA sro) Modeling and Characterization of Different Types of Lithium-Ion Batteries Under Various Conditions – Yousef Firouz, Noshin Omar, Mohamed Abdel Monem, Ahmadou Samba, Jelle Smekens (Vrije Universiteit Brussel), Hamid Gualous (Université de Caen Basse Normandie), Peter Van den Bossche, and Joeri Van Mierlo (Vrije Universiteit Brussel) Multi-Scale Simulation of Thermo/ Electrochemical Mechanism in Li-Ion Cells at Elevated Temperature – Nanako Tanaka, Philipp Bartsch, Christian Hellwig (Institute of Technical Thermodynamics, German Aerospace Center (DLR)), Arnulf Latz (Helmholtz Institute for Electrochemical Energy Storage Ulm, Germany, Institute of Technical Thermodynamics, German Aerospace Center (DLR), Stuttgart, Germany), and Wolfgang G Bessler (Offenburg University of Applied Sciences) 239

Friday, November 1

Lithium-Ion Batteries


11:20

1224

11:40

1225

Thermal and Electrical Optimization Design of Pouch Battery Cell Based On Advanced Simulation Tool – Ahmadou Samba (Vrije Universiteit Brussel, Université de Caen Basse Normandie), Noshin Omar (Vrije Universiteit Brussel), Hamid Gualous (Université de Caen Basse Normandie), Odile Capron, Yousef Firouz, Mohamed Abdel Monem, Jelle Smekens, Peter Van den Bossche, and Joeri Van Mierlo (Vrije Universiteit Brussel) Construction of a General POD Basisfor Faster Li-Ion Cell Simulations – Jelena Rubesa and Bettina Suhr (Virtual Vehicle Research Center)

Lithium-Ion Batteries: Modeling 3 – 14:00 – 15:40 Co-Chair(s): Dennis W. Dees and Venkat Srinivasan 14:00

1226

14:20

1227

14:40

15:00

15:20

1228

1229

1230

Modeling of Lithium-Ion Batteries Employing Monte Carlo and Mesoscale Simulation – Pallavi Kar and Harinipriya Seshadri (Indian Institute of Technology, Jodhpur) Stochastic Extension of a ThermalElectrochemical Lithium-Ion Battery Model – Julian Mehne and Wolfgang Nowak (Institute for Modelling Hydraulic and Environmental Systems / LH2, University of Stuttgart, Germany) Lattice Boltzmann Simulation of Tortuous Flow Within Stochastic Porous Media and the Examination of the Tortuosity-Porosity Relationship – Ali Ebrahimi (University of Toronto) and Aimy Bazylak (Thermofluids for Energy & Advanced Materials Lab, University of Toronto) Understanding the Effect of Temperature Gradients in Modules On Cell Balance Using Coupled Multi-Physics Modeling approach – Sreekanth Pannala, Srikanth Allu, Wael Elwasif, Sergiy Kalnaus, Srdjan Simunovic, and John A Turner (Oak Ridge National Laboratory) An Electrochemical Model Considering the Electric Double Layer of Nano-Size Materials for Lithium Ion Battery – Ming Jia, Yun Cheng, Shuanglong Du, Yiwei Tang, and Jie Li (School of Metallurgy and Environment, Central South University)

Continental 6, Tower 3, Ballroom Level, Hilton San Francisco Union Square

Friday, November 1

Lithium-Ion Batteries: Cells 7 - Thin Film Cells and Advanced Chemistries – 14:00 – 16:20 Co-Chair(s): Nancy J. Dudney and Marca Doeff 14:00

1231

14:20

1232

240

Preparation and Characterization of the Sulfur-Carbon Nano-Composite Material for Li/S Battery – Yan Yuan (Central South University) Investigation of NaxFexTi1-XO2 (10 ≥ x ≥ 075) for Na-Ion Battery Positive Electrodes – John Thorne, Saptarshi Chowdhury (Dalhousie University), Richard Dunlap (Dalhousie University, Dept of Physics and Atmospheric Science), and Mark Obrovac (Dalhousie University)

14:40

1233

15:00

1234

15:20

1235

15:40

1236

16:00

1237

Electropolymerized Solid Polymer Electrolytes for Three-Dimensional Microbatteries – Bing Sun, David Rehnlund, Habtom Desta Asfaw, Leif Nyholm (Department of ChemistryÅngström Laboratory, Uppsala University), Kristina Edström (Department of Chemistry - Ångström Laboratory, Uppsala University), and Daniel Brandell (Department of Chemistry-Ångström Laboratory, Uppsala University) X-Ray Absorption Spectroscopy of Lithium-Sulfur Battery Discharge/Charge Reaction Intermediates – Kevin Wujcik (University of California, Berkeley) and Nitash P Balsara (Lawrence Berkeley National Lab) Improvement of Discharge Properties of Thin-Film Lithium Rechargeable Battery With Thicker Cathode Film for Higher Capacity – Takehito Jimbo, Shunsuke Sasaki, Akiyoshi Suzuki, Isao Kimura, and Koukou Suu (ULVAC, Inc, Institute of Semiconductor and Electronics Technologies) Fabrication of 3D Electrodes for All-Solid State Lithium Thin Film Batteries – Yanhua Cui (China Academy of Engineering Physics), Jian Liu, Xifei Li (The University of Western Ontario), Yafeng Deng, Zhigui Shi, Xiaojiang Liu (China Academy of Engineering Physics), Ruying Li, and Xueliang Andy Sun (The University of Western Ontario) Dynamics of Al Anode Degradation in Thin-Film Solid-State Batteries – Marina Leite, Dmitry Ruzmetov, Zhipeng Li, Leonid Bendersky (NIST), Norman Bartelt, and Albert Alec Talin (Sandia National Laboratories)

Polymer Electrolyte Fuel Cells 13

Industrial Electrochemistry and Electrochemical Engineering / B11 Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Continental 1, Tower 3, Ballroom Level, Hilton San Francisco Union Square

A-41 Gas Transport – 08:00 – 10:00 Co-Chair(s): Shinichi Hirano and Koichiro Asazawa 08:00

1621

08:20

1622

Characterization and Modeling of Mass Transport in Gas Diffusion Layer and Catalyst Layer of PEM Fuel Cells – Joerg Kleemann (Daimler AG) In Situ Measurement of Oxygen Partial Pressure in the Cathode Flow Field With Hydrophilic Surface – Shinichi Hirano, Michael Potocki, George Saloka (Ford Motor Company), Steve Palluconi, and James Crafton (Innovative Scientific Solutions, Inc)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


09:00

1623

1624

09:20

1625

09:40

1626

Water Vapor Exchange Flow Channels to Enhance the Performance of Polymer Electrolyte Fuel Cells Without Cathode Humidification – Hironori Nakajima, Tatsumi Kitahara (Department of Mechanical Engineering, Faculty of Engineering, Kyushu University, International Institute for CarbonNeutral Energy Research (I2CNER), Kyushu University), and Kazuto Tsuda (Department of Hydrogen Energy Systems, Graduate School of Engineering, Kyushu University) Visualization of O2 Partial Pressures in Running PEFC With Straight Channels – Katsuya Nagase (University of Yamanashi, TAKAHATA PRECISION JAPAN CO, LTD), Makoto Uchida, Junji Inukai (Fuel Cell Nanomaterials Center, University of Yamanashi), Yuzo Nagumo (Shimazu Co Ltd.), Haruki Motegi, Masakazu Yoneda (Mizuho Information & Research Institute, Inc), Takeo Suga, Hiroyuki Nishide (Waseda University), and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Simultaneous Visualization of Oxygen Partial Pressure and Current Density in Running PEFC – Kazuhiro Takanohashi (University of Yamanashi), Junji Inukai, Makoto Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), Yuzo Nagumo (Shimazu Co Ltd.), Takeo Suga (Waseda University, Waseda University), Hiroyuki Nishide (Waseda University), and Masahiro Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Effect of Fuel Permeability On MEA Performances Using Quaternized Multiblock Copolymers – Koichiro Asazawa, Eriko Nishino (Daihatsu Motor Co, Ltd.), Junpei Miyake, Makoto Uchida, Kenji Miyateke, and Masahiro Watanabe (University of Yamanashi)

09:00

1630

09:20

1631

09:40 10:00 1632

10:20

1633

10:40

1634

11:00

1635

11:20

1636

Continental 2, Tower 3, Ballroom Level, Hilton San Francisco Union Square D-411 Corrosion Resistant Cathodes and CO-Tolerant Anodes – 08:00 – 11:40 Co-Chair(s): Ernesto Rafael Gonzalez and Kazunari Sasaki 08:00

08:20

08:40

1627

1628

1629

Oriented Electrode Based On TiO2 nanotube Arrays – Hongmei Yu (Dalian Institute of Chemical Physics, Chinese Academy of Sciences) and Changkun Zhang (Dalian Institute ofChemical Physics, Chinese Academy of Sciences) Composite Carbon Nanotube and Titania Catalyst Supports for Enhanced Activity and Durability – William A Rigdon, Diana Larrabee, and Xinyu Huang (University of South Carolina) Ta Modified TiO2 Supports Exhibit Exceptional Durability in Polymer Electrolyte Fuel Cells – Amod Kumar and Vijay K Ramani (Illinois Institute of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Iridium-Titanium Oxide as Support for Pt Catalyst in PEFC Cathodes – Tobias Binninger, Emiliana Fabbri, Ruediger Koetz (Paul Scherrer Institut), and Thomas J Schmidt (Electrochemistry Laboratory, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland) Alternative Oxide-Supported Electrocatalysts for PEFCs – Kazunari Sasaki (International Institute for CarbonNeutral Energy Research (WPI-I2CNER), Kyushu University, Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University), Yuma Takabatake, Kohei Kanda (Department of Hydrogen Energy Systems, Kyushu University), Takuya Tsukatsune (Department of Hydrogen Energy System, Kyushu University), Takahiro Higashi, Fumiaki Takasaki (Department of Hydrogen Energy Systems, Kyushu University), Zhiyun Noda, and Akari Hayashi (International Research Center for Hydrogen Energy, Kyushu University) Intermission Highly Durable Metal-Oxides As An Alternative Catalyst Supports for PEM Fuel Cells – Didem Cilingir Dogan (Fuel Cell Research Center, Korea Institute of Energy Research, University of Science and Technology), Sun-Mi Hwang, YoungJun Sohn, Tae-Hyun Yang (Fuel Cell Research Center, Korea Institute of Energy Research), and Gu-Gon Park (Fuel Cell Research Center, Korea Institute of Energy Research, University of Science and Technology) Exploring the Activity and Stability Limits for Pt/ITO ORR Electrocatalysts – William E Mustain (Department of Chemical and Biomolecular Engineering at the University of Connecticut) and Ying Liu (University of Connecticut, Department of Chemical and Biomolecular Engineering) Performance and Durability of Titanium Nitride-Supported Platinum Catalysts for Polymer Electrolyte Fuel Cells – Haruhiko Shintani (Panasonic corporation, Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Katsuyoshi Kakinuma, Makoto Uchida, Hiroyuki Uchida (University of Yamanashi), Yoichiro Tsuji (Panasonic corporation), and Masahiro Watanabe (University of Yamanashi) Chaos During H2/CO Electroxidation: Trends and Usefulness – Andressa Mota, Thairo A Rocha, and Ernesto Rafael Gonzalez (Instituto de Quimica de Sao Carlos, USP) Reformate Hydrogen Fuel in PEM Fuel Cells: the Effect of Alkene Impurities on Anode Activity – Katrin Kortsdottir, Francisco J Perez Ferriz, Carina Lagergren, and Rakel Wreland Lindström (KTH Applied Electrochemistry)

241

Friday, November 1

08:40


Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square

11:20

1646

11:40

1647

D-412 Non-precious Metal Catalysts 3 – 08:00 – 11:40 Co-Chair(s): Plamen Atanassov and Scott Calabrese Barton 08:00

08:20

08:40

09:00

1637

1638

1639

1640

09:20 09:40 1641

10:00

1642

10:20

1643

1644

11:00

1645

Friday, November 1

10:40

242

A Perspective of TM-Nx (TM=Fe, Co, and x=2, 4) Non-PGM Electrocatalysts From First-Principles Calculations – Boris Kiefer (New Mexico State University), Stephen J Paddison (University of Tennessee), and Plamen Atanassov (University of New Mexico) Role of Transition Metal in Non-Noble Metal Electro-Catalysts in Proton Exchange Membrane (PEM) Fuel Cells – Deepika Singh, Juan Tian, Kuldeep Mamtani, and Umit S Ozkan (The Ohio State University) Mechanistic Studies On Fe-PEI Derived Non-PGM Catalysts for Oxygen Reduction – Urszula Tylus (Northeastern University), Alexey Serov, Kateryna Artyushkova (University of New Mexico), Sanjeev Mukerjee (Northeastern University), and Plamen Atanassov (University of New Mexico) Modeling Non-Precious Metal Catalyst Structures and Their Relationship to ORR Activity – Edward F Holby, Gang Wu, Piotr Zelenay, and C D Taylor (Los Alamos National Laboratory) Intermission Structure-to-Property Relationships in Non-Platinum Group Fuel Cell Catalysts: Examination of Length Scale Correlations – Michael J Workman, Alexey Serov, Mario Santiago Rojas Carbonell, Plamen Atanassov, and Kateryna Artyushkova (University of New Mexico) Scale-Up of Metal-Nitrogen-Carbon Electrocatalyst Synthesis By High-Pressure Pyrolysis – Selvarani Ganesan, Nathaniel Leonard, and Scott Calabrese Barton (Michigan State University) Scale Up of Non-PGM ORR Catalysts – Barr Halevi, Paul Short (Pajarito Powder), Alexey Serov, Plamen Atanassov (University of New Mexico), Selvarani Ganesan (Michigan State University), Sanjeev Mukerjee (Northeastern University), and Scott Calabrese Barton (Michigan State University) Novel Non-Platinum Group Metal Cathode Catalyst for Fuel Cell Electric Vehicle Application – Alexey Serov, Kateryna Artyushkova, Plamen Atanassov (University of New Mexico), Ellazar Niangar, Chunmei Wang, and Nilesh Dale (Nissan Technical Center North America) Effect of High-Voltage Cycling On NonPrecious Metal Catalysts for the ORR – Frederic Jaouen, Vincent Goellner (ICGM UMR 5253), and Deborah J Jones (University Montpellier 2)

Corrugated Pore Model for Design of Non-Precious Oxygen Reduction Cathodes – Nathaniel Leonard, Scott Calabrese Barton (Michigan State University), Alexey Serov, Plamen Atanassov (University of New Mexico), and Sanjeev Mukerjee (Northeastern University) Structure and Reactivity of Fe-N-C NonPGM Cathode CatalystsDerived by the Sacrificial Support Method – Plamen Atanassov, Alexey Serov, Kateryna Artyushkova (University of New Mexico), Boris Kiefer (New Mexico State University), and Sanjeev Mukherjee (Northeastern University)

Continental 7, Tower 3, Ballroom Level, Hilton San Francisco Union Square E-41 Alkaline and Direct Oxidation Fuel Cells General Session – 08:00 – 12:00 Co-Chair(s): Ernesto Rafael Gonzalez and Claude Lamy 08:00

1648

08:40

1649

09:00

1650

09:20

1651

09:40 10:00 1652

Alkaline Membrane Fuel CellsTechnology Challenges and Approaches to Their Resolution – Shimshon Gottesfeld (Cellera Technologies) Enhanced Efficiency With Autonomous Oscillations: Challenges for Dafc – Andressa Mota and Ernesto Rafael Gonzalez (Instituto de Quimica de Sao Carlos, USP) Effect of the Membrane Thickness on the Over-Potential Behavior of the Direct Formic Acid Fuel Cell – Takuya Tsujiguchi (Department of Chemical and Environmental Engineering, Graduate School of Engineering, Gunma University, (present affiliation) School of Mechanical Engineering, College of Science and Engineering, Kanazawa University), Takanori Iwakami, and Nobuyoshi Nakagawa (Department of Chemical and Environmental Engineering, Graduate School of Engineering, Gunma University) The Promotion Effect of An Oxide Phase On Pd Electrocatalysts for the Oxidation of Ethanol: in Situ irras Studies in An Alkaline Environment – Ulises Martinez, Alexey Serov, Monica Padilla, and Plamen Atanassov (University of New Mexico) Intermission In Situ Degradation Measurements of a DMFC By a Dynamic Hydrogen Reference Electrode – Nadia Aoun, Ulrich Kunz, and Thomas Turek (Institute of Chemical Process Engineering, Clausthal University of Technology)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


10:20

1653

10:40

1654

11:00

1655

11:20

11:40

E2

1656

1657

Nickel-Cerium Alloys for Borohydride Oxidation – Diogo MF Santos, Biljana Sljukic (Materials Electrochemistry Group, Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, TU Lisbon), Daniele Macciò, Adriana Saccone (Università degli Studi di Genova, Dipartimento di Chimica e Chimica Industriale (DCCI), via Dodecaneso 31, I-16146 Genova, Italy), Cesar Sequeira, and Luis Amaral (Materials Electrochemistry Group, Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, TU Lisbon) Progress in The Development of Alkaline Membrane Fuel Cells and Regenerative Fuel Cells – Keith Scott, Xu Wu (Newcastle University), Mohamed Mamlouk, and Richard Espiritu (newcastle university) The Electrocatalytic Oxidation of Ethanol in a Proton Exchange Membrane Electrolysis Cell (PEMEC): A Way to Produce Clean Hydrogen for PEFC – Claude Lamy (Institut Européen des Membranes, PACS, CNRS GDR n°3339), Stève Baranton, and Christophe Coutanceau (Université de Poitiers, IC2MP, UMR CNRS 7285) Synthesis of Cobalt Nanoparticle Embedded Carbon Nanofiber Catalysts With High Oxygen Reduction Reaction Activity – MinJoong Kim, DoHwan Nam (Korea Advanced Institute of Science and Technology), HeeYoung Park (Korea Institute of Science and Technology), KwangSup Eom (Georgia Institute of Technology), EunAe Cho, ChoRong Kwon, Sung Jong Yoo (Korea Institute of Science and Technology), and HyukSang Kwon (Korea Advanced Institute of Science and Technology) Palladium Alloy Catalysts Synthesized By Sacrificial Support Method for the Electrooxidation of Ethylene Glycol in Alkaline Environment – Carsten Cremers (Fraunhofer Institute for Chemical Technology ICT), Domnik Bayer (Fraunhofer Institute for Chemical Technology ICT, BASF SE, GCN/EP), Florina Jung, Tilman Jurzinsky (Fraunhofer Institute for Chemical Technology ICT), Alexey Serov, Plamen Atanassov (University of New Mexico), Karsten Pinkwart, and Jens Tübke (Fraunhofer Institute for Chemical Technology ICT)

08:20

1885

09:00

1886

09:40

Molecular Layer Deposition of Polymeric Films – David C Cameron and Tatyana V Ivanova (Lappeenranta University of Technology) Atomic Layer Deposition Diffusion Barriers for Silver Art and Cultural Heritage Objects – Amy Marquardt, E M Breitung, T DraymanWeisser, G Gates, G W Rubloff, and Ray J Phaneuf (University of Maryland) Intermission

III-V and Silicon MOS – 10:00 – 12:05 Co-Chair(s): A. Londergan and O. van der Straten 10:00

1887

10:40

1888

11:00

1889

11:20

1890

11:40

1891

12:00

Plasma-Enhanced Atomic Layer Deposition of III-Nitride Thin Films – Cagla OzgitAkgun, Inci Donmez, and Necmi Biyikli (Bilkent University) A Comprehensive Study of Thermal Stability on Microstructure and Residual Stress for ALD HfZrO2 Dielectric Films at 28nm HKMG CMOS Applications – ChenKuo Chiang (United Microelectronics Corporation) Ultrathin SiO2 Films Grown by Atomic Layer Deposition Using Tris(dimethylamino) silane (TDMAS) and Ozone – Lei Han (University of Kentucky) and Zhi David Chen (University of Electronic Science & Technology of China, University of Kentucky) Application of Atomic Layer Deposition Tungsten (ALD W) as gate filling metal for 22 nm and beyond nodes CMOS technology – Guilei Wang, Qiang Xu (Key Laboratory of Microelectronics Devices & Integrated Technology, Institute of Microelectronics of Chinese Academy of Sciences), Tao Yang, Jun Luo, Jinjuan Xiang, Jing Xu (Institute of Microelectronics of Chinese Academy of Sciences), Gaobo Xu (Key Laboratory of Microelectronics Devices & Integrated Technology, Institute of Microelectronics of Chinese Academy of Sciences), Chunlong Li, Junfeng Li, Jiang Yan, Chao Zhao, Dapeng Chen, and Tianchun Ye (Institute of Microelectronics of Chinese Academy of Sciences) Self-Cleaning and Electrical Characteristics of ZrO2 (HfO2)/GaAs MOS Capacitor Fabricated by Atomic Layer Deposition – Aswini K Pradhan and Curtis White (Norfolk State University) Concluding Remarks

Atomic Layer Deposition Applications 9

Dielectric Science and Technology / Electronics and Photonics Continental 8, Tower 3, Ballroom Level, Hilton San Francisco Union Square

08:00

1884

Friday, November 1

Materials Diversification – 08:00 – 10:00 Co-Chair(s): F. Roozeboom and Stefan De Gendt Tetragonal Zirconia Stabilization by Metal Addition for MIM Capacitor Applications – Julien Ferrand (STMicroelectronics, SIMaP), Virginie Beugin (STMicroelectronics), Alexandre Crisci, Stéphane Coindeau (SIMaP), Simon Jeannot, Mickael Gros-Jean (STMicroelectronics), and Elisabeth Blanquet (SIMaP)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

243


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

A

Aguilar-Frutis, Miguel....................2744 (J3, Tue) Ahlf, Mareike................................ 2537 (I3, Mon) Ahlfield, John...............................1315 (B11, Tue) Ahmed, Bilal...................................800 (B7, Wed) Ahmed, Imtiaz...............................1850 (E1, Wed) Ahmed, Shafaat.....2352 (F4, Thu), 2655 (J1, Tue) Ahmed, Shamim...........................1945 (E3, Wed) Ahmed, Taha................................... 2563 (I3, Tue) Ahmed, Taufiq................................. 105 (A1, Tue) Ahn, Chisung............................... 2209 (E11, Tue) Ahn, Chiyui....................................2022 (E5, Thu) Ahn, Dahee....................................... 41 (A1, Tue) Ahn, Eunsaem.................................497 (B2, Wed) Ahn, Hosang.................................. 159 (A2, Tue), ...............................2826 (J6, Tue), 2840 (J6, Tue) Ahn, Hyeong-Gi........................... 964 (B10, Mon) Ahn, Jou-Hyeon..............................501 (B2, Wed) Ahn, Seongki..................................670 (B5, Wed) Ahn, SooHoon................................554 (B3, Wed) Aizawa, Masato...............................709 (B6, Tue), ....................................................1487 (B11, Wed) Akay, Sevda.................................... 519 (B2, Thu) Akbulut, Serkan........ 257 (B1, Mon), 678 (B5, Thu) Åkerlund, Hans-Erik......................2527 (I2, Wed) Akimoto, Wataru.............................741 (B6, Wed) Akinaga, H....................................1991 (E5, Wed) Akinwande, Deji........................ 2145 (E10, Mon) Akita, Hiroshi.................................2292 (F2, Thu) Akkaraju, Giri................................2363 (F4, Thu) Aklalouch, Mohamed......................474 (B2, Wed) Akolkar, Rohan.............................2076 (E7, Tue), ............................2077 (E7, Tue), 2346 (F4, Wed) Aktas, Ozgur.................................1932 (E3, Wed) Akyildiz, Oncu................................575 (B4, Wed) Al-Fetlawi, Hassan..........................299 (B1, Wed) Al-Kharafi, Faizah........................ 1835 (D5, Wed) Al-Maghrabi, Mahdi....................1056 (B10, Tue) Al-Musa, Abdullah..........................794 (B7, Wed) Al-Saleh, Mohammed.....................794 (B7, Wed) Al-Shamery, Katharina................. 2537 (I3, Mon) Al-Shehri, Riyadh...........................794 (B7, Wed) Alam, Md......................................1850 (E1, Wed) Alamgir, Faisal...............................551 (B3, Wed), ...............................779 (B7, Tue), 2392 (F5, Tue) Alapatt, Githin...............................1937 (E3, Wed) Alarcón-Flores, Gilberto.................2744 (J3, Tue) Albertsson, Per-Åke.......................2527 (I2, Wed) Albrecht, Daniel..........................1146 (B10, Wed) Albu, Calin................................... 1837 (D5, Wed) Alegre, Marcela............................ 2427 (G2, Wed) Alexander, Brentan........................ 344 (B1, Thu), ........................................................ 345 (B1, Thu) Alexander, Sarah............................. 2551 (I3, Tue) Alexandru, Mihaela.......................1944 (E3, Wed) Alexeev, Alex..................................2825 (J6, Tue) Alexeyeva, Nadezda....................... 2473 (I1, Tue) Alfantazi, Akram..............................292 (B1, Tue) Alia, Shaun.......... 1245 (B11, Sun), 1308 (B11, Tue) Alias, Mélanie.................................539 (B3, Wed) Alink, Robert............................... 1544 (B11, Thu) Alivisatos, A. Paul........................ 2276 (F2, Wed) Alkan Gursel, Selmiye................1393 (B11, Wed) Allagui, Anis...................................2704 (J2, Tue) Allcorn, Eric.................................1013 (B10, Tue) Allen, Jan.......................................437 (B2, Wed), ........................... 834 (B8, Wed), 1183 (B10, Thu) Allen, Joshua............................... 1165 (B10, Thu) Allen, Peter.....................................2729 (J3, Tue) Allendorf, Mark.............................2030 (E6, Tue) Allmendinger, Klaus.......................2696 (J2, Tue) Allu, Srikanth..................................572 (B4, Tue), ........................... 1210 (B10, Fri), 1229 (B10, Fri) Alluqmani, Fatimah........................2732 (J3, Tue) Almarzooqi, Ahmed..................... 1836 (D5, Wed) Almeida, Dalva...............................653 (B5, Wed)

Almeida, Thiago............................ 229 (A3, Tue), .....................................................1363 (B11, Tue) Almer, Jon........................................393 (B2, Tue) Alonso-Mori, Roberto....................2572 (I3, Wed) Alpuche-Aviles, Mario.................. 179 (A2, Wed), ........................... 2456 (I1, Mon), 2577 (I3, Wed), .............................2585 (I3, Wed), 2598 (I3, Wed) Alsabet, Mohammad.................... 1703 (D1, Wed) Altantzis, Thomas.......................... 2333 (F4, Tue) Althues, Holger.............................. 358 (B2, Mon) Alva, Gabriela................................993 (B10, Tue) Alvarez, Brian...............................1932 (E3, Wed) Alves, Suellen.............................. 2427 (G2, Wed) Amaral, Luis...................................749 (B6, Wed) Amatucci, Glenn............................ 875 (B8, Thu), .......................... 933 (B9, Wed), 1155 (B10, Wed) Ambrogio, Stefano.......................2157 (E10, Tue) Amendola, Roberta........................750 (B6, Wed), ........................................................781 (B7, Wed) Amezawa, Koji................................. 65 (A1, Tue) Amin, Ruhul.................................... 106 (A1, Tue) Amin, Ruhul................................... 260 (B1, Mon) Amin, Ruhul....................................865 (B8, Wed) Amine, Khalil......... 275 (B1, Tue), 506 (B2, Wed) Amine, Khalil..................................542 (B3, Wed) Amine, Khalil....... 424 (B2, Wed), 452 (B2, Wed), ........................... 520 (B2, Thu), 1157 (B10, Wed) Amuntencei, Mariana........................ 899 (B8, Fri) An, Jae Youn...................................328 (B1, Wed) An, Jihwan.............313 (B1, Wed), 342 (B1, Thu) An, Jinho........................................2073 (E7, Tue) An, Maozhong................................ 2262 (F2, Tue) An, Miri......................................... 202 (A2, Wed) An, Seong Jin..............................1414 (B11, Wed) An, Woo-Jin....................................728 (B6, Wed) Anawati, Anawati.......................... 1843 (D6, Tue) Anc, Maria.........2309 (F3, Mon), 2707 (J3, Mon) Ancona, Mario........1912 (E3, Tue), 1930 (E3, Wed) Andersen, Charles..........................430 (B2, Wed), .....................................................1670 (B12, Tue) Andersen, Karsten...........................2768 (J4, Tue) Andersen, Nalin...........................2435 (H1, Mon) Anderson, Alfred..............................695 (B6, Tue) Anderson, Iver.............................1159 (B10, Wed) Anderson, Marc............................. 236 (A3, Wed), .............................. 238 (A3, Wed), 387 (B2, Tue), ............................683 (B5, Thu), 1707 (D1, Wed), ........................................................2692 (J2, Tue) Anderson, Travis...........................1920 (E3, Tue), ..........................1930 (E3, Wed), 2206 (E11, Tue) Andersson, Anna..........................1030 (B10, Tue) Andreasen, Sune.............................2768 (J4, Tue) Andreazza, Pascal........................... 149 (A2, Tue) Andreazza-Vignolle, Caroline......... 149 (A2, Tue) Andreev, Yuri..............................1158 (B10, Wed) Andrews, Evan............................... 691 (B6, Mon) Andrews, Joy........814 (B8, Tue), 972 (B10, Mon) Ang, How....................................... 210 (A2, Wed) Ang, Simon.........1925 (E3, Tue), 1945 (E3, Wed) Angel, Jeremy............................. 1747 (D2, Wed), ........................... 1757 (D2, Thu), 1760 (D2, Thu) Angelo, Michael..........................1330 (B11, Tue), ....................................................1376 (B11, Wed) Angyal, Matthew.........................2239 (E12, Wed) Anh, Le.......................................2243 (E12, Wed) Anheier, Norm.............................. 2758 (J4, Mon) Anouti, Méričm........................... 1185 (B10, Thu) Antloga, Mirko.................................623 (B5, Tue) Antonucci, Vincenzo......................301 (B1, Wed), .............................. 667 (B5, Wed), 731 (B6, Wed) Aoki, Atsushi.................................2529 (I2, Wed) Aoki, Katsuaki..............................1851 (E1, Wed) Aoki, Nana....................................... 30 (A1, Tue), ................................. 44 (A1, Tue), 2623 (I5, Tue) Aoki, Naoya...............................1404 (B11, Wed), ....................................................1522 (B11, Wed)

Aaron, Douglas............................1667 (B12, Tue) Abadier, M................................... 1907 (E3, Mon) Abarzua, Andres........................... 1721 (D1, Wed) Abbas, Syed.................................... 2620 (I5, Tue) Abbott, William............................ 1747 (D2, Wed) Abbou, Sofyane........................... 1583 (B11, Thu) Abdel Monem, Mohamed........... 1169 (B10, Thu) ..................................................... 1220 (B10, Fri), ........................... 1222 (B10, Fri), 1224 (B10, Fri) Abdel Nazeer, Ahmed.................. 1835 (D5, Wed) Abdel-Fattah, Tarek.....................1865 (E2, Wed), .......................................................2049 (E6, Tue) Abdel-Motaleb, Ibrahim................1924 (E3, Tue) Abdelhamid, Muhammad.............. 2263 (F2, Tue) Abdellahi, Aziz...............................575 (B4, Wed) Abdul Wahab Johny, M................1010 (B10, Tue) Abdulaziz, Rema.......................... 2421 (G2, Wed) Abdullah, Ragab.......................... 1835 (D5, Wed) Abe, Hikaru......................................622 (B5, Tue) Abe, Takayuki................................2529 (I2, Wed) Abe, Takeshi........... 278 (B1, Tue), 280 (B1, Tue), .............................. 291 (B1, Tue), 463 (B2, Wed), ................................464 (B2, Wed), 893 (B8, Fri), .............................. 940 (B9, Wed), 950 (B9, Wed) Abe, Takeshi........ 2711 (J3, Mon), 2752 (J3, Wed) Abe, Yoshio.................49 (A1, Tue), 95 (A1, Tue) Abe, Yusuke.................................2230 (E12, Tue) Abirami, D..................................... 210 (A2, Wed) Abo Zaid, Majeda......................... 2757 (J4, Mon) Abouatallah, Rami......................1423 (B11, Wed) Aboud, Shela................................2166 (E10, Tue) Abouimrane, Ali............................. 520 (B2, Thu), ....................................................1157 (B10, Wed) Aboulaich, Abdelmaula................... 529 (B2, Thu) Abraham, D....................................2018 (E5, Thu) Abraham, Daniel.........808 (B8, Tue), 913 (B9, Tue), ...................... 1136 (B10, Wed), 1151 (B10, Wed) Abraham, K. M..............................449 (B2, Wed), ..............................813 (B8, Tue), 1216 (B10, Fri) Abram, David................................. 690 (B6, Mon) Abruńa, Héctor.................................. 37 (A1, Tue) Acebedo, Begońa.......................... 366 (B2, Mon), ............................ 404 (B2, Tue), 1088 (B10, Tue) Acosta, Jacqueline........................... 144 (A1, Tue) Acuńa, Leandro...............................801 (B7, Wed) Adair, Desmond............................. 263 (B1, Mon) Adams, Jim.................................. 963 (B10, Mon) Adams, Paul.................................2429 (H1, Mon) Adcock, Jamie................................. 524 (B2, Thu) Addi, Yassine.................................. 2499 (I1, Tue) Addison, Dan......... 413 (B2, Tue), 587 (B4, Wed) Addo, Paul......................................746 (B6, Wed) Adelmann, Christoph....................2132 (E8, Wed) Adjemian, Kev............................1305 (B11, Tue), ........................1306 (B11, Tue), 1510 (B11, Wed) Adler, Stuart......... 787 (B7, Wed), 791 (B7, Wed), .............................. 795 (B7, Wed), 796 (B7, Wed) Adolf, James.................................. 2386 (F5, Tue) Advani, Suresh............................1471 (B11, Wed) Adzic, Radoslav.........................1405 (B11, Wed), ....................................................1438 (B11, Wed) Afanas’ev, Valery........................2158 (E10, Tue), ....................................................2164 (E10, Tue), .......................2179 (E10, Wed), 2185 (E10, Wed) Afri, Michal......................................276 (B1, Tue) Afroz, Taliman............................ 1164 (B10, Thu) Agar, Ertan...... 1662 (B12, Tue), 1663 (B12, Tue) Agarita, Yu....................................2092 (E7, Wed) Agarwal, Arun..... 699 (B6, Tue), 1176 (B10, Thu) Ager, Joel.......................................2564 (I3, Wed) Aghighi, Mahmoudreze...............1256 (B11, Sun) Agubra, Victor............................. 1198 (B10, Thu) Aguilar, Ricardo.............................2795 (J4, Wed) Aguilar-Elguezabal, Alfredo........... 136 (A1, Tue) 244

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Aoki, Naoya...............................1497 (B11, Wed), ....................................................1520 (B11, Wed) Aoki, Tsutomu............................1485 (B11, Wed), .................................................... 1564 (B11, Thu) Aoki, Yoshitaka.............................. 183 (A2, Wed) Aoki, Yuichi.................................... 141 (A1, Tue) Aoulaiche, Marc.............................1876 (E2, Thu) Aoun, Bachir.................................2258 (F2, Mon) Aoun, Nadia.................................. 1652 (B11, Fri) Aoyama, Syodai................................ 77 (A1, Tue) Aoyama, Yusuke......................... 1543 (B11, Thu) Apostolo, Marco.........................1026 (B10, Tue), ......................................................2254 (F2, Mon) Aqil, Abdelhafid...........................2430 (H1, Mon) Aquino Neto, Sidney...................... 229 (A3, Tue), ........................................................319 (B1, Wed) Arabale, Girish............................. 2209 (E11, Tue) Arachi, Yoshinori............................847 (B8, Wed) Arai, Hajime..........269 (B1, Mon), 562 (B4, Tue), ............................. 824 (B8, Wed), 835 (B8, Wed), ........................... 923 (B9, Wed), 1066 (B10, Tue) Arai, Kenichiro............................ 2106 (E8, Mon) Arai, Ryo.................................... 2142 (E10, Mon) Arai, Yoshio.................................... 766 (B6, Thu) Arai, Yuki......................................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Arakawa, Masayasu.....................1075 (B10, Tue) Araki, Ryota...................................... 29 (A1, Tue) Araki, Takuto..............................1467 (B11, Wed) Araki, Wakako................................ 766 (B6, Thu) Arao, Masazumi............................. 154 (A2, Tue), ....................................................1495 (B11, Wed) Aras, Mustafa................................ 2343 (F4, Wed) Arasimowicz, Monika................... 2602 (I4, Mon) Aravamuthan, Sundar......................284 (B1, Tue) Arbabi, Faraz...............................1423 (B11, Wed) Archer, Lynden................................ 531 (B2, Thu) Arcidiacono, Paul............................656 (B5, Wed) Ardo, Shane....................................2568 (I3, Wed) Arenas Arrocena, Ma. Concepción......661 (B5, Wed) Arepalli, Vinaya Kumar................. 2270 (F2, Tue) Arges, Christopher..................... 1572 (B11, Thu), ..................................................... 2411 (G1, Wed) Aricņ, Antonino S..........................301 (B1, Wed), .......................... 731 (B6, Wed), 1343 (B11, Tue), .................................................... 1598 (B11, Thu) Arie, Arenst Andreas...................... 612 (B5, Mon) Arihara, Kazuki............................1248 (B11, Sun) Arima, Kenta..................................1952 (E3, Thu) Arisaka, Tomoko.........30 (A1, Tue), 44 (A1, Tue) Arita, Masashi..............................1992 (E5, Wed), ................................................... 2219 (E12, Mon) Ariyoshi, Kingo....... 817 (B8, Tue), 1193 (B10, Thu) Arkhipova, Maria.........................1109 (B10, Tue) Arkun, Erdem....... 1953 (E3, Thu), 2178 (E10, Wed) Armand, Michel.............................. 529 (B2, Thu) Armini, Silvia.............................. 2057 (E7, Mon), ............................2115 (E8, Tue), 2366 (F5, Mon) Armstrong, Eileen............................ 16 (A1, Tue), ................................162 (A2, Tue), 876 (B8, Thu) Armstrong, Gregory........................ 344 (B1, Thu) Arnauts, S......................................2130 (E8, Wed) Arnauts, Sophia.............................2132 (E8, Wed) Arnold, Craig................................ 1205 (B10, Fri) Arnold, Marco............................... 2398 (F5, Wed) Arrigan, Damien.............................2647 (J1, Tue) Arrigo, Rosa.................................1307 (B11, Tue) Arroyo Martinez, José German.......661 (B5, Wed) Arslan, Burcu.................................2353 (F4, Thu) Arthur, Timothy..............................462 (B2, Wed) Artillan, Philippe.......................... 2052 (E7, Mon) Artsemyeva, Ksenya..................... 2643 (J1, Mon) Artymowicz, Dorota....................1787 (D5, Mon)

Artyushkova, Kateryna.................. 223 (A3, Tue), ..................... 1425 (B11, Wed), 1445 (B11, Wed), .......................1554 (B11, Thu), 1593 (B11, Thu), .........................1619 (B11, Thu), 1639 (B11, Fri), .......................... 1641 (B11, Fri), 1644 (B11, Fri), .......................... 1647 (B11, Fri), 2435 (H1, Mon) Arugula, Mary.................................2829 (J6, Tue) Arumugam, Balamurugan............1355 (B11, Tue) Aryanfar, Asghar............................220 (A3, Mon) Asa, Fujio.......................................2066 (E7, Tue) Asa, Masaya.................................1346 (B11, Tue) Asada, Toshihiro..........................1065 (B10, Tue) Asahi, Masafumi.........................1508 (B11, Wed) Asahi, Ryoji.................................1253 (B11, Sun) Asai, Takahiro................................... 77 (A1, Tue) Asaka, Keisuke...............................463 (B2, Wed) Asaka, Kinji.................................... 2488 (I1, Tue) Asakawa, Kojiro.........................2241 (E12, Wed) Asakimori, Yu..............................1348 (B11, Tue) Asano, Takanori...........................2225 (E12, Tue) Asaoka, Takahiko........................ 1196 (B10, Thu) Asazawa, Koichiro......................1359 (B11, Tue), ........................1361 (B11, Tue), 1366 (B11, Tue), ........................... 1626 (B11, Fri), 2636 (J1, Mon) Asfaw, Habtom...........................1047 (B10, Tue), ...................................................... 1233 (B10, Fri) Ashari, Adrian.............................. 1823 (D5, Wed) Asheghi, Mehdi..............................2022 (E5, Thu) Ashraf Gandomi, Yasser............. 1542 (B11, Thu) Asiltürk, Meltem....... 336 (B1, Wed), 2741 (J3, Tue) Asimow, Paul...................................767 (B7, Tue) Asiri, Haleema.................................695 (B6, Tue) Asmussen, Robert........................1802 (D5, Mon) Asoh, Hidetaka.......132 (A1, Tue), 133 (A1, Tue), ...........................1829 (D5, Wed), 1843 (D6, Tue) Assary, Rajeev.................................424 (B2, Wed) Assaud, Loļc................................1357 (B11, Tue) Asta, Mark............. 845 (B8, Wed), 846 (B8, Wed) Atanacio, Armand.......................... 243 (A3, Wed) Atanasoska, Ljiljana.....................1279 (B11, Tue) Atanasoski, Radoslav..................1279 (B11, Tue), .....................................................1322 (B11, Tue) Atanasov, Vladimir.....................1392 (B11, Wed) Atanassov, Plamen......................... 223 (A3, Tue), ........................1359 (B11, Tue), 1366 (B11, Tue), ...................... 1385 (B11, Wed), 1554 (B11, Thu), .......................1593 (B11, Thu), 1603 (B11, Thu), .......................1608 (B11, Thu), 1618 (B11, Thu), .......................... 1637 (B11, Fri), 1639 (B11, Fri), .......................... 1641 (B11, Fri), 1643 (B11, Fri), .......................... 1644 (B11, Fri), 1646 (B11, Fri), .......................... 1647 (B11, Fri), 1651 (B11, Fri), ......................... 1657 (B11, Fri), 2405 (G1, Wed), .....................................................2435 (H1, Mon) Atcitty, Stan.........1919 (E3, Tue), 1943 (E3, Wed) Ateba Mba, Jean-Marcel.................841 (B8, Wed) Ates, Mehmet........813 (B8, Tue), 1216 (B10, Fri) Athouėl, Laurence...... 621 (B5, Tue), 656 (B5, Wed) Ati, Mohamed..............................1031 (B10, Tue) Atifi, Abderrahman....................... 2613 (I4, Mon) Atkinson, Alan....... 2299 (F2, Thu), 2375 (F5, Mon) Atkinson, Robert..........................1246 (B11, Sun) Atlas, Gal................ 815 (B8, Tue), 816 (B8, Tue) Attingre, Cynthia.........................1373 (B11, Wed) Atwater, Harry...............................2568 (I3, Wed) Aubry, Philippe.............................. 173 (A2, Wed) Augustynski, Jan............................2579 (I3, Wed) Auinger, Michael.............................769 (B7, Tue) Aurbach, Doron..... 276 (B1, Tue), 431 (B2, Wed), .................................26 (B2, Thu), 685 (B5, Thu), ..........................957 (B10, Mon), 997 (B10, Tue), ....................................................1131 (B10, Wed) Avagyan, Samvel............................ 128 (A1, Tue) Avasthi, Sushobhan.....................2244 (E12, Wed) Avignone-Rossa, Claudio............... 226 (A3, Tue) Awaludin, Zaenal............................ 2619 (I5, Tue)

Awatani, Tadashi........................1144 (B10, Wed), .....................................................1326 (B11, Tue) Axelbaum, Richard.........................815 (B8, Tue), .........................................................816 (B8, Tue) Axnanda, Stephanus........................921 (B9, Wed) Ayache, Maurice..............................908 (B9, Tue) Aydin, Muhammed.......................... 519 (B2, Thu) Aykol, Muratahan.............................568 (B4, Tue) Azad, S. M....................................1849 (E1, Wed) Azim, Zubair.................................1850 (E1, Wed) Aziz, Kimberly.................................386 (B2, Tue) Aziz, Michael.............................1687 (B12, Wed), ....................................................1688 (B12, Wed) Aziz, Saad.................................... 959 (B10, Mon) Aziznia, Amin.............................1385 (B11, Wed) Azocar, M. Ignacio....................... 1721 (D1, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

B

Baba, Kunihito.................................. 33 (A1, Tue) Babanova, Sofia........223 (A3, Tue), 2636 (J1, Mon) Bach, Stephane................................ 884 (B8, Thu) Baddour-Hadjean, Rita...................949 (B9, Wed) Badot, Jean-Claude........................... 898 (B8, Fri) Bae, Chang-Jun...............................583 (B4, Wed) Bae, Jang-Yong..............................2084 (E7, Tue) Bae, Joongmyeon...... 737 (B6, Wed), 802 (B7, Wed) Bae, Ki Kwang...... 744 (B6, Wed), 745 (B6, Wed) Bae, Kidan.................................. 2137 (E10, Mon) Baek, Seung-Seok............................. 89 (A1, Tue) Bagge-Hansen, Michael...............2433 (H1, Mon) Baggetto, Loic...... 419 (B2, Wed), 446 (B2, Wed), ...............................522 (B2, Thu), 524 (B2, Thu), .....................................................1665 (B12, Tue) Baglio, Vincenzo.........................1343 (B11, Tue), .................................................... 1598 (B11, Thu) Bahat-Treidel, Eldad......................1910 (E3, Tue) Bahceci, Sumeyye........................... 519 (B2, Thu) Bahrami, Poyan............................1351 (B11, Tue) Bai, Jian-Ming......... 406 (B2, Tue), 875 (B8, Thu) Baik, Kwang Hyeon....................2197 (E11, Mon) Bailey, Mark.............. 92 (A1, Tue), 286 (B1, Tue) Bajdich, Michal..............................2572 (I3, Wed) Bak, Seong-Min..............................406 (B2, Tue), ............................ 872 (B8, Thu), 968 (B10, Mon) Bak, Tadeusz.................................. 243 (A3, Wed) Bakal, Ahmet...................................793 (B7, Wed) Bakenov, Zhumabay..................... 263 (B1, Mon), ....................................................... 372 (B2, Mon) Baker, Andrew............................1147 (B10, Wed) Baker, David....................................915 (B9, Tue) Baker, Lane................................... 2462 (I1, Mon) Baker, Layton................................1860 (E2, Wed) Baker-O’Neal, Brett......................2088 (E7, Wed) ........................................................2655 (J1, Tue) Bakh, Naveed..............................1386 (B11, Wed) Bakkar, Ashraf.............................. 1763 (D3, Tue) Bakowski, Mietek........................ 1898 (E3, Mon) Bala, Dharshini............................ 1840 (D5, Wed) Balakauskas, Saulius...................... 2271 (F2, Tue) Balakrishnan, Prabhuraj..................2658 (J1, Tue) Balasingam, Suresh Kannan...........640 (B5, Wed) Balasubramanian, Mahalingam..... 353 (B2, Mon), ............................... 807 (B8, Tue), 809 (B8, Tue), ........................958 (B10, Mon), 1014 (B10, Tue), ....................................................1157 (B10, Wed) Balatti, Simone.............................2157 (E10, Tue) Balbuena, Perla................................901 (B9, Tue) Balciunaite, Aldona....................1506 (B11, Wed), ....................................................1532 (B11, Wed) Balda, Juan.....................................1925 (E3, Tue) Baldan, Mauricio............................653 (B5, Wed), .........................2427 (G2, Wed), 2428 (G2, Wed), .......................................................2592 (I3, Wed) Balducci, Andrea.......631 (B5, Wed), 684 (B5, Thu), ....................... 1123 (B10, Wed), 1185 (B10, Thu) Balke, Nina..................................... 673 (B5, Thu) 245


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Ball, Sarah........................................414 (B2, Tue) Ballard, Edward.............................2597 (I3, Wed) Ballard, Matt...................................2825 (J6, Tue) Ballarin, Novella............................2798 (J4, Wed) Ballone, Pietro.............................1457 (B11, Wed) Balmes, Olivier..............................2356 (F4, Thu) Balogh, Michael..........................1142 (B10, Wed) Bals, Sara....................................... 2333 (F4, Tue) Balsara, Nitash................................118 (A1, Tue), .......................... 341 (B1, Wed), 1097 (B10, Tue), .........................1132 (B10, Wed), 1234 (B10, Fri) Ban, Chunmei......917 (B9, Tue), 954 (B10, Mon) Banan, Roshanak..........................1263 (B11, Sun) Banchelli, Elena............................. 2339 (F4, Tue) Bandarenka, Hanna....................... 2643 (J1, Mon) Bando, Yohe.................................. 2273 (F2, Wed) Banerjee, Anjan............................... 687 (B5, Thu) Banerjee, Kaustav.......................2182 (E10, Wed) Banerjee, Parag..............................2289 (F2, Thu) Banerjee, Rupak.......................... 1580 (B11, Thu) Banerjee, Sanjay..........................1933 (E3, Wed), ................................................... 2145 (E10, Mon) Banerjee, Sanjoy............................. 514 (B2, Thu) Banham, Dustin...........................1303 (B11, Tue), .................................................... 1609 (B11, Thu) Banik, Stephen.............................. 2346 (F4, Wed) Banin, Uri................................... 2152 (E10, Mon) Bano, Kiran..................................... 2476 (I1, Tue) Banu, Viorel..................................1944 (E3, Wed) Bär, Markus..................................... 2551 (I3, Tue) Barai, Pallab.....................................570 (B4, Tue) Baram, Nir.......................................421 (B2, Wed) Baranova, Elena........721 (B6, Wed), 764 (B6, Thu), .............................. 1357 (B11, Tue), 2704 (J2, Tue) Baranton, Stčve.............................. 149 (A2, Tue), ..........................1608 (B11, Thu), 1655 (B11, Fri) Barbaree, James.........2813 (J6, Tue), 2832 (J6, Tue) Barbarin, Yohan.............................2083 (E7, Tue) Barboux, Philippe.......................2187 (E10, Wed) Bard, Allen........................................ 15 (A1, Tue) Bardenhagen, Ingo.........................2611 (I4, Mon) Bareno, Javier................................ 362 (B2, Mon) Barfidokht, Abbas......................... 2470 (I1, Mon) Bargar, John...................................2572 (I3, Wed) Barker, Jerry.........367 (B2, Mon), 996 (B10, Tue) Barnaby, Hugh..............................1990 (E5, Wed) Barnett, Brian..... 536 (B3, Wed), 1195 (B10, Thu) Barnett, Scott...........757 (B6, Thu), 765 (B6, Thu) Barnola, Sebastien..........................2122 (E8, Tue) Barr, Maissa................................1145 (B10, Wed) Barray, F.........................................855 (B8, Wed), .............................. 863 (B8, Wed), 864 (B8, Wed) Barros, Willyam.............................. 2501 (I1, Tue) Barry, Paul.......................................303 (B1, Wed) Bartelt, Norman............................. 1237 (B10, Fri) Barthélémy, Bastien....................... 172 (A2, Wed) Bartsch, Philipp............................. 1223 (B10, Fri) Baryshev, Sergey............................1871 (E2, Thu) Basbus, Juan....................................739 (B6, Wed) Bashyam, Murli.............................. 2119 (E8, Tue) Basov, Dmitri................................2256 (F2, Mon) Bates, Alex..... 1277 (B11, Tue), 1683 (B12, Wed) Bates, Michael.............................. 2409 (G1, Wed) Battaglia, Vince..............................926 (B9, Wed), ........................980 (B10, Mon), 1005 (B10, Tue), .......................1100 (B10, Tue), 1128 (B10, Wed), ........................1132 (B10, Wed), 1206 (B10, Fri), ..........................1208 (B10, Fri), 1675 (B12, Tue) Baturina, Olga..................................701 (B6, Tue) Bauder, Alexander....................... 1544 (B11, Thu) Baudin, Floriane......................... 2215 (E12, Mon) Bauer, Anton.....1899 (E3, Mon), 1900 (E3, Mon) Baumann, Theodore.......................647 (B5, Wed), .......................... 652 (B5, Wed), 2433 (H1, Mon), .....................................................2434 (H1, Mon)

Baumgart, Helmut........................1857 (E2, Wed), ..........................1863 (E2, Wed), 1864 (E2, Wed), ...........................1865 (E2, Wed), 1866 (E2, Wed) Baumgartner, Oskar................... 2140 (E10, Mon) Bauskar, Akshay..........................1452 (B11, Wed) Bayer, Domnik.............................. 1657 (B11, Fri) Baygents, James.............................. 247 (A3, Thu) Bayle-Guillemaud, Pascale........1396 (B11, Wed), ....................................................1443 (B11, Wed) Bayles, Robert............................... 1810 (D5, Tue) Bazant, Martin..................................394 (B2, Tue) Bazioti, Kalliopi........................... 2212 (E11, Tue) Bazylak, Aimy.............................. 1228 (B10, Fri), ....................... 1256 (B11, Sun), 1263 (B11, Sun), ...................... 1417 (B11, Wed), 1423 (B11, Wed) Becer, Burcu....................................2741 (J3, Tue) Bechtel, Hans................................2256 (F2, Mon) Beck, Faith.......................................271 (B1, Tue) Becton, Maxwell.........................1375 (B11, Wed) Becucci, Lucia............................... 2267 (F2, Tue), ............................. 2328 (F4, Tue), 2339 (F4, Tue) Bedrov, Dmitry...... 586 (B4, Wed), 629 (B5, Tue) Bedzyk, Michael.............................935 (B9, Wed) Behm, Mårten............................. 1203 (B10, Thu) Behnamian, Yashar.......................1795 (D5, Mon) Beidaghi, Majid.............................. 107 (A1, Tue), ..............................601 (B5, Mon), 628 (B5, Tue), ............................ 673 (B5, Thu), 1678 (B12, Tue) Bélanger, Daniel.......83 (A1, Tue), 106 (A1, Tue), ..............................602 (B5, Mon), 621 (B5, Tue), ............................. 656 (B5, Wed), 852 (B8, Wed), .............................. 865 (B8, Wed), 927 (B9, Wed) Belen Jorge, Ana......................... 1616 (B11, Thu) Belghiti, Dounia.............................2785 (J4, Wed) Belharouak, Ilias........................... 354 (B2, Mon), ........................... 362 (B2, Mon), 961 (B10, Mon) Bell, Alexis............2475 (I1, Tue), 2572 (I3, Wed) Bellini, Marco.............................1531 (B11, Wed) Bellotti, Enrico...............................1923 (E3, Tue) Belmonte, Attilio..........................2158 (E10, Tue) Ben Yahia, Hamdi........................... 873 (B8, Thu) Ben Yahia, Mouna...........................840 (B8, Wed) Ben-Yoav, Hadar.............................2661 (J1, Tue) Bencik, Ondrej............................1488 (B11, Wed) Bencistą, Ilaria..... 2328 (F4, Tue), 2335 (F4, Tue) Benck, Jesse...................................2573 (I3, Wed) Bender, Guido.............................1327 (B11, Tue), .................................................... 1335 (B11, Tue) Bendersky, Leonid........................ 1237 (B10, Fri) Benitez-Rico, Adriana.................... 204 (A2, Wed) Benjamin, Alex...........................1662 (B12, Tue), .....................................................1663 (B12, Tue) Benmayza, Aadil.............................462 (B2, Wed) Bennett, Brent................................... 15 (A1, Tue) Benson, David...............................2365 (F5, Mon) Benson, Jim....................................991 (B10, Tue) Bent, S. F........................................2300 (F2, Thu) Beranek, Radim............................. 2544 (I3, Mon) Berbano, Seth.............................. 1199 (B10, Thu) Berber, Mohamed........................1424 (B11, Wed) Berejnov, Viatcheslav..................1322 (B11, Tue), .....................................................1323 (B11, Tue) Berg, Philipp..................................... 896 (B8, Fri) Bergemont, Albert...................... 2220 (E12, Mon) Berger, Alan.........2566 (I3, Wed), 2586 (I3, Wed) Berger, Paul.................................2242 (E12, Wed) Bergman, J. P................................ 1905 (E3, Mon) Berlinguette, Curtis........................2288 (F2, Thu) Berman, Marc.................................485 (B2, Wed) Bermond, Cedric......................... 2052 (E7, Mon), ....................................................2177 (E10, Wed) Bernard, Julien............................ 1191 (B10, Thu) Bernasconi, Roberto...................... 2341 (F4, Wed) Bernasconi, Sophie......................2236 (E12, Tue) Bernauer, Felix.............................1291 (B11, Tue) Bernuy-López, Carlos..................1088 (B10, Tue)

Berry, Chaparral..............................750 (B6, Wed) Bersuker, Gennadi.........................2009 (E5, Thu), .......................................................2010 (E5, Thu) Bertasi, Federico.............................461 (B2, Wed) Bertaud, Thomas............................1878 (E2, Thu) Bertazzi, Francesco........................1923 (E3, Tue) Bertocci, Ugo............................... 2280 (F2, Wed), ............................. 2324 (F4, Tue), 2329 (F4, Tue) Bertran, Celso.......192 (A2, Wed), 193 (A2, Wed) Bessler, Wolfgang......................... 378 (B2, Mon), ............................... 394 (B2, Tue), 410 (B2, Tue), ...................................................... 1223 (B10, Fri) Besson, Pascal........ 2068 (E7, Tue), 2101 (E8, Mon) Best, Adam..................................... 270 (B1, Mon) Bestetti, Massimiliano................. 1720 (D1, Wed), ...................................................... 2447 (H1, Tue) Bethune, Keith............................1376 (B11, Wed) Bettge, Martin........ 808 (B8, Tue), 1151 (B10, Wed) Bettinelli, Marco.............................2717 (J3, Tue) Bevan, Kirk.....................................584 (B4, Wed) Bevilacqua, Manuela......................733 (B6, Wed), ........................ 1531 (B11, Wed), 2403 (G1, Wed) Bezalel, Yifat................................. 2757 (J4, Mon) Bhansali, Shekhar......................... 2756 (J4, Mon) Bhatia, R.......................................1861 (E2, Wed) Bhattacharjee, Subir................... 1547 (B11, Thu), .......................................................2788 (J4, Wed) Bhattacharya, Jishnu...................1116 (B10, Wed) Bhattacharya, Priyanka...................425 (B2, Wed) Bhuyian, Mdnasiruddin.............. 2139 (E10, Mon) Bi, Zhonghe..................................1012 (B10, Tue) Bicalho, Urquisa.............................2671 (J1, Tue) Bidan, Gerard............................... 975 (B10, Mon) Biddinger, Elizabeth...................... 2607 (I4, Mon) Bieker, Peter...................................450 (B2, Wed), .............................. 454 (B2, Wed), 508 (B2, Wed) Biener, Juergen.........647 (B5, Wed), 652 (B5, Wed), .........................2433 (H1, Mon), 2434 (H1, Mon) Biener, Monika....... 647 (B5, Wed), 2433 (H1, Mon) Bienkowski, Krzysztof..................2570 (I3, Wed), .......................................................2579 (I3, Wed) Biesdorf, Johannes.......................1291 (B11, Tue) Biffinger, Justin............................... 225 (A3, Tue) Bigio, David................................ 1201 (B10, Thu) Bilir, Gokhan...................................2739 (J3, Tue) Bina, Markus.............................. 2140 (E10, Mon) Binari, Steven.................................1912 (E3, Tue) Binnemans, Koen.......................... 2602 (I4, Mon) Binninger, Tobias.......................... 1630 (B11, Fri) Birbilis, Nick................................. 1812 (D5, Tue) Birss, Viola........... 746 (B6, Wed), 785 (B7, Wed), .......................1596 (B11, Thu), 1609 (B11, Thu), ........................................................2660 (J1, Tue) Bischoff, Christian...........................388 (B2, Tue) Bisi, Davide....................................1916 (E3, Tue) Biswas, Indro.............................. 1549 (B11, Thu) Biswas, Pratim...............................728 (B6, Wed), ....................................................1693 (B12, Wed) Bitner-Michalska, Anna...................385 (B2, Tue) Bittinat, Daniel.............................1327 (B11, Tue) Bivens, Adam...............................1367 (B11, Tue) Biyikli, Necmi................................. 1887 (E2, Fri) Björefors, Fredrik...........................859 (B8, Wed), ...................... 1030 (B10, Tue), 1125 (B10, Wed), ...................................................... 1731 (D1, Thu) Björketun, Mårten........................... 755 (B6, Thu) Black, Jennifer................................ 673 (B5, Thu) Blanquet, Elisabeth......................... 1884 (E2, Fri) Blaser, Rachel..................................277 (B1, Tue) Blauw, Michiel...............................1882 (E2, Thu) Bledowski, Michal........................ 2544 (I3, Mon) Bleith, Peter..................................... 885 (B8, Thu) Blidberg, Andreas...........................859 (B8, Wed) Bline, Paul....................................1088 (B10, Tue) Blizanac, Berislav..........................995 (B10, Tue) Blodgett, Steven............................ 2541 (I3, Mon)

246

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Blomberg, Tom.............................1859 (E2, Wed) Bloom, Ira..............362 (B2, Mon), 808 (B8, Tue) Bluhm, Hendrik....... 777 (B7, Tue), 780 (B7, Tue) Blum, Monika................................. 2551 (I3, Tue) Bo, Shou-Hang................................843 (B8, Wed) Boatner, Lynn..................................838 (B8, Wed) Bockrath, Marc.......................... 2146 (E10, Mon) Bodin, Anders................................2572 (I3, Wed) Boehme, Lindsay..........................2087 (E7, Wed) Boemmels, Juergen...................... 2057 (E7, Mon) Bogdanoff, Peter.............................707 (B6, Tue), ............................... 2547 (I3, Tue), 2559 (I3, Tue) Boggs, Karl....................................2124 (E8, Tue) Bogle, Xavier........485 (B2, Wed), 1133 (B10, Wed) Böhme, Solveig............................1046 (B10, Tue) Bohn, Paul............ 2648 (J1, Tue), 2755 (J4, Mon) Boillat, Pierre...............................1291 (B11, Tue) Boisen, Anja......... 2768 (J4, Tue), 2791 (J4, Wed) Bol, Ageeth....................................1880 (E2, Thu) Boldrin, Paul...... 2299 (F2, Thu), 2375 (F5, Mon) Bolin, Trudy.......... 353 (B2, Mon), 520 (B2, Thu) Bollepalli, Sri..................................2781 (J4, Tue) Bolom, Tibor..................................1883 (E2, Thu) Bolukoglu, Zeynep........................ 2401 (F5, Wed) Boman, Mats................................... 2563 (I3, Tue) Boncellla, James........................... 2608 (I4, Mon) Bond, Alan...................................... 2476 (I1, Tue) Bond, Daniel................................... 2525 (I2, Tue) Bondarenko, Vitaly....................... 2643 (J1, Mon) Bonino, Christopher.........................705 (B6, Tue) Bonn, Eric...................................1368 (B11, Wed) Bonnaud, Céline..........................1398 (B11, Wed) Bonnet, Jean-Pierre......................... 529 (B2, Thu) Bonnick, Patrick.............................. 518 (B2, Thu) Bonorand, Lukas........................ 1271 (B11, Mon) Bonte, Julien................................... 167 (A2, Tue) Bonville, Leonard..................... 1270 (B11, Mon), ........................1332 (B11, Tue), 1333 (B11, Tue), .....................................................1334 (B11, Tue) Boota, Muhammed......................... 107 (A1, Tue), ....................................................... 601 (B5, Mon) Borenstein, Arie.............................. 685 (B5, Thu) Borgatti, Francesco........................ 2335 (F4, Tue) Borkiewicz, Olaf........................... 255 (B1, Mon), ............................. 833 (B8, Wed), 843 (B8, Wed), ........................................................934 (B9, Wed) Borner, Katherine..........................2369 (F5, Mon) Börner, Markus............................ 983 (B10, Mon) Borodin, Oleg.................................586 (B4, Wed), ....................... 1154 (B10, Wed), 1181 (B10, Thu) Borowicz, Pawel.......................... 1898 (E3, Mon) Borup, Rod..................................1289 (B11, Tue), ........................1290 (B11, Tue), 1292 (B11, Tue), ..................... 1425 (B11, Wed), 1445 (B11, Wed), ........................1578 (B11, Thu), 1583 (B11, Thu) Bosco, Filippo.................................2768 (J4, Tue) Bose, Arijit.......................................913 (B9, Tue) Botelho, Steven...........................1417 (B11, Wed) Botrel, Ronan.................................2350 (F4, Thu) Botte, Gerardine.........152 (A2, Tue), 249 (A3, Thu), ..........................2402 (G1, Wed), 2404 (G1, Wed) Bouchet, Renaud.............................112 (A1, Tue), ............................. 460 (B2, Wed), 502 (B2, Wed), ........................................................ 529 (B2, Thu) Bouhtiyya, Said................................615 (B5, Tue) Boukherroub, Rabah.......................644 (B5, Wed) Bour, David...................................1932 (E3, Wed) Bourbon, Carole................................ 899 (B8, Fri) Bourlot, Sandrine........................ 1191 (B10, Thu) Boyd, Darryl................................... 2524 (I2, Tue) Boyd, Stephen.................................933 (B9, Wed) Boyer, Damien................................2730 (J3, Tue) Boyle, Paul.................................. 1164 (B10, Thu) Bozack, Michael.............................2837 (J6, Tue) Bozorg-Grayeli, Elah.....................2022 (E5, Thu) Braatz, Richard.............................. 253 (B1, Mon)

Branagan, David............................... 82 (A1, Tue) Brancewicz, Ewa........................... 2438 (H1, Tue) Brand, Adam................................2237 (E12, Tue) Brandell, Daniel............................ 380 (B2, Mon), ..........................1084 (B10, Tue), 1233 (B10, Fri) Brandon, Erik................................. 600 (B5, Mon) Brandon, Nigel....... 2299 (F2, Thu), 2375 (F5, Mon) Brandt, Adrian.......631 (B5, Wed), 1123 (B10, Wed) Brankovic, Stanko......................... 2326 (F4, Tue), ............................. 2327 (F4, Tue), 2383 (F5, Tue) Brankovic, Stanko....................... 1604 (B11, Thu) Bratin, Peter......... 2114 (E8, Tue), 2382 (F5, Tue) Brault, Pascal.................................. 149 (A2, Tue) Braun, Paul.................................... 2251 (F1, Wed) Braun, Robert......1685 (B12, Wed), 2413 (G2, Wed) Braun, Trevor.................................2361 (F4, Thu) Braunecker, Wade.......................... 137 (A1, Tue), ...............................585 (B4, Wed), 878 (B8, Thu) Braustein, Harold.......................... 2757 (J4, Mon) Braustein, Isabella......................... 2757 (J4, Mon) Bravin, Julian.................................2074 (E7, Tue) Brazeau, Nicolas..........................1357 (B11, Tue) Breitung, E. M................................. 1886 (E2, Fri) Breslin, Carmel................................ 81 (A1, Tue), ................................82 (A1, Tue), 2457 (I1, Mon) Bretschger, Orianna........................ 223 (A3, Tue) Brett, Dan.......................................782 (B7, Wed), .......................1362 (B11, Tue), 1373 (B11, Wed), .........................1616 (B11, Thu), 2421 (G2, Wed) Brezesinski, Torsten..................... 978 (B10, Mon) Bridel, J. S........................................273 (B1, Tue) Bridel, Jean-Sébastien......................907 (B9, Tue) Bridges, Craig........ 446 (B2, Wed), 1012 (B10, Tue) Brigandi, Antonino..........................667 (B5, Wed) Bright, Michael...........................1697 (B12, Wed) Brightman, Edward..................... 1577 (B11, Thu) Briguglio, Nicola.............................301 (B1, Wed) Brik, Mikhail..........2719 (J3, Tue), 2731 (J3, Tue) Brillas, Enric..................................2587 (I3, Wed) Brizzi, Simone...............................2132 (E8, Wed) Brock, Joel..................................... 2338 (F4, Tue) Brodie, Alan..................................1858 (E2, Wed) Brodt, Matthew...........................1305 (B11, Tue), .....................................................1306 (B11, Tue) Brodusch, Nicolas...........................837 (B8, Wed) Broekmann, Peter.......................... 2398 (F5, Wed) Brogger, Anna.................................2768 (J4, Tue) Bromberg, Loriana........................2370 (F5, Mon) Brongersma, H...............................1872 (E2, Thu) Bronneberg, Aafke.........................2575 (I3, Wed) Brooker, R.................................. 1270 (B11, Mon) Brooks, Christopher........................456 (B2, Wed) Brooks, Neil.................................. 2602 (I4, Mon) Brosha, Eric........ 1304 (B11, Tue), 1618 (B11, Thu), ...........................1619 (B11, Thu), 2632 (J1, Mon), ........................................................2695 (J2, Tue) Brosselard, Pierre..........................1940 (E3, Wed) Brousse, Thierry...... 83 (A1, Tue), 418 (B2, Wed), ..............................602 (B5, Mon), 615 (B5, Tue), ............................... 619 (B5, Tue), 621 (B5, Tue), ...........................656 (B5, Wed), 975 (B10, Mon), .......................................................1875 (E2, Thu) Brown, Corydon..............................2833 (J6, Tue) Brown, Leon................................ 2421 (G2, Wed) Brown, S........................................2018 (E5, Thu) Bruce, Peter........ 389 (B2, Tue), 1158 (B10, Wed) Bruckner-Lea, Cynthia.................. 2758 (J4, Mon) Brumbach, Michael.........................550 (B3, Wed) Brun, Etienne.................................2350 (F4, Thu) Brune, Nicholas............................... 158 (A2, Tue) Brunet, Vincent..............................2350 (F4, Thu) Brunner, Frank...............................1910 (E3, Tue) Bruns, Nadine.............................1318 (B11, Tue), ....................................................1372 (B11, Wed) Brushett, Fikile................................420 (B2, Wed)

Bryantsev, Vyacheslav....................413 (B2, Tue), ........................................................587 (B4, Wed) Brückner, Jan................................. 358 (B2, Mon) Brylinski, Christian.......................1940 (E3, Wed) Buceta, David..............................1438 (B11, Wed) Buchheit, R................................... 1755 (D2, Thu) Buchholz, Daniel............................ 364 (B2, Mon) Buchmüller, Yves........................1427 (B11, Wed) Buck, M........................................2371 (F5, Mon) Buckley, D. Noel........................2201 (E11, Mon), .......................................................2352 (F4, Thu) Bueker, Florian................................318 (B1, Wed) Bugayong, Joel.................................696 (B6, Tue) Bugga, Ratnakumar....................1135 (B10, Wed), ....................................................1140 (B10, Wed) Buie, Cullen...... 2305 (F3, Mon), 2314 (F3, Mon) Bulliard, Xavier............................. 2645 (J1, Mon) Bund, Andreas............................. 976 (B10, Mon), ....................................................1146 (B10, Wed) Bunya, Masaru..............................2090 (E7, Wed) Buonsanti, Raffaella...................1149 (B10, Wed), ........................................................2725 (J3, Tue) Burenkov, Alex........................... 1899 (E3, Mon), ..................................................... 1900 (E3, Mon) Burggraf, Juergen...........................2074 (E7, Tue) Burheim, Odne............................ 1190 (B10, Thu) Burke, Paul.......................................386 (B2, Tue) Burkholder, Michael....................1259 (B11, Sun) Burns, Chris...............................1143 (B10, Wed), .........................1150 (B10, Wed), 1211 (B10, Fri) Burrell, Anthony............................. 511 (B2, Thu) Busalacchi, Antonio.......................213 (A3, Mon) Busnaina, Ahmed............................813 (B8, Tue), .......................... 1216 (B10, Fri), 2097 (E8, Mon) Buthker, Joseph...............................928 (B9, Wed) Butkowski, John.......................... 1176 (B10, Thu) Butler, Keith...................................2039 (E6, Tue) Butler, Sue..................................... 599 (B5, Mon), ................................. 23 (B5, Tue), 643 (B5, Wed) Butman, Mikhail..............................770 (B7, Tue) Buttry, Daniel................................ 2599 (I4, Mon) Buttry, Daniel................................ 207 (A2, Wed), ............................2600 (I4, Mon), 2601 (I4, Mon) Buttry, Daniel.................................. 163 (A2, Tue) Büchi, Felix.................................1297 (B11, Tue), .........................1319 (B11, Tue), 1320 (B11, Tue) Bülter, Heinz................................. 2537 (I3, Mon) Büsselmann, Julian......................1275 (B11, Tue) Byon, Hye.......................................471 (B2, Wed) Byrappa, Shayan...........................1938 (E3, Wed) Bystrzycka, Malgorzata...................385 (B2, Tue) Byun, Sunjung.......919 (B9, Tue), 2027 (E6, Tue) Byun, Young-Jun.........................1477 (B11, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

C

Cabana, Jordi..................................439 (B2, Wed), ............................. 444 (B2, Wed), 825 (B8, Wed), ...........................860 (B8, Wed), 971 (B10, Mon), ..........................981 (B10, Mon), 993 (B10, Tue), ....................... 1000 (B10, Tue), 1149 (B10, Wed) Cabelguen, Pierre-Etienne............. 353 (B2, Mon) Cabrera, Carlos........................... 1605 (B11, Thu) Cabrera, Enrique............................2039 (E6, Tue) Cadigan, Christopher.......................917 (B9, Tue) Cahill, David...................................928 (B9, Wed) Cai, Chuan.......................................645 (B5, Wed) Cai, Man-Ping..............................2237 (E12, Tue) Cai, Minzhen...................................643 (B5, Wed) Cai, Shujun....................................1942 (E3, Wed) Cai, Wen-Bin...............................1365 (B11, Tue), ......................... 1455 (B11, Wed), 2467 (I1, Mon) Cai, Xichen.....................................2728 (J3, Tue) Cai, Yun.................2475 (I1, Tue), 2572 (I3, Wed) Cai, Zhuhua..................................... 761 (B6, Thu) Caillard, Amaėl............................... 149 (A2, Tue) Caire, Benjamin.......................... 1570 (B11, Thu) 247


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Cairns, Elton................................. 359 (B2, Mon), .............................378 (B2, Mon), 2503 (I2, Mon) Calabrese Barton, Scott...................... 3 (A1, Tue), ...................... 1492 (B11, Wed), 1590 (B11, Thu), .......................1591 (B11, Thu), 1595 (B11, Thu), .......................... 1642 (B11, Fri), 1643 (B11, Fri), ............................. 1646 (B11, Fri), 2519 (I2, Tue) Calderon, Hector............................... 88 (A1, Tue) Caldwell, Keegan.........................1349 (B11, Tue) Camardello, Sam............................2718 (J3, Tue), ........................................................2720 (J3, Tue) Camardese, John..........805 (B8, Tue), 818 (B8, Tue) Camargo Amado, Ruben................. 108 (A1, Tue) Cameron, Brent...............................2703 (J2, Tue) Cameron, David.............................. 1885 (E2, Fri) Campbell, Holly..............................2660 (J1, Tue) Campbell, Patick.............................652 (B5, Wed) Campbell, Patrick...........................647 (B5, Wed), .....................................................2433 (H1, Mon) Campbell, Stephen..................... 1265 (B11, Mon) Campos, Jonathan........................1678 (B12, Tue) Cańas, Natalia................................ 376 (B2, Mon) Caneiro, Alberto........739 (B6, Wed), 740 (B6, Wed) Cańete-Rosales, Paulina................ 2454 (H1, Tue) Cannarella, John............................ 1205 (B10, Fri) Cannio, Maria...............................2317 (F3, Mon) Cano, Zach.................................... 1816 (D5, Tue) Cao, Lei...........................................538 (B3, Wed) Cao, Wei........................................1864 (E2, Wed) Capolupo, Ferdinando.................... 2267 (F2, Tue) Capon, Fabien..................................615 (B5, Tue) Cappillino, Patrick.......................... 164 (A2, Tue) Capraro, Stephane........................ 2052 (E7, Mon) Capraz, Omer..........1805 (D5, Tue), 1808 (D5, Tue) Capron, Odile................................ 1224 (B10, Fri) Carcea, Anatolie............................ 182 (A2, Wed), .....................................................1772 (D4, Mon) Cardema, Joanna..........................2429 (H1, Mon) Cardoso, Franciane.........................319 (B1, Wed) Carenco, Sophie.............................. 170 (A2, Tue) Carla, Francesco............................2351 (F4, Thu), .......................................................2356 (F4, Thu) Carlier, Dany..........841 (B8, Wed), 871 (B8, Thu) Carlos, Ygartua............................2153 (E10, Tue) Carlson, Steve..............................1067 (B10, Tue) Carmona-Tellez, Salvador...............2744 (J3, Tue) Carnevali, Guido...........................2366 (F5, Mon) Caroli, Marcos................................. 122 (A1, Tue) Carraro, Carlo........ 2432 (H1, Mon), 2798 (J4, Wed) Carroll, Kyler..............................1686 (B12, Wed) Carron, Veronique........................2236 (E12, Tue) Carruthers, Donald..........................646 (B5, Wed) Carter, C......................................1405 (B11, Wed) Carter, Emily................................. 2535 (I3, Mon) Carter, Michael.............................. 244 (A3, Wed), ............................2617 (I4, Mon), 2637 (J1, Mon) Carter, W........................................421 (B2, Wed), .............................. 423 (B2, Wed), 827 (B8, Wed) Cartwright, Julia...............................767 (B7, Tue) Carvajal, Christian.........................2802 (J4, Wed) Carvalho, Maria..............................2689 (J2, Tue) Carvalho Jr., Alexandre...................653 (B5, Wed) Casagrande, Paula........................... 125 (A1, Tue) Casas-Cabanas, Montserrat........... 366 (B2, Mon), .............................. 404 (B2, Tue), 445 (B2, Wed), .....................................................1088 (B10, Tue) Casey, Matthew...............................2653 (J1, Tue) Casselman, Matthew...................1136 (B10, Wed) Cassir, Michel.................................951 (B9, Wed) Castaneda, Homero...................... 1761 (D2, Thu), ..................................................... 1833 (D5, Wed) Castańeda, Ivan............................ 1822 (D5, Wed) Castanheira, Luis.........................1443 (B11, Wed) Castillo-Martķnez, Elizabeth.........825 (B8, Wed), .....................................................1000 (B10, Tue)

Castillo-Martķnez, Elizabeth.........445 (B2, Wed), .....................................................1088 (B10, Tue) Castro, Carmen............................... 122 (A1, Tue) Castro, Laurent................................460 (B2, Wed) Cauich-Rodriguez, Juan................ 1759 (D2, Thu) Cavallini, Massimiliano................. 2335 (F4, Tue) Cavanagh, Andrew........................1860 (E2, Wed) Cave, Etosha.................................. 690 (B6, Mon) Ceccarelli, Daniela.........................217 (A3, Mon) Ceder, Gerbrand............................ 365 (B2, Mon), ............................... 401 (B2, Tue), 523 (B2, Thu), ............................. 575 (B4, Wed), 576 (B4, Wed), .............................. 578 (B4, Wed), 830 (B8, Wed) Celano, U.....................................2158 (E10, Tue) Celik, Ismail.................................... 343 (B1, Thu) Celio, Hugo......................................906 (B9, Tue) Cernohorsky, Ondrej...................... 2319 (F3, Tue) Cerruti, Marta...............................1015 (B10, Tue) Cervati, Michele............................2366 (F5, Mon) Cha, Hyeon-Jung.............................316 (B1, Wed) Cha, Suk Won................................1873 (E2, Thu) Chadeyron, Genevičve................. 2710 (J3, Mon), ........................................................2730 (J3, Tue) Chae, Changju..............................1048 (B10, Tue) Chae, Kyo-Suk............................2020 (E5, Thu), | .......................................................2021 (E5, Thu) Chae, Kyo-suk...............................1998 (E5, Wed) Chae, Myung-Sic...........................2801 (J4, Wed) Chagas, Luciana............................. 364 (B2, Mon) Chai, Yating....................................2815 (J6, Tue), ...............................2816 (J6, Tue), 2817 (J6, Tue) Chakravadhanula, Venkata...........1857 (E2, Wed), ......................................................1866 (E2, Wed) Chakthranont, Pongkarn................2580 (I3, Wed) Chalasani, Dinesh.......................1138 (B10, Wed) Chamousis, Rachel.........................2576 (I3, Wed) Chan, Candace.............................. 246 (A3, Wed), ............................. 725 (B6, Wed), 844 (B8, Wed), ............................... 883 (B8, Thu), 2549 (I3, Tue) Chan, Diane.....................................2806 (J6, Tue) Chan, Kwai..................................... 883 (B8, Thu) Chan, Kwong-Yu............................302 (B1, Wed), ....................... 1148 (B10, Wed), 1674 (B12, Tue) Chan, Maria............. 395 (B2, Tue), 561 (B4, Tue) Chan, Osbert................................2237 (E12, Tue) Chan, Ya Yun....................................... 5 (A1, Tue) Chandrasekaran, Rajeswari......... 1168 (B10, Thu) Chandrashekhar, MVS................. 1904 (E3, Mon) Chang, Chia-Feng.......................... 2260 (F2, Tue) Chang, Chorng-Ping....................2237 (E12, Tue) Chang, Chun................................. 2633 (J1, Mon) Chang, Donghee.............................. 875 (B8, Thu) Chang, Edward...............................1954 (E3, Thu) Chang, Hansen........ 98 (A1, Tue), 989 (B10, Tue) Chang, Jinho..................................... 15 (A1, Tue) Chang, Jiun-Jye............................. 2633 (J1, Mon) Chang, Li-Chung......156 (A2, Tue), 2450 (H1, Tue) Chang, Rui......................................921 (B9, Wed) Chang, Shao-Ju............................2153 (E10, Tue) Chang, Shih-Cheng...................... 2062 (E7, Mon) Chang, Shuai...................................2656 (J1, Tue) Chang, W.......................................1993 (E5, Wed) Chang, Wen-Sheng........................ 2266 (F2, Tue), .......................................................2590 (I3, Wed) Chang, Wen-Sheng..........................467 (B2, Wed) Chang, Wonyoung........................1079 (B10, Tue) Chang, Y.-L.................................... 209 (A2, Wed) Chang-Liao, Kuei-Shu...................2014 (E5, Thu) Chao, Ju-Hung..............................2134 (E8, Wed) Chao, Kuanglin...............................2806 (J6, Tue) Chao, Li-Chi................................1262 (B11, Sun) Chaplin, Brian................................. 247 (A3, Thu) Chapman, Karena.......................... 255 (B1, Mon), ............................. 833 (B8, Wed), 843 (B8, Wed), ........................................................934 (B9, Wed) Chappanda, Karumbaiah.............. 1825 (D5, Wed)

Charbonnier, Jean......................... 2052 (E7, Mon) Charnvanichborikarn, Supakit.......647 (B5, Wed), .....................................................2434 (H1, Mon) Chase, Gregory.......... 413 (B2, Tue), 587 (B4, Wed) Chatenet, Marian........................1396 (B11, Wed), ....................... 1443 (B11, Wed), 1556 (B11, Thu) Chater, Richard..............................2299 (F2, Thu) Chaudhuri, Santanu.....................1771 (D4, Mon), ........................................................ 2625 (I5, Tue) Chauvin, Christophe...................1515 (B11, Wed) Chavva, Venkataramana...............2237 (E12, Tue) Che Abd Rahman, Che Zuraini......... 2638 (J1, Mon) Cheah, Yan ling............................1016 (B10, Tue) Chebiam, Ramanan.......................2368 (F5, Mon) Cheek, Graham.........2481 (I1, Tue), 2605 (I4, Mon) Cheimets, Anna............................ 977 (B10, Mon) Chen, Baowei.............................1680 (B12, Wed), ....................................................1691 (B12, Wed) Chen, Chen.......1575 (B11, Thu),1588 (B11, Thu) Chen, Chi-Liang............................. 208 (A2, Wed) Chen, Chia-Hao.............................. 208 (A2, Wed) Chen, Chia-Wei.............................1981 (E4, Wed) Chen, Chih-Yao.............................2257 (F2, Mon) Chen, Chih-Yen............................ 2210 (E11, Tue) Chen, Ching-Hung.......................2175 (E10, Tue) Chen, Chun..................................2169 (E10, Tue) Chen, Chun-Yuan...........................2014 (E5, Thu) Chen, Chung..................................1954 (E3, Thu) Chen, Chunhua...........................1134 (B10, Wed), .................................................... 1167 (B10, Thu) Chen, Dapeng.................................. 1890 (E2, Fri) Chen, Di.......................................1011 (B10, Tue) Chen, Dongyang..........................1662 (B12, Tue) Chen, Fa-Hsyang..........................2175 (E10, Tue) Chen, Fanglin (Frank)..................... 760 (B6, Thu) Chen, Gang.................................... 174 (A2, Wed) Chen, Gen...................................1118 (B10, Wed) Chen, Gongping.........228 (A3, Tue), 242 (A3, Wed) Chen, Guangyu...........................1438 (B11, Wed) Chen, Guoying...............................439 (B2, Wed), ............................. 541 (B3, Wed), 922 (B9, Wed), ............................. 925 (B9, Wed), 931 (B9, Wed), .....................................................1069 (B10, Tue) Chen, Hailong..................................401 (B2, Tue) Chen, Han-Wen..............................2126 (E8, Tue) Chen, Hao....................................2237 (E12, Tue) Chen, Hao-Ming............................2567 (I3, Wed) Chen, Hsi-Jhu................................. 2397 (F5, Tue) Chen, Hsin.....................................1975 (E4, Tue) Chen, Hsuan Ching......................... 682 (B5, Thu) Chen, Hsun-Yi............................1696 (B12, Wed) Chen, Hung-Wei...........................1848 (E1, Wed) Chen, Jamie.................................. 2405 (G1, Wed) Chen, Jian..................................... 1723 (D1, Thu), .........................1777 (D4, Mon), 1802 (D5, Mon) Chen, Jian-Liang..........................1086 (B10, Tue) Chen, Jingguang..........................1367 (B11, Tue), ..................................................... 2422 (G2, Wed) Chen, Jingyi.................................... 129 (A1, Tue) Chen, Kevin J................................1942 (E3, Wed) Chen, Kezheng.............................1066 (B10, Tue) Chen, Kuei-Hsien...........................2578 (I3, Wed) Chen, Kuei-Hsien......................... 1957 (E4, Mon) Chen, Li........................................1254 (B11, Sun) Chen, Li-Chyong............................2578 (I3, Wed) Chen, Li-Chyong.......................... 1957 (E4, Mon) Chen, Li-Min..................................2124 (E8, Tue) Chen, Lih-Juann........................... 2210 (E11, Tue) Chen, Long-Qing............................579 (B4, Wed) Chen, Min.......................................746 (B6, Wed) Chen, Ming.....................................2649 (J1, Tue) Chen, Po-Hsueh...........................2175 (E10, Tue) Chen, Pu......................................... 372 (B2, Mon) Chen, Renjie............................... 2151 (E10, Mon) Chen, Rongrong.........................1526 (B11, Wed), ....................................................1534 (B11, Wed)

248

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Chen, Ru......................................1273 (B11, Tue) Chen, Shengli...............................1240 (B11, Sun) Chen, Shuru.........360 (B2, Mon), 988 (B10, Tue) Chen, Sin-An............................... 2210 (E11, Tue) Chen, Ssu....................................... 190 (A2, Wed) Chen, Tai-Chang............................ 200 (A2, Wed) Chen, Tzu-Yu............................... 1963 (E4, Mon) Chen, Wanjun................................1942 (E3, Wed) Chen, Wen-Chin.........374 (B2, Mon), 814 (B8, Tue) Chen, Wenbo..................................2010 (E5, Thu) Chen, Xi.......................................... 153 (A2, Tue) Chen, Xiao......................................935 (B9, Wed) Chen, Xiaobo................................ 1812 (D5, Tue) Chen, Xiaomei................................ 153 (A2, Tue) Chen, Xilin........... 530 (B2, Thu), 984 (B10, Tue), ..........................1153 (B10, Wed), 2379 (F5, Tue) Chen, Xin.................................... 1184 (B10, Thu) Chen, Yan........................................ 761 (B6, Thu) Chen, Yanjing...................................913 (B9, Tue) Chen, Ying..................................... 2268 (F2, Tue) Chen, Yong-Min............................ 2450 (H1, Tue) Chen, Yougui...............................1448 (B11, Wed) Chen, Yougui............................... 1602 (B11, Thu) Chen, Yu.......................................1344 (B11, Tue) Chen, Yu-Chih............................... 2448 (H1, Tue) Chen, Yu-Ze...................................1971 (E4, Tue) Chen, Yuhui......................................389 (B2, Tue) Chen, Zhi......................................... 1889 (E2, Fri) Chen, Zhongwei..........................1156 (B10, Wed) Chen-Wiegart, Yu-chen................. 261 (B1, Mon), ...........................765 (B6, Thu), 1173 (B10, Thu), .................................................... 1174 (B10, Thu) Cheng, Chao-Yu...........................2153 (E10, Tue) Cheng, Cheng-Wei........................1980 (E4, Wed) Cheng, Chieh........196 (A2, Wed), 206 (A2, Wed), ............................2175 (E10, Tue), 2673 (J1, Tue) Cheng, Chin.................................1071 (B10, Tue) Cheng, Jie..................................... 1741 (D2, Wed) Cheng, Juli...................................2153 (E10, Tue) Cheng, Jun......................................934 (B9, Wed) Cheng, Jun...................................... 2477 (I1, Tue) Cheng, Lei.......................................439 (B2, Wed) Cheng, Lin...................................1146 (B10, Wed) Cheng, Qian.........246 (A3, Wed), 725 (B6, Wed), ...........................1124 (B10, Wed), 2549 (I3, Tue) Cheng, Tien.................................2239 (E12, Wed) Cheng, Tommy.............................1303 (B11, Tue) Cheng, Xuan..................................580 (B4, Wed), .......................... 836 (B8, Wed), 1550 (B11, Thu), .........................1567 (B11, Thu), 1717 (D1, Wed) Cheng, Yi-Lung.............................1868 (E2, Wed) Cheng, Yun........... 688 (B5, Thu), 1230 (B10, Fri) Cheng, Yun........................................ 56 (A1, Tue) Cheng, Z.-Y....................................2822 (J6, Tue), ...............................2823 (J6, Tue), 2838 (J6, Tue) Cheng, Zhe...................................... 756 (B6, Thu) Cheong, Dong-ik.........................1043 (B10, Tue), .....................................................1045 (B10, Tue) Cherkaoui, K...............................2190 (E10, Wed) Chervin, Christopher...................... 512 (B2, Thu), ........................................................ 889 (B8, Thu) Cheung, Andrea............................... 223 (A3, Tue) Chevrier, Vincent........................1139 (B10, Wed) Chhetri, Pushpa............................ 2456 (I1, Mon), .......................................................2598 (I3, Wed) Chhina, Harmeet.........................1395 (B11, Wed) Chi, Lifeng......................................2673 (J1, Tue) Chi, Miaofang............................. 1177 (B10, Thu) Chiang, Chen-Kuo.......................... 1888 (E2, Fri) Chiang, Min-Feng......................... 2633 (J1, Mon) Chiang, Tai-Chin............................ 198 (A2, Wed) Chiang, Wei-Hung........................ 2443 (H1, Tue) Chiang, Yet-Ming.......................... 255 (B1, Mon), .............................260 (B1, Mon), 421 (B2, Wed), .............................. 423 (B2, Wed), 827 (B8, Wed) Chiappe, Daniele..........................2165 (E10, Tue)

Chiba, Aya........ 1710 (D1, Wed), 1773 (D4, Mon) Chiba, Hiroto................................1294 (B11, Tue) Chicanne, Cédric............................2350 (F4, Thu) Chick, Larry.................................... 752 (B6, Thu) Chidambaram, Dev..................... 1840 (D5, Wed), ...................................................... 2283 (F2, Wed) Chidambaram, Dev.....................1793 (D5, Mon), ........................1798 (D5, Mon), 1803 (D5, Mon), ..................................................... 1826 (D5, Wed) Chidsey, Christopher......................1869 (E2, Thu) Chien, Chin..................................2169 (E10, Tue) Chien, Chin-Cheng......................2153 (E10, Tue) Chigane, Masaya............................ 2272 (F2, Tue) Chikahisa, Takemi.......................1321 (B11, Tue), .................................................... 1543 (B11, Thu) Chikita, Hironori..........................2238 (E12, Tue) Chiku, Masanobu......... 85 (A1, Tue), 287 (B1, Tue), ..............................521 (B2, Thu), 654 (B5, Wed), ...................... 1517 (B11, Wed), 1528 (B11, Wed) Chin, Bryan............2815 (J6, Tue), 2817 (J6, Tue) Chinchilla, Jean............................1359 (B11, Tue) Chinnaiah, Sivakumar.....................2658 (J1, Tue) Chino, Yuji.........1504 (B11, Wed), 1505 (B11, Wed) Chintapalli, Mahati......................... 170 (A2, Tue) Chisaka, Mitsuharu..................... 1562 (B11, Thu) Chittur Krishnaswamy, Subramaniam................... ........................................................2781 (J4, Tue) Chiu, Sheng-Min..........................2153 (E10, Tue) Chiu, Wilson........778 (B7, Tue), 1317 (B11, Tue) Chiu, Yen-Wen............................... 2266 (F2, Tue) Chizawa, Suguru..............................558 (B4, Tue) Chladil, Ladislav............................338 (B1, Wed), ....................................................1488 (B11, Wed) Chlistunoff, Jerzy........................... 2474 (I1, Tue), ...................................................... 2608 (I4, Mon) Cho, An-thung............................... 2633 (J1, Mon) Cho, Eun-Seog.................................714 (B6, Tue) Cho, EunAe......1489 (B11, Wed), 1656 (B11, Fri) Cho, Gu Young...............................1873 (E2, Thu) Cho, Han-Moon..........................1477 (B11, Wed) Cho, Hyun-Seok...........................1260 (B11, Sun) Cho, In Sun....................................2593 (I3, Wed) Cho, In-Soo...................................2005 (E5, Wed) Cho, Jong-Soo.............................. 964 (B10, Mon) Cho, Joon Hee.................................458 (B2, Wed) Cho, Kangwoo...............................220 (A3, Mon) Cho, Keun-Woo...............................714 (B6, Tue) Cho, Kuk Young...........................1104 (B10, Tue) Cho, Kyehyun............................... 1728 (D1, Thu) Cho, Kyeongjae............................ 973 (B10, Mon) Cho, Kyu....................................1476 (B11, Wed), ....................... 1675 (B12, Tue), 1679 (B12, Wed) Cho, Moongi..................................2065 (E7, Tue) Cho, Myungdong........................... 237 (A3, Wed) Cho, Seongkoo........ 571 (B4, Tue), 573 (B4, Tue) Cho, Sung-baek...........................1043 (B10, Tue), .....................................................1045 (B10, Tue) Cho, Sung-Hwa...........................1516 (B11, Wed) Cho, Won Chul...... 744 (B6, Wed), 745 (B6, Wed) Cho, Woohyung.............................2047 (E6, Tue) Cho, Yoon-Sik.............................. 2097 (E8, Mon) Cho, Yujin.................................... 2098 (E8, Mon) Chocron, Sheryl..............................2661 (J1, Tue) Choe, Minhyeok......................... 2137 (E10, Mon) Choe, Song-yul........................... 1198 (B10, Thu) Choe, Yoong-Kee.........................1313 (B11, Tue) Choi, Byoung......2005 (E5, Wed), 2080 (E7, Tue) Choi, Byoungdeog........................1856 (E1, Wed) Choi, Chel-Jong............................1986 (E4, Wed) Choi, Daiwon......... 399 (B2, Tue), 422 (B2, Wed) Choi, Dongchul...............................2678 (J1, Tue) Choi, G. H....................................1280 (B11, Tue) Choi, Gyeong Man..........................722 (B6, Wed) Choi, Hanshin............................1461 (B11, Wed), ...................... 1499 (B11, Wed), 1516 (B11, Wed) Choi, Hee Seon...............................735 (B6, Wed)

Choi, Ho-Suk................................ 2437 (H1, Tue) Choi, Hoomi................................. 2098 (E8, Mon) Choi, In-Sik.....................................651 (B5, Wed) Choi, In-Suk................................. 953 (B10, Mon) Choi, InHyung.............................1042 (B10, Tue) Choi, J. Y......................................1280 (B11, Tue) Choi, Jae Ik..................................2309 (F3, Mon), ............................. 2707 (J3, Mon), 2727 (J3, Tue) Choi, Jae-man............................. 1178 (B10, Thu) Choi, Jaecheol.............................1090 (B10, Tue), .........................1103 (B10, Tue), 1104 (B10, Tue) Choi, Jaehyuck............................. 2107 (E8, Mon) Choi, JaeMin................................1042 (B10, Tue) Choi, Jang Wook............................ 369 (B2, Mon) Choi, Jin-Woo........2765 (J4, Tue), 2777 (J4, Tue) Choi, Jinho..........2065 (E7, Tue), 2091 (E7, Wed) Choi, Junyoul............................... 2107 (E8, Mon) Choi, Kyoung-Shin........................2568 (I3, Wed) Choi, Mansoo..................................850 (B8, Wed) Choi, Seong.................................... 378 (B2, Mon) Choi, Siyoung................................2073 (E7, Tue) Choi, Suhee.................................... 202 (A2, Wed) Choi, Woojin..................................2065 (E7, Tue) Choi, Woon Ih........ 2553 (I3, Tue), 2554 (I3, Tue) Choi, Young Jin.............................2008 (E5, Wed) Choi, Young-june.......................... 1732 (D1, Thu) Choi, Young-Woo........................1536 (B11, Wed) Choi, Zungsun......... 880 (B8, Thu), 1011 (B10, Tue) Chokai, Masayuki....................... 1564 (B11, Thu) Chong, Marina................................ 2548 (I3, Tue) Choo, Myeong-Ho..........................912 (B9, Tue), ........................................................946 (B9, Wed) Choo, Thye-Foo............................ 2638 (J1, Mon) Chorkendorff, Ib.....712 (B6, Tue), 2561 (I3, Tue) Chou, Hsing...... 2179 (E10, Wed), 2185 (E10, Wed) Chou, Li-Hsien........2615 (I4, Mon), 2616 (I4, Mon) Chou, Li-Jen................................. 2210 (E11, Tue) Chou, Shu-Wei............................... 2260 (F2, Tue) Chou, Shulei.................................... 517 (B2, Thu) Chou, Tsung-sheng.......................1076 (B10, Tue) Chou, Yi-Chia...............................1982 (E4, Wed) Chouarbi, Katia..............................2785 (J4, Wed) Choudhury, Moinul......................... 2484 (I1, Tue) Chourashiya, M. G.......................1054 (B10, Tue) Chowdhury, Fahad..................... 2145 (E10, Mon) Chowdhury, Nadim......................1849 (E1, Wed), ......................................................1850 (E1, Wed) Chowdhury, Saptarshi................... 1232 (B10, Fri) Choy, Kwang................................1023 (B10, Tue) Christensen, Randilynn....................388 (B2, Tue) Christiansen, Ane............................842 (B8, Wed) Christou, Aris.................................1926 (E3, Tue) Christy, Maria.................................510 (B2, Wed) Chu, Chih-Wei......2033 (E6, Tue), 2682 (J1, Tue) Chu, Jinn.......................................1993 (E5, Wed) Chu, Song-Zhu............................ 1716 (D1, Wed), ..................................................... 1830 (D5, Wed) Chu, Yeon-Yi................................ 964 (B10, Mon) Chu, Ying-Hao..............................1977 (E4, Tue), ..................................................... 2208 (E11, Tue) Chuang, Shun-Hsing...................... 2266 (F2, Tue) Chueh, Ti-Chiang........................... 205 (A2, Wed) Chueh, William...... 777 (B7, Tue), 829 (B8, Wed) Chueh, Yu-Lun..............................1968 (E4, Tue), ............................1971 (E4, Tue), 1975 (E4, Tue), ......................................................1981 (E4, Wed) Chun, Young-Gab...........................315 (B1, Wed) Chung, Brice................................... 513 (B2, Thu) Chung, Daehan...............................2799 (J4, Wed) Chung, Es.......................................2073 (E7, Tue) Chung, Gil.....................................1938 (E3, Wed) Chung, Hoon................................1313 (B11, Tue) Chung, Ilsub...................................2073 (E7, Tue) Chung, Kyung-Yoon.......................322 (B1, Wed) Chung, Saicheong...........................831 (B8, Wed) Chung, Sung-Yoon..........................937 (B9, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

249


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Chung, Yi-Chun............................. 2395 (F5, Tue) Chung, Yoonsung...........................2840 (J6, Tue), ........................................................2841 (J6, Tue) Chupas, Peter................................ 255 (B1, Mon), ............................. 833 (B8, Wed), 843 (B8, Wed), ........................................................934 (B9, Wed) Chuzawa, Takaaki.......................1060 (B10, Tue), .....................................................1077 (B10, Tue) Ciampi, Simone..........................2470 (I1, Mon), | ........................................................ 2484 (I1, Tue) Cid, Clement..................................220 (A3, Mon) Cilingir Dogan, Didem.................. 1632 (B11, Fri) Cimrovį, Věra.................................2723 (J3, Tue) Cimrova, Vera.................................2724 (J3, Tue) Cincotto, Fernando..........................2675 (J1, Tue) Cinotti, Serena...............................2035 (E6, Tue), ............................. 2328 (F4, Tue), 2339 (F4, Tue) Cinquanta, Eugenio......................2165 (E10, Tue) Ciofi, Ivan......................................2083 (E7, Tue) Ciosek, Katarzyna............................916 (B9, Tue) Claeys, Cor..................................2246 (E12, Wed) Clancey, Joel.................................1860 (E2, Wed) Clare, Laurie.................................. 140 (A1, Tue), .............................144 (A1, Tue), 2455 (I1, Mon), ........................................................ 2483 (I1, Tue) Clark, Andrew.. 1953 (E3, Thu), 2178 (E10, Wed) Clark, Blythe................................... 164 (A2, Tue) Clark, Robert.............................. 2139 (E10, Mon) Clarke, James................................2368 (F5, Mon) Clayton, Clive..............................1791 (D5, Mon) Clement, Jason.............................1669 (B12, Tue) Clendenning, Scott........................2368 (F5, Mon) Cliffel, David................................. 228 (A3, Tue), ............................ 242 (A3, Wed), 2589 (I3, Wed), ........................................................2653 (J1, Tue) Clima, Sergiu.................................1876 (E2, Thu) Cloots, Rudi................................... 173 (A2, Wed) Clouteau, Jeanne............................. 881 (B8, Thu) Co, Anne...........693 (B6, Mon), 1440 (B11, Wed) Cobb, B..........................................1872 (E2, Thu) Cobb, Corie.....................................583 (B4, Wed) Cochrane, C. J.............................. 1902 (E3, Mon) Coe-Sullivan, Seth..........................2729 (J3, Tue) Coelho, Dyovani............................. 123 (A1, Tue) Coffer, Jeffery................................2363 (F4, Thu) Cojocaru, Paula...........................1026 (B10, Tue), ......................................................2254 (F2, Mon) Cola, Baratunde............................ 2609 (I4, Mon), .......................................................2794 (J4, Wed) Colbow, Vesna............................. 1554 (B11, Thu) Cole, Ivan..................................... 1733 (D2, Wed) Coleman, Eric.............................1440 (B11, Wed) Coletta, Elyse..............................1394 (B11, Wed) Collin, Will.................................... 2634 (J1, Mon) Collins, Gillian................................451 (B2, Wed) Collins, John..........2736 (J3, Tue), 2739 (J3, Tue) Collins, Keith............................... 1719 (D1, Wed) Colombara, Diego..........................2043 (E6, Tue) Colombeau, Benjamin..................2237 (E12, Tue) Colson, Pierre................................. 173 (A2, Wed) Colwell, Rita..................................217 (A3, Mon) Commet, Sean............................. 1588 (B11, Thu) Comnea, Ionela...............................2812 (J6, Tue) Conard, Thierry............................2132 (E8, Wed), ....................................................2179 (E10, Wed) Concepcion, Javier...........................705 (B6, Tue) Conlisk, A. Terrence.................... 1200 (B10, Thu) Connelly, Guy..............................1791 (D5, Mon) Conrad, Olaf........ 283 (B1, Tue), 1242 (B11, Sun) Consiglio, Steve......................... 2139 (E10, Mon) Contento, Nicholas........................ 2755 (J4, Mon) Cook, Anthony............................. 1744 (D2, Wed) Cook, Clifford..............................1274 (B11, Tue) Cook, Rob......................................985 (B10, Tue) Cook, Stuart...................................2299 (F2, Thu) Coomarasamy, Coom................... 1734 (D2, Wed)

Cooney, Michael............................218 (A3, Mon) Cooper, David..............................2236 (E12, Tue) Cooper, John................................... 350 (B1, Thu) Cooper, Nathanial.......................1375 (B11, Wed) Cora, Furio.................................. 1616 (B11, Thu) Corbet, Chris.............................. 2145 (E10, Mon) Corey, Michael............................. 2056 (E7, Mon) Coridan, Robert..............................2568 (I3, Wed) Corpuz, April............................... 1576 (B11, Thu) Cosandey, Frederic......................1155 (B10, Wed) Cosimbescu, Lelia...........................422 (B2, Wed) Costa, Hugo................................1479 (B11, Wed) Costas, Andrea..............................2357 (F4, Thu), ......................................................2374 (F5, Mon) Cott, Daire...................................... 2391 (F5, Tue) Coughlin, Bryan..........................1698 (B12, Wed) Coughlin, E......... 1309 (B11, Tue), 1574 (B11, Thu) Coustan, Laura.................................617 (B5, Tue) Coutanceau, Christophe................. 149 (A2, Tue), ..........................1608 (B11, Thu), 1655 (B11, Fri) Coutier, Caroline.............................539 (B3, Wed) Couto, Andrea......2428 (G2, Wed), 2592 (I3, Wed Coyle, Chris.................................... 752 (B6, Thu) Crafton, James............................... 1622 (B11, Fri) Craig, Nathan................................ 2465 (I1, Mon) Cremers, Carsten.........................1358 (B11, Tue), ...................................................... 1657 (B11, Fri) Crepaldi, Laķs.................................319 (B1, Wed) Cresce, Arthur.................................910 (B9, Tue), ........................... 915 (B9, Tue), 1133 (B10, Wed) Crisostomo, David.......................... 228 (A3, Tue) Cristiano, Fuccio......................... 1899 (E3, Mon), ..................................................... 1900 (E3, Mon) Cristoloveanu, Sorin.................. 2215 (E12, Mon) Crittenden, Scott............................ 194 (A2, Wed) Croes, Kristof.................................2083 (E7, Tue) Croft, Mark..................................... 514 (B2, Thu) Croguennec, Laurence....................383 (B2, Tue), ........................................................841 (B8, Wed) Crone, Eric.....................................2582 (I3, Wed) Cronin, J.......................................... 765 (B6, Thu) Crosnier, Olivier.............................418 (B2, Wed), .............................. 621 (B5, Tue), 656 (B5, Wed), ..................................................... 975 (B10, Mon) Crossay, Alexandre........................2043 (E6, Tue) Crowther, Owen..............................475 (B2, Wed) Crowtz, Timothy......................... 1552 (B11, Thu) Croy, Jason......................................807 (B8, Tue), ............................... 809 (B8, Tue), 819 (B8, Tue), ..................................................... 958 (B10, Mon) Crumlin, Ethan................................. 65 (A1, Tue), .............................. 921 (B9, Wed), 925 (B9, Wed) Cruz, Joe.......................................2129 (E8, Wed) Cucinotta, Clotilde......................1457 (B11, Wed) Cuello, Ricardo............................. 2538 (I3, Mon) Cuesta, Angel..............................1451 (B11, Wed) Cui, Bo............................................866 (B8, Wed) Cui, Chunhua..............................1352 (B11, Tue), ........................ 1353 (B11, Tue), 1555 (B11, Thu) Cui, Hushan..................................2109 (E8, Tue), ........................2156 (E10, Tue), 2240 (E12, Wed) Cui, Yanhua.......1094 (B10, Tue), 1236 (B10, Fri) Cui, Yanhui.................................1147 (B10, Wed) Cui, Yanjie....................................... 520 (B2, Thu) Cui, Yi..................174 (A2, Wed), 234 (A3, Wed), ............................293 (B1, Wed), 2203 (E11, Tue) Cui, Yi-Tao...................................... 874 (B8, Thu) Cuiffo, Michael.............................2313 (F3, Mon) Cuisinier, Marine........................... 353 (B2, Mon) Culhane, William......................... 1747 (D2, Wed) Cullen, David..............................1245 (B11, Sun), ........................1308 (B11, Tue), 1350 (B11, Tue), ....................................................1411 (B11, Wed) Cumming, Denis............................. 753 (B6, Thu) Cummings, Peter............................. 673 (B5, Thu) Cummings, Steve........................ 1176 (B10, Thu)

Cunningham, Garry......................... 248 (A3, Thu) Curtiss, Larry..................................424 (B2, Wed) Cusick, Roland................................ 224 (A3, Tue) Cutler, Andrew............................... 267 (B1, Mon) Cuynet, Stéphane............................ 149 (A2, Tue) Cuypers, Daniel............................2130 (E8, Wed), ......................................................2132 (E8, Wed)

250

D

D’Evelyn, Mark............................1931 (E3, Wed) D’urso, Claudia........................... 1598 (B11, Thu) Da Silva, Rodrigo........................1529 (B11, Wed) Dadamos, Tony..... 199 (A2, Wed), 2670 (J1, Tue) Dadvand, Nazila............................. 2394 (F5, Tue) Daffos, Barbara........ 235 (A3, Wed), 607 (B5, Mon) Dafydd, Hefin...............................1776 (D4, Mon) Dahbi, Mohammed....................... 2458 (I1, Mon) Dahn, Jeff..............518 (B2, Thu), 549 (B3, Wed), ............................... 803 (B8, Tue), 804 (B8, Tue), .......................... 805 (B8, Tue), 1139 (B10, Wed), ..................... 1143 (B10, Wed), 1150 (B10, Wed), ..........................1211 (B10, Fri), 1552 (B11, Thu) Dahn, Jeff........... 818 (B8, Tue), 1056 (B10, Tue), ....................... 1134 (B10, Wed), 1167 (B10, Thu) Dai, Chih-Yang............................1671 (B12, Tue) Dai, Fang..............360 (B2, Mon), 988 (B10, Tue) Dai, Gui-Ping...............................2431 (H1, Mon) Dai, Jing..........................................2820 (J6, Tue) Dai, Kehua................................... 980 (B10, Mon) Dai, Sheng..............233 (A3, Tue), 522 (B2, Thu), ..............................524 (B2, Thu), 636 (B5, Wed), ........................................................ 673 (B5, Thu) Dai, Xing.................................... 2151 (E10, Mon) Daikhin, Leonid..........................1131 (B10, Wed) Daimaru, Akimasa...........................736 (B6, Wed) Daimon, Hideo...............................736 (B6, Wed), ..................... 1404 (B11, Wed), 1497 (B11, Wed), ..................... 1520 (B11, Wed), 1522 (B11, Wed), ....................................................1533 (B11, Wed) Dalchiele, Enrique..........................2044 (E6, Tue) Dale, Nilesh.........1305 (B11, Tue), 1306 (B11, Tue), .........................1510 (B11, Wed), 1644 (B11, Fri) Dale, Phillip..................................2043 (E6, Tue), ........................... 2252 (F1, Wed), 2602 (I4, Mon) Dalton-Castor, Sharon................. 1195 (B10, Thu) Damblanc, Gaetan...........................593 (B4, Wed) Dameron, Arrelaine.................... 1576 (B11, Thu), ........................................................ 2551 (I3, Tue) Damlencourt, Jean-Francois........2236 (E12, Tue) Dan, Zhenhua.................................. 169 (A2, Tue) Dandamudi, Pradeep.....................1990 (E5, Wed) Dang, Trung-Dung......................... 186 (A2, Wed) Daniel, Claus....................................272 (B1, Tue) Daniels, Flora..............................1373 (B11, Wed) Daniels, Kevin................................1951 (E3, Thu) Danilovic, Nemanja........................ 2621 (I5, Tue) Danner, Timo...................................410 (B2, Tue) Dao, Van-Duong........................... 2437 (H1, Tue) Darbandi, Masih............................2303 (F3, Mon) Dargis, Rytis......... 1953 (E3, Thu), 2178 (E10, Wed) Darling, Rob................................1692 (B12, Wed) Darr, Jawwad.......... 2299 (F2, Thu), 2375 (F5, Mon) Darriet, Jacques............................... 871 (B8, Thu) Darwish, Nadim............................ 2470 (I1, Mon) Das, Mayukhee............................1331 (B11, Tue) Dasgupta, A....................................1926 (E3, Tue) DasGupta, Sandeepan...................1919 (E3, Tue), ......................................................1943 (E3, Wed) Dasgupta, Subho..........................2433 (H1, Mon) Date, Manisha................................1975 (E4, Tue) Datta, Moni......................................289 (B1, Tue) Daubert, James........................... 1164 (B10, Thu), .................................................... 1165 (B10, Thu) Davenport, Alison....................... 1745 (D2, Wed), ......................... 1746 (D2, Wed), 1770 (D4, Mon) Davey, John.......1425 (B11, Wed), 1445 (B11, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Davidson, Jane................................786 (B7, Wed) Davis, Candace..............................2802 (J4, Wed) Davis, Ronald......... 1867 (E2, Wed), 2790 (J4, Wed) Davis, Ryan....................................2572 (I3, Wed) Davis, Guy.................................... 1766 (D3, Tue) Day, Harold..................................1256 (B11, Sun) Dayeh, Shadi.............................. 2151 (E10, Mon) De, Sumitava................................. 253 (B1, Mon), ..............................266 (B1, Mon), 2654 (J1, Tue) De Andrade, Adalgisa....................2587 (I3, Wed) De Andrade, Adalgisa.................... 229 (A3, Tue), .......................... 319 (B1, Wed), 1363 (B11, Tue), ....................................................1529 (B11, Wed) De Buttet, Come.............................2122 (E8, Tue) De Feyter, Steven............................ 2631 (I5, Tue) De Gendt, Stefan......................... 2096 (E8, Mon), ............................ 2111 (E8, Tue), 2115 (E8, Tue), ...........................2116 (E8, Tue), 2130 (E8, Wed), ........................2132 (E8, Wed), 2179 (E10, Wed), ......................................................2372 (F5, Mon) de J. Carrillo Romo, Felipe.............2730 (J3, Tue) De Long, Hugh................................. 53 (A1, Tue), ............................... 624 (B5, Tue), 669 (B5, Wed) De Luca, Antonio...........................2035 (E6, Tue) de Queiroz, Daniely....................... 199 (A2, Wed) de Salvo, Barbara..........................1988 (E5, Wed) De Stefano, F................................2158 (E10, Tue) de Vries, Henrik............................. 379 (B2, Mon) de Vries, Marnix.......................... 1610 (B11, Thu) Deaton, Joseph...............................2030 (E6, Tue) Deb, Aniruddha................................616 (B5, Tue) Debnath, Ratan..............................2034 (E6, Tue), ..................................................... 2205 (E11, Tue) Deconinck, Johan........................ 1837 (D5, Wed), ............................2067 (E7, Tue), 2089 (E7, Wed) Decoster, Stefan............................. 2111 (E8, Tue) Dedryvčre, Rémi..............................383 (B2, Tue) Dees, Dennis.......826 (B8, Wed), 960 (B10, Mon) Deevanhxay, Phengxay...............1295 (B11, Tue), .........................1298 (B11, Tue), 1361 (B11, Tue) DeGiorgi, Virginia.......................1782 (D4, Mon), .....................................................1783 (D4, Mon) DeHaven, Patrick...........................2075 (E7, Tue) Dehkhoda, Amir Mehdi................. 611 (B5, Mon) Deiana, Davide.................................712 (B6, Tue) Deki, Shigehito..........................1504 (B11, Wed), ....................................................1505 (B11, Wed) Dekkers, Hendrik...........................1881 (E2, Thu) Delaille, Arnaud.......................... 1191 (B10, Thu) Delande, Tinne............................... 2115 (E8, Tue) Delaporte, Nicolas.......................... 106 (A1, Tue), ........................................................865 (B8, Wed) Delgadino, Gerardo........................ 2112 (E8, Tue) Delhalle, Joseph............................. 167 (A2, Tue), ..............................171 (A2, Wed), 172 (A2, Wed) Delmas, Claude............................... 871 (B8, Thu) Delnick, Frank..............................1665 (B12, Tue) Delp, Samuel..................................834 (B8, Wed), ........................1182 (B10, Thu), 1183 (B10, Thu) Delpuech, N.....................................273 (B1, Tue) Demarest, James............................2075 (E7, Tue) Demirci, Gökhan........................... 2343 (F4, Wed) Demopoulos, George.....................837 (B8, Wed), .............................881 (B8, Thu), 2308 (F3, Mon) Denayer, Jessica............................. 173 (A2, Wed) Deng, Yafeng................................. 1236 (B10, Fri) Dennison, Christopher................... 107 (A1, Tue), ..........................601 (B5, Mon), 1662 (B12, Tue), ........................ 1663 (B12, Tue), 1678 (B12, Tue) Denoyel, Renaud............................. 529 (B2, Thu) Denuault, Guy............................... 2537 (I3, Mon) Depredurand, Valérie.....................2043 (E6, Tue) Deputier, Stephanie.....................2177 (E10, Wed) Derby, Brian................................... 187 (A2, Wed) Derenge, M....................................1917 (E3, Tue) Derer, Jan.......................................1878 (E2, Thu)

Deriy, Alex.......................................778 (B7, Tue) Derylo, Maksymilian.................... 2462 (I1, Mon) Deschamps, Marc............................502 (B2, Wed) Deschamps, Michaėl.......................841 (B8, Wed) Deshpande, Rutooj........................ 1208 (B10, Fri) Deshusses, Marc............................. 248 (A3, Thu) DeSimone, Joseph.......................1132 (B10, Wed) Desouza, Annika........................... 1820 (D5, Tue) Detavernier, C..............................2158 (E10, Tue) Detchphrom, Theeradetch.............1928 (E3, Wed) Detrembleur, Christophe..............2430 (H1, Mon) Deutsch, Todd...... 2543 (I3, Mon), 2551 (I3, Tue) Devaux, Didier...............................502 (B2, Wed), ....................................................1132 (B10, Wed) Devie, Arnaud............................... 1217 (B10, Fri) Devillers, Sébastien........................ 167 (A2, Tue), ..............................171 (A2, Wed), 172 (A2, Wed) Devine, Roderick...................... 2138 (E10, Mon), ................................................... 2141 (E10, Mon) Devulder, W.................................2158 (E10, Tue) Dhar, Sarit.................................... 1897 (E3, Mon) Dharmadasa, I. M...........................2036 (E6, Tue) Dharmadasa, Ruvini.......................2036 (E6, Tue) Di Bartolo, Baldassare....................2739 (J3, Tue) Di Benedetto, Francesco...............2035 (E6, Tue), ............................. 2328 (F4, Tue), 2335 (F4, Tue) Di Blasi, Alessandra........................301 (B1, Wed) Di Blasi, Orazio.........301 (B1, Wed), 667 (B5, Wed) Di Cioccio, Lea.......................... 2215 (E12, Mon) Di Noto, Vito......... 461 (B2, Wed), 1309 (B11, Tue), ....................... 1574 (B11, Thu), 1698 (B12, Wed) Diao, Guowang...............................2649 (J1, Tue) Diao, Weijian.................................... 24 (A1, Tue) Dias, Paulo...................................... 754 (B6, Thu) Diaz, Luis............ 249 (A3, Thu), 2402 (G1, Wed) Dķaz, Patricia.................................. 2500 (I1, Tue) Dichtel, William................................ 37 (A1, Tue) Dick, Luis Frederico Pineiro........... 877 (B8, Thu) Dickerson, James.........................2303 (F3, Mon), ...........................2310 (F3, Mon), 2318 (F3, Tue), ....................................................... 2320 (F3, Tue) Dickey, Michael.............................2796 (J4, Wed) Didier, Christophe........................... 871 (B8, Thu) Didierjean, Sophie...................... 1578 (B11, Thu), ........................1582 (B11, Thu), 1583 (B11, Thu) Diduck, Quentin............................1932 (E3, Wed) Dieci, Maurizio............................. 2444 (H1, Tue) Diedrichs, Anja...........................1318 (B11, Tue), ....................................................1372 (B11, Wed) Diercks, David............................1245 (B11, Sun), .....................................................1308 (B11, Tue) Dietz, Nancy.................................. 362 (B2, Mon) DiFalco, A.....................................2371 (F5, Mon) Dilgin, Yusuf..................................2527 (I2, Wed) Dillet, Jérōme..............................1288 (B11, Tue), ...................... 1387 (B11, Wed), 1578 (B11, Thu), ........................1582 (B11, Thu), 1583 (B11, Thu) Dillich, Sara.................................. 2532 (I3, Mon) Dimitrakopulos, George............... 2212 (E11, Tue) Dimitrov, Nikolay......................... 2330 (F4, Tue), ......................................................2370 (F5, Mon) Dimov, Nikolay......478 (B2, Wed), 532 (B2, Thu) Ding, Changsheng.........................2257 (F2, Mon) Ding, Fei............... 530 (B2, Thu), 2379 (F5, Tue) Ding, Jing-Jing.................................406 (B2, Tue) Ding, Markus.............................1476 (B11, Wed), .....................................................1675 (B12, Tue) Dinh, Huyen........1331 (B11, Tue), 1335 (B11, Tue), ........................ 1336 (B11, Tue), 1576 (B11, Thu) Dinh, Thi Hong Nhung..................2783 (J4, Wed) Dion, Genevieve.............................. 53 (A1, Tue), ............................... 624 (B5, Tue), 669 (B5, Wed) Dix, John..........................................623 (B5, Tue) Djara, V.......................................2190 (E10, Wed) Djellab, Karim................................. 529 (B2, Thu)

Djenizian, Thierry..........................644 (B5, Wed), ........................... 877 (B8, Thu), 1145 (B10, Wed) Djilali, Ned..................................1430 (B11, Wed) Djire, Abdoulaye..............................616 (B5, Tue) Do, Binh.........................................1954 (E3, Thu) Do, Inhwan.................................. 1171 (B10, Thu) Do Carmo, Devaney......................... 28 (A1, Tue), ............................ 1722 (D1, Wed), 2667 (J1, Tue) Dobrzeniecka, Anna........................ 2491 (I1, Tue) Doeff, Marca..................................439 (B2, Wed), ............................. 444 (B2, Wed), 447 (B2, Wed), ............................. 845 (B8, Wed), 846 (B8, Wed), .........................................................917 (B9, Tue) Dogan, Fulya................................. 371 (B2, Mon), .............................809 (B8, Tue), 956 (B10, Mon) Dogdibegovic, Emir.......................743 (B6, Wed), ........................................................ 762 (B6, Thu) Doi, Kotaro.................................. 1838 (D5, Wed) Doi, Takayuki..............................1060 (B10, Tue), ........................ 1062 (B10, Tue), 1087 (B10, Tue) Doi, Takayuki....... 436 (B2, Wed), 582 (B4, Wed), ..............................893 (B8, Fri), 1077 (B10, Tue) Dollé, Mickael.................................460 (B2, Wed) Domen, Kazunari............................ 2546 (I3, Tue) Domi, Yasuhiro................................. 893 (B8, Fri) Dong, Chung-Li............................. 208 (A2, Wed) Dong, Jian................................... 1184 (B10, Thu) Dong, Quanfeng..........................1120 (B10, Wed) Dong, Yajie.....................................421 (B2, Wed) Dong, Zhenghong..........................1966 (E4, Tue) Donmez, Inci................................... 1887 (E2, Fri) Donne, Scott...............92 (A1, Tue), 93 (A1, Tue), ..............................254 (B1, Mon), 286 (B1, Tue), ..............................609 (B5, Mon), 618 (B5, Tue), ............................. 657 (B5, Wed), 658 (B5, Wed), ..............................659 (B5, Wed), 677 (B5, Thu), .............................. 783 (B7, Wed), 784 (B7, Wed) Donten, Mikolaj........................... 1844 (D6, Tue), ....................................................... 2334 (F4, Tue) Dontigny, Martin..............................271 (B1, Tue) Doo, Seok-Kwang..........................457 (B2, Wed), .........................973 (B10, Mon), 1178 (B10, Thu) Doris, Sean.......................................115 (A1, Tue) Dorp, Dennis H............................2130 (E8, Wed), ......................................................2132 (E8, Wed) Dos Santos, Leslie.......................1388 (B11, Wed) Dosche, Carsten............................ 2537 (I3, Mon) Döscher, Henning............................ 2551 (I3, Tue) Dose, Wesley............93 (A1, Tue), 254 (B1, Mon) Douard, Camille...............................619 (B5, Tue) Doublet, Marie-Liesse.....................840 (B8, Wed) Doumen, Geert............................... 2115 (E8, Tue) Dow, Wei-Ping............................ 2061 (E7, Mon), .......................... 2062 (E7, Mon), 2071 (E7, Tue), ............................. 2384 (F5, Tue), 2395 (F5, Tue) Dowd, Regis.................................1339 (B11, Tue) Dowling, Katie................................ 157 (A2, Tue) Downey, Bradley...........................1931 (E3, Wed) Downey, Brian...............................1912 (E3, Tue) Downie, Laura............................1139 (B10, Wed), ...................................................... 1211 (B10, Fri) Doyle, Fiona.....................................614 (B5, Tue) Dozortsev, Vladimir....................... 2114 (E8, Tue) Dragoi, Viorel................................2074 (E7, Tue) Dranka, Maciej.................................385 (B2, Tue) Drayman-Weisser, T........................ 1886 (E2, Fri) Dridi, Yosra.....................................949 (B9, Wed) Driesen, Kris....................................907 (B9, Tue) Drnec, Jakub..................................2356 (F4, Thu) Dross, Robert..............................1410 (B11, Wed) Druffel, Thad..................................2036 (E6, Tue) Du, Chenqiang............................1147 (B10, Wed) Du, Lin-Shu.....................................401 (B2, Tue) Du, Shuanglong....... 688 (B5, Thu), 1230 (B10, Fri) Du, Wenxin................................. 1601 (B11, Thu) Du Bois, Bert................................ 2646 (J1, Mon)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

251


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Du Plessis, Andrew..................... 1745 (D2, Wed), ..................................................... 1746 (D2, Wed) Duan, Song...................................1027 (B10, Tue) Duan, Zongfan...............................2026 (E6, Tue) Dubarry, Matthieu......................... 1217 (B10, Fri) Dubau, Laetitia...........................1443 (B11, Wed), .................................................... 1556 (B11, Thu) Dubois, Lionel.............................. 975 (B10, Mon) Dubrunfaut, Olivier........................... 898 (B8, Fri) Duclairoir, Florence..................... 975 (B10, Mon) Duclaud, Franēois....................... 1191 (B10, Thu) Dudek, Lisa..................................... 889 (B8, Thu) Dudley, Michael............................1938 (E3, Wed) Dudney, Nancy................................272 (B1, Tue), .............................312 (B1, Wed), 377 (B2, Mon), ............................. 437 (B2, Wed), 440 (B2, Wed), ..............................441 (B2, Wed), 522 (B2, Thu), ..............................524 (B2, Thu), 597 (B4, Wed), .............................. 838 (B8, Wed), 930 (B9, Wed) Dufek, Eric........... 718 (B6, Wed), 932 (B9, Wed), ......................... 1194 (B10, Thu), 1219 (B10, Fri) Dufficy, Martin.................................. 75 (A1, Tue) Dumortier, Mikael...........................729 (B6, Wed) Dumur, Frederic..........................1145 (B10, Wed) Dunaev, Anatoliy..............................770 (B7, Tue) Duncan, Hugues.............................922 (B9, Wed), ............................. 925 (B9, Wed), 931 (B9, Wed), .....................................................1069 (B10, Tue) Dunlap, Richard................................34 (A1, Tue , ..........................1056 (B10, Tue), 1232 (B10, Fri) Dunn, Bruce...........268 (B1, Mon), 613 (B5, Tue) Dunn, Kathleen.............................. 2386 (F5, Tue) Dunstan, Matthew...........................934 (B9, Wed) Duoss, Eric..................................... 251 (B1, Mon) Dupont, Madeleine........................ 609 (B5, Mon), .............................. 658 (B5, Wed), 659 (B5, Wed) Dupré, N...........................................273 (B1, Tue) Dupré, Nicolas................................418 (B2, Wed) Dupuis, Russell.............................1928 (E3, Wed) Dura, Joseph................................1406 (B11, Wed) Durkin, David.................................. 53 (A1, Tue), . ............................... 624 (B5, Tue), 669 (B5, Wed) Dursch, Thomas..........................1421 (B11, Wed) Durst, Julien................................1364 (B11, Tue), ...................... 1396 (B11, Wed), 1443 (B11, Wed) Durut, Frédéric...............................2350 (F4, Thu) Durward, Elizabeth.....................1435 (B11, Wed) Dussarrat, Christian.......................1864 (E2, Wed) Dutta, Monica............................. 1554 (B11, Thu) Dutta, Partha..................................2747 (J3, Wed) Dutton, Robert...............................1867 (E2, Wed) Dyatkin, Boris................................. 675 (B5, Thu) Dyck, Alexander..........................1275 (B11, Tue) Dyer, David.....................................2815 (J6, Tue) Dylla, Anthony....... 442 (B2, Wed), 906 (B9, Tue) Dzhabarov, Vagif........2723 (J3, Tue), 2724 (J3, Tue) Dzwonek, Maciej.......................... 2440 (H1, Tue)

Edström, Kristina.......................... 380 (B2, Mon), .............................. 455 (B2, Wed), 916 (B9, Tue), .......................... 943 (B9, Wed), 1030 (B10, Tue), ....................... 1047 (B10, Tue), 1084 (B10, Tue), ........................1125 (B10, Wed), 1233 (B10, Fri), ........................... 2282 (F2, Wed), 2458 (I1, Mon) Eduardo Enciso, Eduardo................474 (B2, Wed) Edwards, Andrew..........................1932 (E3, Wed) Edwards, Danny.............................. 752 (B6, Thu) Egashira, Keisuke.......................... 2117 (E8, Tue) Egoshi, Haruki..............................2092 (E7, Wed) Eguchi, Naoki.............................1509 (B11, Wed) Eguķa, Aitor....................................445 (B2, Wed) Ehrenberg, Helmut..........................588 (B4, Wed) Ehrentraut, Dirk............................1931 (E3, Wed) Eichhorn, Bryan...............................780 (B7, Tue) Eikerling, Michael...........................630 (B5, Tue), ......................1117 (B10, Wed), 1391 (B11, Wed), ..................... 1426 (B11, Wed), 1442 (B11, Wed), ....................................................1444 (B11, Wed) Eisenbraun, Eric......................... 2217 (E12, Mon) Eizenberg, Moshe...................... 2144 (E10, Mon) El, M............................................ 1901 (E3, Mon) El Gabaly, Farid..... 777 (B7, Tue), 829 (B8, Wed) El hadad, Amir............................. 1841 (D5, Wed) El Khakani, Soumia.................... 1189 (B10, Thu) El Khakani, Soumia.................... 1188 (B10, Thu) El-Helw, Sarah...............................2011 (E5, Thu) Elabd, Yossef................................... 675 (B5, Thu) Elagin, Andrey..............................1858 (E2, Wed) Elam, Jeffrey..................................452 (B2, Wed), ........................ 961 (B10, Mon), 981 (B10, Mon), ......................... 1028 (B10, Tue), 1858 (E2, Wed) Elangovan, S...................................716 (B6, Wed) Elbaz, Lior................................... 1619 (B11, Thu) Elder, Rachael................................. 753 (B6, Thu) Elhassid, Dror..................................815 (B8, Tue) Elias, Jamil.....................................2511 (I2, Mon) Elkaim, Eric.................................... 871 (B8, Thu) Eller, Jens.........1297 (B11, Tue), 1320 (B11, Tue) Elliott, Corrine................................543 (B3, Wed) Elliott, Sean..................................... 228 (A3, Tue) Ellis, Naoko.................................... 611 (B5, Mon) Ellison, Christopher........................458 (B2, Wed) Ellison, Nicole.............................1142 (B10, Wed) Ellmer, Klaus...................................707 (B6, Tue) Ellsworth, Ashley..........................2369 (F5, Mon) Elsayed-Ali, Hani........................... 166 (A2, Tue), ......................................................1864 (E2, Wed) Elwasif, Wael..................................572 (B4, Tue), ........................... 1210 (B10, Fri), 1229 (B10, Fri) Emaminejad, Sam.........................1867 (E2, Wed) Emek, Sinan...................................2527 (I2, Wed) Emery, Nicolas................................ 884 (B8, Thu) Emmler, Thomas............................. 2559 (I3, Tue) Enculescu, Ionut............................2357 (F4, Thu), ......................................................2374 (F5, Mon) Enculescu, Monica.........................2357 (F4, Thu) Ender, Moses.........900 (B8, Fri), 1099 (B10, Tue) Endo, Daisuke................................. 874 (B8, Thu) Endres, Frank....... 2322 (F4, Tue), 2388 (F5, Tue) Engbrecht, Edward......................2239 (E12, Wed) Engelberg, Dirk............................ 1744 (D2, Wed) Engelhard, Mark.............................425 (B2, Wed) Engelhardt, George......................1792 (D5, Mon) Engl, Tom....................................1413 (B11, Wed) Engstrom, Allison............................614 (B5, Tue) Eom, KwangSup........................ 1171 (B10, Thu), ...................................................... 1656 (B11, Fri) Ephsteyn, Albert..........................1383 (B11, Wed) Epshteyn, Albert...............................701 (B6, Tue) Epur, Rigved..................................986 (B10, Tue) Erbe, Andreas.................................. 155 (A2, Tue) Erdogan, Metehan........................ 2343 (F4, Wed), ............................2353 (F4, Thu), 2401 (F5, Wed) Erdonmez, Can................................ 514 (B2, Thu)

Ergun, Selin.....................................543 (B3, Wed) Erickson, Jeffrey............................. 2524 (I2, Tue) Ericsson, Tore...............................1030 (B10, Tue) Eriksson, Sten................................ 262 (B1, Mon) Erk, Christoph.............................. 978 (B10, Mon) Erkens, Ivo.....................................1882 (E2, Thu) Erlbacher, Tobias.......................... 1899 (E3, Mon) Erlebacher, Jonah.........................1350 (B11, Tue) Erol, Salim...................................1108 (B10, Tue) Errico, Michael............................1351 (B11, Tue) Eryilmaz, Levent..........................1006 (B10, Tue) Esaki, Shogo..................................... 91 (A1, Tue) Esaki, Shogo................................ 982 (B10, Mon) Esat, Burak...................................... 519 (B2, Thu) Esbenshade, Jennifer.......................935 (B9, Wed) Escobar, Beatriz..........................1523 (B11, Wed) Escudero, Carlos............................. 170 (A2, Tue) Escudero-Escribano, Maria..............712 (B6, Tue) Eskusson, Jaanus.............................662 (B5, Wed) Espinoza, Laura................................901 (B9, Tue) Esposito, Daniel.............................. 2560 (I3, Tue) Estejab, Ali...................................... 249 (A3, Thu) Eustache, Etienne............................615 (B5, Tue), .............................. 619 (B5, Tue), 1875 (E2, Thu) Evers, Scott.................................... 353 (B2, Mon) Evers, Stefan................................ 1738 (D2, Wed) Extrand, C............2120 (E8, Tue), 2127 (E8, Tue) Eychmüller, Alexander................1398 (B11, Wed)

E

Eaker, Collin..................................2796 (J4, Wed) Ebbesen, Sune................................. 755 (B6, Thu) Ebeling, Daniel.............................. 244 (A3, Wed) Eberhardt, Sebastian....................1319 (B11, Tue) Ebrahim, Shaker.............................2049 (E6, Tue) Ebrahimi, Ali................................. 1228 (B10, Fri) Ecker, Madeleine.............................567 (B4, Tue) Eckert, Jürgen.................................588 (B4, Wed) Edagawa, Kazuaki..........................2773 (J4, Tue), .......................................................2804 (J4, Wed) Eddahech, Akram........................ 1191 (B10, Thu) Eddy, Charles................................1912 (E3, Tue), ..........................1930 (E3, Wed), 2206 (E11, Tue) Eddy Jr., Charles......................... 1903 (E3, Mon), ..................................................... 1907 (E3, Mon) Edelstein, Daniel...........................1883 (E2, Thu), .......................................................2075 (E7, Tue) 252

F

Fabbri, Emiliana.............................283 (B1, Tue) , ........................... 1630 (B11, Fri), 2274 (F2, Wed) Fagg, Duncan.................................. 754 (B6, Thu) Faichuk, Melissa..........................1794 (D5, Mon) Fairweather, Joseph.....................1289 (B11, Tue), ........................1290 (B11, Tue), 1292 (B11, Tue), ...................... 1445 (B11, Wed), 1578 (B11, Thu), .................................................... 1583 (B11, Thu) Falcony, Ciro..........2743 (J3, Tue), 2744 (J3, Tue) Falgenhauer, Jane..........................2373 (F5, Mon) Falk, Magnus.................................. 2517 (I2, Tue) Falola, Bamidele.............................2691 (J2, Tue) Fan, Fang-Yu................................ 1699 (D1, Wed) Fan, Frank.......................................421 (B2, Wed) Fan, Louzhen................................. 2439 (H1, Tue) Fan, Wen........................................1972 (E4, Tue) Fan, Ye..........................7 (A1, Tue), 86 (A1, Tue) Fan, Zetan..................................... 2439 (H1, Tue) Fan, Zhiyong.................................1965 (E4, Tue), .............................1969 (E4, Tue), 1970 (E4, Tue) Fanciulli, Marco...........................2165 (E10, Tue) Fang, Baizeng.................................655 (B5, Wed) Fang, Jung-Ying..........................2194 (E11, Mon) Fang, Kuan Chung......................2194 (E11, Mon) Fang, Qianrong.......................... 1571 (B11, Thu), ..................................................... 2422 (G2, Wed) Fang, Xin..................................... 979 (B10, Mon) Fang, Zhigang.............................1157 (B10, Wed) Fanget, Axel.................................. 2537 (I3, Mon) Farcy, Alexis................................ 2052 (E7, Mon) Farigliano, Lucas............................ 2323 (F4, Tue) Farley, Ken.......................................767 (B7, Tue) Farrell, James.................................. 247 (A3, Thu) Fashedemi, Omobosede..................309 (B1, Wed) Fauler, Gisela..................................537 (B3, Wed) Favela, Carlos................................. 2518 (I2, Tue) Favia, Paola.................................2179 (E10, Wed) Favier, Frederic............................. 607 (B5, Mon), ............................... 617 (B5, Tue), 2651 (J1, Tue) Favier, Sylvie...............................2236 (E12, Tue) Fayette, Matthew........................... 2330 (F4, Tue), ......................................................2370 (F5, Mon) Faynot, Oliver............................ 2213 (E12, Mon) Fearn, Sarah...................................2299 (F2, Thu) Fedkiw, Peter..................................... 75 (A1, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Fei, Ling............................................. 9 (A1, Tue), ........................... 887 (B8, Thu), 1115 (B10, Wed) Felici, Roberto......2351 (F4, Thu), 2356 (F4, Thu) Feliciano, Yira..................................... 3 (A1, Tue) Feng, Caihong..............................1105 (B10, Tue) Feng, Fangxia.............................. 1609 (B11, Thu) Feng, Guang.................................... 673 (B5, Thu) Feng, Hai........................................... 47 (A1, Tue) Feng, Zhicao................................ 1748 (D2, Wed) Feng, Zhihong...............................1942 (E3, Wed) Feng, Zimin.....................................584 (B4, Wed) Feng, Zude................................... 1702 (D1, Wed) Fenske, Daniela..............................2611 (I4, Mon) Fenter, Paul........ 935 (B9, Wed), 1028 (B10, Tue) Fenton, James............................. 1270 (B11, Mon) Fenton, Kyle..........265 (B1, Mon), 550 (B3, Wed) Fergus, J...................................... 1198 (B10, Thu) Ferguson, Scott...........................1463 (B11, Wed) Fernandez Zuvich, Afra..................801 (B7, Wed) Fernandez-Fenaroli, Bonnie............2809 (J6, Tue) Fernando, Ashantha........................2577 (I3, Wed) Ferrand, Julien................................. 1884 (E2, Fri) Ferrandon, Christine.................... 2052 (E7, Mon) Ferreira, Mįrio............................. 1701 (D1, Wed), ............................1804 (D5, Tue), 1814 (D5, Tue) Ferreira, Neidenei..........................653 (B5, Wed), .........................2427 (G2, Wed), 2428 (G2, Wed), .......................................................2592 (I3, Wed) Ferrese, Anthony............................. 527 (B2, Thu) Fetteha, Mohamed..........................2049 (E6, Tue) Feygelson, Tatyana.......................1930 (E3, Wed), ..................................................... 2206 (E11, Tue) Feyzizarnagh, Hamid......................2703 (J2, Tue) Fichtner, Maximilian......................435 (B2, Wed), ........................................................ 515 (B2, Thu) Fiechter, Sebastian..........................707 (B6, Tue), ........................................................ 2547 (I3, Tue) Fields, Jorie.....................................730 (B6, Wed) Figueira, Rita..... 1701 (D1, Wed), 1725 (D1, Thu) Filippi, Jonathan.............................733 (B6, Wed), ........................ 1531 (B11, Wed), 2403 (G1, Wed) Findeis, Paul................................2239 (E12, Wed) Findlay, Melvin............................ 2617 (I4, Mon), ............................2637 (J1, Mon), 2795 (J4, Wed) Fiorini, Paolo.................................2787 (J4, Wed) Firouz, Yousef............................ 1169 (B10, Thu), .......................... 1220 (B10, Fri), 1222 (B10, Fri), ...................................................... 1224 (B10, Fri) Fischer, Anna.................................. 2562 (I3, Tue) Fischer, Inga............................... 2216 (E12, Mon) Fischer, Peter................................. 1767 (D3, Tue) Fischer, Remington.....................1386 (B11, Wed) Fischetti, Massimo.......................2166 (E10, Tue) Fisher, Craig.....................................555 (B4, Tue) Fister, Timothy....... 935 (B9, Wed), 1028 (B10, Tue) Fitch, Alanah................................... 222 (A3, Tue) Fitzner, Krzysztof.............................. 48 (A1, Tue) Fitzpatrick, Joe................................2696 (J2, Tue) Flake, John.............135 (A1, Tue), 691 (B6, Mon) Flechet, Bernard.......................... 2052 (E7, Mon), ....................................................2177 (E10, Wed) Fleminger, Gideon........................ 2757 (J4, Mon) Flick, Sarah.................................1416 (B11, Wed) Flicker, Jack...................................1919 (E3, Tue) Flores, Jose......................................335 (B1, Wed) Florica, Camelia............................2357 (F4, Thu), 2374 (F5, Mon) Flügel, Alexander.......................... 2398 (F5, Wed) Flygare, Josh.................................. 267 (B1, Mon) Flynn, Patrick.................................2123 (E8, Tue) Fogel, Ronen................................... 230 (A3, Tue) Fok, Eddie....................................1024 (B10, Tue) Foley, Jackson..............................1351 (B11, Tue) Fondell, Mattis................................ 2563 (I3, Tue) Fonder, Grégory............................. 172 (A2, Wed) Fong, Scott.....................................2022 (E5, Thu)

Fons, Paul.......................................2024 (E5, Thu) Fonseca, Carla.................................653 (B5, Wed) Fontaine, Hervé.............................2136 (E8, Wed) Fontinha, I. Rute.......................... 1701 (D1, Wed) Forbert, Rainald.............................999 (B10, Tue) Ford, Alexandra..............................2030 (E6, Tue) Forde - Tuckett, Victoria.................2830 (J6, Tue) Foresti, Maria................................ 2267 (F2, Tue), .............................2328 (F4, Tue), 2351 (F4, Thu) Forgez, Christophe...................... 1191 (B10, Thu) Forgie, John................................ 1188 (B10, Thu), ..........................1189 (B10, Thu), 2604 (I4, Mon) Forman, Arnold..........................1437 (B11, Wed), .......................................................2580 (I3, Wed) Forouzandeh, Farisa.................... 1609 (B11, Thu) Forro, Lįszlo.................................. 2537 (I3, Mon) Forse, Alexander............................. 674 (B5, Thu) Forster, Jason...............................1095 (B10, Tue) Forster, Magdalena...........................274 (B1, Tue) Fossdal, Anita..................................857 (B8, Wed) Fossum, Jerry................................1933 (E3, Wed) Foster, Michael...............................2030 (E6, Tue) Fountaine, Katherine......................2568 (I3, Wed) Fourgeot, Fabrice............................509 (B2, Wed) France, Ryan................................... 2551 (I3, Tue) Francis, Laurent............................ 2646 (J1, Mon) Frandsen, Cathrine..........................842 (B8, Wed) Frank, Curtis..............................1394 (B11, Wed), ....................................................1537 (B11, Wed) Frankel, Gerald........................... 1748 (D2, Wed), ...................................................... 1812 (D5, Tue) Frankforter, Kevin............................387 (B2, Tue) Fransaer, Jan.................................. 2602 (I4, Mon) Frateur, Isabelle............................ 1807 (D5, Tue), ........................................................2689 (J2, Tue) Frenck, Louise..................................112 (A1, Tue) Frenken, Joost W. M..................... 2349 (F4, Wed) Freunberger, Stefan..........................389 (B2, Tue) Frewin, Chris............................... 1908 (E3, Mon) Friebel, Daniel................................2572 (I3, Wed) Friedrich, K. Andreas.................... 376 (B2, Mon), ........................1276 (B11, Tue), 1338 (B11, Tue), ..................... 1428 (B11, Wed), 1462 (B11, Wed), .................................................... 1544 (B11, Thu) Friis, Jesper....................................2039 (E6, Tue) Frimer, Aryeh...................................276 (B1, Tue) Frisch, Henry.................................1858 (E2, Wed) Fritsch, Ingrid..........124 (A1, Tue), 129 (A1, Tue) Fritz, David.................................. 2416 (G2, Wed) Fritze, Holger..............................1146 (B10, Wed) Frohlich, Karol...............................1878 (E2, Thu) Fromm, Olga.....................................11 (A1, Tue), ............................. 310 (B1, Wed), 861 (B8, Wed), .................................. 891 (B8, Fri), 892 (B8, Fri), .......................................................... 894 (B8, Fri) Fronczek, David............................. 378 (B2, Mon) Frost, Lyman...................................716 (B6, Wed) Fu, Anthony................................2195 (E11, Mon) Fu, Huiying....................................1969 (E4, Tue) Fu, Rujian.................................... 1198 (B10, Thu) Fu, Yanbao.....................................926 (B9, Wed), .........................1132 (B10, Wed), 1206 (B10, Fri) Fu, Yongzhu................................... 375 (B2, Mon) Fu, Zheng-Wen....... 406 (B2, Tue), 1094 (B10, Tue) Fuchigami, Toshio........................ 2420 (G2, Wed) Fuchs, Christine........................... 2052 (E7, Mon) Fuchs, David...................................537 (B3, Wed) Fugane, Keisuke..............................489 (B2, Wed) Fujieda, Shinji.............................1057 (B10, Tue), ....................................................1491 (B11, Wed) Fujigaya, Tsuyohiko....................1424 (B11, Wed) Fujii, Shunjiro...............................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Fujiki, Hironari................................. 23 (A1, Tue) Fujimoto, Cy...............................1313 (B11, Tue), ....................................................1697 (B12, Wed)

Fujimoto, Shinji..........................1788 (D5, Mon), ..........................1828 (D5, Wed), 1838 (D5, Wed) Fujimoto, Tatsuo.......................... 1892 (E3, Mon) Fujishiro, Yoshinobu....................1092 (B10, Tue) Fujiuchi, Makoto..........................1253 (B11, Sun) Fujiwara, Akira.......................... 2219 (E12, Mon) Fujiwara, Naoko..........................1508 (B11, Wed) Fujiwara, Takashi...........................2292 (F2, Thu) Fukiage, Yuuki...............................2066 (E7, Tue) Fukuda, Katsutoshi.........................823 (B8, Tue), ........................................................824 (B8, Wed) Fukuda, Takanori........................1467 (B11, Wed) Fukuhara, Tomoko..........................300 (B1, Wed) Fukunaga, Akira........................... 2103 (E8, Mon) Fukunaga, Atsushi.........................2257 (F2, Mon) Fukunaka, Yasuhiro....................... 2261 (F2, Tue), .......................................................2296 (F2, Thu) Fukushima, Akinori.....................1257 (B11, Sun) Fukushima, Takafumi................... 2054 (E7, Mon) Fukusima, Motoki.......................2247 (E12, Wed) Fukuta, Kenji............................... 1569 (B11, Thu) Fukutsuka, Tomokazu......................278 (B1, Tue) Fukutsuka, Tomokazu.....................280 (B1, Tue), .............................. 291 (B1, Tue), 463 (B2, Wed), .............................. 464 (B2, Wed), 950 (B9, Wed) Fuller, Thomas..............................991 (B10, Tue), .................................................... 1187 (B10, Thu) Fuller, Thomas........................... 1171 (B10, Thu), .....................................................1258 (B11, Sun) Fuller, Timothy............................1142 (B10, Wed) Fulton, Ralph.................................2123 (E8, Tue) Fulvio, Pasquale.............................. 673 (B5, Thu) Funakoshi, Takashi........................1862 (E2, Wed) Funayama, Katsuya........................2292 (F2, Thu) Furtak, Thomas............................. 2543 (I3, Mon) Furukawa, Hidemitsu.................... 2759 (J4, Mon) Fussell, John.................................1073 (B10, Tue) Futera, Zdenek................................590 (B4, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

G

Gabette, Laurence.........................2068 (E7, Tue), ..................................................... 2101 (E8, Mon) Gabrielli, Claude.............................2685 (J2, Tue) Gadre, Milind............................... 2407 (G1, Wed) Gaertner, Frank............................... 2559 (I3, Tue) Gagnon, Catherine.........................853 (B8, Wed), ............................. 854 (B8, Wed), 855 (B8, Wed), .............................. 863 (B8, Wed), 864 (B8, Wed) Gaidis, M.......................................2018 (E5, Thu) Gaillard, Nicolas............................. 2548 (I3, Tue) Gajek, M........................................2018 (E5, Thu) Gakhar, Ruchi.............................. 1826 (D5, Wed) Galal, Ahmed............................... 1835 (D5, Wed) Galceran, Montserrat........................404 (B2, Tue) Galcerįn, Montserrat....................1088 (B10, Tue) Gallagher, Kevin.............................390 (B2, Tue), ................................. 07 (B8, Tue), 808 (B8, Tue), ..................................................... 958 (B10, Mon) Gallagher, W...................................2018 (E5, Thu) Gallant, Betar...................................394 (B2, Tue) Gallaway, Joshua............................. 514 (B2, Thu) Galm, Ines....................................1338 (B11, Tue) Galvįn, Juan Carlos...................... 1841 (D5, Wed) Gan, Lin......................................1352 (B11, Tue), ........................ 1353 (B11, Tue), 1555 (B11, Thu) Gancs, Lajos................................... 2112 (E8, Tue) Gandhiraman, Ram........................ 181 (A2, Wed) Ganesan, Prabhu.........................1402 (B11, Wed) Ganesan, Selvarani.....................1492 (B11, Wed), .......................1591 (B11, Thu), 1595 (B11, Thu), ........................... 1642 (B11, Fri), 1643 (B11, Fri) Ganesh, P............... 419 (B2, Wed), 446 (B2, Wed) Gangadharan, Ajith.........................2731 (J3, Tue) Gangopadhyay, Shubhra.................728 (B6, Wed) Gannon, Paul......... 750 (B6, Wed), 781 (B7, Wed) Gao, Fang............... 639 (B5, Wed), 698 (B6, Tue) 253


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Gao, Han............... 632 (B5, Wed), 634 (B5, Wed) Gao, Huajian....................................557 (B4, Tue) Gao, Jianfeng.................................2109 (E8, Tue) Gao, Minrui.................................. 2406 (G1, Wed) Gao, Pengcheng............................. 607 (B5, Mon) Gao, Pengfei.................................1074 (B10, Tue) Gao, Xiang.....................................1912 (E3, Tue) Gao, Xin......................................... 240 (A3, Wed) Gao, Xingyu................................... 264 (B1, Mon) Gao, Yan............ 1730 (D1, Thu), 1743 (D2, Wed) Gao, Ying.....................................1314 (B11, Tue) Gao, Zhan........................................ 757 (B6, Thu) Gaponik, Nikolai.........................1398 (B11, Wed) Garces, Diana..................................742 (B6, Wed) Garcia, Guillermo...........................2725 (J3, Tue) Garcia, Robert....... 828 (B8, Wed), 924 (B9, Wed) Garcķa-Quismondo, Enrique.......... 683 (B5, Thu) Garcķa Murillo, Antonieta..............2730 (J3, Tue) Garcķa-Galvįn, Federico.............. 1841 (D5, Wed) Garcķa-Garibay, Miguel................ 268 (B1, Mon) Garcķa-Hipolito, Manuel................2744 (J3, Tue) Garcia-Lastra, Juan..........................412 (B2, Tue) Garcia-Santamaria, Florencio....... 2709 (J3, Mon) Garel, Olivier.................................2783 (J4, Wed) Garfias-Mesias, Luis.................... 1724 (D1, Thu), .......................... 1759 (D2, Thu), 1799 (D5, Mon) Gariepy, Vincent.............................855 (B8, Wed), .............................. 863 (B8, Wed), 864 (B8, Wed) Garnier, Philippe............................ 2110 (E8, Tue) Garofalini, Stephen........................ 259 (B1, Mon) Garrick, Taylor.................................. 24 (A1, Tue) Garrido Hernandez, Aristeo............2730 (J3, Tue) Garsany, Yannick........................1238 (B11, Sun), ...................... 1383 (B11, Wed), 1498 (B11, Wed) Garsuch, Arnd.................................276 (B1, Tue), ..........................353 (B2, Mon), 1141 (B10, Wed) Garverick, Steve.............................. 2523 (I2, Tue) Garzon, Fernando........................... 148 (A1, Tue), .......................... 720 (B6, Wed), 1303 (B11, Tue), ......................... 1304 (B11, Tue), 2608 (I4, Mon), ............................. 2632 (J1, Mon), 2695 (J2, Tue) Gase, Philip.................................. 963 (B10, Mon) Gaska, Remis.................................1909 (E3, Tue) Gaskell, Karen.................................723 (B6, Wed) Gaskell, Peter...............................1015 (B10, Tue) Gaskill, Kurt......1903 (E3, Mon), 1907 (E3, Mon) Gasteiger, Hubert...........................429 (B2, Wed), .......................... 448 (B2, Wed), 1364 (B11, Tue), .................................................... 1599 (B11, Thu) Gates, Byron.......... 157 (A2, Tue), 2778 (J4, Tue) Gates, G........................................... 1886 (E2, Fri) Gaubicher, J.....................................273 (B1, Tue) Gaubicher, Joėl............................. 975 (B10, Mon) Gaudin, Gweltaz........................ 2215 (E12, Mon) Gauthier, M..........273 (B1, Tue), 966 (B10, Mon) Gautreau, Adele............................... 229 (A3, Tue) Gauvin, Raynald.............................837 (B8, Wed) Gazdzicki, Pawel......................... 1549 (B11, Thu) Ge, Daohan......... 1708 (D1, Wed), 2669 (J1, Tue) Ge, Junjie........ 1238 (B11, Sun), 1330 (B11, Tue) Ge, Junjie....................................1302 (B11, Tue), ........................1329 (B11, Tue), 1498 (B11, Wed) Ge, Mingyuan.............................. 979 (B10, Mon) Ge, Shanhai.....................................538 (B3, Wed) Geaney, Hugh..................................451 (B2, Wed) Geary, Tim.......................................795 (B7, Wed) Geck, Jochen...................................801 (B7, Wed) Geelhaar, Lutz....... 2196 (E11, Mon), 2547 (I3, Tue) Geisz, John...................................... 2551 (I3, Tue) Gelatos, Jerry................................2129 (E8, Wed) Gélinas, Bruno.............................. 2604 (I4, Mon) Gelinck, G......................................1872 (E2, Thu) Geller, Aaron....................................780 (B7, Tue) Geničs, Sylvie.................................539 (B3, Wed) Gennett, Thomas....... 137 (A1, Tue), 585 (B4, Wed), ............................878 (B8, Thu), 1576 (B11, Thu)

Genovese, Matthew.......................... 79 (A1, Tue), ........................................................632 (B5, Wed) George, Steven........137 (A1, Tue), 954 (B10, Mon), ......................... 1008 (B10, Tue), 1860 (E2, Wed) George, Vyran............................. 1187 (B10, Thu) Georgescu, Ramona........................2780 (J4, Tue) Gerasimenko, Yuriy........................869 (B8, Wed) Gerhardt, Michael......................1687 (B12, Wed), ....................................................1688 (B12, Wed) Gering, Kevin.................................593 (B4, Wed), ......................... 1194 (B10, Thu), 1219 (B10, Fri) Gewirth, Andrew............................928 (B9, Wed), .............................935 (B9, Wed), 2399 (F5, Wed) Ghaffari, Mehdi......... 642 (B5, Wed), 666 (B5, Wed) Ghahari, Majid............................ 1745 (D2, Wed), ..................................................... 1746 (D2, Wed) Gharaibeh, Samar........................ 1596 (B11, Thu) Ghassemzadeh, Lida..................1434 (B11, Wed), ....................................................1473 (B11, Wed) Ghelichi, Mahdi..........................1426 (B11, Wed) Gheno, Thomas................................773 (B7, Tue) Ghodbane, Ouassim.........................617 (B5, Tue) Ghodssi, Reza.................................2661 (J1, Tue) Ghoraishi, Maryam........................2788 (J4, Wed) Giambastiani, Giuliano.................. 2267 (F2, Tue) Gibbons, William............................786 (B7, Wed) Gibbs, Christopher......................1362 (B11, Tue), ....................... 1373 (B11, Wed), 1616 (B11, Thu) Gibson, Andrew..... 618 (B5, Tue), 657 (B5, Wed) Gigmes, Didier.......502 (B2, Wed), 529 (B2, Thu) Gilmer, David.................................2010 (E5, Thu) Giordani, Vincent....... 413 (B2, Tue), 587 (B4, Wed) Girin, Oleg..................................... 2336 (F4, Tue) Giroud, Fabien................................ 2513 (I2, Tue) Gisinger, Matt................................2123 (E8, Tue) Giskeųdegård, Nils-Håvard........... 1809 (D5, Tue) Gizzie, Evan......... 242 (A3, Wed), 2589 (I3, Wed) Gladkov, Petar.............................. 2212 (E11, Tue) Glanvill, Sarah............................. 1745 (D2, Wed) Glass, Jeffrey................................... 248 (A3, Thu) Glass, Robert...................................2696 (J2, Tue) Glazoff, Michael......................... 1194 (B10, Thu) Gle, David.......................................502 (B2, Wed) Gleixner, Robert............................1987 (E5, Wed) Globa, Ludmila......2831 (J6, Tue), 2832 (J6, Tue) Glover, Carol................................. 1816 (D5, Tue) Glüsen, Andreas..........................1453 (B11, Wed) Glynn, Colm...........451 (B2, Wed), 876 (B8, Thu) Gnanaraj, Joe.................................. 600 (B5, Mon) Gobet, Mallory....... 447 (B2, Wed), 811 (B8, Tue) Gocheva, Irina..................................402 (B2, Tue) Goddard, William...........................589 (B4, Wed), ....................................................1439 (B11, Wed) Godignon, Philippe.......................1944 (E3, Wed) Godinez, Fernando............................ 88 (A1, Tue) Godwin, Ian.................................. 2408 (G1, Wed) Goebel, Steve...................................390 (B2, Tue) Goellner, Vincent....................... 1589 (B11, Thu), ...................................................... 1645 (B11, Fri) Goes, Wolfgang.......................... 2140 (E10, Mon) Gofer, Yosef....................................431 (B2, Wed) Gogotsi, Alexei.............................. 235 (A3, Wed) Gogotsi, Pavel................................. 889 (B8, Thu) Gogotsi, Yury................................... 53 (A1, Tue), ..............................107 (A1, Tue), 235 (A3, Wed), ........................... 601 (B5, Mon), 607 (B5, Mon), .............................. 624 (B5, Tue), 628 (B5, Tue), ..............................669 (B5, Wed), 673 (B5, Thu), ...............................674 (B5, Thu), 675 (B5, Thu), .....................................................1678 (B12, Tue) Gogyo, Yuma...............................1066 (B10, Tue) Gohier, Aurélien..............................951 (B9, Wed) Goidanich, Sara............................ 1751 (D2, Wed) Gokcen, Dincer.............................. 2324 (F4, Tue) Goldbach, Andreas........................2258 (F2, Mon) Goldberg, Alexander........................569 (B4, Tue)

Goller, Bernhard...............................274 (B1, Tue) Golubkov, Andrey...........................537 (B3, Wed) Gomeniuk, Y...............................2190 (E10, Wed) Gomes, Wyllerson.......................... 125 (A1, Tue), ..............................192 (A2, Wed), 193 (A2, Wed) Gomez, Alberto............................1278 (B11, Tue) Gomez, Grace.............................. 1721 (D1, Wed) Gomez, Humberto........................... 2500 (I1, Tue) Gong, Chaoyang.......................... 1717 (D1, Wed) Gong, Ke.....................................1690 (B12, Wed) Gong, Ke.........................................2728 (J3, Tue) Gong, Yunhui...........465 (B2, Wed), 533 (B2, Fri) Gong, Zhengliang.......................... 264 (B1, Mon) Gońi, Alejandro................................. 897 (B8, Fri) Gonzalez, Daniel.......................... 1720 (D1, Wed) Gonzalez, Ernesto........................ 1635 (B11, Fri), ...................................................... 1649 (B11, Fri) Gonzalez, Miguel..........................2258 (F2, Mon) Gonzalez-Quijano, D....................2315 (F3, Mon) Gonzalez-Velo, Yago.....................1990 (E5, Wed) Gonzalo, Elena.......366 (B2, Mon), 1088 (B10, Tue) Goodenough, John.........................458 (B2, Wed), ........................................................584 (B4, Wed) Gooding, John...... 2470 (I1, Mon), 2484 (I1, Tue) Goodson, Kenneth..........................2022 (E5, Thu) Goran, Jacob................................... 2518 (I2, Tue) Gordin, Mikhail...............................282 (B1, Tue), .............................360 (B2, Mon), 988 (B10, Tue) Gore, Colin......................................723 (B6, Wed) Gorka, Joanna....... 419 (B2, Wed), 446 (B2, Wed) Gorlin, Yelena............................1380 (B11, Wed), .....................................................1673 (B12, Tue) Gorton, Lo...................................... 2517 (I2, Tue), .............................2527 (I2, Wed), 2594 (I3, Wed) Gorzlancyk, Austin.........................2841 (J6, Tue) Gossmann, Hans-Joachim............2237 (E12, Tue) Gostick, Jeffery...........................1256 (B11, Sun), .................................................... 1541 (B11, Thu) Goto, Hiroki................................. 1895 (E3, Mon) Goto, Hiroshi........ 1895 (E3, Mon), 2426 (G2, Wed) Gottesfeld, Shimshon.................... 1648 (B11, Fri) Gough, Dara...................................2030 (E6, Tue) Goulet, Marc-Antoni....................... 2485 (I1, Tue) Gournis, Dimitrios........................ 2441 (H1, Tue) Goux, Ludovic.............................2158 (E10, Tue) Govoreanu, Bogdan....................2179 (E10, Wed) Goward, Gillian..............................427 (B2, Wed), ....................................................1142 (B10, Wed) Gowda, Sanketh...........................1017 (B10, Tue) Gozdz, Antoni.................................542 (B3, Wed) Grabstanowicz, Lauren............... 1588 (B11, Thu) Graciano, Vinķcius........................ 2340 (F4, Wed) Gradecak, Silvija............................2750 (J3, Wed) Gradzka, Emilia............................ 2438 (H1, Tue) Graff, Gordon................................. 2379 (F5, Tue) Granata, Richard..........................1791 (D5, Mon) Granitzer, Petra.........2363 (F4, Thu), 2364 (F4, Thu) Grant, Joseph...............................1415 (B11, Wed) Grasser, Tibor............................. 2140 (E10, Mon) Grate, Jay...................................... 2758 (J4, Mon) Gray, Bonnie.................................2782 (J4, Wed), ............................ 2789 (J4, Wed), 2799 (J4, Wed) Grazianetti, Carlo.........................2165 (E10, Tue) Greber, Thomas............................... 2631 (I5, Tue) Greeley, Jeff.................................1360 (B11, Tue) Green, R....................................... 1901 (E3, Mon) Greenbaum, Steven........................447 (B2, Wed), .............................. 485 (B2, Wed), 811 (B8, Tue), .......................... 933 (B9, Wed), 1133 (B10, Wed) Greenlee, Lauren........ 231 (A3, Tue), 304 (B1, Wed) Greenman, John.............................219 (A3, Mon) Gregg, Brian.................................. 2506 (I2, Mon) Gregoire, Kyla................................. 225 (A3, Tue) Grehl, T..........................................1872 (E2, Thu) Greszler, Tom...................................390 (B2, Tue) Grew, Kyle...................................1317 (B11, Tue)

254

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Grey, Clare............. 401 (B2, Tue), 414 (B2, Tue), ............................. 427 (B2, Wed), 595 (B4, Wed), ..............................674 (B5, Thu), 825 (B8, Wed), ............................. 830 (B8, Wed), 833 (B8, Wed), ..............................843 (B8, Wed), 875 (B8, Thu), ........................... 934 (B9, Wed), 1000 (B10, Tue) Grez, Paula.....................................2044 (E6, Tue) Griffin, Gregory...............................696 (B6, Tue) Griffin, John.................................... 674 (B5, Thu) Griffith, Lucas.............................1696 (B12, Wed) Grimes, Robin................................... 52 (A1, Tue) Grimmer, Christoph....................1397 (B11, Wed) Grinblat, Judith............................ 957 (B10, Mon) Grismer, Dane............................... 2755 (J4, Mon) Grolleau, Sébastien..................... 1191 (B10, Thu) Gros-Jean, Mickael........................ 1884 (E2, Fri), ....................................................2187 (E10, Wed) Grosse, Frank...................................574 (B4, Tue) Grützke, Martin........................... 1180 (B10, Thu) Grym, Jan........... 2212 (E11, Tue), 2319 (F3, Tue) Gu, Bin......................................... 1744 (D2, Wed) Gu, Meng.............. 399 (B2, Tue), 984 (B10, Tue) Gu, Shuang................................. 1571 (B11, Thu), ........................1690 (B12, Wed), 2422 (G2, Wed) Gu, Sui............................................836 (B8, Wed) Gu, Ying........................................ 2712 (J3, Mon) Gu, Yueliang................................... 264 (B1, Mon) Gualous, Hamid.............................668 (B5, Wed), .......................... 1220 (B10, Fri), 1222 (B10, Fri), ...................................................... 1224 (B10, Fri) Guan, Shan.......................................699 (B6, Tue) Guay, Daniel...................................656 (B5, Wed) Gubarev, Mikhail.........................1289 (B11, Tue) Gubler, Lorenz.......................... 1271 (B11, Mon), ...................... 1413 (B11, Wed), 1427 (B11, Wed) Guduru, Pradeep........................... 2280 (F2, Wed) Guedj, Cyril...................................1979 (E4, Tue), ....................................................2184 (E10, Wed) Guendouz, Laoučs.......................1288 (B11, Tue), ....................................................1387 (B11, Wed) Guerfi, Abdelbast...........................854 (B8, Wed), ............................. 855 (B8, Wed), 863 (B8, Wed), ........................................................864 (B8, Wed) Guerri, Annalisa.............................2035 (E6, Tue) Guetaz, Laure.............................1396 (B11, Wed), ....................................................1443 (B11, Wed) Gui, Alicia Lei................................... 535 (B2, Fri) Gui, Feng......... 1719 (D1, Wed), 1800 (D5, Mon) Guignard, Marie.............................. 871 (B8, Thu) Guilloux-Viry, Maryline.............2177 (E10, Wed) Gul, Saima........................................116 (A1, Tue) Guliants, Elena..............................1948 (E3, Wed) Gully, Benjamin.......................... 1176 (B10, Thu) Gülzow, Erich.............................1428 (B11, Wed) Gunasekara, Iromie.........................449 (B2, Wed) Gunda, Naga Siva.........................2788 (J4, Wed), .......................................................2792 (J4, Wed) Gunji, Takao............. 13 (A1, Tue), 2666 (J1, Tue) Gunther, Darlene............................ 242 (A3, Wed) Gunther, Matt............................... 1744 (D2, Wed) Guntupalli, Rajesh...........................2831 (J6, Tue) Guo, Bingkun.................................. 522 (B2, Thu) Guo, Fuqiang.................................. 881 (B8, Thu) Guo, Jinghua..........170 (A2, Tue), 208 (A2, Wed) Guo, Lian.......................................2077 (E7, Tue) Guo, Liya..................................... 1745 (D2, Wed) Guo, Liya......... 1746 (D2, Wed), 1770 (D4, Mon) Guo, Meng.................................... 1212 (B10, Fri) Gupta, Chaitanya.............................2656 (J1, Tue) Gupta, Rajeev................................ 1812 (D5, Tue) Gur, T.............................................. 342 (B1, Thu) Gür, Turgut.....................................313 (B1, Wed), ................................344 (B1, Thu), 345 (B1, Thu) Gur, Turgut.....................................2300 (F2, Thu) Guruviah, Velayutham....................2781 (J4, Tue)

Gustafsson, Torbjörn......................455 (B2, Wed), .......................... 859 (B8, Wed), 1030 (B10, Tue), ...................................................... 2458 (I1, Mon) Gutierrez, Cristian............................110 (A1, Tue) Gutt, Tomasz................................ 1898 (E3, Mon) Gutzmann, Henning........................ 2559 (I3, Tue) Guyer, Jonathan............................2034 (E6, Tue), ..................................................... 2205 (E11, Tue) Guyomard, D....................................273 (B1, Tue) Guyomard, Dominique..................418 (B2, Wed), ............................. 898 (B8, Fri), 966 (B10, Mon), ..................................................... 975 (B10, Mon) Guzman-Blas, Rolando............... 1605 (B11, Thu) Gwak, Sun Joong............................2742 (J3, Tue) Gyan, Philippe............................. 1191 (B10, Thu) Gyenge, Elod...................................292 (B1, Tue), .......................... 611 (B5, Mon), 1385 (B11, Wed) Gyoten, Hisaaki...............................709 (B6, Tue), ....................................................1487 (B11, Wed)

Hamza, Alex.................................2433 (H1, Mon) Han, Byungchan.......................... 1587 (B11, Thu) Han, Chi-Hwan...............................2674 (J1, Tue) Han, Di..........................................1946 (E3, Wed) Han, Eui.........................................2015 (E5, Thu) Han, Eun-Mi...............35 (A1, Tue), 38 (A1, Tue) Han, Hyouksoo......919 (B9, Tue), 2027 (E6, Tue) Han, Hyun Soo...............................2593 (I3, Wed) Han, Jeong Hwan...........................1879 (E2, Thu) Han, Jin-woo...................................2687 (J2, Tue) Han, Jinkyu.................................. 2707 (J3, Mon), ............................. 2713 (J3, Mon), 2727 (J3, Tue) Han, Jisheng.................................1021 (B10, Tue) Han, Lei........................................... 1889 (E2, Fri) Han, Lu........................................ 1718 (D1, Wed) Han, Man........................................ 366 (B2, Mon) Han, Mingzhen..........2469 (I1, Mon), 2497 (I1, Tue) Han, Sang Jin..............................2171 (E10, Tue), .....................................................2172 (E10, Tue) Han, Sang-Do..................................2674 (J1, Tue) Han, Sang-Don...........................1154 (B10, Wed), .................................................... 1165 (B10, Thu) Han, Seung Min............................. 605 (B5, Mon) Han, Shu-Jen.................................1980 (E4, Wed) Han, Sung Il...................................2803 (J4, Wed) Han, Taehee......1305 (B11, Tue), 1306 (B11, Tue) Han, Taeyoung................................339 (B1, Wed) Han, Weiqiang.............................1018 (B10, Tue), .....................................................1072 (B10, Tue) Han, Xiaofei.......... 165 (A2, Tue), 2038 (E6, Tue) Hanbücken, Margrit.....................1357 (B11, Tue) Hanetho, Sidsel...............................857 (B8, Wed) Hangarter, Carlos..........................2034 (E6, Tue), ..................................................... 2205 (E11, Tue) Hangarter, Carlos........................... 2324 (F4, Tue) Hannah, Mark..............................2309 (F3, Mon), .......................... 2707 (J3, Mon), 2713 (J3, Mon), .......................................................2750 (J3, Wed) Hansen, Darren.............................1938 (E3, Wed) Hansen, Douglas......................... 1711 (D1, Wed), .........................1718 (D1, Wed), 1747 (D2, Wed), ........................... 1757 (D2, Thu), 1760 (D2, Thu) Hansen, John...................................719 (B6, Wed) Hansen, Karolyn.............................2662 (J1, Tue) Hansen, Kent...................................842 (B8, Wed) Hansen, Ole..................................... 2561 (I3, Tue) Hanson, Jennifer...........................1984 (E4, Wed) Hao, Chia-Kan...... 797 (B7, Wed), 798 (B7, Wed) Hao, Chuanpu.............................1370 (B11, Wed) Hao, Qing.........................................401 (B2, Tue) Hao, Yan Ming............................1369 (B11, Wed) Hapiot, Philippe............................ 2460 (I1, Mon) Happy, Henri...................................644 (B5, Wed) Haque, Inam.................................... 2487 (I1, Tue) Hara, Masanori............................1341 (B11, Tue), ..................... 1478 (B11, Wed), 1514 (B11, Wed), ....................................................1519 (B11, Wed) Hara, Masaya..............................1478 (B11, Wed) Hara, Nobuyoshi.............................. 66 (A1, Tue), ...................................69 (A1, Tue), 70 (A1, Tue), ............................169 (A2, Tue), 1710 (D1, Wed), ........................1773 (D4, Mon), 1775 (D4, Mon), .....................................................1796 (D5, Mon) Hara, Ryo....................................... 363 (B2, Mon) Hara, Yoshitaka............................ 2103 (E8, Mon) Harada, Jumpei............................ 982 (B10, Mon) Harada, Junpei................................... 91 (A1, Tue) Harada, Katsushige........................ 1911 (E3, Tue) Harada, Shinsuke....................... 2142 (E10, Mon) Harada, Yasuhiro............................. 882 (B8, Thu) Harada, Yoshihisa.......................1485 (B11, Wed), ....................................................1493 (B11, Wed) Harb, John..................................... 1726 (D1, Thu) Hardacre, Chris............................... 753 (B6, Thu) Hardin, William...... 233 (A3, Tue), 636 (B5, Wed) Harding, John.................................2039 (E6, Tue)

H

Ha, JinSu..................................... 1546 (B11, Thu) Ha, Jong-Yoon.......2034 (E6, Tue), 2205 (E11, Tue) Ha, Sang-hyeon...........................1043 (B10, Tue), .....................................................1045 (B10, Tue) Ha, Su..........................................1450 (B11, Wed) Ha, Sung Hoon............................1044 (B10, Tue), ...................................................... 2451 (H1, Tue) Ha, SungMok...............................1277 (B11, Tue) Ha, Tung.........................................2046 (E6, Tue) Haarberg, Geir Martin.................... 2629 (I5, Tue), ........................................................ 2630 (I5, Tue) Habazaki, Hiroki........................... 183 (A2, Wed), ...................................................... 1813 (D5, Tue) Habersat, D.................................. 1901 (E3, Mon) Habuka, Hitoshi........................... 2100 (E8, Mon) Hachisu, Takuma............................ 2390 (F5, Tue) Hacker, Viktor................................537 (B3, Wed), ....................................................1397 (B11, Wed) Hacquebard, Luke............................803 (B8, Tue) Hada, Hiromitsu............................1999 (E5, Wed) Haddad, Hunter.............................. 603 (B5, Mon) Haehner, G....................................2371 (F5, Mon) Hägerhäll, Cecilia..........................2594 (I3, Wed) Häggström, Lennart.....................1030 (B10, Tue) Hagiwara, Rika................................ 61 (A1, Tue), ........................... 2257 (F2, Mon), 2295 (F2, Thu) Haglund, Richard............................2653 (J1, Tue) Hahlin, Maria......... 916 (B9, Tue), 943 (B9, Wed) Hahn, Benjamin.............................. 889 (B8, Thu) Hahn, Christopher......................... 2275 (F2, Wed) Hahn, Horst..................................2433 (H1, Mon) Hahn, Yoon-Bong.......................2202 (E11, Mon) Haight, Richard.............................1853 (E1, Wed) Haji, Eman......................................2735 (J3, Tue) Halada, Gary.........1827 (D5, Wed), 2313 (F3, Mon) Halalay, Ion........1142 (B10, Wed), 1177 (B10, Thu) Halevi, Barr........ 1359 (B11, Tue),1643 (B11, Fri) Hall, Derek.......................................708 (B6, Tue) Halls, Mathew..................................569 (B4, Tue) Ham, Giyul.....................................1870 (E2, Thu) Hamada, Ikutaro..............................592 (B4, Wed) Hamada, Kouichi..........................1992 (E5, Wed) Hamada, Yoshifumi.......................2006 (E5, Wed) Hamamoto, Koichi.......................1092 (B10, Tue) Hamel-Paquet, J..............................855 (B8, Wed) Hamers, Robert........................... 1184 (B10, Thu) Hamid, Earfan.............................2243 (E12, Wed) Hamidi, Hassan..............................2527 (I2, Wed) Hamilton, Anita............................. 2457 (I1, Mon) Hamilton, Bruce.............................216 (A3, Mon) Hammond, Paula.........................1389 (B11, Wed) Hammons, Joshua......................... 2333 (F4, Tue), ...................................................... 2610 (I4, Mon) Hamon, Morgan..............................2820 (J6, Tue) Hamrock, Steven..............................114 (A1, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

255


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Harlow, Jessie............................. 1552 (B11, Thu) Harris, H........................................1935 (E3, Wed) Harris, Stephen.............................1095 (B10, Tue) Harris, Stephen J.............................579 (B4, Wed) Harris, William.................................778 (B7, Tue) Harrod, Bronwyn............................ 158 (A2, Tue) Harrup, Mason.............................. 1219 (B10, Fri) Harry, Katherine...........................1097 (B10, Tue) Hartmann, Jean-Michel................2236 (E12, Tue) Hartnig, Christoph...........................450 (B2, Wed) Hartridge, Steve..............................593 (B4, Wed) Hartvigsen, Joseph..........................716 (B6, Wed) Harvey, David............................ 1554 (B11, Thu), .................................................... 1557 (B11, Thu) Hasa, Ivana......................................493 (B2, Wed) Hasan, Kamrul.........2527 (I2, Wed), 2594 (I3, Wed) Hasan, Nazmul................................ 105 (A1, Tue) Hasani, Mohammad...................... 2601 (I4, Mon) Hasché, Frédéric..........................1364 (B11, Tue) Hase, Yoko......................................453 (B2, Wed) Hasebe, Kazuhide.......................... 1911 (E3, Tue) Hasegawa, Mitsuhisa........................ 90 (A1, Tue) Hasegawa, Naoki........................1282 (B11, Tue), .....................................................1300 (B11, Tue) Hasegawa, Takahiro........................300 (B1, Wed) Hasegawa, Takuya........................ 2708 (J3, Mon) Haselmann, Greta............................454 (B2, Wed) Hashempour, Mazdak................... 2447 (H1, Tue) Hashempour, Mazdak.................. 1720 (D1, Wed) Hashimoto, Ayumu............................ 78 (A1, Tue) Hashimoto, Kazuhito.................... 2504 (I2, Mon) Hashimoto, Masanari........................ 14 (A1, Tue) Hassoun, Jusef....... 415 (B2, Wed), 493 (B2, Wed) Hatai, Takeo................................1533 (B11, Wed) Hatanaka, Tatsuya........................1300 (B11, Tue) Hatchard, Timothy.......................1039 (B10, Tue) Hatsukade, Toru............................ 690 (B6, Mon), .....................................................1673 (B12, Tue) Hattar, Khalid.................................. 164 (A2, Tue) Hattori, Azusa................................1978 (E4, Tue) Hatzell, Kelsey............................... 107 (A1, Tue), ............................. 235 (A3, Wed), 601 (B5, Mon) Hatzell, Kelsey.............................1678 (B12, Tue) Hatzell, Marta......224 (A3, Tue), 2414 (G2, Wed) Haugen, Gregory.............................114 (A1, Tue), .....................................................1279 (B11, Tue) Haung, Chao-Ming.........................467 (B2, Wed) Haus, Joseph...................................2662 (J1, Tue) Haussener, Sophia..........................727 (B6, Wed), ............................. 729 (B6, Wed), 2566 (I3, Wed) Hauswald, Christian........................ 2547 (I3, Tue) Hautier, Geoffroy.............................401 (B2, Tue) Haußmann, Jan............................ 1544 (B11, Thu) Haverhals, Luke............................... 53 (A1, Tue), ............................... 624 (B5, Tue), 669 (B5, Wed) Hawk, Jeffrey.............................. 1719 (D1, Wed), .....................................................1800 (D5, Mon) Hawthorne, Krista...........................297 (B1, Wed) Hayakawa, Teruaki...................... 1564 (B11, Thu) Hayase, Masanori..........................2092 (E7, Wed) Hayashi, Akari..........................1465 (B11, Wed), | ..................... 1503 (B11, Wed), 1518 (B11, Wed), .........................1614 (B11, Thu), 1631 (B11, Fri), ...................................................... 2445 (H1, Tue) Hayashi, Hidekazu......................... 2118 (E8, Tue) Hayashi, Masamitsu......................1996 (E5, Wed) Hayashi, Taro.............................. 2060 (E7, Mon), .............................2063 (E7, Tue), 2066 (E7, Tue) Hayashi, Tetsutaro..........................2284 (F2, Thu) Hayashi, Tomoaki........................... 154 (A2, Tue) Hayashi, Toyohide....................... 2106 (E8, Mon) Hayes, Scott.................................. 1757 (D2, Thu) Hays, Charles..............................1351 (B11, Tue), ....................................................1384 (B11, Wed) Haze, Akinori..............................1528 (B11, Wed) Hazeghi, A......................................2012 (E5, Thu)

He, Jr-Hau.......... 1958 (E4, Mon), 1966 (E4, Tue) He, Ming........................................1883 (E2, Thu) He, Steve.....................................1537 (B11, Wed) He, Xiaobin....................................2109 (E8, Tue) He, Yaling....................................1254 (B11, Sun) He, Yu-Shi....................................1074 (B10, Tue) He, Zhen.......................................... 221 (A3, Tue) Heald, Steve.................................... 520 (B2, Thu) Heap, Richard......367 (B2, Mon), 996 (B10, Tue) Hebert, Kurt........1805 (D5, Tue), 1808 (D5, Tue) Hector, Louis...................................929 (B9, Wed) Hegazy, Omar............................. 1169 (B10, Thu) Heggen, Marc..............................1352 (B11, Tue), .................................................... 1555 (B11, Thu) Heine, Jennifer................................450 (B2, Wed) Heinemann, Bernd..................... 2221 (E12, Mon) Hekmatshoar, Bahman..................1853 (E1, Wed) Hekmaty, Michelle.......................... 164 (A2, Tue) Held, David.....................................2841 (J6, Tue) Helin, Philippe.............................. 2646 (J1, Mon) Heller, Adam................................. 2502 (I2, Mon) Hellwig, Christian......................... 1223 (B10, Fri) Helmly, Stefan.............................1338 (B11, Tue), ...................... 1428 (B11, Wed), 1462 (B11, Wed) Helms, Brett....................................115 (A1, Tue), .......................... 1149 (B10, Wed), 2725 (J3, Tue) Hemmi, Adrian................................ 2631 (I5, Tue) Henderson, Brett.............................2696 (J2, Tue) Henderson, Wesley.....................1140 (B10, Wed), ...................... 1154 (B10, Wed), 1164 (B10, Thu), ........................1165 (B10, Thu), 1182 (B10, Thu) Henkelman, Graeme.......................442 (B2, Wed) Henrist, Catherine.......................... 173 (A2, Wed) Henry, Eric..................................1150 (B10, Wed) Henson, Neil............................... 1619 (B11, Thu) Heon, Min....................................... 673 (B5, Thu) Her, Jim-Long..............................2175 (E10, Tue) Herdman, Karen................................ 81 (A1, Tue) Heresanu, Vasile...........................1357 (B11, Tue) Herman, Irving..............................2307 (F3, Mon) Hernandez-Maya, Roberto...........1029 (B10, Tue) Herranz, Juan.................................429 (B2, Wed), ........................... 448 (B2, Wed), 1364 (B11, Tue) Herring, Andrew.............................114 (A1, Tue), ...............................120 (A1, Tue), 231 (A3, Tue), .......................... 304 (B1, Wed), 1309 (B11, Tue), ..................... 1539 (B11, Wed), 1540 (B11, Wed), .......................1570 (B11, Thu), 1574 (B11, Thu), ......................... 1698 (B12, Wed), 2543 (I3, Mon) Herrmann, Anne-Kristin.............1398 (B11, Wed) Herrmann-Geppert, Iris.................. 2559 (I3, Tue), .......................................................2575 (I3, Wed) Heske, Clemens...... 2548 (I3, Tue), 2551 (I3, Tue) Hesketh, P........................................2828 (J6, Tue) Hesketh, Peter.............................. 2763 (J4, Mon), .............................2795 (J4, Wed), 2811 (J6, Tue), ........................................................2825 (J6, Tue) Hess, Dennis................................. 2716 (J3, Mon) Hess, Steffen................................1109 (B10, Tue) Heuer, Arthur............................... 1832 (D5, Wed) Heyns, Marc..........2116 (E8, Tue), 2179 (E10, Wed) Hibbs, Michael.............................1313 (B11, Tue) Hickner, Michael..........................1662 (B12, Tue) Hidaka, Atsushi.............................1862 (E2, Wed) Hideshima, Sho...............................2672 (J1, Tue) Hideshima, Tasuku........................2255 (F2, Mon) Hiesgen, Renate............................ 376 (B2, Mon), .......................1338 (B11, Tue), 1419 (B11, Wed), ...................... 1428 (B11, Wed), 1462 (B11, Wed) Higa, Kenneth................................987 (B10, Tue) Higashi, Seiichiro........................2247 (E12, Wed) Higashi, Takahiro.......................1518 (B11, Wed), ...................................................... 1631 (B11, Fri) Hightower, Michael.......................212 (A3, Mon)

Higuchi, Eiji..................................... 85 (A1, Tue), ............................... 287 (B1, Tue), 521 (B2, Thu), ......................... 654 (B5, Wed), 1517 (B11, Wed), ....................................................1528 (B11, Wed) Hihara, Lloyd......1764 (D3, Tue), 1765 (D3, Tue) Hildebrandt, Peter............................711 (B6, Tue) Hill, Davion......... 699 (B6, Tue), 1176 (B10, Thu) Hill, James..................................... 2281 (F2, Wed) Hill, Richard..................................1935 (E3, Wed) Hillebrand, Philipp..........................707 (B6, Tue), ........................................................ 2559 (I3, Tue) Hillesheim, Patrick.......................... 673 (B5, Thu) Hillier, Andrew.............................. 2642 (J1, Mon) Hilt, Oliver.....................................1910 (E3, Tue) Hinds, Gareth.............................. 1577 (B11, Thu) Hinebaugh, James........................1256 (B11, Sun) Hinogami, Reiko.............................709 (B6, Tue), ....................................................1487 (B11, Wed) Hirabayashi, Mieko........................2771 (J4, Tue), .......................................................2786 (J4, Wed) Hirai, Hirohisa.............................2186 (E10, Wed) Hirai, Shuichiro...............................396 (B2, Tue), ........................1295 (B11, Tue), 1298 (B11, Tue), ........................1325 (B11, Tue), 1346 (B11, Tue), .......................1361 (B11, Tue), 1458 (B11, Wed), .....................................................1664 (B12, Tue) Hirakawa, Chieko.........................2085 (E7, Wed) Hirano, Hohsei............................. 1892 (E3, Mon) Hirano, Shinichi............................ 1622 (B11, Fri) Hirayama, Masaaki....... 98 (A1, Tue), 102 (A1, Tue) Hirosaki, Naoto..............................2751 (J3, Wed) Hirota, Masato..............................1062 (B10, Tue) Hirshberg, Daniel............................ 526 (B2, Thu) Hitchcock, Adam.........................1322 (B11, Tue), .........................1323 (B11, Tue), 1779 (D4, Mon) Hite, Jennifer.......1920 (E3, Tue), 1930 (E3, Wed) Hitotsuyanagi, Aya.......................1347 (B11, Tue) Hiyama, Hirokuni........................ 2103 (E8, Mon) Hiyoshi, Masataka....................... 1617 (B11, Thu) Hjalmarson, Harold................... 2138 (E10, Mon), ................................................... 2141 (E10, Mon) Hjelm, Rex..................................1390 (B11, Wed) Hjuler, Hans................................1374 (B11, Wed) Hlaing, Htay..................................2307 (F3, Mon) Hng, Huey Hoon............................. 886 (B8, Thu) Ho, C.-C......................................... 209 (A2, Wed) Ho, Ching-Kit.............................1148 (B10, Wed) Ho, Johnny....................................1983 (E4, Wed) Ho, Kuo–Chuan....... 2443 (H1, Tue), 2682 (J1, Tue) Hoashi, Toshihiro...........................2032 (E6, Tue) Hobart, Karl..................................1920 (E3, Tue), ..........................1930 (E3, Wed), 2206 (E11, Tue) Hody, Hubert...............................2179 (E10, Wed) Hoffmann, Björn.......................... 983 (B10, Mon) Hoffmann, Jennifer......................1106 (B10, Tue) Hoffmann, Michael.......................215 (A3, Mon), .......................................................220 (A3, Mon) Hoffmann, Rene......... 639 (B5, Wed), 698 (B6, Tue) Hofmann, Andreas......................... 356 (B2, Mon) Högström, Jonas............................ 1731 (D1, Thu) Hohn, Keith..................................1677 (B12, Tue) Holade, Yaovi................................ 2468 (I1, Mon) Holby, Edward.............................. 1640 (B11, Fri) Holdcroft, Steven.......................1434 (B11, Wed), ..................... 1464 (B11, Wed), 1473 (B11, Wed), .......................................................2597 (I3, Wed) Hollmann, Emma.........................1667 (B12, Tue) Holmes, Justin.................................451 (B2, Wed) Holsteyns, Frank......................... 2096 (E8, Mon), ............................ 2111 (E8, Tue), 2115 (E8, Tue), ............................2116 (E8, Tue), 2130 (E8, Wed) Holtappels, Peter.............................842 (B8, Wed) Holzwarth, Natalie...........................563 (B4, Tue) Homma, Takayuki......................... 2261 (F2, Tue), ............................2295 (F2, Thu), 2296 (F2, Thu), ...................................................... 2345 (F4, Wed)

256

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Homma, Takayuki.......................... 2389 (F5, Tue) Honda, Keiichiro............................. 141 (A1, Tue) Honda, Kensuke.............................2041 (E6, Tue) Hong, Chang.................................... 38 (A1, Tue), .............................. 337 (B1, Wed), 665 (B5, Wed) Hong, Che-Wun......................... 1172 (B10, Thu), ......................... 1262 (B11, Sun), 1852 (E1, Wed) Hong, Jong......................................2820 (J6, Tue) Hong, Kug Sun..............................2593 (I3, Wed) Hong, Kyung-Sik...........................416 (B2, Wed), ........................................................479 (B2, Wed) Hong, MunPyo.................................119 (A1, Tue) Hong, Ok-Cheon...........................2005 (E5, Wed) Hong, Seong-Hyeon.......................2749 (J3, Wed) Hong, Soon Ho............................ 964 (B10, Mon) Hong, Suk-Gi.............................. 1546 (B11, Thu) Hong, Sukhyun.......... 912 (B9, Tue), 946 (B9, Wed) Hong, Wan-Shick............................ 145 (A1, Tue) Hongo, Hiroo...............................1057 (B10, Tue) Hoober-Burkhardt, Lena.................468 (B2, Wed) Hoof, Rita...................................... 2646 (J1, Mon) Hoorfar, Mina..................................303 (B1, Wed) Hopkins, Emily...........................1395 (B11, Wed) Hopstaken, Marinus......................2088 (E7, Wed) Horan, James.......... 114 (A1, Tue), 304 (B1, Wed) Hori, Hironobu................................ 532 (B2, Thu) Hori, Michio....................................736 (B6, Wed) Hori, Mikihiro.............................1500 (B11, Wed) Hori, Tomoaki................................2529 (I2, Wed) Hori, Yosuke..................................... 61 (A1, Tue) Horie, Ayano..................................... 55 (A1, Tue) Horie, Mika.................................1124 (B10, Wed) Horiguchi, Naoto.........................2246 (E12, Wed) Horikawa, Shin......2815 (J6, Tue), 2817 (J6, Tue) Horstmann, Birger.......394 (B2, Tue), 410 (B2, Tue) Hoshi, Nagahiro..........................1347 (B11, Tue), ....................................................1403 (B11, Wed) Hoshi, Nagahiro..........................1502 (B11, Wed) Hoshi, Takayuki..........................1478 (B11, Wed) Hoshi, Yoshinao............................... 67 (A1, Tue), ...................................68 (A1, Tue), 71 (A1, Tue), ...............................139 (A1, Tue), 141 (A1, Tue), .............................. 142 (A1, Tue), 2665 (J1, Tue), ........................................................2686 (J2, Tue) Hoshina, Keigo............................... 882 (B8, Thu) Hoshino, Tsuyoshi....................... 1202 (B10, Thu) Hosoda, Shuhei.......................... 2143 (E10, Mon) Hosono, Eiji...................................989 (B10, Tue) Hosono, Hideo............................. 2420 (G2, Wed) Hosotani, Takuto..........................1346 (B11, Tue) Hosseini Benhangi, Pooya..............292 (B1, Tue), ....................................................1385 (B11, Wed) Hosseinpour, Saman.................... 1750 (D2, Wed), ...................................................... 1754 (D2, Thu) Hoster, Harry....................................402 (B2, Tue) Hotta, Shota......................................558 (B4, Tue) Hou, Dongfang.............................. 2277 (F2, Wed) Hou, Huaming.................................439 (B2, Wed) Hou, Zhufeng..............................1493 (B11, Wed) House, Ralph....................................700 (B6, Tue) Houssa, Michel...........................2158 (E10, Tue), ........................2164 (E10, Tue), 2165 (E10, Tue), ....................................................2185 (E10, Wed) Houzet, Gregory.......................... 2052 (E7, Mon), ....................................................2177 (E10, Wed) Hovington, Pierre...........................853 (B8, Wed), ............................. 854 (B8, Wed), 855 (B8, Wed), .............................. 863 (B8, Wed), 864 (B8, Wed) Howe, Roger...................................2656 (J1, Tue) Howes, Lucy................................... 226 (A3, Tue) Hsieh, Chih-Lung.........................1672 (B12, Tue) Hsieh, Chin-Lung.........................1671 (B12, Tue) Hsieh, Tsung Yu............................ 2279 (F2, Wed) Hsieh, Yu-Chi................................. 156 (A2, Tue), ......................... 1439 (B11, Wed), 2450 (H1, Tue) Hsu, Chen-Pin.............................2194 (E11, Mon)

Hsu, Chia.......................................1975 (E4, Tue) Hsu, Hsin-Cheng............................ 606 (B5, Mon) Hsu, Hsin-Hua................................ 208 (A2, Wed) Hsu, Shao.............. 257 (B1, Mon), 678 (B5, Thu) Hsu, Single...................................2153 (E10, Tue) Hsu, Yi-Han.................................... 151 (A2, Tue) Hsu, Yu-Kuei..................................2578 (I3, Wed) Hsu, Yung...............150 (A2, Tue), 151 (A2, Tue), .......................... 2278 (F2, Wed), 2448 (H1, Tue), ...................................................... 2449 (H1, Tue) Hsuan, Teng-Chun.......................2153 (E10, Tue) Hsueh, Kan-Lin........ 467 (B2, Wed), 2590 (I3, Wed) Hsueh, Kan-Lin...........................1671 (B12, Tue), ...........................1672 (B12, Tue), 2266 (F2, Tue) Hu, Chenyao.................7 (A1, Tue), 86 (A1, Tue) Hu, Chi-Hsien................................ 205 (A2, Wed) Hu, En-Yuan.........406 (B2, Tue), 968 (B10, Mon) Hu, Fan................1971 (E4, Tue), 1981 (E4, Wed) Hu, G..............................................2018 (E5, Thu) Hu, Jian........................................... 2548 (I3, Tue) Hu, Jian........................................... 2622 (I5, Tue) Hu, Jin-Hao.................................... 606 (B5, Mon) Hu, Jingwei.......1442 (B11, Wed), 1444 (B11, Wed) Hu, Kaiwen..................................1015 (B10, Tue) Hu, Mengjia.................................... 129 (A1, Tue) Hu, Renzong........ 1019 (B10, Tue), 1020 (B10, Tue) Hu, Shenyang.................................984 (B10, Tue) Hu, Shu................ 727 (B6, Wed), 2566 (I3, Wed) Hu, Shuozhen..............................1450 (B11, Wed) Hu, Wen-Chen............................... 2449 (H1, Tue) Hu, Xianluo......1127 (B10, Wed), 2277 (F2, Wed) Hu, Xiaoyu......................................2772 (J4, Tue) Hu, Yan-Yan....................................401 (B2, Tue), .............................. 843 (B8, Wed), 934 (B9, Wed) Hu, Yi-Cheng...............................2153 (E10, Tue) Hua, Bo..........................................1970 (E4, Tue) Huang, C.-H................................... 209 (A2, Wed) Huang, Chien-Jen.........................2153 (E10, Tue) Huang, G.-C................................... 209 (A2, Wed) Huang, Hsin-Man......................... 2061 (E7, Mon) Huang, Huei-Fang.......................... 2384 (F5, Tue) Huang, Jin..................................... 257 (B1, Mon), ........................................................ 678 (B5, Thu) Huang, Jung-Sheng......................1847 (E1, Wed), ......................................................1848 (E1, Wed) Huang, Kan.................................1448 (B11, Wed) Huang, Kevin...........465 (B2, Wed), 533 (B2, Fri) Huang, Ling....................................848 (B8, Wed) Huang, Mao-Chia...........................2590 (I3, Wed) Huang, Ming-Yi........................... 1958 (E4, Mon) Huang, Q........................................2075 (E7, Tue) Huang, Qiang.......2088 (E7, Wed), 2655 (J1, Tue) Huang, Tung-Shi.............................2838 (J6, Tue) Huang, Tzu-Yen..............................2682 (J1, Tue) Huang, Xin..................................... 2338 (F4, Tue) Huang, Xinyu.............................1431 (B11, Wed), ..................... 1463 (B11, Wed), 1507 (B11, Wed), ...................................................... 1628 (B11, Fri) Huang, Yan...................................1301 (B11, Tue) Huang, Yu Ting............................. 2279 (F2, Wed) Huang, Yunhui......... 42 (A1, Tue), 382 (B2, Tue), .........................1127 (B10, Wed), 2277 (F2, Wed) Huang, Zhen-Dong........................434 (B2, Wed), ............................. 494 (B2, Wed), 499 (B2, Wed), ........................................................858 (B8, Wed) Hubin, Annick................................ 2333 (F4, Tue) Hubler, David.................................. 247 (A3, Thu) Hudait, Mantu..............................2155 (E10, Tue) Hudec, Boris..................................1878 (E2, Thu) Hudson, Eric.................................. 2112 (E8, Tue) Huerta, Evelyn................................2743 (J3, Tue) Huesker, Jessica.............................310 (B1, Wed), .................................861 (B8, Wed), 894 (B8, Fri) Huggins, Robert..........................1689 (B12, Wed) Hughart, David........ 1919 (E3, Tue), 2013 (E5, Thu) Hųjberg, Jonathan............................412 (B2, Tue)

Hulicius, Eduard.......................... 2212 (E11, Tue) Hull, Stephen.................................. 262 (B1, Mon) Humbert, Bernard........................ 975 (B10, Mon) Hunderi, Ola.................................. 1809 (D5, Tue) Hung, Hao-En.................................798 (B7, Wed) Hung, Ju-Shei.........1672 (B12, Tue), 2266 (F2, Tue) Hunter, G........................................2795 (J4, Wed) Huq, Ashfia................................. 1177 (B10, Thu) Hur, Jaewoong................................598 (B4, Wed) Hurley, P......................................2190 (E10, Wed) Hurowitz, Joel..................................767 (B7, Tue) Huskinson, Brian.......................1687 (B12, Wed), ....................................................1688 (B12, Wed) Hussain, Sajjad.................................111 (A1, Tue) Hussain, Zahid................................921 (B9, Wed) Hussey, Daniel............................1289 (B11, Tue), ........................1290 (B11, Tue), 1292 (B11, Tue), .....................................................1293 (B11, Tue) Huynh, Duc.....................................2659 (J1, Tue) Huynh, Thi.................................... 2398 (F5, Wed) Huynh, Thuy.................................. 270 (B1, Mon) Hwang, Bing-Joe..........................1677 (B12, Tue) Hwang, Cheol Seong.....................1879 (E2, Thu) Hwang, Chulmin.........................1459 (B11, Wed) Hwang, Chulmin.........................1470 (B11, Wed) Hwang, Constanza......................1140 (B10, Wed) Hwang, Dong Ki............................. 2495 (I1, Tue) Hwang, Eui-Hyeong.......................948 (B9, Wed) Hwang, Gi Suk............................1415 (B11, Wed) Hwang, Imgon.................................497 (B2, Wed) Hwang, Jang Yoen..........................415 (B2, Wed) Hwang, Kyo Seon..........................2801 (J4, Wed) Hwang, Kyung-Jun......................1040 (B10, Tue) Hwang, Seung Jun......................1511 (B11, Wed) Hwang, Seung Sik....................... 1178 (B10, Thu) Hwang, Sooyeon..........................1079 (B10, Tue) Hwang, Sun-Mi........................... 1615 (B11, Thu) Hwang, Sunwoo...........................1058 (B10, Tue) Hwang, Tai-Wei..............................2648 (J1, Tue) Hwang, YeonSang........................ 1700 (D1, Wed) Hwang, Yoontae......................... 2151 (E10, Mon) Hwang, Yu-Chul.............................2084 (E7, Tue) Hwang, YunJu........ 510 (B2, Wed), 1042 (B10, Tue) Hwu, Jenn-Gwo.......................... 1963 (E4, Mon), ....................................................2188 (E10, Wed) Hyeon, Taeghwan.........................1036 (B10, Tue) Hyun, Seungmin........................... 605 (B5, Mon), .........................967 (B10, Mon), 1004 (B10, Tue) Hyung, YooEup..............................536 (B3, Wed), .................................................... 1195 (B10, Thu)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

I

Iba, Hideki......................................453 (B2, Wed), .............................. 495 (B2, Wed), 505 (B2, Wed) Ichihara, Takeo............................ 1564 (B11, Thu) Ichii, Takashi..................................... 77 (A1, Tue) Ichikawa, Hiroki.......................... 2412 (G1, Wed) Ichikawa, Takayuki...................... 1111 (B10, Tue) Ichikawa, Yuya................................500 (B2, Wed) Ichitsubo, Koki...............................2295 (F2, Thu) Ichitsubo, Tetsu..............................432 (B2, Wed), ............................. 436 (B2, Wed), 500 (B2, Wed), ............................... 582 (B4, Wed), 823 (B8, Tue) Ida, Atsushi.........1253 (B11, Sun), 1420 (B11, Wed) Ide, Shinsuke................................. 1808 (D5, Tue) Idehenre, Ighodalo..........................2662 (J1, Tue) Idemoto, Yasushi.............................. 54 (A1, Tue), ...................................55 (A1, Tue), 57 (A1, Tue), .............................. 734 (B6, Wed), 806 (B8, Tue), .....................................................1098 (B10, Tue) Ido, Yasuyuki................................. 2117 (E8, Tue) Idrobo, Juan..................................... 524 (B2, Thu) Ielmini, Daniele............................2157 (E10, Tue) Ieropoulos, Ioannis.........................219 (A3, Mon) Ifuku, Ryuhei.................................... 57 (A1, Tue) 257


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Ihara, Manabu............................... 2268 (F2, Tue), .............................2269 (F2, Tue), 2292 (F2, Thu) Iida, Ken-Ichiro.......................... 2222 (E12, Mon) Iijima, Takashi............................. 1617 (B11, Thu) Iijima, Yuki.................................... 2273 (F2, Wed) Iino, Shohei.................................2183 (E10, Wed) Ike, Shinichi.................................2234 (E12, Tue) Ikeda, Katsuyoshi............................. 96 (A1, Tue), ..................... 1486 (B11, Wed), 1502 (B11, Wed), ........................................................ 2622 (I5, Tue) Ikeda, Nariaki................................. 1911 (E3, Tue) Ikeda, Nobukazu...........................1862 (E2, Wed) Ikeda, Takashi............................1485 (B11, Wed), ....................................................1493 (B11, Wed) Ikegami, Masashi.......................... 2279 (F2, Wed) Ikehata, Yuta...............................1404 (B11, Wed), ...................... 1497 (B11, Wed), 1522 (B11, Wed) Ikenberry, Myles..........................1677 (B12, Tue) Ikeshoji, Tamio................................592 (B4, Wed) Ikeuchi, Issei....................................398 (B2, Tue) Ikeuchi, Yuuta.............................. 974 (B10, Mon) Ikram, M.....................................2179 (E10, Wed) Ikuhara, Yuichi.................................555 (B4, Tue) Ikuhara, Yumi...................................555 (B4, Tue) Ilias, Suhaila Hani......................... 2638 (J1, Mon) Illiberi, A........................................1872 (E2, Thu) Illig, Jörg................ 900 (B8, Fri), 1215 (B10, Fri) Įlvarez, Katherine...........................2045 (E6, Tue) Im, Dongmin...................................457 (B2, Wed) Im, SeungSoon................................ 2495 (I1, Tue) Im, Won Bin................................1052 (B10, Tue), ........................... 1053 (B10, Tue), 2742 (J3, Tue) Imagawa, Haruo.......................... 1196 (B10, Thu) Imai, Hideto................................... 154 (A2, Tue), ........................970 (B10, Mon), 1065 (B10, Tue), ..................... 1144 (B10, Wed), 1491 (B11, Wed), ...................... 1495 (B11, Wed), 1561 (B11, Thu), .................................................... 1562 (B11, Thu) Imai, Yasuhiko.............................2234 (E12, Tue) Imamoglu, Ipek..............................2353 (F4, Thu) Imamura, Daichi..........................1102 (B10, Tue) Imanishi, Nobuyuki.........................396 (B2, Tue), .............................. 411 (B2, Tue), 856 (B8, Wed), .......................... 941 (B9, Wed), 1081 (B10, Tue), ..................................................... 1111 (B10, Tue) Imhoff, Eugene.............................1939 (E3, Wed) Inaba, Minoru.................................736 (B6, Wed), .......................... 741 (B6, Wed), 1060 (B10, Tue), ....................... 1062 (B10, Tue), 1077 (B10, Tue), ...................... 1087 (B10, Tue), 1497 (B11, Wed), ..................... 1520 (B11, Wed), 1522 (B11, Wed), ....................................................1533 (B11, Wed) Inada, Yasuhiro.............................1066 (B10, Tue) Inagaki, Hiroki................................ 882 (B8, Thu) Inagaki, Toru...................................741 (B6, Wed) Inagi, Shinsuke............................. 2420 (G2, Wed) Inakuma, Toru..............................1796 (D5, Mon) Inamasu, Tokuo............................... 874 (B8, Thu) Inamoto, Jun-ichi............................950 (B9, Wed) Inamoto, Masaoki....................... 1545 (B11, Thu) Inamura, Taichi.............................1851 (E1, Wed) Inazawa, Shinji..............................2257 (F2, Mon) Inigo, Martin-Fernandez.............. 1956 (E4, Mon) Inman, Douglas............................ 2421 (G2, Wed) Innocenti, Massimo....................... 2339 (F4, Tue), .......................................................2351 (F4, Thu) Innocenti, Massimo....................1531 (B11, Wed), ............................ 2035 (E6, Tue), 2267 (F2, Tue), ............................ 2328 (F4, Tue), 2335 (F4, Tue), ..................................................... 2403 (G1, Wed) Ino, Kosuke.....................................2663 (J1, Tue) Inokawa, Hiroshi........................ 2219 (E12, Mon) Inokuma, Kiyoshi.........................1299 (B11, Tue) Inoue, Chihiro.............18 (A1, Tue), 21 (A1, Tue) Inoue, Fumihiro..............................2069 (E7, Tue) Inoue, Gen...................................1412 (B11, Wed)

Inoue, Hideo...............................1403 (B11, Wed), ..................... 1497 (B11, Wed), 1520 (B11, Wed), ....................................................1522 (B11, Wed) Inoue, Hiroshi.......... 85 (A1, Tue), 287 (B1, Tue), ..............................521 (B2, Thu), 654 (B5, Wed), ...................... 1517 (B11, Wed), 1528 (B11, Wed) Inoue, Kenshi................................. 368 (B2, Mon) Inoue, Kumi....................................2663 (J1, Tue) Inoue, Masahiro...............................806 (B8, Tue) Inoue, Satoru................................ 1716 (D1, Wed) Inukai, Junji.................................1261 (B11, Sun), .......................1341 (B11, Tue), 1478 (B11, Wed), ........................... 1624 (B11, Fri), 1625 (B11, Fri) Ionescu, Mihail.............................. 243 (A3, Wed) Ioroi, Tsutomu.............................1508 (B11, Wed) Iqbal, Danish................................... 155 (A2, Tue) Irish, Nicholas.............................1142 (B10, Wed) Irvine, John.....................................790 (B7, Wed) Irvine, Sarah.................................1320 (B11, Tue) Isaifan, Rima................................... 764 (B6, Thu) Isaifan, Rima...................................721 (B6, Wed) Ishibashi, Yoko...............................2296 (F2, Thu) Ishida, Makoto........................... 2222 (E12, Mon) Ishida, Naoya.............54 (A1, Tue), 55 (A1, Tue), .............................. 57 (A1, Tue), 1098 (B10, Tue) Ishigaki, Tadashi.......................... 2708 (J3, Mon), ............................ 2711 (J3, Mon), 2752 (J3, Wed) Ishihara, Akimitsu.......................... 154 (A2, Tue), ..................... 1490 (B11, Wed), 1491 (B11, Wed), ...................... 1495 (B11, Wed), 1561 (B11, Thu), .................................................... 1562 (B11, Thu) Ishihara, Takafumi......................... 2261 (F2, Tue) Ishii, Hiromu.............................. 2222 (E12, Mon) Ishikawa, Daisuke............................. 78 (A1, Tue) Ishimoto, Jun.......... 2105 (E8, Mon), 2121 (E8, Tue) Ishizaki, Momoko.......43 (A1, Tue), 46 (A1, Tue) Isik, Dilek.......................................2574 (I3, Wed) Isikel Sanli, Lale.........................1393 (B11, Wed) Isken, Philipp.............................. 1179 (B10, Thu) Islam, M......................................1158 (B10, Wed) Islam, Md Mahbubul........................566 (B4, Tue) Isobe, Tetsuhiko..............................2726 (J3, Tue) Isomura, Takenori....................... 1569 (B11, Thu) Itagaki, Masayuki............................. 67 (A1, Tue), ...................................68 (A1, Tue), 71 (A1, Tue), ...............................139 (A1, Tue), 141 (A1, Tue), .............................. 142 (A1, Tue), 2665 (J1, Tue), ........................................................2686 (J2, Tue) Itami, Shunsuke...........................1519 (B11, Wed) Ito, Emi...........................................453 (B2, Wed) Ito, Hiroshi..................................1459 (B11, Wed) Ito, Kohei....................................1369 (B11, Wed) Ito, Kousuke...................................... 22 (A1, Tue) Ito, Setsuro................................... 2420 (G2, Wed) Ito, Yutaka...................................1496 (B11, Wed) Itoi, Yasuhiko............................... 1706 (D1, Wed) Itou, Yuich.......................................947 (B9, Wed) Ivanov, Alexey................................329 (B1, Wed) Ivanov, Alexey.............................. 2463 (I1, Mon) Ivanov, Dmitry.................................770 (B7, Tue) Ivanov, Svetlozar......................... 976 (B10, Mon), ....................................................1146 (B10, Wed) Ivanova, Tatyana............................. 1885 (E2, Fri) Ivanova, Valentina..........................2511 (I2, Mon) Ivashenko, Oleksii......................... 2452 (H1, Tue) Ivers-Tiffée, Ellen............................. 896 (B8, Fri) Ivers-Tiffée, Ellen............................ 900 (B8, Fri), ....................... 1099 (B10, Tue), 1175 (B10, Thu), ......................... 1204 (B10, Thu), 1215 (B10, Fri) Iwai, Hiroshi................................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Iwakami, Takanori........................ 1650 (B11, Fri) Iwama, Etsuro................................ 235 (A3, Wed) Iwamizu, Yoshiharu.....................1788 (D5, Mon) Iwanari, Toru...............................1519 (B11, Wed)

Iwasaki, Satoshi..............................300 (B1, Wed) Iwasawa, Chikara.........................1294 (B11, Tue) Izaki, Masanobu............................. 2272 (F2, Tue)

258

J

Jablonskiene, Jolita.....................1506 (B11, Wed) Jacas Biendicho, Jordi.................... 262 (B1, Mon) Jacklin, Rebecca............................ 1723 (D1, Thu) Jackson, Ariel..............................1437 (B11, Wed) Jackson, Gregory....... 780 (B7, Tue), 786 (B7, Wed) Jacobs, Benjamin............................ 164 (A2, Tue) Jacobs, Nadine.............................1275 (B11, Tue) Jacobson, David..........................1289 (B11, Tue), ........................1290 (B11, Tue), 1292 (B11, Tue), .....................................................1293 (B11, Tue) Jacobson, Nathan.............................767 (B7, Tue) Jacques, Amory.............................. 171 (A2, Wed) Jadhav, Harsharaj S........................482 (B2, Wed), ........................................................483 (B2, Wed) Jaeger, Nicolas.............................2168 (E10, Tue) Jafta, Charl.....................................992 (B10, Tue) Jagadish, Chennupati..................2200 (E11, Mon) Jagannathan, Kaushik...................2365 (F5, Mon) Jagminiene, Aldona......................2378 (F5, Mon), ....................................................... 2396 (F5, Tue) Jagwani, Akanksha......................1693 (B12, Wed) Jahn, Marcus................................1023 (B10, Tue) Jain, Gaurav................................... 252 (B1, Mon) Jain, Rajeev..................................... 2480 (I1, Tue) Jakelski, Rene.................................508 (B2, Wed) Jakupi, Pellumb............................. 1723 (D1, Thu) Jalem, Randy............ 50 (A1, Tue), 577 (B4, Wed) Jalkanen, Tero.............................. 1959 (E4, Mon) Jampani Hanumantha, Prashanth....638 (B5, Wed) Janaky, Csaba.................................2531 (I2, Wed) Janata, Jiri............ 2509 (I2, Mon), 2688 (J2, Tue) Jancovic, Peter...............................1878 (E2, Thu) Jandik, Petr...................................... 2477 (I1, Tue) Janek, Juergen.............................. 978 (B10, Mon) Jänes, Alar..................................... 604 (B5, Mon), .............................610 (B5, Mon), 633 (B5, Wed), ........................................................662 (B5, Wed) Jang, Donghyuk...........................1050 (B10, Tue) Jang, Ho Won.................................1976 (E4, Tue) Jang, HoSaeng........ 510 (B2, Wed), 1042 (B10, Tue) Jang, Hyun-jeong.......................... 1732 (D1, Thu) Jang, Jin...........................................119 (A1, Tue) Jang, Jong Hyun.........................1489 (B11, Wed), ....................................................1511 (B11, Wed) Jang, Soohwan............................2197 (E11, Mon) Jang, Sung......................................2015 (E5, Thu) Jang, Won Hee................................327 (B1, Wed) Jang, Woon......................................665 (B5, Wed) Jankovic, Jasna............................1501 (B11, Wed) Janski, Raffael..................................274 (B1, Tue) Janssen, Yuri..................................2256 (F2, Mon) Janßen, Holger.............................1272 (B11, Tue) Jaouen, Frederic......................... 1589 (B11, Thu), ...................................................... 1645 (B11, Fri) Jaramillo, Thomas......................... 690 (B6, Mon), ......................... 726 (B6, Wed), 1380 (B11, Wed), ...................... 1437 (B11, Wed), 1673 (B12, Tue), ...........................2275 (F2, Wed), 2573 (I3, Wed), .......................................................2580 (I3, Wed) Jarjoura, G...................................... 2394 (F5, Tue) Jarry, Angelique...............................908 (B9, Tue) Jarry, Angelique..............................922 (B9, Wed) Javanmard, Mehdi........................1867 (E2, Wed), .......................................................2790 (J4, Wed) Javey, Ali............2162 (E10, Tue), 2290 (F2, Thu) Javier, Anna............ 118 (A1, Tue), 341 (B1, Wed) Jawahar Hussaini, Syed Mubeen.......2565 (I3, Wed) Jaworski, Aleksander....................2093 (E7, Wed) Jayachandrababu, K.........................290 (B1, Tue) Jayasankar, Barathram................ 1557 (B11, Thu) Jebaraj, Adriel............................... 2459 (I1, Mon)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Jebaraj, Josiah............................... 1729 (D1, Thu) Jee, Youngseok................................ 352 (B1, Thu) Jeevagan, Arockiam......................... 14 (A1, Tue), ................................ 33 (A1, Tue), 2628 (I5, Tue), ........................................................2666 (J1, Tue) Jehl, Xavier................................ 2218 (E12, Mon) Jennings, G..................................... 242 (A3, Wed) Jenny, Cecile..................................2122 (E8, Tue) Jensen, Sųren...................................842 (B8, Wed) Jeon, Chan-Uk.............................. 2107 (E8, Mon) Jeon, Hayoung.............................. 2102 (E8, Mon) Jeon, Hyeongtag.............................1870 (E2, Thu) Jeon, Jae-Deok................................466 (B2, Wed) Jeon, JeongSook..............................510 (B2, Wed) Jeon, Min-Su................................1998 (E5, Wed), ............................ 2020 (E5, Thu), 2021 (E5, Thu) Jeon, Myung-Seok..........................466 (B2, Wed) Jeon, Nawon.................................... 2495 (I1, Tue) Jeon, Sangmin............................. 1714 (D1, Wed), ............................. 2793 (J4, Wed), 2842 (J6, Tue) Jeon, So-Me................................ 1585 (B11, Thu) Jeon, Woo Sung..............................457 (B2, Wed), ............................... 919 (B9, Tue), 940 (B9, Wed) Jeon, Yukwon.............................. 1585 (B11, Thu) Jeong, Chang................................ 955 (B10, Mon) Jeong, Gil-Ha.................................... 35 (A1, Tue) Jeong, Gyoung Hwa.......................648 (B5, Wed), ........................................................664 (B5, Wed) Jeong, Hui-Yun............................. 2542 (I3, Mon) Jeong, Hwakyeung......................... 201 (A2, Wed) Jeong, Jaeyoung..............................2841 (J6, Tue) Jeong, Joo Yong............................1986 (E4, Wed) Jeong, Joonseon............................. 237 (A3, Wed) Jeong, Jun-Ho............................. 967 (B10, Mon), .....................................................1004 (B10, Tue) Jeong, Kyuwon...............................671 (B5, Wed) Jeong, Moongook.........................1002 (B10, Tue) Jeong, Sangsik............................... 379 (B2, Mon) Jeong, Seong Uk.......744 (B6, Wed), 745 (B6, Wed) Jeong, Soon-Ki................................940 (B9, Wed) Jeong, Tae Soo..............................1986 (E4, Wed) Jeong, Yeon....................................2015 (E5, Thu) Jeong, Yo Sub....... 324 (B1, Wed), 2451 (H1, Tue) Jeoung, Han-Vit............................2003 (E5, Wed) Jerkiewicz, Gregory........................ 157 (A2, Tue) Jérōme, Christine.........................2430 (H1, Mon) Jervis, Rhodri..............................1362 (B11, Tue), .................................................... 1616 (B11, Thu) Jeschull, Fabian.............................. 380 (B2, Mon) Jeyasingh, Rakesh..........................2022 (E5, Thu) Jha, Prashant.................................2313 (F3, Mon) Jha, Rashmi....................................2010 (E5, Thu) Jhaveri, Janem.............................2244 (E12, Wed) Jhong, Molly.................................. 692 (B6, Mon) Jhong, Yue-Lin.............................1671 (B12, Tue) Ji, Mi-Hee.....................................1928 (E3, Wed) Ji, Youlgwun...............................1499 (B11, Wed) Jia, Ming.............. 688 (B5, Thu), 1230 (B10, Fri) Jia, Qingying....... 1349 (B11, Tue), 1597 (B11, Thu) Jia, Yongzhong................................ 2492 (I1, Tue) Jia, Zhe.........................................1034 (B10, Tue) Jiang, Bin....................................... 2389 (F5, Tue) Jiang, Huanhuan..............................792 (B7, Wed) Jiang, Junhua...................................2766 (J4, Tue) Jiang, Kun...................................1455 (B11, Wed) Jiang, Meng..................................... 526 (B2, Thu) Jiang, San Ping.................................713 (B6, Tue) Jiang, Tao....................................... 198 (A2, Wed) Jiang, Wenkan...............................1931 (E3, Wed) Jiang, Yong......................................672 (B5, Wed) Jiang, Zhiming.............................2153 (E10, Tue) Jie, Xiao...........................................409 (B2, Tue) Jimbo, Takehito............................. 1235 (B10, Fri) Jiménez-Morales, Antonia........... 1841 (D5, Wed) Jin, Aihua........ 1035 (B10, Tue), 1036 (B10, Tue) Jin, Bong-Soo..................................850 (B8, Wed)

Jin, Chang-Soo................................492 (B2, Wed) Jin, Hong......................................1033 (B10, Tue) Jin, Kyoungsuk............................. 2542 (I3, Mon) Jin, Miao......................................2237 (E12, Tue) Jin, Sanghyun.................................2070 (E7, Tue) Jin, Ying............. 1741 (D2, Wed), 2385 (F5, Tue) Jin, Yong Wan............................... 2645 (J1, Mon) Jinbo, Ryohei................................. 178 (A2, Wed) Jing, Pan...................................... 1575 (B11, Thu) Jing, Yan.......................................... 2492 (I1, Tue) Jinnouchi, Ryosuke......................1300 (B11, Tue) Jirkovsky, Jakub...............................392 (B2, Tue) Jo, Chang Heum...............................812 (B8, Tue) Jo, Sung-Geun........ 2494 (I1, Tue), 2495 (I1, Tue) Joghee, Prabhuram...................... 1576 (B11, Thu) Johansson, Patrik..........383 (B2, Tue), 384 (B2, Tue) Johari, Priya.....................................557 (B4, Tue) Johnsen, Rune.................................842 (B8, Wed) Johnson, Christopher.................... 371 (B2, Mon), .............................. 397 (B2, Tue), 487 (B2, Wed), ............................... 809 (B8, Tue), 826 (B8, Wed) Johnson, David........344 (B1, Thu), 345 (B1, Thu) Johnson, Derek..............................1935 (E3, Wed) Johnson, Elijah..... 2318 (F3, Tue), 2320 (F3, Tue) Johnson, Keith................................2721 (J3, Tue) Johnson, Lee....................................389 (B2, Tue) Johnson, Magnus........................ 1750 (D2, Wed), ...................................................... 1754 (D2, Thu) Johnson, Michael........................1351 (B11, Tue), ....................................................1384 (B11, Wed) Johnston, David.............................2750 (J3, Wed) Johnston, Keith...... 233 (A3, Tue), 636 (B5, Wed) Joi, Aniruddha................................2076 (E7, Tue) Joly, Stéphane............................. 1191 (B10, Thu) Jomori, Shinji.............................. 1553 (B11, Thu) Jonas Davidson, D...................... 2410 (G1, Wed), .......................................................2591 (I3, Wed) Jones, Amanda............................1668 (B12, Tue), ....................................................1697 (B12, Wed) Jones, Benjamin.............................. 129 (A1, Tue) Jones, Christopher........................... 164 (A2, Tue) Jones, Deborah.............................. 1645 (B11, Fri) Jones, Eric......................................2750 (J3, Wed) Jones, Kenneth...............................1917 (E3, Tue) Jones, Reese....................................470 (B2, Wed) Jonke, Alex.................................... 2509 (I2, Mon) Jónsson, Erlendur.............................384 (B2, Tue) Joo, Jin Chul.......... 159 (A2, Tue), 2826 (J6, Tue) Joo, Jiyong..................................1451 (B11, Wed) Joo, Jong-Hoon............................ 2425 (G2, Wed) Joo, Sang Hoon...........................1516 (B11, Wed) Joo, Young-chang......................... 953 (B10, Mon) Joo, Young-Chang.........................2084 (E7, Tue), ...................................................... 2542 (I3, Mon) Joost, Mario................................... 379 (B2, Mon) Joost, Urmas................................1381 (B11, Wed) Jörissen, Ludwig.............................428 (B2, Wed) Jorne, Jacob.....................................487 (B2, Wed) Josell, Daniel.................................2034 (E6, Tue), .......................... 2064 (E7, Tue), 2205 (E11, Tue), ............................ 2381 (F5, Tue), 2387 (F5, Tue), ....................................................... 2393 (F5, Tue) Joseph, Christopher...................... 1747 (D2, Wed) Joseph, Vincent.............................. 2110 (E8, Tue) Joshi, Prerna................................ 1163 (B10, Thu) Joshi, Tapesh..................................991 (B10, Tue) Josowicz, Mira.............................. 2509 (I2, Mon) Jost, Kristy....................................... 53 (A1, Tue), ............................... 624 (B5, Tue), 669 (B5, Wed) Joung, Young Soo........................2305 (F3, Mon), ......................................................2314 (F3, Mon) Jourdan, Marine........................... 2101 (E8, Mon) Jourdan, Nicolas.......................... 2057 (E7, Mon), .......................................................2081 (E7, Tue) Jow, T. Richard...............................834 (B8, Wed), ........................1181 (B10, Thu), 1183 (B10, Thu)

Ju, Youngwon.................................... 10 (A1, Tue) Juarez Parrilla, Ziva....................1523 (B11, Wed) Jukk, Kristel.................................... 2473 (I1, Tue) Julien, Christian.............................853 (B8, Wed), ............................. 854 (B8, Wed), 855 (B8, Wed), .............................. 863 (B8, Wed), 864 (B8, Wed) Jumas, Jean-Claude.........................446 (B2, Wed) Jun, Mun-Suk..............................1287 (B11, Tue), ...................... 1483 (B11, Wed), 1484 (B11, Wed) Jun, Yongseok.................................640 (B5, Wed) Jung, Changhoon...........................457 (B2, Wed), ..............................919 (B9, Tue), 2027 (E6, Tue), ...................................................... 2645 (J1, Mon) Jung, Florina................................. 1657 (B11, Fri) Jung, Heechul............................... 965 (B10, Mon) Jung, Hyun Wook.........................2176 (E10, Tue) Jung, Kyu-Nam...............................407 (B2, Tue), ............................. 484 (B2, Wed), 488 (B2, Wed), ........................... 492 (B2, Wed), 1059 (B10, Tue) Jung, Min-Suk.............................. 953 (B10, Mon) Jung, Won-Suk...........................1402 (B11, Wed), .....................................................1611 (B11, Thu) Jung, Wook Ki................................ 361 (B2, Mon) Jung, Young Hwa.......................... 361 (B2, Mon), .........................................................381 (B2, Tue) Jung, Youngguan.........................1470 (B11, Wed) Jung, Youngsuk..............................2027 (E6, Tue) Jurczak, Malgorzata......................1876 (E2, Thu), ........................2158 (E10, Tue), 2179 (E10, Wed) Jurovitzki, Abraham........................637 (B5, Wed) Jurzinsky, Tilman........................1358 (B11, Tue), ...................................................... 1657 (B11, Fri) Juskenas, Remigijus....................1506 (B11, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

K

Kabansky, Alexander..................... 2112 (E8, Tue) Kabir, Sadia................................. 1593 (B11, Thu) Kabiri Rahani, Ehsan.......................628 (B5, Tue) Käbitz, Stefan...................................567 (B4, Tue) Kabuyanagi, Shoichi...................2227 (E12, Tue), ....................................................2249 (E12, Wed) Kacha, Berhanu.............................1993 (E5, Wed) Kachtouli, Riadh...........................2068 (E7, Tue), ..................................................... 2101 (E8, Mon) Kaczer, Ben......1876 (E2, Thu), 2140 (E10, Mon) Kadakia, Karan................................289 (B1, Tue) Kadam, Rahul.............................1138 (B10, Wed) Kadoma, Yoshihiro...................... 969 (B10, Mon) Kadoyama, Tetsuya....................... 2644 (J1, Mon) Kadyk, Thomas...............................630 (B5, Tue), ....................................................1117 (B10, Wed) Kaga, Mashiro...............................2255 (F2, Mon) Kagan, Jeffrey................................. 2482 (I1, Tue) Kageura, Jun-ichi............................491 (B2, Wed) Kageyama, Hiroshi........................499 (B2, Wed), .............................. 835 (B8, Wed), 858 (B8, Wed) Kahn, Antoine.............................2244 (E12, Wed) Kahn, Harold................................ 1832 (D5, Wed) Kaiser, Ute......................................428 (B2, Wed) Kakade, Bhalchandra..................1355 (B11, Tue), .................................................... 1559 (B11, Thu) Kakinuma, Katsuyoshi...............1504 (B11, Wed), ..................... 1505 (B11, Wed), 1514 (B11, Wed), .........................1519 (B11, Wed), 1634 (B11, Fri) Kaklidis, Nikolaos...........................794 (B7, Wed) Kakushima, Kuniyuki..................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Kalantarian, Ali...........................1423 (B11, Wed) Kaler, Karan.................................. 2761 (J4, Mon) Kalhoff, Julian.................................310 (B1, Wed) Kalidindi, Arvind........................1469 (B11, Wed) Kalimuldina, Gulnur...................... 263 (B1, Mon) Kalinin, Sergei................................ 673 (B5, Thu) Kalluri, Raja.................................2433 (H1, Mon) 259


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Kalnaus, Sergiy...............................272 (B1, Tue), .............................. 312 (B1, Wed), 572 (B4, Tue), ........................... 1210 (B10, Fri), 1229 (B10, Fri) Kalu, Eric........................................2694 (J2, Tue) Kalubarme, Ramchandra S............481 (B2, Wed), .............................. 482 (B2, Wed), 483 (B2, Wed) Kaluzhina, Svetlana..................... 1712 (D1, Wed) Kamaraj, R................................... 2410 (G1, Wed) Kambara, Makoto.........................2255 (F2, Mon) Kambayshi, Hiroshi....................... 1911 (E3, Tue) Kamber, Derrick............................1931 (E3, Wed) Kambour, Kenneth.................... 2138 (E10, Mon), ................................................... 2141 (E10, Mon) Kamei, Akika...............................1062 (B10, Tue) Kamei, Masayuki........................2245 (E12, Wed) Kamimura, Jumpei.......................... 2547 (I3, Tue) Kamiya, Katsumasa.....................2159 (E10, Tue) Kamiya, Kazuhiro......................... 2635 (J1, Mon) Kamundi, Martha..........................2370 (F5, Mon) Kanamura, Kiyoshi........................577 (B4, Wed), .............................. 904 (B9, Tue), 998 (B10, Tue) Kanazawa, Ryotaro......................1087 (B10, Tue) Kanda, Kohei................................ 1631 (B11, Fri) Kanda, Yusuke.................................. 33 (A1, Tue) Kandasamy, Sasikaran.................. 1812 (D5, Tue) Kandlikar, Satish........................1418 (B11, Wed), .................................................... 1580 (B11, Thu) Kane, Marie.....................................470 (B2, Wed) Kaneko, Kimihiro............................. 54 (A1, Tue) Kaneko, Shingo..........13 (A1, Tue), 14 (A1, Tue), ...............................2628 (I5, Tue), 2666 (J1, Tue) Kaneko, Takafumi.......................... 363 (B2, Mon) Kaneko, Yuta..................................2026 (E6, Tue) Kaneko, Yutaka..............................2066 (E7, Tue) Kaneshiro, Jess................................ 2548 (I3, Tue) Kaneto, Daichi.........2032 (E6, Tue), 2042 (E6, Tue) Kang, Bong-Kyun........................ 2097 (E8, Mon) Kang, Chan Soon......................... 964 (B10, Mon) Kang, Chi Jung.............................2008 (E5, Wed) Kang, Chun-Gi.............................1040 (B10, Tue) Kang, Dong Hyun...........................849 (B8, Wed) Kang, Dong-Hyun...........................948 (B9, Wed) Kang, Eun-Hee...............................2749 (J3, Wed) Kang, Ho-Kyu................................2073 (E7, Tue) Kang, Ho-Young........................... 2542 (I3, Mon) Kang, Hyorang............................... 237 (A3, Wed) Kang, Jiahao................................2182 (E10, Wed) Kang, Jonghyeon............................2051 (E6, Tue) Kang, Juhyun..................................737 (B6, Wed) Kang, Kisuk................................... 870 (B8, Thu), .......................... 994 (B10, Tue), 1045 (B10, Tue) Kang, Kun-Young............................281 (B1, Tue) Kang, Kyoung Soo.........................744 (B6, Wed), ........................................................745 (B6, Wed) Kang, Moon-Sung......................... 239 (A3, Wed), .............................241 (A3, Wed), 295 (B1, Wed), ............................. 314 (B1, Wed), 316 (B1, Wed), ...................... 1477 (B11, Wed), 1536 (B11, Wed) Kang, Peng.......................................700 (B6, Tue) Kang, Qinjun................................1254 (B11, Sun) Kang, Sangwoo............................2161 (E10, Tue) Kang, Sangwoo.......................... 2145 (E10, Mon) Kang, Sukill..................................1986 (E4, Wed) Kang, Sun..................................... 955 (B10, Mon) Kang, Tak......................................2091 (E7, Wed) Kang, Weng........... 257 (B1, Mon), 678 (B5, Thu) Kang, Yen-Wen...........................2194 (E11, Mon) Kang, Yijin.........1251 (B11, Sun), 1401 (B11, Wed) Kang, Yong Soo.............................2047 (E6, Tue) Kang, Yuhong.................................2011 (E5, Thu) Kang, Yuu................. 73 (A1, Tue), 332 (B1, Wed) Kannan, Ramaiyan..........................2697 (J2, Tue) Kanno, Ryoji.................................... 98 (A1, Tue), .............................. 102 (A1, Tue), 989 (B10, Tue) Kao, Tsung-Ting...........................1928 (E3, Wed) Kaplan, Valery.................................717 (B6, Wed)

Kaplar, Robert.....1919 (E3, Tue), 1943 (E3, Wed) Kar, Debashis..................................942 (B9, Wed) Kar, G...........................................2158 (E10, Tue) Kar, Pallavi.................................... 1226 (B10, Fri) Karakassides, Michael.................. 2452 (H1, Tue) Karakaya, Ishak............................ 2343 (F4, Wed), ............................2353 (F4, Thu), 2401 (F5, Wed) Karamad, Mohammadreza...............712 (B6, Tue) Karan, Kunal.......346 (B1, Thu), 1557 (B11, Thu) Karan, Naba.................................. 2280 (F2, Wed) Karaseva, Elena...............................330 (B1, Wed) Karbarz, Marcin....... 1844 (D6, Tue), 2650 (J1, Tue) Kariate, Sudhakaraprasad............. 2442 (H1, Tue) Karimi, Shahram........................... 2265 (F2, Tue), ...................................................... 2538 (I3, Mon) Kariuki, Nancy............................1400 (B11, Wed) Karkada, Nagaveni........................ 2709 (J3, Mon) Karthikayini, M. P...........................306 (B1, Wed) Karulkar, Mohan..............................277 (B1, Tue) Kasian, Olga................................. 2423 (G2, Wed) Kaskel, Stefan................................ 358 (B2, Mon) Kaspar, Robert............................ 1571 (B11, Thu) Kassam, Adil................................. 1211 (B10, Fri) Kassegne, Sam...............................2764 (J4, Tue), ..............................2769 (J4, Tue), 2771 (J4, Tue), .......................................................2786 (J4, Wed) Kassem, Mahammad................... 1191 (B10, Thu) Kästner, Anders............................1291 (B11, Tue) Kasuga, Toshihiro............................ 50 (A1, Tue), ................................. 52 (A1, Tue), 577 (B4, Wed) Katakis, Ioanis...... 2505 (I2, Mon), 2664 (J1, Tue) Kataoka, Riki................................. 368 (B2, Mon) Kataoka, Yoshinori.......................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Kataura, Hiromichi.......................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Katayama, Masaki........................1066 (B10, Tue) Katayama, Yasushi......................1126 (B10, Wed) Kato, Atsushi...............................1459 (B11, Wed) Kato, Hisao.................................1500 (B11, Wed) Kato, Kimihiko...........................2248 (E12, Wed) Kato, Manabu.............................. 1553 (B11, Thu) Kato, Seiya........................................ 71 (A1, Tue) Kato, Shiro...................................1066 (B10, Tue) Kato, Yuki................................... 1197 (B10, Thu) Katsaros, Fotios............................ 2452 (H1, Tue) Katsumata, Ken-ichi..................... 2448 (H1, Tue) Katsuno, Masakazu...................... 1892 (E3, Mon) Kattekola, Samhita........................ 2607 (I4, Mon) Katzer, D........................................1912 (E3, Tue) Kaur, Kamaljit.................................2775 (J4, Tue) Kawabuchi, Mari.............................. 43 (A1, Tue), ....................................45 (A1, Tue), 46 (A1, Tue) Kawaguchi, Tomoya......................582 (B4, Wed), .........................................................823 (B8, Tue) Kawai, Hideki................................. 141 (A1, Tue) Kawai, Ryousuke.........................1098 (B10, Tue) Kawai, Yuya...........91 (A1, Tue), 982 (B10, Mon) Kawakubo, Maiko.......................1081 (B10, Tue), ..................................................... 1111 (B10, Tue) Kawamoto, Tohru.............................. 49 (A1, Tue) Kawamura, Go............................. 1823 (D5, Wed) Kawamura, Midori......49 (A1, Tue), 95 (A1, Tue) Kawamura, Yoshiumi.................. 1197 (B10, Thu) Kawasaki, Takashi......................1487 (B11, Wed) Kawasaki, Takashi...........................709 (B6, Tue) Kawasumi, Masaya......................1282 (B11, Tue) Kawauchi, Shigehiro.......................947 (B9, Wed) Kawde, Abdel-Nasser..................... 2498 (I1, Tue) Kaye, Ian......................................1273 (B11, Tue) Kaynak, Mehmet........................ 2221 (E12, Mon) Kazempoor, Pejman...................1685 (B12, Wed), ..................................................... 2413 (G2, Wed) Ke, Yiqing......................................2078 (E7, Tue) Keane, Michael............................... 121 (A1, Tue)

Kechichian, Ardem.....................2187 (E10, Wed) Keech, Peter.................................. 1723 (D1, Thu) Keenawinna, Shaminee................... 143 (A1, Tue) Keles, Ozgul................................1161 (B10, Wed) Keleş, Özgül........ 1006 (B10, Tue), 1007 (B10, Tue) Keller, Marlou................................ 379 (B2, Mon) Kelley, David..................................2728 (J3, Tue) Kelly, Deanna..................................2661 (J1, Tue) Kelly, James...................................2075 (E7, Tue) Kelly, Robert............................... 1735 (D2, Wed), .........................1736 (D2, Wed), 1740 (D2, Wed), ......................... 1749 (D2, Wed), 1762 (D2, Thu), .....................................................1768 (D4, Mon) Kemper, Travis.......585 (B4, Wed), 878 (B8, Thu) Kenesei, Peter..................................393 (B2, Tue) Kenis, Paul.............692 (B6, Mon), 697 (B6, Tue) Kenko, Takuya............................1533 (B11, Wed) Kennard, Rhiannon........................984 (B10, Tue) Kennedy, Evelyn............................2124 (E8, Tue) Kennedy, Gareth............................. 2476 (I1, Tue) Kennouche, David........................... 765 (B6, Thu) Kentie, Frank.................................. 2115 (E8, Tue) Kercher, Andrew............................597 (B4, Wed), ........................................................838 (B8, Wed) Kerres, Jochen............................1392 (B11, Wed), .................................................... 1573 (B11, Thu) Kessels, Erwin...............................1877 (E2, Thu), ............................ 1880 (E2, Thu), 1882 (E2, Thu) Kesters, Els.................................... 2111 (E8, Tue) Ketpang, Kriangsak......................1286 (B11, Tue) Keum, Jong.....................................441 (B2, Wed) Key, Baris.........................................809 (B8, Tue) Kgatwane, Kenneth.........................596 (B4, Wed) Khadka, Sushil..............................1863 (E2, Wed) Khaja, Fareen...............................2237 (E12, Tue) Khajeh Hosseini Dalasm, Navvab......................... .....................................................1296 (B11, Tue) Khaleghi Rahimian, Saeed.............. 347 (B1, Thu) Khalifah, Peter...............................843 (B8, Wed), .............................875 (B8, Thu), 2256 (F2, Mon) Khaligh, Alireza............................1947 (E3, Wed) Khan, Mohammad..........................2796 (J4, Wed) Khan, Saad........................................ 75 (A1, Tue) Khatkar, Satyender......................... 175 (A2, Wed) Khaykovich, Boris.......................1289 (B11, Tue) Khosla, Ajit......... 2786 (J4, Wed), 2800 (J4, Wed) Khosla, Ajit....................................2722 (J3, Tue), ............................. 2771 (J4, Tue), 2799 (J4, Wed) Khosru, Quazi....... 1849 (E1, Wed), 1850 (E1, Wed) Khullar, Piyush............................. 1740 (D2, Wed) Khunsin, Worawut........ 16 (A1, Tue), 162 (A2, Tue) Kibsgaard, Jakob............................2573 (I3, Wed) Kiefer, Boris............................... 1593 (B11, Thu), ........................... 1637 (B11, Fri), 1647 (B11, Fri) Kiggans, Jim......... 597 (B4, Wed), 838 (B8, Wed) Kihira, Yuki................................. 1196 (B10, Thu) Kikuchi, Katsuhide.....................1420 (B11, Wed) Kikuchi, Kazunori........................ 1706 (D1, Wed) Kikuchi, Seiya................................. 2493 (I1, Tue) Kil, Yeon-Ho.................................1986 (E4, Wed) Kilner, John....................................... 52 (A1, Tue) Kim, Beomseok...............................2687 (J2, Tue) Kim, Byung Gook........................ 2107 (E8, Mon) Kim, Byung Hoon...........................640 (B5, Wed) Kim, Chang Hee....... 744 (B6, Wed), 745 (B6, Wed) Kim, Chang-Koo............................648 (B5, Wed), ........................................................664 (B5, Wed) Kim, Cheong................................1051 (B10, Tue) Kim, Chunjoong.............................825 (B8, Wed), ...........................860 (B8, Wed), 971 (B10, Mon), ..........................981 (B10, Mon), 993 (B10, Tue), ....................... 1000 (B10, Tue), 1149 (B10, Wed) Kim, Dae-Sik...............................1313 (B11, Tue) Kim, Deok.................................... 955 (B10, Mon) Kim, Do Kyung.........361 (B2, Mon), 381 (B2, Tue) Kim, Do-Hyeong...... 295 (B1, Wed), 314 (B1, Wed)

260

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Kim, Dohyung............................. 2107 (E8, Mon) Kim, Dong Shik..............................2703 (J2, Tue) Kim, Dong-Joo...............................2826 (J6, Tue), ...............................2840 (J6, Tue), 2841 (J6, Tue) Kim, Dong-uk...............................2034 (E6, Tue), ..................................................... 2205 (E11, Tue) Kim, Dong-Won.............................496 (B2, Wed), ...........................1061 (B10, Tue), 2494 (I1, Tue), ........................................................ 2495 (I1, Tue) Kim, Dongbin..............................2161 (E10, Tue) Kim, Donghan.................................487 (B2, Wed) Kim, Donghwi.............................1050 (B10, Tue) Kim, Eui-Tae.................................. 2270 (F2, Tue) Kim, Eunkyoung.............................2661 (J1, Tue) Kim, Gu-Yeon.................................549 (B3, Wed) Kim, H........................................2192 (E11, Mon) Kim, H. S.......................................2012 (E5, Thu) Kim, Hae-sik...................................322 (B1, Wed) Kim, Haekyoung.............................321 (B1, Wed) Kim, Hanjoo.......... 670 (B5, Wed), 671 (B5, Wed) Kim, Hansu..................................1080 (B10, Tue) Kim, Heetak................................ 1558 (B11, Thu) Kim, Ho-Sung........ 490 (B2, Wed), 1038 (B10, Tue) Kim, Hojoong................................... 76 (A1, Tue) Kim, Hong-Sig.............................2005 (E5, Wed), .......................................................2015 (E5, Thu) Kim, Hongil.......... 670 (B5, Wed), 671 (B5, Wed) Kim, Hye Jin..................................2801 (J4, Wed) Kim, Hyeong Joon........................... 59 (A1, Tue), .........................2171 (E10, Tue), 2172 (E10, Tue) Kim, Hyeong U............................ 2209 (E11, Tue) Kim, Hyo Sang...............................327 (B1, Wed) Kim, Hyonwoong........................2197 (E11, Mon) Kim, HyoungJuhn.......................1489 (B11, Wed) Kim, Hyoyeon.............................. 2107 (E8, Mon) Kim, Hyuk Jin................................... 59 (A1, Tue) Kim, Hyun.....................................2015 (E5, Thu) Kim, Hyun Jin.................................849 (B8, Wed) Kim, Hyun-Soo...............................850 (B8, Wed) Kim, Hyunchul............................1014 (B10, Tue), .........................1050 (B10, Tue), 1114 (B10, Tue) Kim, Hyungjin................................337 (B1, Wed) Kim, Hyungsub.............................2311 (F3, Mon) Kim, Hyungsub..............................994 (B10, Tue) Kim, Hyunse................................ 2099 (E8, Mon) Kim, Hyunseok.............................. 237 (A3, Wed) Kim, Hyunuk..............................1460 (B11, Wed) Kim, Ick-Jun...................................651 (B5, Wed) Kim, Il To....................................... 100 (A1, Tue), ............................... 101 (A1, Tue), 507 (B2, Wed) Kim, J..........................................2192 (E11, Mon) Kim, J. Y.........................................2012 (E5, Thu) Kim, Jae........... 955 (B10, Mon), 964 (B10, Mon) Kim, Jae-Hyun............................. 2059 (E7, Mon) Kim, Je Young........ 912 (B9, Tue), 946 (B9, Wed) KIM, Je-Deok.............................1287 (B11, Tue), ...................... 1483 (B11, Wed), 1484 (B11, Wed) Kim, Jemin...................................1040 (B10, Tue) Kim, Jeomoh.................................1928 (E3, Wed) Kim, Ji Man.................................1014 (B10, Tue) Kim, Ji-Heon...... 1831 (D5, Wed), 2029 (E6, Tue) Kim, Ji-Tae........................................ 89 (A1, Tue) Kim, Ji-Young.................................322 (B1, Wed) Kim, Jihye....................................1091 (B10, Tue) Kim, JiHyun................................1489 (B11, Wed) Kim, Jin..........................................2080 (E7, Tue) Kim, Jin Yong............................1681 (B12, Wed), ....................................................1682 (B12, Wed) Kim, Jinsu.................................... 2107 (E8, Mon) Kim, Jiseok..................................2166 (E10, Tue) Kim, Jong.......................................2079 (E7, Tue) Kim, Jong Kyu............................. 2204 (E11, Tue) Kim, Jongsoon...............................994 (B10, Tue) Kim, Jongwon.......201 (A2, Wed), 202 (A2, Wed) Kim, Joohoon..................................... 8 (A1, Tue), ....................................10 (A1, Tue), 36 (A1, Tue)

Kim, Joon-Hee............................ 1546 (B11, Thu) Kim, Joung Hee............................1986 (E4, Wed) Kim, Ju Ho........... 324 (B1, Wed), 2451 (H1, Tue) Kim, Ju Seong................................2593 (I3, Wed) Kim, Jun Myung............................... 10 (A1, Tue) Kim, Jung-Hyun.......................... 1177 (B10, Thu) Kim, Jungeun.................................494 (B2, Wed), .............................. 499 (B2, Wed), 835 (B8, Wed) Kim, Junghwa..............................1040 (B10, Tue) Kim, Keon.......... 735 (B6, Wed), 1101 (B10, Tue) Kim, Ki-Tae.................................... 879 (B8, Thu) Kim, Ki-Tae.................................. 2400 (F5, Wed) Kim, Ki-Yong................................2005 (E5, Wed) Kim, Kwang Jin............................ 258 (B1, Mon), ............................. 323 (B1, Wed), 325 (B1, Wed), ........................................................327 (B1, Wed) Kim, Kwang Man.............................281 (B1, Tue) Kim, Kwang-Hee.............................714 (B6, Tue) Kim, Kwang-Soo.........................1856 (E1, Wed), ................................................... 2137 (E10, Mon) Kim, Kwang-Yuk......................... 1704 (D1, Wed) Kim, Kyu-Sik.......... 2027 (E6, Tue), 2645 (J1, Mon) Kim, Kyung Ho...........49 (A1, Tue), 95 (A1, Tue) Kim, Kyungsu....... 102 (A1, Tue), 989 (B10, Tue) Kim, Kyuwon.........2678 (J1, Tue), 2679 (J1, Tue) Kim, M. H.......1340 (B11, Tue), 1436 (B11, Wed) Kim, Min Chul...............................323 (B1, Wed), .............................. 325 (B1, Wed), 327 (B1, Wed) Kim, Min-Soo................................1876 (E2, Thu) Kim, Min-Su................................ 2097 (E8, Mon) Kim, Min-Young............................490 (B2, Wed), .....................................................1038 (B10, Tue) Kim, Minjeong.................................. 97 (A1, Tue) Kim, MinJoong..............................554 (B3, Wed), ...................................................... 1656 (B11, Fri) Kim, Misung..................................2359 (F4, Thu) Kim, Moon......................................2806 (J6, Tue) Kim, Moonil....................................2837 (J6, Tue) Kim, Nam-In...............................1516 (B11, Wed) Kim, Namsu.................................1040 (B10, Tue) Kim, Sang Jae................................. 679 (B5, Thu) Kim, Sang-Hern..........................1049 (B10, Tue), .....................................................1090 (B10, Tue) Kim, Sang-Hyeon........................2223 (E12, Tue) Kim, Sang-Wan............................1054 (B10, Tue) Kim, Sang-Woo..............................1964 (E4, Tue) Kim, Sang-Wook............................648 (B5, Wed), ........................................................664 (B5, Wed) Kim, Sangcheol...........................1406 (B11, Wed) Kim, Sangryun................................ 102 (A1, Tue) Kim, Se-Young............................. 2425 (G2, Wed) Kim, Seok-Jae................................... 35 (A1, Tue) Kim, Seong In.................................940 (B9, Wed) Kim, Seul......... 954 (B10, Mon), 964 (B10, Mon) Kim, Seungnam............................ 1714 (D1, Wed) Kim, Shin Ho.................................323 (B1, Wed), .............................. 325 (B1, Wed), 328 (B1, Wed) Kim, Soo-Kil...............................1511 (B11, Wed) Kim, Soojin.....................................540 (B3, Wed) Kim, Sun Jae...................................722 (B6, Wed) Kim, Sun Ung............................ 1192 (B10, Thu), ....................................................1696 (B12, Wed) Kim, Sun Woog............................ 2708 (J3, Mon), ............................ 2711 (J3, Mon), 2752 (J3, Wed) Kim, Sun-Dong........................... 2424 (G2, Wed), ..................................................... 2425 (G2, Wed) Kim, Sun-Jae...................................867 (B8, Wed) Kim, Sung-soo............................. 967 (B10, Mon) Kim, Sungeun............................ 2137 (E10, Mon) Kim, Sungjin................................1040 (B10, Tue) Kim, Tae Young..............................457 (B2, Wed) Kim, Tae-Hyun.............................2154 (E10, Tue) Kim, Taek Sung.............................1986 (E4, Wed) Kim, Taekeun.............................1402 (B11, Wed), .....................................................1611 (B11, Thu) Kim, Taemin....................................2687 (J2, Tue)

Kim, Taesung.............................. 2098 (E8, Mon), ........................ 2102 (E8, Mon), 2161 (E10, Tue), ..................................................... 2209 (E11, Tue) Kim, Taewhan..............................1050 (B10, Tue) Kim, Taeyoon.............................. 1558 (B11, Thu) Kim, TaeYoung...............................642 (B5, Wed) Kim, Won Bae.............................1530 (B11, Wed) Kim, Woo-Gu................................. 239 (A3, Wed) Kim, Wookhyun.............................2048 (E6, Tue) Kim, Woosik...............................2158 (E10, Tue), ....................................................2179 (E10, Wed) Kim, Yang Soo................................940 (B9, Wed) Kim, Yeoju.......................................... 8 (A1, Tue) Kim, Yeonsu................................ 1558 (B11, Thu) Kim, Yong Suk................................849 (B8, Wed) Kim, Yong-Han......... 482 (B2, Wed), 483 (B2, Wed) Kim, Yoon Jang......... 59 (A1, Tue), 2171 (E10, Tue) Kim, Yoongu...................................930 (B9, Wed) Kim, Youn-Geun...........................2365 (F5, Mon) Kim, Young...... 955 (B10, Mon), 964 (B10, Mon) Kim, Young Bok........ 100 (A1, Tue), 507 (B2, Wed) Kim, Young Rae.............................2047 (E6, Tue) Kim, Young-Beom.........................313 (B1, Wed), ........................................................ 342 (B1, Thu) Kim, Young-Bok............................. 101 (A1, Tue) Kim, Young-Jun...........................1080 (B10, Tue) Kim, Youngchul..............................492 (B2, Wed) Kim, YoungJun...............................554 (B3, Wed) Kim, Youngmin...........................1530 (B11, Wed) Kim, Youngnam...........................1015 (B10, Tue) Kim, Youngsang........................... 1112 (B10, Tue) Kim, Yu Seung............................1313 (B11, Tue), ....................... 1390 (B11, Wed), 1606 (B11, Thu) Kim, Yun........................................2080 (E7, Tue) Kim, Yung......................................2015 (E5, Thu) Kim, Yunok.................................1014 (B10, Tue), .........................1050 (B10, Tue), 1114 (B10, Tue) Kimata, Yoshio.................................. 66 (A1, Tue) Kimura, Isao.................................. 1235 (B10, Fri) Kimura, Kenji.............................. 1960 (E4, Mon) Kimura, Shigeru...........................2234 (E12, Tue) Kimura, Yasuo................................ 109 (A1, Tue), .........................2183 (E10, Wed), 2362 (F4, Thu), ........................................................2676 (J1, Tue) Kindler, A.........................................290 (B1, Tue) Kinefuchi, Ikuya.........................1255 (B11, Sun), .....................................................1257 (B11, Sun) King, Branden.................................2662 (J1, Tue) King, Laurie...................................2596 (I3, Wed) King, Mackenzie.............................646 (B5, Wed) King, Sean....................................... 138 (A1, Tue) Kink, Ilmar..................................1381 (B11, Wed) Kinkead, Brandy........ 157 (A2, Tue), 2778 (J4, Tue) Kinoshita, Hajime........................1066 (B10, Tue) Kinoshita, Tetsuo......................... 2100 (E8, Mon) Kinoshita, Yuki.............................2233 (E12, Tue) Kinumoto, Taro.............................. 146 (A1, Tue), ....................................................1509 (B11, Wed) kipouros, G..................................... 2394 (F5, Tue) Kiraz, Nadir.....................................2741 (J3, Tue) Kirchner, K.....................................1917 (E3, Tue) Kirklin, Scott....................................395 (B2, Tue) Kirsch, Jeffrey.................................2829 (J6, Tue) Kirtley, John............ 772 (B7, Tue), 774 (B7, Tue) Kiruthika, R..................................1010 (B10, Tue) Kish, Joseph........1816 (D5, Tue), 1817 (D5, Tue) Kiss, Andrew....................................778 (B7, Tue) Kita, Koji.......... 2019 (E5, Thu), 2186 (E10, Wed) Kitabatake, Makoto...................... 1894 (E3, Mon) Kitada, Atsushi................................. 58 (A1, Tue), ...................................73 (A1, Tue), 74 (A1, Tue), ...................................77 (A1, Tue), 78 (A1, Tue), ........................................................332 (B1, Wed) Kitahara, Tatsumi....................... 1545 (B11, Thu), ...................................................... 1623 (B11, Fri) Kitajou, Ayuko........ 400 (B2, Tue), 532 (B2, Thu)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

261


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Kitamura, Masahito........................2025 (E5, Thu) Kitamura, Naoto............................... 54 (A1, Tue), ...................................55 (A1, Tue), 57 (A1, Tue), ............................... 734 (B6, Wed), 806 (B8, Tue) Kitamura, Takashi........................... 147 (A1, Tue) Kitano, Ritsuko...........................1144 (B10, Wed) Kitayaporn, Sathana......................2088 (E7, Wed) Kiuchi, Hisao.............................1485 (B11, Wed), ....................................................1493 (B11, Wed) Kiyohara, Kenji............................... 2488 (I1, Tue) Kizilyalli, Isik...............................1932 (E3, Wed) Kjeang, Erik...............................1430 (B11, Wed), ..................... 1433 (B11, Wed), 1435 (B11, Wed), ........................................................ 2485 (I1, Tue) Kjell, Maria................................. 1203 (B10, Thu) Klamor, Sebastian........................ 983 (B10, Mon) Klassen, Thomas............................ 2559 (I3, Tue), .......................................................2575 (I3, Wed) Kleber, Christoph........................... 177 (A2, Wed) Kleemann, Joerg........................... 1621 (B11, Fri) Klein, Lorena...............................1797 (D5, Mon) Klein, Mathieu............................1288 (B11, Tue), ....................................................1387 (B11, Wed) Klein, P......................................... 1903 (E3, Mon) Kleinberg, Michael..................... 1176 (B10, Thu) Klem, Ethan.................................... 248 (A3, Thu) Klett, Matilda.............................. 1203 (B10, Thu) Kloepsch, Richard..............................11 (A1, Tue) Klomjit, Pitichon........................... 1755 (D2, Thu) Klopfer, Kelsey...............................2699 (J2, Tue) Klowak, Greg.................................1913 (E3, Tue) Klueppel, Veronika........................2750 (J3, Wed) Kmķnek, Ivan.........2723 (J3, Tue), 2724 (J3, Tue) Knauer, Arne..................................1910 (E3, Tue) Knauss, Daniel............................1309 (B11, Tue), .................................................... 1570 (B11, Thu) Knauth, Philippe.........................1145 (B10, Wed) Knight, Brandon...........................1069 (B10, Tue) Knights, Shanna..........................1303 (B11, Tue), ....................................................1435 (B11, Wed) Knoben, Wout.................................2839 (J6, Tue) Knoche, Krysti.................................706 (B6, Tue) Knoll, Dieter.............................. 2221 (E12, Mon) Knop-Gericke, Axel.....................1307 (B11, Tue) Knospe, Carl...................................2772 (J4, Tue) Knudsen, Kristian............................412 (B2, Tue) Ko, Dong Seok................................294 (B1, Wed) Ko, Fu-Hsiang..........196 (A2, Wed), 206 (A2, Wed), ............................2175 (E10, Tue), 2673 (J1, Tue) Ko, Hyun-Seok...........35 (A1, Tue), 38 (A1, Tue) Ko, Hyungho................................ 2107 (E8, Mon) Ko, Hyunjun....................................2679 (J1, Tue) Ko, Jang Myoun...........................1091 (B10, Tue) Ko, Jonathan................................... 875 (B8, Thu) Ko, Jun Young................................ 2338 (F4, Tue) Ko, Kihyung................................. 2102 (E8, Mon) Ko, Kyeonghyeon............................. 40 (A1, Tue) Ko, Yun-Hyuk........ 1831 (D5, Wed), 2029 (E6, Tue) Koba, Jiro.......................................2019 (E5, Thu) Kobayashi, Akihiro......... 19 (A1, Tue), 20 (A1, Tue) Kobayashi, Eiji................................ 532 (B2, Thu) Kobayashi, Genki............................. 13 (A1, Tue), ...................................14 (A1, Tue), 33 (A1, Tue), ...............................2628 (I5, Tue), 2666 (J1, Tue) Kobayashi, Hikaru......................... 2113 (E8, Tue) Kobayashi, Hironori...................... 355 (B2, Mon), ............................. 547 (B3, Wed), 847 (B8, Wed), ............................873 (B8, Thu), 1170 (B10, Thu) Kobayashi, Kenji.............................736 (B6, Wed) Kobayashi, Kiyoteru.....................2007 (E5, Wed) Kobayashi, Tetsuro..........................947 (B9, Wed) Kobayashi, Tomoyuki.................. 2426 (G2, Wed) Kobayashi, Yo............................. 1170 (B10, Thu) Kobayashi, Yoji..............................499 (B2, Wed), .............................. 835 (B8, Wed), 858 (B8, Wed) Kobori, Yoshihiro............................311 (B1, Wed)

Kobrak, Mark.................................. 2489 (I1, Tue) Kocha, Shyam.............................1239 (B11, Sun), ........................ 1245 (B11, Sun), 1308 (B11, Tue) Kochergin, Vladimir....................1857 (E2, Wed), ......................................................1866 (E2, Wed) Kodama, Kensaku........................1300 (B11, Tue) Kodama, Mika.............................1519 (B11, Wed) Koehler, Andrew...........................1920 (E3, Tue), ..................................................... 2206 (E11, Tue) Koehler, Andrew...........................1930 (E3, Wed) Koehne, Jessica.............................. 181 (A2, Wed) Koeppel, Brian............................... 351 (B1, Thu), ....................... 1658 (B12, Tue), 1659 (B12, Tue), .....................................................1660 (B12, Tue) Koestner, Roland.........................1411 (B11, Wed) Koetz, Ruediger..............................283 (B1, Tue), ........................1398 (B11, Wed), 1630 (B11, Fri), ...................................................... 2274 (F2, Wed) Koga, Toshiaki..............................2085 (E7, Wed) Kogo, Atsushi.................................... 39 (A1, Tue) Koh, Soowan................................ 2107 (E8, Mon) Kohara, Shinji...............................2258 (F2, Mon) Kohl, Paul......................................320 (B1, Wed), ........................... 528 (B2, Thu), 1315 (B11, Tue), ............................ 2082 (E7, Tue), 2332 (F4, Tue), .......................................................2355 (F4, Thu) Kohli, Kirpal..................................2799 (J4, Wed) Kohno, Yuji.................................... 154 (A2, Tue), ..................... 1490 (B11, Wed), 1495 (B11, Wed), ...................... 1538 (B11, Wed), 1561 (B11, Thu), .........................1562 (B11, Thu), 2412 (G1, Wed) Koike, Shinji..........547 (B3, Wed), 873 (B8, Thu) Koike, Tomoki...............................2121 (E8, Tue) Koike-Takeshita, Ayumi..................2672 (J1, Tue) Kojima, Akira............................... 974 (B10, Mon) Kojima, Kazutoshi....................... 1906 (E3, Mon) Kojima, Nobuo.............................1326 (B11, Tue) Kojima, Ryota................................ 109 (A1, Tue), ..............................2362 (F4, Thu), 2676 (J1, Tue) Kojima, Taiki..................................2666 (J1, Tue) Kojima, Toshikatsu...................... 974 (B10, Mon) Kok, Kuan-Ying............................ 2638 (J1, Mon) Kokoh, Kouakou........................... 2468 (I1, Mon) Kola, Avinash.................................. 127 (A1, Tue) Kolbeck, Mason............................. 353 (B2, Mon) Kolesnikov, Alexander.................... 349 (B1, Thu) Kolla, Praveen...............................985 (B10, Tue), ....................................................1399 (B11, Wed) Kolobov, Alexander.......................2024 (E5, Thu) Kolodziej, Joanna........................1435 (B11, Wed) Kolosnitsyn, Vladimir....................329 (B1, Wed), .............................. 330 (B1, Wed), 331 (B1, Wed) Koltsov, Alexey...............................2690 (J2, Tue) Komaba, Shinichi.......................... 363 (B2, Mon), ............................... 398 (B2, Tue), 558 (B4, Tue), ............................874 (B8, Thu), 1162 (B10, Thu) Komadina, Jason............................335 (B1, Wed), .......................................................2296 (F2, Thu) Komatsu, Shigehiro........................2292 (F2, Thu) Komatsubara, Kaori.................... 1553 (B11, Thu) Komidor, John..............................1073 (B10, Tue) Komini Babu, Siddharth.............1472 (B11, Wed) Komninou, Philomela.................. 2212 (E11, Tue) Komvopoulos, Kyriakos.................920 (B9, Wed) Kondo, Kazuo............................. 2060 (E7, Mon), ............................2063 (E7, Tue), 2066 (E7, Tue), ...........................2086 (E7, Wed), 2090 (E7, Wed) Kondo, Mitsukuni..........................2284 (F2, Thu) Kondo, Takahiro..........................1493 (B11, Wed) Kondo, Takayuki........................... 2273 (F2, Wed) Kondo, Toshihoro............................. 30 (A1, Tue), ...................................43 (A1, Tue), 44 (A1, Tue), ...................................45 (A1, Tue), 46 (A1, Tue), ............................... 2526 (I2, Tue), 2623 (I5, Tue) Kondrotas, Rokas........................1506 (B11, Wed) Kong, Fantai................................. 973 (B10, Mon)

Kong, Ji Hyun.................................294 (B1, Wed) Kong, Nakwon............................ 1558 (B11, Thu) Kongkanand, Anusorn...................1860 (E2, Wed) Konkova, Tatyana..........................2078 (E7, Tue) Konopka, Daniel.........................1384 (B11, Wed) Koper, Ger...... 1243 (B11, Sun), 1249 (B11, Sun), ..........................1610 (B11, Thu), 2444 (H1, Tue) Koper, Marc..........2 (A0, Mon), 1451 (B11, Wed) Kornblum, Lior.......................... 2144 (E10, Mon) Kortsdottir, Katrin......................... 1636 (B11, Fri) Koshida, Nobuyoshi.......................2364 (F4, Thu) Koshikawa, Hiroshi.....................1310 (B11, Tue), ..................................................... 1311 (B11, Tue) Kosivi, Joyce...................................2694 (J2, Tue) Koslowske, Mark........................ 1176 (B10, Thu) Kostecki, Robert.............................902 (B9, Tue), ................................908 (B9, Tue), 911 (B9, Tue), ............................. 922 (B9, Wed), 926 (B9, Wed), ........................ 931 (B9, Wed), 1160 (B10, Wed),| ........................... 2256 (F2, Mon), 2286 (F2, Thu) Kosugi, Ryouji........................... 2142 (E10, Mon) Kota, Nithyanand........................1782 (D4, Mon), .....................................................1783 (D4, Mon) Kotaka, Toshikazu.......................1296 (B11, Tue), ....................................................1456 (B11, Wed) Kotani, Norihiro...............................287 (B1, Tue) Kotara, Przemyslaw.......................1910 (E3, Tue) Kotz, Sharon................................. 1216 (B10, Fri) Kouhestani, Camron................. 2138 (E10, Mon), ................................................... 2141 (E10, Mon) Kouloumpis, Antonios.................. 2441 (H1, Tue) Koval, Carl.................................... 2534 (I3, Mon) Kovalenko, Igor.............................991 (B10, Tue) Kowalewska, Barbara................... 2440 (H1, Tue) Kowalik, Remigiusz......................... 48 (A1, Tue), ............................ 1756 (D2, Thu), 2325 (F4, Tue) Koyama, Yukinori...........................562 (B4, Tue), ........................................................824 (B8, Wed) Koyanagi, Mitsumasa.................. 2054 (E7, Mon) Koyanaka, Hideki.........29 (A1, Tue), 349 (B1, Thu) Koza, Jakub......... 2281 (F2, Wed), 2380 (F5, Tue) Kozicki, Michael...........................1990 (E5, Wed) Kozlova, Jekaterina......................... 2473 (I1, Tue) Krachewski, Remi.......................... 2110 (E8, Tue) Kramer, Denis..............................1247 (B11, Sun) Kramer, Dominik........................... 880 (B8, Thu), .......................... 944 (B9, Wed), 1011 (B10, Tue), ....................................................1419 (B11, Wed) Kramm, Ulrike........................... 1269 (B11, Mon) Kranz, Christine............................. 191 (A2, Wed) Kratzig, Andreas..............................707 (B6, Tue) Krause, Frederick........................1140 (B10, Wed) Krause, Frederick.........................1032 (B10, Tue) Kravchenko, I..............................2192 (E11, Mon) Kreider, K.....................................1784 (D4, Mon) Kreidler, Eric...................................456 (B2, Wed) Krejci, Alex....... 2303 (F3, Mon), 2310 (F3, Mon) Kreller, Cortney.............................720 (B6, Wed), ............................. 2632 (J1, Mon), 2695 (J2, Tue) Kremliakova, Natalia..................1501 (B11, Wed) Krichevski, Olga........................1449 (B11, Wed), ....................................................1525 (B11, Wed) Krieg, Romina............................... 1753 (D2, Thu) Krins, Natacha.............................1149 (B10, Wed) Krishnamurthy, Aarti.......................2691 (J2, Tue) Krishnan, Balakrishnan.................1936 (E3, Wed) Krishnan, Sadagopan................... 2442 (H1, Tue), ............................ 2472 (I1, Mon), 2490 (I1, Tue), ............................. 2641 (J1, Mon), 2657 (J1, Tue) Kriston, Akos..............................1402 (B11, Wed) Krumdick, Gregory.........................542 (B3, Wed) Kruusenberg, Ivar.......................1381 (B11, Wed) Kshirsagar, Aditya.........................2134 (E8, Wed) Ku, Felix...................................... 2106 (E8, Mon) Kuang, Wenjun.............................1785 (D4, Mon)

262

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Kub, Fritz......................................1920 (E3, Tue), ..........................1930 (E3, Wed), 2206 (E11, Tue) Kuball, Martin................................1915 (E3, Tue) Kubanska, Agnieszka......................460 (B2, Wed) Kübel, Christian...........................1857 (E2, Wed), ......................................................1866 (E2, Wed) Kubiak, Pierre..................................405 (B2, Tue) Kubo, Norio.................................1255 (B11, Sun) Kubo, Reyushi................................2663 (J1, Tue) Kubobuchi, Kei........................... 970 (B10, Mon), .....................................................1065 (B10, Tue) Kubota, Jun........ 1563 (B11, Thu), 2546 (I3, Tue) Kubota, Kei...................................... 98 (A1, Tue), ...............................363 (B2, Mon), 398 (B2, Tue) Kubota, Shuji...............................2230 (E12, Tue) Kucernak, Anthony.....................1247 (B11, Sun), ....................................................1373 (B11, Wed) Kucherenko, Svetlana.....................869 (B8, Wed) Kucheyev, Sergei...........................647 (B5, Wed), .....................................................2434 (H1, Mon) Kudin, Lev.......................................770 (B7, Tue) Kudla, Robert...................................277 (B1, Tue) Kudo, Kenji..................................1282 (B11, Tue) Kudo, Masaki................................1992 (E5, Wed) Kuhl, Kendra.................................. 690 (B6, Mon) Kukreja, Ratan............................1411 (B11, Wed) Kulesza, Pawel............................. 2440 (H1, Tue), .............................2555 (I3, Tue), 2570 (I3, Wed), .......................................................2579 (I3, Wed) Kulpa, Alina.................................2168 (E10, Tue) Kumagai, Hiromu........................... 2546 (I3, Tue) Kumar, Amod................................ 1629 (B11, Fri) Kumar, Arun.................................1037 (B10, Tue) Kumar, Ashok................................ 207 (A2, Wed) Kumar, Bharat................................ 194 (A2, Wed) Kumar, Dhanjai............................... 2480 (I1, Tue) Kumar, Nitin...................................936 (B9, Wed) Kumar, Satish................................ 2609 (I4, Mon) Kumaraguru, Swami...................1446 (B11, Wed) Kumazaki, Yusuke........................... 51 (A1, Tue), ....................................................... 178 (A2, Wed) Kumbur, Emin.......107 (A1, Tue), 601 (B5, Mon), ...................... 1469 (B11, Wed), 1662 (B12, Tue), ........................ 1663 (B12, Tue), 1678 (B12, Tue) Kumei, Hideyuki......................... 1551 (B11, Thu) Kumta, Prashant..............................289 (B1, Tue), ............................. 638 (B5, Wed), 986 (B10, Tue) Kundu, Sumit...............................1322 (B11, Tue) Küng, Rafael................................... 2631 (I5, Tue) Kunikata, Ryota..............................2663 (J1, Tue) Kunimoto, Masahiro.................... 2345 (F4, Wed), ....................................................... 2389 (F5, Tue) Kunisawa, Takeshi.......................... 521 (B2, Thu) Kunitake, Masashi........................... 2479 (I1, Tue) Kunovjanek, Miroslav.................1488 (B11, Wed) Kuntz, Joshua................................2304 (F3, Mon) Kunz, H...................................... 1270 (B11, Mon) Kunz, Lothar...................................2705 (J2, Tue) Kunz, Ulrich...............................1422 (B11, Wed), ...................................................... 1652 (B11, Fri) Künze, Stephanie..........................2373 (F5, Mon) Kuo, Hao........................................1975 (E4, Tue) Kuo, Shin-Liang................................ 895 (B8, Fri) Kuo, Yue........... 2016 (E5, Thu), 2180 (E10, Wed) Kuraya, Eisuke................................ 2479 (I1, Tue) Kurita, Tomochika..........................438 (B2, Wed) Kuriyama, Shohei........................ 1960 (E4, Mon) Kuroiwa, Shigeki............................2672 (J1, Tue) Kuroki, Shigeki........................... 1592 (B11, Thu) Kurosawa, Masashi.....................2225 (E12, Tue), .........................2229 (E12, Tue), 2234 (E12, Tue) Kuroshima, Sadanori...................1124 (B10, Wed) Kursten, Bruno............................1792 (D5, Mon), ..................................................... 1836 (D5, Wed) Kurtanidze, Rusudan....................... 2496 (I1, Tue) Kushima, Akihiro.............................903 (B9, Tue)

Kusoglu, Ahmet..........................1283 (B11, Tue), ...................... 1406 (B11, Wed), 1432 (B11, Wed) Kuttiyiel, Kurian.........................1438 (B11, Wed) Kuwabara, Akihide..........................555 (B4, Tue) Kuwabara, Sumio........................2245 (E12, Wed) Kuwano, Jun...............................1533 (B11, Wed) Kuwata, Hiroko...............................941 (B9, Wed) Kuwertz, Rafael..........................1422 (B11, Wed) Kuze, Satoru....................................491 (B2, Wed) Kuzmina, Elena..............................329 (B1, Wed), .............................. 330 (B1, Wed), 331 (B1, Wed) Kuznetsov, Oleksandr.....................2704 (J2, Tue) Kuzuo, Ryuichi..............................2284 (F2, Thu) Kvalheim, Eirin............................... 2630 (I5, Tue) Kvaratskhelia, Elene....................... 2496 (I1, Tue) Kvaratskhelia, Ramaz..................... 2496 (I1, Tue) Kwak, Joon Seop......................... 2211 (E11, Tue) Kwak, WonJin.................................317 (B1, Wed) Kwasny, Dorota...............................2768 (J4, Tue) Kwon, ChoRong........................1489 (B11, Wed), ...................................................... 1656 (B11, Fri) Kwon, Daejung..............................220 (A3, Mon) Kwon, Donghoon........................ 1714 (D1, Wed), ........................................................2842 (J6, Tue) Kwon, HyukSang...........................416 (B2, Wed), ............................. 479 (B2, Wed), 554 (B3, Wed), ...................................................... 1656 (B11, Fri) Kwon, Hyunah............................. 2204 (E11, Tue) Kwon, Inhye................................ 1587 (B11, Thu) Kwon, Jang....................................... 76 (A1, Tue) Kwon, Ki-Hyun.............................2003 (E5, Wed) Kwon, Kyoung-Cheol...................2002 (E5, Wed) Kwon, Kyungjung.......................1516 (B11, Wed) Kwon, Osung..............................1277 (B11, Tue), ........................1280 (B11, Tue), 1286 (B11, Tue), .......................1340 (B11, Tue), 1436 (B11, Wed), ....................................................1683 (B12, Wed) Kwon, Seung............................... 955 (B10, Mon), ..................................................... 964 (B10, Mon) Kwon, Taeri......................................822 (B8, Tue) Kwon, Yo Han........ 912 (B9, Tue), 946 (B9, Wed) Kwon, Young-Gil............................948 (B9, Wed) Kyeremateng, Nana Amponsah..... 877 (B8, Thu), ....................................................1145 (B10, Wed) Kymissis, Ioannis..........................2307 (F3, Mon) Kyriakou, Vasileios.........................794 (B7, Wed)

Lamibrac, Adrien....................... 1578 (B11, Thu), .................................................... 1582 (B11, Thu) Lamy, Claude................................ 1655 (B11, Fri) Lan, Wei-Hsuan.............................2590 (I3, Wed) Lan, Yangchun.................................697 (B6, Tue) Lanagan, Michael........................ 1199 (B10, Thu) Landau, Uziel................................2037 (E6, Tue), ............................2076 (E7, Tue), 2087 (E7, Wed) Landon, James................................ 240 (A3, Wed) Lang, Christopher..........................548 (B3, Wed), ..................................................... 977 (B10, Mon) Lange, Kyle.................................... 251 (B1, Mon) Langlois, David..........................1425 (B11, Wed), ....................... 1445 (B11, Wed), 1578 (B11, Thu) Langner, Joachim...........................296 (B1, Wed), .....................................................1666 (B12, Tue) Langyan, Ritu..................................2738 (J3, Tue) Lansing, Stephanie.......................... 225 (A3, Tue) Lanterman, Bryson......................... 267 (B1, Mon) Lanza, Marcos......... 2427 (G2, Wed), 2501 (I1, Tue) Lapides, Alexander..........................700 (B6, Tue) Lardin, Thierry..............................2136 (E8, Wed) Lardizabal, Daniel........................... 136 (A1, Tue) LaRow, Eric.....................................708 (B6, Tue) Larrabee, Diana............................. 1628 (B11, Fri) Larrea, Anne-Sophie.................... 2106 (E8, Mon) Larsen, Brian...............................1245 (B11, Sun), .....................................................1308 (B11, Tue) Larsen, Ross...........585 (B4, Wed), 878 (B8, Thu) Lartundo, Luis................................... 88 (A1, Tue) Laska, Claudius............................ 1742 (D2, Wed) Laskey, Gregory.......................... 1541 (B11, Thu) Lather, Rajesh.................................2734 (J3, Tue) Latsuzbaia, Roman...................... 1610 (B11, Thu) Latsuzbaia, Roman......................1243 (B11, Sun), .....................................................1249 (B11, Sun) Latz, Arnulf................................... 356 (B2, Mon), ..............................378 (B2, Mon), 394 (B2, Tue), ..............................556 (B4, Tue), 1223 (B10, Fri) Laubscher, Richard......................... 230 (A3, Tue) Lauhon, Lincoln..........................2199 (E11, Mon) Lauritzen, Mike...........................1435 (B11, Wed) Lavacchi, Alessandro.....................733 (B6, Wed), .........................1531 (B11, Wed), 2035 (E6, Tue), ............................ 2328 (F4, Tue), 2335 (F4, Tue), ........................... 2339 (F4, Tue), 2403 (G1, Wed) Lavina, Sandra...............................461 (B2, Wed), ....................... 1574 (B11, Thu), 1698 (B12, Wed) Law, Matt........................................ 2557 (I3, Tue) Law, Yeuk Ting............................1307 (B11, Tue) Lawder, Matthew........................1693 (B12, Wed) Lawton, Jamie............................ 1594 (B11, Thu), ....................... 1668 (B12, Tue), 1697 (B12, Wed) Lazar, Michael.............................1067 (B10, Tue) Lazzarino, Frederic........................ 2111 (E8, Tue) Lazzaro, Pietro...............................2083 (E7, Tue) Le, Nghiem....................................2046 (E6, Tue) Le, Phung.................................... 1607 (B11, Thu) Le, Phung....................................1474 (B11, Wed) Le, Quoc Toan................................ 2111 (E8, Tue) Le Bozec, Nathalie........................ 1753 (D2, Thu) Le Comte, Annaļg............................ 83 (A1, Tue), ....................................................... 602 (B5, Mon) Le Febvrier, Arnaud....................2177 (E10, Wed) Le Thanh, Vinh......................... 2216 (E12, Mon), .....................................................2231 (E12, Tue) Leach, J..........................................1917 (E3, Tue) Leathersich, Jeffrey........................1953 (E3, Thu) Lebby, Michael.............................1953 (E3, Thu), ....................................................2178 (E10, Wed) Lebedev, Nikolai............................. 2524 (I2, Tue) LeBlanc, Gabriel........................... 242 (A3, Wed), .......................................................2589 (I3, Wed) Leclerc, Sébastien.......................1288 (B11, Tue), ....................................................1387 (B11, Wed) LeClere, Darren............................ 1823 (D5, Wed)

L

Laberty-Robert, Christel................ 763 (B6, Thu), ....................................................1388 (B11, Wed) Labouriau, Andrea.......................1390 (B11, Wed) Lacave, Thomas......................... 2215 (E12, Mon) Lacey, Matthew.............................. 380 (B2, Mon) Lachman, Noa.................................666 (B5, Wed) Lacrevaz, Thierry........................ 2052 (E7, Mon), ....................................................2177 (E10, Wed) Lado, Julio...................................... 236 (A3, Wed) Lafont, Ugo.....................................943 (B9, Wed) Lafontaine, Hugues........................1913 (E3, Tue) Lafouresse, Manon....................... 2280 (F2, Wed), ....................................................... 2329 (F4, Tue) Lagergren, Carina......................... 1636 (B11, Fri) Laheäär, Ann...................................633 (B5, Wed) Lähnemann, Jonas........................... 2547 (I3, Tue) Lai, Chao-Sung............................. 2633 (J1, Mon) Lai, Chih........................................1975 (E4, Tue) Lai, David.................................... 1734 (D2, Wed) Lai, Ming-Chia.............................1293 (B11, Tue) Lai, Samson......................................779 (B7, Tue) Lakshmanan, Balsu....................1368 (B11, Wed), ....................................................1446 (B11, Wed) Lakshmi, Krishnan......................1374 (B11, Wed) Lamas, Diego..................................801 (B7, Wed) Lamb, Joshua..................................542 (B3, Wed) Lamberg, Peter................................2652 (J1, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

263


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Lecordier, Laurent.........................1861 (E2, Wed) Leddy, Johna....................................706 (B6, Tue) Leddy, Johna................................... 2624 (I5, Tue) Ledezma, Pablo..............................219 (A3, Mon) Leduc, Patrick.............................. 2052 (E7, Mon) Lee, Bongmook......... 945 (B9, Wed), 2677 (J1, Tue) Lee, Bum-seok................................466 (B2, Wed) Lee, Byung-Woo.............................744 (B6, Wed) Lee, Caroline Sunyong..................2311 (F3, Mon) Lee, Chae.......................................2080 (E7, Tue) Lee, Changgu............................... 2209 (E11, Tue) Lee, Chi-Shen.................................798 (B7, Wed) Lee, Chi-Shen.................................797 (B7, Wed) Lee, Chilgi.................................... 2102 (E8, Mon) Lee, Choong-Gon............................747 (B6, Wed) Lee, Choonghyun.........................2227 (E12, Tue) Lee, D. H....................................1277 (B11, Tue),. ........................1340 (B11, Tue), 1436 (B11, Wed) Lee, Dae Hoe........ 476 (B2, Wed), 553 (B3, Wed) Lee, Dong.........................................119 (A1, Tue) Lee, Dong......................................1936 (E3, Wed) Lee, Dong Bok............................. 1700 (D1, Wed) Lee, Dong Jin...............................1093 (B10, Tue) Lee, Dong Joon...............................457 (B2, Wed) Lee, Dong-Chul...........................1460 (B11, Wed) Lee, Dong-Hoon.........................1477 (B11, Wed) Lee, Dong-Ju.........241 (A3, Wed), 493 (B2, Wed) Lee, Dosun.....................................2073 (E7, Tue) Lee, Du-Yeong.............................1997 (E5, Wed), .......................... 1998 (E5, Wed), 2020 (E5, Thu), .......................... 2021 (E5, Thu), 2154 (E10, Tue) Lee, Duk Hyun..............................2008 (E5, Wed) Lee, E.-J..........................................340 (B1, Wed) Lee, En Jeong..................................849 (B8, Wed) Lee, Eungje...........371 (B2, Mon), 487 (B2, Wed) Lee, Eunseok....................................560 (B4, Tue) Lee, Hae-Bum........ 2005 (E5, Wed), 2015 (E5, Thu) Lee, Hae-Min........ 648 (B5, Wed), 664 (B5, Wed) Lee, Hanshin................................ 2107 (E8, Mon) Lee, Heung..............706 (B6, Tue), 2624 (I5, Tue) Lee, Hojin......................................2073 (E7, Tue) Lee, Hong Woo......... 59 (A1, Tue), 2172 (E10, Tue) Lee, Hoo-Jeong........................... 967 (B10, Mon), . .....................................................1004 (B10, Tue) Lee, Hun-Hee............................... 2097 (E8, Mon) Lee, Hunhyeong..............................738 (B6, Wed) Lee, Hyewon................................1104 (B10, Tue) Lee, Hyo Sug........ 576 (B4, Wed), 578 (B4, Wed) Lee, Hyo-Jong...............................2091 (E7, Wed) Lee, Hyoung-Rae........1831 (D5, Wed), 2029 (E6, Tue) Lee, Hyunjung......2050 (E6, Tue), 2051 (E6, Tue) Lee, Hyunwoo............................ 2137 (E10, Mon) Lee, Irene........................................ 2523 (I2, Tue) Lee, Jae-Ho................................... 2400 (F5, Wed) Lee, Jae-Myung...............................576 (B4, Wed) Lee, Jae-Woo...............................2246 (E12, Wed) Lee, Jaeho......................................2022 (E5, Thu) Lee, Jeong Hoon...........................2801 (J4, Wed), .......................................................2803 (J4, Wed) Lee, Jeongbin..................................339 (B1, Wed) Lee, Ji-Hoon.................................. 2542 (I3, Mon) Lee, Ji-Yong....................................334 (B1, Wed) Lee, Jinwoo..................................1356 (B11, Tue) Lee, John.........................................2727 (J3, Tue) Lee, Jonathan................................ 373 (B2, Mon), ........................... 470 (B2, Wed), 2433 (H1, Mon) Lee, Jong-Sun...............................2002 (E5, Wed) Lee, Jong-Won...............................333 (B1, Wed), .............................. 334 (B1, Wed), 407 (B2, Tue), ............................. 484 (B2, Wed), 488 (B2, Wed), ........................................................800 (B7, Wed) Lee, Joong-Kee............................. 2437 (H1, Tue) Lee, Joun........................................2565 (I3, Wed) Lee, Ju Ho....................................1040 (B10, Tue) Lee, Jun..........................................2015 (E5, Thu)

Lee, Jun Kyu................................1055 (B10, Tue) Lee, Jung........................................991 (B10, Tue) Lee, Jung Kyoo............................1048 (B10, Tue) Lee, Junqiao....................................2647 (J1, Tue) Lee, Jyh-Fu...........156 (A2, Tue), 2450 (H1, Tue) Lee, K. J.........................................2012 (E5, Thu) Lee, Kangwook............................ 2054 (E7, Mon) Lee, Kayeung..................................632 (B5, Wed) Lee, Kuan-Wei.............................1847 (E1, Wed), ......................................................1848 (E1, Wed) Lee, Kunho......................................802 (B7, Wed) Lee, Kwang-Hee...........................2027 (E6, Tue), ...................................................... 2645 (J1, Mon) Lee, Kyongtaek.......................... 2137 (E10, Mon) Lee, Kyoung Moo............................. 49 (A1, Tue) Lee, Kyu-Pil........... 2005 (E5, Wed), 2015 (E5, Thu) Lee, Min Hwan.............................. 352 (B1, Thu), ....................................................1130 (B10, Wed) Lee, Minoh......................................640 (B5, Wed) Lee, Moo-Seok............................1477 (B11, Wed) Lee, Myung-Jin..... 295 (B1, Wed), 314 (B1, Wed) Lee, Rinus.....................................1935 (E3, Wed) Lee, Rung-Chuan.............................620 (B5, Tue) Lee, S. H........................................2012 (E5, Thu) Lee, Sang C.................................1277 (B11, Tue), ........................1280 (B11, Tue), 1286 (B11, Tue), .......................1340 (B11, Tue), 1436 (B11, Wed), ....................................................1683 (B12, Wed) Lee, Sang Han.............................. 964 (B10, Mon) Lee, Sang Hyun.......103 (A1, Tue), 104 (A1, Tue) Lee, Sang-Hyuk...........................1063 (B10, Tue) Lee, Sang-Kwon..........................1781 (D4, Mon) Lee, Sang-Mock...............................714 (B6, Tue) Lee, Sangkwon............................1780 (D4, Mon), .....................................................1785 (D4, Mon) Lee, Sangyoon............................... 2645 (J1, Mon) Lee, Se-Hee.................................. 954 (B10, Mon) Lee, Sehee.................................... 964 (B10, Mon) Lee, Sehui................................... 1615 (B11, Thu) Lee, Seo-Yoon................................ 239 (A3, Wed) Lee, Seok Woo............................... 174 (A2, Wed) Lee, Seongjae.................................2793 (J4, Wed) Lee, Seongsu..................................994 (B10, Tue) Lee, Seonhwa..............................1530 (B11, Wed) Lee, Seung Hee............................ 2204 (E11, Tue) Lee, Seung Ho.................................321 (B1, Wed) Lee, Seung Whan..........................2307 (F3, Mon) Lee, Seung-Bok..............................333 (B1, Wed), .............................. 334 (B1, Wed), 407 (B2, Tue), ........................................................800 (B7, Wed) Lee, Seung-Cheol........................1511 (B11, Wed) Lee, Seung-Eun............................1998 (E5, Wed), ............................ 2020 (E5, Thu), 2021 (E5, Thu) Lee, Sewook....................................738 (B6, Wed) Lee, Sol Nip....................................328 (B1, Wed) Lee, Soo Hong.............................1036 (B10, Tue) Lee, Soon Bo.................8 (A1, Tue), 36 (A1, Tue) Lee, Soyeon....................................989 (B10, Tue) Lee, Soyoung................................. 2073 (E7, Tue) Lee, Suk Hee..................................... 99 (A1, Tue) Lee, Sungchul............................. 1558 (B11, Thu) Lee, T.-H........................................ 209 (A2, Wed) Lee, Tae-Hee..................................... 89 (A1, Tue) Lee, Taejoo...................................1093 (B10, Tue) Lee, Ui-Hyoung............................2065 (E7, Tue), ......................................................2091 (E7, Wed) Lee, Vincent................................1322 (B11, Tue), .........................1323 (B11, Tue), 1779 (D4, Mon) Lee, W. G....................62 (A1, Tue), 64 (A1, Tue) Lee, Wendy................................1395 (B11, Wed), ...................... 1442 (B11, Wed), 1444 (B11, Wed) Lee, Wonmok..............40 (A1, Tue), 41 (A1, Tue) Lee, Wontae................................. 1114 (B10, Tue) Lee, Yanglae................................. 2099 (E8, Mon) Lee, Yi-Cheng...... 467 (B2, Wed), 2590 (I3, Wed) Lee, Yi-Juei..................................... 156 (A2, Tue)

Lee, Yong Min............................1090 (B10, Tue), ....................... 1091 (B10, Tue), 1093 (B10, Tue), .........................1103 (B10, Tue), 1104 (B10, Tue) Lee, Yoon Ho.................................1873 (E2, Thu) Lee, Yoonhoi............................... 1546 (B11, Thu) Lee, Young.....................................2015 (E5, Thu) Lee, Young-Gi..................................281 (B1, Tue) Lee, Young-Ju.............................1460 (B11, Wed) Lee, Young-Woo..........................1061 (B10, Tue) Lee, Youngmin................................ 2560 (I3, Tue) Lee, Yu-Mi......................................948 (B9, Wed) Lee, Yueh-Lin............................... 2407 (G1, Wed) Lee, Yuh-Lang................................. 161 (A2, Tue) Lee, Yun Jung.................................324 (B1, Wed), .......................... 1044 (B10, Tue), 2451 (H1, Tue) Lee, Yun Sung............................... 258 (B1, Mon), ............................. 323 (B1, Wed), 325 (B1, Wed), .............................. 327 (B1, Wed), 328 (B1, Wed) Lee, Yunju........1093 (B10, Tue), 1103 (B10, Tue) Leech, Dónal.................................. 2517 (I2, Tue), .............................2527 (I2, Wed), 2594 (I3, Wed) Leem, Dong-Seok......................... 2645 (J1, Mon) Lefcourt, Alan.................................2806 (J6, Tue) Lefebvre, Ervan............................1088 (B10, Tue) Lefeuvre, Elie.................................2783 (J4, Wed) Lehmann, Eberhard......................1291 (B11, Tue) Lehnert, Werner..........................1272 (B11, Tue), ....................................................1371 (B11, Wed) Lei, Caixia.................................... 1702 (D1, Wed) Lei, Yu.................452 (B2, Wed), 961 (B10, Mon) Lei, Zhongwei.................................641 (B5, Wed) Leite, Marina................................. 1237 (B10, Fri) Leiva, Ezequiel.............................. 2323 (F4, Tue) Lelis, A..............1901 (E3, Mon), 1902 (E3, Mon) Lemmon, John............................1681 (B12, Wed), ....................................................1682 (B12, Wed) Lemoigno, Frédéric.........................840 (B8, Wed) Lenahan, P. M.............................. 1902 (E3, Mon) Lengyel, Miklos...........815 (B8, Tue), 816 (B8, Tue) Leonard, Francois..........................2030 (E6, Tue) Leonard, Nathaniel.....................1492 (B11, Wed), .......................1590 (B11, Thu), 1591 (B11, Thu), .........................1595 (B11, Thu), 1642 (B11, Fri), ...................................................... 1646 (B11, Fri) Leonelli, Cristina...........................2317 (F3, Mon) Leong, Kirsty.................................2030 (E6, Tue) Lepley, Nicholas..............................563 (B4, Tue) Lepoitevin, Mathilde........................404 (B2, Tue) Lepper, Sonja..................................498 (B2, Wed) Lercher, Johannes...........................2572 (I3, Wed) Leroux, Yann................................. 2460 (I1, Mon) Lesch, Andreas.............................. 2537 (I3, Mon) Leschkies, Kurtis..........................2167 (E10, Tue) Leskes, Michal................................414 (B2, Tue), ............................. 427 (B2, Wed), 595 (B4, Wed), ............................. 825 (B8, Wed), 833 (B8, Wed), .....................................................1000 (B10, Tue) Lestriez, B........................................273 (B1, Tue) Lestriez, Bernard.............................. 898 (B8, Fri), ......................... 966 (B10, Mon), 975 (B10, Mon) Letaj, Shkelqim...............................646 (B5, Wed) Lethien, Christophe.........................619 (B5, Tue), .......................................................1875 (E2, Thu) Letiche, Manon...........................1145 (B10, Wed) Leung, Kevin...................................936 (B9, Wed) Leung, Siu-Fung...........................1965 (E4, Tue), .............................1969 (E4, Tue), 1970 (E4, Tue) Leung, Tat-Suen........................... 1744 (D2, Wed) Leusink, Gert.............................. 2139 (E10, Mon) Levasseur, Stéphane.......................... 898 (B8, Fri) Levecque, Pieter..............................283 (B1, Tue), .....................................................1242 (B11, Sun) Levi, Elena................................... 957 (B10, Mon) Levi, Mikhael.............................. 957 (B10, Mon), ....................................................1131 (B10, Wed) Levkov, Klementiy........................ 2757 (J4, Mon)

264

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Levy-Clement, Claude...................2511 (I2, Mon) Lewerenz, Hans..............................2528 (I2, Wed) Lewes-Malandrakis, Georgia.........639 (B5, Wed), .........................................................698 (B6, Tue) Lewis, Nathan................................727 (B6, Wed), ............................2287 (F2, Thu), 2566 (I3, Wed), .......................................................2568 (I3, Wed) Lex-Balducci, Alexandra............ 1179 (B10, Thu) Leygraf, C.................................... 1750 (D2, Wed) Leygraf, Christofer...................... 1751 (D2, Wed), ...................................................... 1754 (D2, Thu) Leyva, Marco.................................... 88 (A1, Tue) Lezama, Luis....................................405 (B2, Tue) Li, Bin.........................................1658 (B12, Tue), ....................... 1659 (B12, Tue), 1661 (B12, Tue), ...................... 1680 (B12, Wed), 1691 (B12, Wed) Li, Bing.......... 1244 (B11, Sun), 1370 (B11, Wed) Li, Chi-Ping.................................... 168 (A2, Tue) Li, Chunlong................................... 1890 (E2, Fri) Li, Chunzeng....................................905 (B9, Tue) Li, Da............................................. 2262 (F2, Tue) Li, Dongguo................................1251 (B11, Sun), ....................................................1401 (B11, Wed) Li, Guo...........................................2297 (F2, Thu) Li, Guosheng..................................433 (B2, Wed), ...................... 1681 (B12, Wed), 1682 (B12, Wed) Li, Hengyi................................... 1567 (B11, Thu) Li, Hong................. 406 (B2, Tue), 929 (B9, Wed) Li, Hua......................................... 2422 (G2, Wed) Li, Jak..............................................634 (B5, Wed) Li, James....................................... 354 (B2, Mon), ..........................362 (B2, Mon), 1151 (B10, Wed) Li, Jiang........................................ 2420 (G2, Wed) Li, Jianling,....................................503 (B2, Wed), ........................... 552 (B3, Wed), 1083 (B10, Tue) Li, Jie.............................................. 688 (B5, Thu), ............................995 (B10, Tue), 1230 (B10, Fri) Li, Jing........................................1106 (B10, Tue), ............................1107 (B10, Tue), 2687 (J2, Tue) Li, Ju................................................903 (B9, Tue) Li, Juchuan......................................930 (B9, Wed) Li, Junfeng....................................2109 (E8, Tue), ........................2156 (E10, Tue), 2240 (E12, Wed) Li, Junfeng...................................... 1890 (E2, Fri) Li, Juntao........................................2075 (E7, Tue) Li, Junyue........................................ 351 (B1, Thu) Li, Liangliang......1819 (D5, Tue), 1820 (D5, Tue) Li, Lin Lin....................................1016 (B10, Tue) Li, Longjun......................................408 (B2, Tue) Li, Longqiu....................................2797 (J4, Wed) Li, Man............................................725 (B6, Wed) Li, Ming............ 792 (B7, Wed), 1027 (B10, Tue), ............................ 2639 (J1, Mon), 2827 (J6, Tue), Li, Musen........................................644 (B5, Wed) Li, Ning.........................................1980 (E4, Wed) Li, Qiliang......................................2017 (E5, Thu) Li, Qiming...................................2199 (E11, Mon) Li, Qing.......................................1022 (B10, Tue), ........................1566 (B11, Thu), 1606 (B11, Thu) Li, Quan....................................... 1717 (D1, Wed) Li, Ruying..................................... 1236 (B10, Fri) Li, Sheng......................................1021 (B10, Tue) Li, Sirong....... 1134 (B10, Wed), 1167 (B10, Thu) Li, Suiqiong................................... 244 (A3, Wed) Li, Ta-Jen...................................... 2443 (H1, Tue) Li, Tianlong....................................2797 (J4, Wed) Li, Tingting........2109 (E8, Tue), 2156 (E10, Tue) Li, Vanessa......... 1148 (B10, Wed), 1674 (B12, Tue) Li, Weina.....................................1692 (B12, Wed) Li, Wenxia.......................................2695 (J2, Tue) Li, Wenzhen.....................................701 (B6, Tue) Li, Xiaoan................................... 1609 (B11, Thu) Li, Xiaolin............. 399 (B2, Tue), 984 (B10, Tue) Li, Xifei......................................... 1236 (B10, Fri) Li, Ximing..................................... 1761 (D2, Thu) Li, Xin................... 365 (B2, Mon), 523 (B2, Thu)

Li, Xinxin...............2810 (J6, Tue), 2836 (J6, Tue) Li, Xinyu........................................ 2269 (F2, Tue) Li, Xue.....................465 (B2, Wed), 533 (B2, Fri) Li, Yan.........................................1136 (B10, Wed) Li, Yan............................................2530 (I2, Wed) Li, Yan................ 808 (B8, Tue), 1151 (B10, Wed) Li, Yao............................................2797 (J4, Wed) Li, Yat............................................2304 (F3, Mon) Li, Yibo..........................................2010 (E5, Thu) Li, Yifan...................................... 1570 (B11, Thu) Li, Yiyang........................................829 (B8, Wed) Li, Yongfang................................2436 (H1, Mon) Li, Yongjun.................................... 197 (A2, Wed) Li, Yu-han.....................................1070 (B10, Tue) LI, Yulliang...........188 (A2, Wed), 197 (A2, Wed) Li, Yunsong.....................................580 (B4, Wed) Li, Zhen............................................. 42 (A1, Tue) Li, Zheng.........................................421 (B2, Wed) Li, Zhipeng.................................... 1237 (B10, Fri) Li, Zicheng..................................1142 (B10, Wed) Lian, Jie........................................1008 (B10, Tue) Lian, Keryn................79 (A1, Tue), 84 (A1, Tue), .............................. 632 (B5, Wed), 634 (B5, Wed) Lian, Yongfu................................. 2453 (H1, Tue) Liang, Chengdu............................. 377 (B2, Mon), ............................. 440 (B2, Wed), 441 (B2, Wed), ........................................................930 (B9, Wed) Liang, Gan....................................1027 (B10, Tue) Liang, Guang.................................. 2114 (E8, Tue) Liang, Linyun..................................579 (B4, Wed) Liang, Ren......................................... 72 (A1, Tue) Liang, Robert................................ 1761 (D2, Thu) Liao, Chin....................................2169 (E10, Tue) Liao, Hualing.................................. 2497 (I1, Tue) Liao, Jen-Hung............................... 2260 (F2, Tue) Liao, Jinyun.................................1156 (B10, Wed) Liao, Xiao-Zhen...........................1074 (B10, Tue) Liaw, Bor Yann............................. 1217 (B10, Fri) Liberatore, Matthew....................... 120 (A1, Tue), ....................... 1539 (B11, Wed), 1570 (B11, Thu) Liberatorre, Mathew....................1309 (B11, Tue) Lien, Der-Hsien..............................1966 (E4, Tue) Lienafa, Livie.................................. 529 (B2, Thu) Lilavivat, Visarn...........................1345 (B11, Tue) Lillard, R. Scott............................1784 (D4, Mon) Lim, Chek Hai..................................381 (B2, Tue) Lim, Euisu.................................... 2099 (E8, Mon) Lim, Eun Ja.................................1530 (B11, Wed) Lim, Jae-Hong................................2359 (F4, Thu) Lim, Michael...................................945 (B9, Wed) Lim, Seon-Jeong........................... 2645 (J1, Mon) Lim, Seong Taek..........................1049 (B10, Tue) Lim, SeungTaek.............................2128 (E8, Tue) Lim, Soo Yeon............................... 369 (B2, Mon) Lim, Sung-Jin........ 416 (B2, Wed), 479 (B2, Wed) Lim, Tae Hoon............................1511 (B11, Wed) Lim, Tak-Hyoung...........................333 (B1, Wed), .............................. 334 (B1, Wed), 407 (B2, Tue), ........................................................800 (B7, Wed) Lim, Yong......................................2123 (E8, Tue) Lima, Lucas....................................1881 (E2, Thu) Limsakoune, Vipawee.....................335 (B1, Wed) Limson, Janice................................ 230 (A3, Tue) Limthongkul, Pimpa.......................421 (B2, Wed) Lin, Avery....................................2153 (E10, Tue) Lin, Changjian........1769 (D4, Mon), 2028 (E6, Tue) Lin, Chi-Chou...............................2016 (E5, Thu), ....................................................2180 (E10, Wed) Lin, Chia-Nan................................ 374 (B2, Mon) Lin, Chin-Jung............................... 208 (A2, Wed) Lin, Ching-Chang......................... 196 (A2, Wed), ....................................................... 206 (A2, Wed) Lin, Ching-Chang.......................2175 (E10, Tue), ........................................................2673 (J1, Tue) Lin, Chuan...................................... 264 (B1, Mon)

Lin, Feng........................................845 (B8, Wed), ............................... 846 (B8, Wed), 917 (B9, Tue) Lin, Guangyu..............................1674 (B12, Tue), .....................................................1677 (B12, Tue) Lin, Jeng-Yu................................... 2260 (F2, Tue) Lin, Jing-Chie................................2590 (I3, Wed) Lin, Jun.......................................1386 (B11, Wed) Lin, Jyun-Jie..................................1847 (E1, Wed) Lin, Minren.....................................642 (B5, Wed) Lin, Qingfeng.......1965 (E4, Tue), 1970 (E4, Tue) Lin, Tzu-Yin................................. 1958 (E4, Mon) Lin, Wei-Ling................................. 196 (A2, Wed) Lin, Wu-Hsiung............................2175 (E10, Tue) Lin, Xuan.......................................2075 (E7, Tue) Lin, Yan-Gu....................................2578 (I3, Wed) Lin, Ye............................................. 760 (B6, Thu) Lin, Yin........................................... 150 (A2, Tue) Lin, Yu-Hsuan............................... 2633 (J1, Mon) Lin, Yu-Tien...................................2071 (E7, Tue) Lin, Yue............................................. 56 (A1, Tue) Lin, Zhan.........................................440 (B2, Wed) Linares, Jose....................................307 (B1, Wed) Lincot, Daniel............................... 2250 (F1, Wed) Lindbergh, Göran........................ 1203 (B10, Thu) Lindström, Rakel........................ 1203 (B10, Thu), ...................................................... 1636 (B11, Fri) Ling, Min........................................326 (B1, Wed) Ling, Yunhan...................................2698 (J2, Tue) Linn, Eike.....................................2160 (E10, Tue) Liou, Ya-Hsuan.............................. 208 (A2, Wed) Lipkin, Semen.................................869 (B8, Wed) Lippy, Steven.................................2124 (E8, Tue) Lisenkov, Aleksey......................... 1804 (D5, Tue) Lister, Tedd.....................................718 (B6, Wed) Litster, Shawn.............................1241 (B11, Sun), ....................... 1259 (B11, Sun), 1324 (B11, Tue), ..................... 1414 (B11, Wed), 1452 (B11, Wed), ...................... 1469 (B11, Wed), 1472 (B11, Wed) Little, R. Daniel............................. 2606 (I4, Mon) Liu, Bin...............2135 (E8, Wed), 2567 (I3, Wed) Liu, Bo........................................1157 (B10, Wed) Liu, Chong.....................................2567 (I3, Wed) Liu, Chun-Ting.........1172 (B10, Thu), 1852 (E1, Wed) Liu, David...................................1389 (B11, Wed) Liu, Dazhi....................................1289 (B11, Tue) Liu, Di-Jia........... 393 (B2, Tue), 1588 (B11, Thu) Liu, Dong.......................................853 (B8, Wed), .............................. 854 (B8, Wed), 855 (B8, Wed) Liu, Feng............... 788 (B7, Wed), 789 (B7, Wed) Liu, Fuqiang.................................. 2471 (I1, Mon) Liu, Gao......................................1005 (B10, Tue), ........................1100 (B10, Tue), 1105 (B10, Tue), ........................... 1206 (B10, Fri), 1207 (B10, Fri) Liu, Gao.............326 (B1, Wed), 980 (B10, Mon), ...................... 1068 (B10, Tue), 1122 (B10, Wed), ....................................................1128 (B10, Wed) Liu, Guokun................................... 2381 (F5, Tue) Liu, Hongfang................................. 227 (A3, Tue) Liu, Hongtan............................... 1581 (B11, Thu) Liu, Hui........... 1019 (B10, Tue), 1020 (B10, Tue) Liu, Huibiao................................... 197 (A2, Wed) Liu, Hung-hsiao...........................1262 (B11, Sun) Liu, Jia.................. 455 (B2, Wed), 2458 (I1, Mon) Liu, Jian......................................... 1236 (B10, Fri) Liu, Jianfeng.............................. 1568 (B11, Thu), .................................................... 1613 (B11, Thu) Liu, Jianfeng...............................1421 (B11, Wed) Liu, Jin.............................................. 56 (A1, Tue) Liu, Jing..........................................426 (B2, Wed) Liu, Jue.................... 406 (B2, Tue), 875 (B8, Thu) Liu, Jun................. 399 (B2, Tue), 433 (B2, Wed), .......................................................984 (B10, Tue) Liu, Kunlei..................................... 240 (A3, Wed) Liu, L...........................................2192 (E11, Mon) Liu, Li-Jung....................................2014 (E5, Thu) Liu, Meilin.............. 756 (B6, Thu), 779 (B7, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

265


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Liu, Min......................................... 264 (B1, Mon) Liu, Mingfei.....................................779 (B7, Tue) Liu, Ning.............185 (A2, Wed), 2377 (F5, Mon) Liu, Ning............... 184 (A2, Wed), 2558 (I3, Tue) Liu, Ping....................................... 2422 (G2, Wed) Liu, Qingfeng..............................1515 (B11, Wed) Liu, Ru-Fen..................................1676 (B12, Tue) Liu, Shenghou...............................1942 (E3, Wed) Liu, Shi..........................................2135 (E8, Wed) Liu, Tao-Chi................................. 2056 (E7, Mon) Liu, Tianbiao...................................433 (B2, Wed) Liu, Tong........................................2011 (E5, Thu) Liu, Wei.......................................1398 (B11, Wed) Liu, Wei.......................................2182 (E10, Wed) Liu, Wei-Ren..................................... 895 (B8, Fri) Liu, Weiling.................................... 886 (B8, Thu) Liu, Wenhao....................................2729 (J3, Tue) Liu, Xiaojiang.............................1094 (B10, Tue), ...................................................... 1236 (B10, Fri) Liu, Xiaosong................................ 1207 (B10, Fri) Liu, Yan........................................... 2477 (I1, Tue) Liu, Yan...........................................649 (B5, Wed) Liu, Yang.................................... 2151 (E10, Mon) Liu, Yang.........................................335 (B1, Wed) Liu, Yang........................................ 367 (B2, Mon) Liu, Yang..........................................382 (B2, Tue) Liu, Yang........................................... 42 (A1, Tue) Liu, Ye............................................. 120 (A1, Tue) Liu, Yen-Ting...............................1672 (B12, Tue) Liu, Yi........................................... 2469 (I1, Mon) Liu, Yihua....................................... 2324 (F4, Tue) Liu, Yijin..............814 (B8, Tue), 972 (B10, Mon) Liu, Ying..................................... 1201 (B10, Thu) Liu, Ying....................................... 1633 (B11, Fri) Liu, Ying....................................... 2712 (J3, Mon) Liu, YIng....................................... 2281 (F2, Wed) Liu, Yuan..........................................114 (A1, Tue) Liu, Yung-Fang............................... 161 (A2, Tue) Liu, Yuzi..........................................826 (B8, Wed) Liu, Zheng...................................1158 (B10, Wed) Liu, Zhi................. 921 (B9, Wed), 925 (B9, Wed) Liu, Zigeng......................................934 (B9, Wed) Lįzaro, Maria...................................301 (B1, Wed) Lizcano Valbuena, William............. 108 (A1, Tue) Llordes, Anna..................................2725 (J3, Tue) Lo, F. S........................................... 209 (A2, Wed) Lo Faro, Massimiliano....................731 (B6, Wed) Lobaccaro, Peter............................2290 (F2, Thu) Loboda, Mark................................1938 (E3, Wed) Lobos, Marķa........2045 (E6, Tue), 2500 (I1, Tue) Lochner, Zachary..........................1928 (E3, Wed) Locke, C. W.................................. 1908 (E3, Mon) Loew, Noya....................................2292 (F2, Thu) Logan, Bruce................................ 2414 (G2, Wed) Logan, Bruce................................... 224 (A3, Tue) Lohn, Andrew................................2013 (E5, Thu) Lohra, Sheetal.................................2737 (J3, Tue) Lombigit, Lojius........................... 2638 (J1, Mon) Long, Branden................................2010 (E5, Thu) Long, Brandon................................807 (B8, Tue), ............................... 819 (B8, Tue), 935 (B9, Wed) Long, Jeffrey.................................. 512 (B2, Thu), ............................. 603 (B5, Mon), 889 (B8, Thu), .......................................................2285 (F2, Thu) Longo, Roberto............................ 973 (B10, Mon) Longo, Valentino............................1877 (E2, Thu) Lopez, Eric............. 131 (A1, Tue), 2483 (I1, Tue) Lopez, Juan..................................1778 (D4, Mon) Lopez-Haro, Miguel...................1396 (B11, Wed), ....................................................1443 (B11, Wed) Lorincik, Jan.................................. 2319 (F3, Tue) Lortie, Maxime...............................721 (B6, Wed) Losada, Martin........1771 (D4, Mon), 2625 (I5, Tue) Lottin, Olivier.............................1288 (B11, Tue), ...................... 1387 (B11, Wed), 1578 (B11, Thu), ........................1582 (B11, Thu), 1583 (B11, Thu)

Louie, Mary....................................2572 (I3, Wed) Loukrakpam, Rameshwori.......... 1604 (B11, Thu) Loup, Virginie.............................. 2101 (E8, Mon) Lourdhusamy, Anthoniraj...............2696 (J2, Tue) Loureiro, Felipe Augusto...........1479 (B11, Wed), ....................................................1480 (B11, Wed) Louro, Melanie.................................617 (B5, Tue) Lu, Fei.......................................... 2415 (G2, Wed) Lu, Han-Wei................................2188 (E10, Wed) Lu, Jennifer.....................................335 (B1, Wed) Lu, Jiechen......................................831 (B8, Wed) Lu, Jun...........................................424 (B2, Wed), ............................. 452 (B2, Wed), 506 (B2, Wed), ........................................................ 520 (B2, Thu) Lu, Juntao.................................... 1575 (B11, Thu) Lu, Ming-Hsiu................................467 (B2, Wed) Lu, Ming-Yi.................................1070 (B10, Tue) Lu, Pei-Jen..................................... 2266 (F2, Tue) Lu, Peng..........................................557 (B4, Tue), ............................ 918 (B9, Tue), 1177 (B10, Thu) Lu, Pin.......................................... 1836 (D5, Wed) Lu, Shih Yuan.................................. 682 (B5, Thu) Lu, Sida............................................914 (B9, Tue) Lu, Wei......................................... 1961 (E4, Mon) Lu, Wenquan...................................808 (B8, Tue), ............................826 (B8, Wed), 960 (B10, Mon) Lu, Xiaochuan............................1681 (B12, Wed), ....................................................1682 (B12, Wed) Lu, Xunyu....................................... 2484 (I1, Tue) Lu, Yihong........2109 (E8, Tue), 2240 (E12, Wed) Lu, Yijiang......................................2687 (J2, Tue) Lu, Ying-Ching...............................478 (B2, Wed) Lu, Yingying...................................546 (B3, Wed) Lu, Yue.......................................... 2504 (I2, Mon) Lu, Zhou.........................................650 (B5, Wed), ..........................1078 (B10, Tue), 2712 (J3, Mon) Lu, Zijie........................................1293 (B11, Tue) Luais, Erwann............................... 2470 (I1, Mon) Lubin, Alexandra............................2299 (F2, Thu) Lublow, Michael............................. 2562 (I3, Tue) Lubomirsky, Igor.............................717 (B6, Wed) Luc, Ho..........................................1954 (E3, Thu) Luc, Wesley...................................2306 (F3, Mon) Lucas, Francisco Willian..............2174 (E10, Tue) Lucas, Ivan.......................................911 (B9, Tue) Lucht, Brett........ 913 (B9, Tue), 1067 (B10, Tue), ...................... 1069 (B10, Tue), 1138 (B10, Wed), ....................................................1141 (B10, Wed) Lucio Porto, Raul.............................615 (B5, Tue) Luconi, Leandro............................. 2339 (F4, Tue) Ludwig, Alfred.............................1354 (B11, Tue) Ludwig, Ralf...................................498 (B2, Wed) Ludwig, Roland...............................2652 (J1, Tue) Lueth, Christopher........................ 1726 (D1, Thu) Lufrano, Francesco........................667 (B5, Wed), .....................................................1343 (B11, Tue) Lujan, Roger...............................1289 (B11, Tue), .........................1292 (B11, Tue), 1304 (B11, Tue) Luk’yanenko, Tatiana................... 2423 (G2, Wed) Lunt, Richard...................................776 (B7, Tue) Luntz, Alan.......................................391 (B2, Tue) Luo, Hongmei............9 (A1, Tue), 887 (B8, Thu), .......................1115 (B10, Wed), 1118 (B10, Wed) Luo, Jingli.......... 732 (B6, Wed), 1795 (D5, Mon) Luo, Jun................ 1890 (E2, Fri), 2109 (E8, Tue) Luo, Qingtao...............................1658 (B12, Tue), ....................... 1659 (B12, Tue), 1661 (B12, Tue), ...................... 1680 (B12, Wed), 1691 (B12, Wed) Luo, Song.................................... 1581 (B11, Thu) Luo, Xiangyi......... 452 (B2, Wed), 506 (B2, Wed) Luopa, Sean..................................1350 (B11, Tue) Lupan, Oleg.................................2198 (E11, Mon) Lupo, Christian..............................2354 (F4, Thu)

Lust, Enn............. 604 (B5, Mon), 610 (B5, Mon), ............................. 633 (B5, Wed), 662 (B5, Wed), ............................ 2583 (I3, Wed), 2612 (I4, Mon) Lust, Karmen................................. 2612 (I4, Mon) Lustig, Naftali.............................2239 (E12, Wed) Lux, Simon............. 902 (B9, Tue), 908 (B9, Tue), ............................. 922 (B9, Wed), 926 (B9, Wed), ........................................................931 (B9, Wed) Lv, Dongping...................................282 (B1, Tue) Lv, Hong....... 1370 (B11, Wed), 1527 (B11, Wed) Lvov, Serguei...................................708 (B6, Tue) Lvovich, Vadim...............................2693 (J2, Tue) Lynch, Robert..............................2201 (E11, Mon) Lyon, Stuart.................................. 1744 (D2, Wed) Lyons, Micheal............................. 2408 (G1, Wed) Lyons, Robert................................ 2709 (J3, Mon) Lysgaard, Steen................................704 (B6, Tue) Lyth, Stephen............................. 1568 (B11, Thu), .................................................... 1613 (B11, Thu) Lyu, Hong-Kun..............................2048 (E6, Tue)

266

M

Ma, Chong......................................2731 (J3, Tue) Ma, Chuze.......................................476 (B2, Wed) Ma, Jianxin..................................1370 (B11, Wed) Ma, Juan..........................................2692 (J2, Tue) Ma, Jun............................................ 2492 (I1, Tue) Ma, Ning........................................ 198 (A2, Wed) Ma, Sang Bok.................................457 (B2, Wed) Ma, Sichao.......................................697 (B6, Tue) Ma, Teng.....................................2183 (E10, Wed) Ma, Xiaohua...........365 (B2, Mon), 401 (B2, Tue) Ma, Ying......................................... 259 (B1, Mon) Ma, Yuguang....................................901 (B9, Tue) Ma, Zi-Feng.................................1074 (B10, Tue) Maas, Gerhard..............................1109 (B10, Tue) Maboudian, Roya..........................2290 (F2, Thu), ...........................2432 (H1, Mon), 2798 (J4, Wed) Mabuchi, Takashi........31 (A1, Tue), 32 (A1, Tue) Mabuchi, Takuya..........................1285 (B11, Tue) MacAodha, Domhnall..................... 2517 (I2, Tue) Macauley, Natalia.......................1435 (B11, Wed) Macciņ, Daniele.............................749 (B6, Wed), ...................................................... 1653 (B11, Fri) Macdonald, Digby.......................1780 (D4, Mon), ........................1781 (D4, Mon), 1785 (D4, Mon), ........................1789 (D5, Mon), 1792 (D5, Mon), ..........................1810 (D5, Tue), 1834 (D5, Wed), ...........................1836 (D5, Wed), 2510 (I2, Mon) MacEachern, Lauren......................... 34 (A1, Tue) Macedo, Daniel.............................. 195 (A2, Wed) MacElwee, Tom.............................1913 (E3, Tue) Machado, Sergio............................ 123 (A1, Tue), .......................... 199 (A2, Wed), 2173 (E10, Tue), ...............................2670 (J1, Tue), 2675 (J1, Tue) Machida, Katsuyuki................... 2222 (E12, Mon) Mack, Florian..............................1419 (B11, Wed) Mack, Nathan..............................1022 (B10, Tue), ....................................................1390 (B11, Wed) Mackiewicz, Marcin.......................2650 (J1, Tue) Mackus, Adrie................................1880 (E2, Thu) MacNeil, Dean........................... 1188 (B10, Thu), .................................................... 1189 (B10, Thu) Madden, John...............................1024 (B10, Tue) Madden, Samuel........................... 1821 (D5, Tue) Madkikar, Pankaj........................ 1599 (B11, Thu) Maeda, Takehiro..............................824 (B8, Wed) Maeda, Tetsuhiko........................1459 (B11, Wed) Maeda, Yuya.....................................411 (B2, Tue) Maekawa, Shunsuke.......................311 (B1, Wed) Maekawa, Takuma......................1060 (B10, Tue), .....................................................1077 (B10, Tue) Maekawa, Yasunari.....................1310 (B11, Tue), ..................................................... 1311 (B11, Tue) Maenosono, Hirotaka.................... 1845 (D6, Tue) Maes, Ashley............................... 1574 (B11, Thu)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Maes, Ashley...............................1698 (B12, Wed) Maestre Caro, Aranzazu................2368 (F5, Mon) Magagnin, Luca..........................1026 (B10, Tue), .......................... 2254 (F2, Mon), 2290 (F2, Thu), ..........................2341 (F4, Wed), 2366 (F5, Mon), ...........................2432 (H1, Mon), 2798 (J4, Wed) Magdaleno, Francine....................... 144 (A1, Tue) Magyari-Kope, B...........................2012 (E5, Thu) Magyari-Kope, Blanka.................2159 (E10, Tue) Mahadik, Nadeemullah............... 1893 (E3, Mon), .........................1903 (E3, Mon), 1907 (E3, Mon), ......................................................1939 (E3, Wed) Mahdavifar, Alireza......................2795 (J4, Wed), ........................................................ 2811 (J6, Tue) Mahiou, Rachid...............................2730 (J3, Tue) Mahmoudzadeh, Ali.....................1024 (B10, Tue) Mai, Andreas.............................. 2221 (E12, Mon) Mai Thi, Hai Ha...............................775 (B7, Tue) Maillard, Frederic......................1396 (B11, Wed), ....................................................1443 (B11, Wed) Mailley, Sophie...............................539 (B3, Wed) Majeed, Bivragh.............................2787 (J4, Wed) Mak, Lai.........................................2123 (E8, Tue) Maki, Hajime..............................1496 (B11, Wed) Mäkilä, Ermei.............................. 1959 (E4, Mon) Makihara, Katsunori...................2247 (E12, Wed) Makino, Akihiro.............................. 169 (A2, Tue) Makino, Takahiro....................... 2142 (E10, Mon) Malacrida, Paolo..............................712 (B6, Tue) Malaquias, Joćo............................ 2252 (F1, Wed), ...................................................... 2602 (I4, Mon) Maldonado, Stephen......................2294 (F2, Thu) Malen, Jonathan............................1941 (E3, Wed) Mali, Sawanta S..............................337 (B1, Wed) Malik, Rahul......... 575 (B4, Wed), 830 (B8, Wed) Malkhandi, Souradip.......................288 (B1, Tue), .........................................................290 (B1, Tue) Malmgren, Sara................................916 (B9, Tue) Maloney, Ryan............................... 268 (B1, Mon) Mamlouk, Mohamed..................... 1654 (B11, Fri) Mamtani, Kuldeep......................... 1638 (B11, Fri) Man, Gabriel...............................2244 (E12, Wed) Manabe, Akiyoshi........................ 2412 (G1, Wed) Manafi Rasi, Negar......................... 346 (B1, Thu) Mancheno-Posso, Pablo................2131 (E8, Wed) Mandal, Jyotirmoy........................2303 (F3, Mon) Mandal, Pratiti.............................1324 (B11, Tue), ....................................................1452 (B11, Wed) Mandal, Saptarshi..........................2010 (E5, Thu) Mane, Anil.....................................1858 (E2, Wed) Manepalli, Satya Kishore............. 2715 (J3, Mon), .......................................................2748 (J3, Wed) Manerova, Jevgenija....................... 753 (B6, Thu) Mani, Prasanna............................1395 (B11, Wed) Manimaran, Kaliyaperumal.........1010 (B10, Tue) Maniscalco, J..................................1883 (E2, Thu) Manivannan, Ayyakkannu...............271 (B1, Tue), .............................. 282 (B1, Tue), 486 (B2, Wed), ........................................................638 (B5, Wed) Manka, Daniel................................... 896 (B8, Fri) Manke, Ingo................................ 1544 (B11, Thu) Mann, Jason...................................... 37 (A1, Tue) Manners, William..........................2034 (E6, Tue), ..................................................... 2205 (E11, Tue) Manohar, Aswin...............................290 (B1, Tue) Manohar, Aswin K...........................288 (B1, Tue) Mansor, Noramalina....................1362 (B11, Tue), .................................................... 1616 (B11, Thu) Mantels, Bart............................... 1169 (B10, Thu) Manthiram, Arumugam................. 357 (B2, Mon), ..............................375 (B2, Mon), 408 (B2, Tue), ........................ 1013 (B10, Tue), 1177 (B10, Thu) Mantooth, H........1925 (E3, Tue), 1945 (E3, Wed) Manyala, Ncholu............................992 (B10, Tue) Mao, Baohua...................................921 (B9, Wed) Mao, Feixiong............................... 2510 (I2, Mon)

Mao, Jing.........980 (B10, Mon), 1064 (B10, Tue) Mao, Shifan.................................1537 (B11, Wed) Mao, W............................................2669 (J1, Tue) Mao, Wenbin...................................2825 (J6, Tue) Mao, Xianglei................................2286 (F2, Thu) Maranzana, Gael........................ 1578 (B11, Thu), ........................1582 (B11, Thu), 1583 (B11, Thu) Marchionni, Andrea.......................733 (B6, Wed), ........................ 1531 (B11, Wed), 2403 (G1, Wed) Marchiori, Chiara........................2189 (E10, Wed) Marcinek, Marek.............................385 (B2, Tue), ....................................................1160 (B10, Wed) Marcott, Curtis.............................1326 (B11, Tue) Marcus, Philippe............................951 (B9, Wed), .........................1790 (D5, Mon), 1797 (D5, Mon) Maria, Sebastien.............................. 529 (B2, Thu) Maric, Radenka..........................1405 (B11, Wed), .................................................... 1548 (B11, Thu) Marina, Olga................................... 752 (B6, Thu) Marinaro, Mario..............................428 (B2, Wed) Marinella, Matthew.......................1919 (E3, Tue), ........................... 1943 (E3, Wed), 2013 (E5, Thu) Markin, Vladislav...........................2830 (J6, Tue) Markovic, Nenad.............................392 (B2, Tue), ....................... 1251 (B11, Sun), 1401 (B11, Wed) Markovic, Nenad............................. 2627 (I5, Tue) Markus, Isaac........ 845 (B8, Wed), 846 (B8, Wed) Markus, Torsten...... 565 (B4, Tue), 771 (B7, Tue) Markötter, Henning..................... 1544 (B11, Thu) Marnellos, George...........................794 (B7, Wed) Marone, Federica........................1297 (B11, Tue), .........................1319 (B11, Tue), 1320 (B11, Tue) Maroni, Victor......... 395 (B2, Tue), 520 (B2, Thu) Marotti, Ricardo.............................2044 (E6, Tue) Marquardt, Amy.............................. 1886 (E2, Fri) Marschilok, Amy.............................839 (B8, Wed) Marshak, Michael......................1687 (B12, Wed), ....................................................1688 (B12, Wed) Martens, Johan................................729 (B6, Wed) Martens, Koen.............................2179 (E10, Wed) Martha, Surendra............................ 524 (B2, Thu), ..................................................... 972 (B10, Mon) Martic, Sanela........2702 (J2, Tue), 2775 (J4, Tue) Martin, Farrel............................... 1832 (D5, Wed) Martķn, Francisco..........................2044 (E6, Tue) Martin, James..................................2728 (J3, Tue) Martin, Steve...... 388 (B2, Tue), 1159 (B10, Wed) Martinelli, Antonio......................... 195 (A2, Wed) Martines, Marco............................. 199 (A2, Wed) Martinet, Sebastien........................... 899 (B8, Fri) Martinez, Ana Maria....................... 2630 (I5, Tue) Martinez, Madison.......................... 137 (A1, Tue) Martinez, Ulises..........................1359 (B11, Tue), ....................... 1366 (B11, Tue), 1608 (B11, Thu), .........................1618 (B11, Thu), 1651 (B11, Fri), ...................................................... 2636 (J1, Mon) Martinez Alvarez, Omar..................661 (B5, Wed) Martinez de la Hoz, Julibeth............901 (B9, Tue) Martķnez-Martķnez, Rafael............2744 (J3, Tue) Martinson, Alex............................1028 (B10, Tue) Maruyama, Jun................................300 (B1, Wed) Masahara, Meishoku...................2181 (E10, Wed) Masai, Hirokazu..............................2706 (J2, Tue) Masaki, Takaki...............................2752 (J3, Wed) Mascaro, Lucia.............................2174 (E10, Tue) Masese, Titus................................... 61 (A1, Tue), ............................. 434 (B2, Wed), 494 (B2, Wed), ............................. 499 (B2, Wed), 824 (B8, Wed), ............................. 835 (B8, Wed), 858 (B8, Wed), ........................... 923 (B9, Wed), 1066 (B10, Tue) Maskell, William.............................782 (B7, Wed) Mason, Chad....................................402 (B2, Tue) Mason, Thomas...........................1373 (B11, Wed) Masquelier, Christian......................383 (B2, Tue), ........................................................841 (B8, Wed) Massiot, Dominique........................841 (B8, Wed)

Massoud, Toni..............................1797 (D5, Mon) Mast, Peter.................................... 1727 (D1, Thu) Mastro, Michael............................1930 (E3, Wed) Masud, Jahangir...........................1677 (B12, Tue) Masuda, Kenta...............................2295 (F2, Thu) Masuda, Takuya.............................. 2623 (I5, Tue) Masuda, Tatsuya.............................. 133 (A1, Tue) Matasso, Anthony......................... 2471 (I1, Mon) Matei, Elena....... 2357 (F4, Thu), 2374 (F5, Mon) Mathe, Mkhulu...............................992 (B10, Tue) Mathew, Leo.................................1933 (E3, Wed) Mathews, James...........................1785 (D4, Mon) Mathias, Mark..................................390 (B2, Tue) Matic, Jamie.................................... 2523 (I2, Tue) Matsubara, Eiichiro........................432 (B2, Wed), ............................. 436 (B2, Wed), 500 (B2, Wed), .............................. 582 (B4, Wed), 823 (B8, Tue), ........................................................824 (B8, Wed) Matsubara, Masahiko.....................1923 (E3, Tue) Matsuda, Atsunori........................ 1823 (D5, Wed) Matsuda, Hiroaki............................... 26 (A1, Tue) Matsuda, Itsuaki............................. 2390 (F5, Tue) Matsuda, Yasuaki.............................. 98 (A1, Tue) Matsuda, Yasuhiro H....................2175 (E10, Tue) Matsudaira, Masahki.......................2663 (J1, Tue) Matsue, Tomokazu..........................2663 (J1, Tue) Matsueda, Toshiharu.................... 1895 (E3, Mon) Matsui, Kohei............................... 1896 (E3, Mon) Matsui, Masaki.......... 411 (B2, Tue), 856 (B8, Wed), ............................941 (B9, Wed), 1111 (B10, Tue) Matsui, Masaki.............................1081 (B10, Tue) Matsui, Shumpei............................ 2390 (F5, Tue) Matsui, Yuki................................... 2261 (F2, Tue) Matsumi, Noriyoshi................... 1163 (B10, Thu), .......................................................2595 (I3, Wed) Matsumiya, Masahiko..................... 2493 (I1, Tue) Matsumoto, Futoshi......................... 13 (A1, Tue), ...................................14 (A1, Tue), 33 (A1, Tue), ...............................2628 (I5, Tue), 2666 (J1, Tue) Matsumoto, Hideyoshi....................851 (B8, Wed) Matsumoto, Katsumasa............... 1617 (B11, Thu) Matsumoto, Kazuhiko...................2257 (F2, Mon) Matsumoto, Kazuki.................... 2148 (E10, Mon) Matsumoto, Masashi...................... 154 (A2, Tue), ........................970 (B10, Mon), 1065 (B10, Tue), ..................... 1491 (B11, Wed), 1495 (B11, Wed), ........................1561 (B11, Thu), 1562 (B11, Thu) Matsumoto, Nobuaki...................... 2117 (E8, Tue) Matsumoto, Shingo.........................491 (B2, Wed) Matsumoto, Shinichi...................1500 (B11, Wed) Matsumoto, Takashi.................... 970 (B10, Mon), ....................................................1144 (B10, Wed) Matsumoto, Yoichiro....................1255 (B11, Sun) Matsumura, Ryo..........................2233 (E12, Tue), .....................................................2238 (E12, Tue) Matsumura, Takuya......................... 146 (A1, Tue) Matsuo, Nobufumi......................... 2261 (F2, Tue) Matsuoka, Miki.............................. 146 (A1, Tue), ....................................................1509 (B11, Wed) Matsuoka, Takahiro.....................1412 (B11, Wed) Matsutani, Koichi........................1521 (B11, Wed) Matsutomo, Akari........................ 969 (B10, Mon) Matsuzawa, Koichi........................ 154 (A2, Tue), ..................... 1490 (B11, Wed), 1538 (B11, Wed), .......................1561 (B11, Thu), 1562 (B11, Thu), ..................................................... 2412 (G1, Wed) Matsuzawa, Koichi.....................1495 (B11, Wed) Mauger, Alain.................................853 (B8, Wed), ............................. 854 (B8, Wed), 855 (B8, Wed), .............................. 863 (B8, Wed), 864 (B8, Wed) Maupin, C........................................114 (A1, Tue) Maurice, Vincent..........................1797 (D5, Mon) Maurya, Deepam..........................2155 (E10, Tue) Mauzeroll, Janine.........................1802 (D5, Mon) Maya Visuet, Enrique................... 1833 (D5, Wed) Mayer, Dieter................................ 2398 (F5, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

267


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Mayrhofer, Karl...........................1354 (B11, Tue) Mayur, Abhilash...........................2237 (E12, Tue) Mazen, Frédéric......................... 2215 (E12, Mon) Mazouzi, D.......................................273 (B1, Tue) Mazouzi, Driss............................. 966 (B10, Mon) Mazzeo, Brian................................ 267 (B1, Mon) McCalla, Eric......... 803 (B8, Tue), 804 (B8, Tue), ................................ 805 (B8, Tue), 818 (B8, Tue) McCarty, Kevin................................777 (B7, Tue) McClain, William........................2244 (E12, Wed) McCloskey, Bryan............................391 (B2, Tue) McCombie, Scott.......................... 1760 (D2, Thu) McCord, Mark...............................1858 (E2, Wed) McCoy, Christopher........................536 (B3, Wed) McCuskey, P...................................1926 (E3, Tue) McDaniel, Anthony..........................777 (B7, Tue) McDermid, Joseph........................ 1816 (D5, Tue) McDermid, Scott.........................1407 (B11, Wed) McDonald, T. J..........787 (B7, Wed), 796 (B7, Wed) McDonough, John............................ 53 (A1, Tue), ............................... 624 (B5, Tue), 669 (B5, Wed) McDowell, T...................................2769 (J4, Tue) McFarland, Eric..........................1676 (B12, Tue), ...........................1677 (B12, Tue), 2565 (I3, Wed) McFiggans, Gordon..................... 1744 (D2, Wed) McGrath, James...........................1344 (B11, Tue) McGrath, Michael........................ 1762 (D2, Thu), .....................................................1768 (D4, Mon) McHardy, John................................ 250 (A3, Thu) McIntyre, Paul...............................1869 (E2, Thu), ....................................................2193 (E11, Mon) McKittrick, Joanna.......................2309 (F3, Mon), .......................... 2707 (J3, Mon), 2713 (J3, Mon), ........................................................2727 (J3, Tue) McLeod, Alexander.......................2256 (F2, Mon) McManus, Lily................................825 (B8, Wed) McMillan, Paul........................... 1616 (B11, Thu) McMurray, Gary.............................2828 (J6, Tue) McMurray, Hamilton................... 1758 (D2, Thu), .....................................................1776 (D4, Mon) McNally, Elizabeth....................... 1817 (D5, Tue) McNees, C....................................... 228 (A3, Tue) McOwen, Dennis.......................1140 (B10, Wed), .................................................... 1182 (B10, Thu) McPhate, Jason.............................1858 (E2, Wed) Mech, Krzysztof............................... 48 (A1, Tue), ............................ 1756 (D2, Thu), 2325 (F4, Tue) Medeiros, Amanda......................... 195 (A2, Wed) Mefford, J............... 233 (A3, Tue), 636 (B5, Wed) Mehdi, El Fassy.............................2362 (F4, Thu) Mehne, Julian................................ 1227 (B10, Fri) Mehra, Varun..................................214 (A3, Mon) Mehrotra, Amal..............................459 (B2, Wed), ....................................................1152 (B10, Wed) Mehta, Beejal..................................2771 (J4, Tue) Meini, Stefano....... 429 (B2, Wed), 448 (B2, Wed) Meisner, Roberta.............................446 (B2, Wed) Meister, Paul.....................................11 (A1, Tue), ............................. 310 (B1, Wed), 861 (B8, Wed), .................................. 891 (B8, Fri), 892 (B8, Fri), .......................................................... 894 (B8, Fri) Mekhalif, Zineb.............................. 167 (A2, Tue), ..............................171 (A2, Wed), 172 (A2, Wed) Mekonnen, Yedilfana......................412 (B2, Tue), ........................................................591 (B4, Wed) Melchy, Pierre-Éric....................1391 (B11, Wed), ....................................................1426 (B11, Wed) Melhuish, Chris..............................219 (A3, Mon) Melo, Dulce.................................... 195 (A2, Wed) Melo Banda, Aaron.....................1523 (B11, Wed) Mench, Mathew.........................1410 (B11, Wed), ....................... 1542 (B11, Thu), 1667 (B12, Tue), ....................... 1669 (B12, Tue), 1694 (B12, Wed) Meneghesso, Gaudenzio................1916 (E3, Tue) Meneghini, Matteo.........................1916 (E3, Tue) Menendez, Christian................... 1605 (B11, Thu)

Ménétrier, Michel............................841 (B8, Wed) Menezes, Shalini............................2530 (I2, Wed) Meng, Lingkuan.............................2072 (E7, Tue) Meng, Shirley.................................476 (B2, Wed), .............................. 553 (B3, Wed), 559 (B4, Tue), ........................ 1686 (B12, Wed), 2259 (F2, Mon) Meng, Xiangbo........................... 961 (B10, Mon), .........................981 (B10, Mon), 1028 (B10, Tue) Mengistie, Desalegn Alemu...........2033 (E6, Tue) Menne, Sebastian........................ 1185 (B10, Thu) Mérida, Walter............................1416 (B11, Wed) Merinov, Boris...............................589 (B4, Wed), ....................................................1439 (B11, Wed) Merlo, Luca..................................1281 (B11, Tue) Merrill, Mathew.......251 (B1, Mon), 647 (B5, Wed), ........................... 652 (B5, Wed), 2434 (H1, Mon) Mertens, Paul..... 2094 (E8, Mon), 2116 (E8, Tue) Mertens, Robert.............................. 130 (A1, Tue), ................................................... 2147 (E10, Mon) Mertens, Stijn.................................. 2631 (I5, Tue) Merwin, Augustus.......................1793 (D5, Mon), .........................1798 (D5, Mon), 1803 (D5, Mon) Mesa Zora, Jesus............................. 108 (A1, Tue) Mescheder, Ulrich......................... 2463 (I1, Mon) Messinger, Robert...........................841 (B8, Wed) Metiu, Horia........ 1676 (B12, Tue), 1677 (B12, Tue) Meunier, Richard..........................1929 (E3, Wed) Meyer, David......1912 (E3, Tue), 1930 (E3, Wed) Meyer, E.........................................2040 (E6, Tue) Meyer, Frank................................... 2551 (I3, Tue) Meyer, Harry...............................1411 (B11, Wed) Meyer, Hinrich..................................11 (A1, Tue), . ............................. 310 (B1, Wed), 861 (B8, Wed), .................................. 891 (B8, Fri), 892 (B8, Fri), .......................................................... 894 (B8, Fri) Meyer, Thomas....... 700 (B6, Tue), 705 (B6, Tue) Meyyappan, Meyya....................... 181 (A2, Wed), ........................................................2687 (J2, Tue) Meza, Abraham...............................2743 (J3, Tue) Meza Rocha, Abraham....................2744 (J3, Tue) Mi, Na...............1745 (D2, Wed), 1746 (D2, Wed) Miao, Tengfei............................. 2146 (E10, Mon) Miara, Lincoln....... 576 (B4, Wed), 578 (B4, Wed) Mibus, Marcel.................................2772 (J4, Tue) Michalczewski, Krystian..................385 (B2, Tue) Michelet, Cédric..............................418 (B2, Wed) Michor, Herwig..............................2364 (F4, Thu) Mickel, Patrick...............................2013 (E5, Thu) Middlemiss, Derek.........................595 (B4, Wed), ............................ 825 (B8, Wed), 2256 (F2, Mon) Midorikawa, Hiromi....................1326 (B11, Tue) Migita, Shinji..............................2181 (E10, Wed) Migliorini, Fernanda................... 2427 (G2, Wed), .......................................................2592 (I3, Wed) Mihali, Alina................................1084 (B10, Tue) Mikami, Masayoshi........................2745 (J3, Wed) Millan, Jose...................................1944 (E3, Wed) Millan-Agorio, Marcos.................2375 (F5, Mon) Miller, Dean........ 810 (B8, Tue), 1017 (B10, Tue) Miller, Eric.................................... 2532 (I3, Mon) Miller, Hamish...............................733 (B6, Wed), ........................ 1531 (B11, Wed), 2403 (G1, Wed) Miller, John................................... 599 (B5, Mon), ............................... 623 (B5, Tue), 643 (B5, Wed) Milliron, Delia............................1149 (B10, Wed), ..............................2297 (F2, Thu), 2725 (J3, Tue) Mills, Steven...................................2677 (J1, Tue) Milobar, Daniel...............................716 (B6, Wed) Mima, Toshiki..............................1257 (B11, Sun) Min, Ji Won..... 1052 (B10, Tue), 1053 (B10, Tue) Min, Junhong...............................1089 (B10, Tue) Minakova, Tatiana........................ 1712 (D1, Wed) Minakuchi, Hisashi..................... 1586 (B11, Thu) Minami, Kazuya............................ 2614 (I4, Mon) Minamida, Yasuto......................1465 (B11, Wed), .................................................... 1614 (B11, Thu)

Minato, Taketoshi............................. 61 (A1, Tue), ................................ 63 (A1, Tue), 434 (B2, Wed), ............................. 494 (B2, Wed), 499 (B2, Wed), ............................. 835 (B8, Wed), 858 (B8, Wed), .......................... 923 (B9, Wed), 1066 (B10, Tue), ...................... 1403 (B11, Wed), 1513 (B11, Wed) Mindrinos, Michael........................2790 (J4, Wed) Minegishi, Tsutomu........................ 2546 (I3, Tue) Miner, Elise.....................................305 (B1, Wed) Minko, Sergiy.............................1411 (B11, Wed) Minne, Shephen...............................905 (B9, Tue) Minor, Andrew.............................1005 (B10, Tue) Minot, Michael..............................1858 (E2, Wed) Minteer, Shelley............................. 229 (A3, Tue), ............................245 (A3, Wed), 2464 (I1, Mon), .............................. 2513 (I2, Tue), 2519 (I2, Tue), ...............................2624 (I5, Tue), 2814 (J6, Tue) Miranda, Įngel............................. 1172 (B10, Thu) Mironov, Sergey.............................2078 (E7, Tue) Mirsaneh, Mehdi......................... 1199 (B10, Thu) Mishra, Kailash............................2309 (F3, Mon), .......................... 2707 (J3, Mon), 2713 (J3, Mon), ........................................................2721 (J3, Tue) Misra, Durga.............................. 2139 (E10, Mon) Misra, Mano........637 (B5, Wed), 1825 (D5, Wed) Misra, Veena......... 945 (B9, Wed), 2677 (J1, Tue) Missert, Nancy...... 828 (B8, Wed), 924 (B9, Wed) Misu, Yoshitatsu............................. 2264 (F2, Tue) Mitchell, Reginald.......................... 344 (B1, Thu), ........................................................ 345 (B1, Thu) Mitchell, Robert...............................394 (B2, Tue) Mįtéfi-Tempfli, Mįria.................... 2537 (I3, Mon) Mįtéfi-Tempfli, Stefan................... 2537 (I3, Mon) Mito, Shunsuke..........622 (B5, Tue), 2588 (I3, Wed) Mitra, Sushanta.............................2788 (J4, Wed), .......................................................2792 (J4, Wed) Mitsui, Takahiro..............................641 (B5, Wed) Mitsumoto, Hisashi......................1248 (B11, Sun) Mitsushima, Shigenori................... 154 (A2, Tue), .......................... 759 (B6, Thu), 1490 (B11, Wed), ..................... 1495 (B11, Wed), 1538 (B11, Wed), .......................1561 (B11, Thu), 1562 (B11, Thu), ..................................................... 2412 (G1, Wed) Mittelsteadt, Cortney...................1342 (B11, Tue), .........................1344 (B11, Tue), 1345 (B11, Tue) Mittermeier, Thomas................... 1599 (B11, Thu) Miura, Takashi............................1126 (B10, Wed) Miwa, Douglas........ 111 (A1, Tue), 116 (A1, Tue) Miya, Taka-aki...............................2362 (F4, Thu) Miyabe, Sayaka............................ 1838 (D5, Wed) Miyahara, Takahiro.....................1478 (B11, Wed) Miyahara, Yuuto...............................291 (B1, Tue) Miyake, Junpei.............................. 1626 (B11, Fri) Miyao, Masanobu.......................2229 (E12, Tue), .........................2233 (E12, Tue), 2238 (E12, Tue) Miyasaka, Tsutomu....................... 2279 (F2, Wed) Miyashiro, Hajime......................1126 (B10, Wed) Miyatake, Kenji...........................1341 (B11, Tue), ....................................................1478 (B11, Wed) Miyateke, Kenji............................. 1626 (B11, Fri) Miyawaki, Jun............................1485 (B11, Wed), ....................................................1493 (B11, Wed) Miyazaki, Kohei..........278 (B1, Tue), 280 (B1, Tue), .............................. 291 (B1, Tue), 463 (B2, Wed), . .............................. 464 (B2, Wed), 950 (B9, Wed) Miyazaki, Seiichi........................2235 (E12, Tue), ....................................................2247 (E12, Wed) Miyazaki, Takashi.......................1491 (B11, Wed) Miyoshi, Kota................................. 759 (B6, Thu) Mizuki, Jun’ichiro............................823 (B8, Tue) Mizukoshi, Fumikazu..................1081 (B10, Tue) Mizuno, Fuminori..........................453 (B2, Wed), ........................................................462 (B2, Wed) Mizuno, Jun................................. 1895 (E3, Mon) Mizuno, Kosuke........................... 2100 (E8, Mon) Mizuno, Takeshi..........................2243 (E12, Wed)

268

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Mizuta, Hiroshi...........................2243 (E12, Wed) Mo, Yifei............... 576 (B4, Wed), 578 (B4, Wed) Mochalov, Sergey...........................329 (B1, Wed), ........................................................331 (B1, Wed) Mochena, Mogus........................... 2318 (F3, Tue), ....................................................... 2320 (F3, Tue) Mochizuki, Yasumasa....................... 33 (A1, Tue) Modestino, Miguel.........................2586 (I3, Wed) Modregger, Peter.......................... 1746 (D2, Wed) Moffat, Thomas P..........................2064 (E7, Tue), ............................ 2324 (F4, Tue), 2381 (F5, Tue), ............................ 2387 (F5, Tue), 2393 (F5, Tue), ........................................................ 2560 (I3, Tue) Moganty, Surya.............................. 373 (B2, Mon) Mogensen, Mogens......................... 755 (B6, Thu) Mogi, Masato.............................. 970 (B10, Mon), .....................................................1065 (B10, Tue) Mogni, Liliana................................739 (B6, Wed), .............................. 740 (B6, Wed), 742 (B6, Wed) Mohajeri, Nahid......................... 1270 (B11, Mon) Mohamed, Rhiyaad..........................283 (B1, Tue) Mohammed-Ali, Haval............... 1745 (D2, Wed), ..................................................... 1746 (D2, Wed) Mohan, Ned....................................1922 (E3, Tue) Mohanty, Swomitra........................637 (B5, Wed), ..................................................... 1825 (D5, Wed) Mohri, Yasuharu.............................2588 (I3, Wed) Mojumder, Nazrul........................... 2620 (I5, Tue) Mok, Janine....................................2790 (J4, Wed) Mokkelbost, Tommy.......................857 (B8, Wed) Moldoveanu, Iuliana.................... 2762 (J4, Mon), ........................................................2812 (J6, Tue) Molero-Sanchez, Beatriz.................746 (B6, Wed) Molina, Sonia....... 2505 (I2, Mon), 2664 (J1, Tue) Molina Piper, Daniela.................. 954 (B10, Mon) Molle, Alessandro........................2165 (E10, Tue) Moller, William................................815 (B8, Tue) Molter, Trent...............................1332 (B11, Tue), .........................1333 (B11, Tue), 1334 (B11, Tue) Momma, Toshiyuki.....................1002 (B10, Tue), ..........................1082 (B10, Tue), 2264 (F2, Tue), ....................................................... 2321 (F4, Tue) Monaghan, S...............................2190 (E10, Wed) Monceau, Daniel..............................773 (B7, Tue) Moneti, Simonetta...........................733 (B6, Wed) Monforte, Giuseppe........................731 (B6, Wed) Mönig, Reiner................................ 880 (B8, Thu), ........................... 944 (B9, Wed), 1011 (B10, Tue) Monnier, John................................... 24 (A1, Tue) Mönnighoff, Xaver..................... 1180 (B10, Thu) Monroe, Charles..............................426 (B2, Wed) Monroe, Charles......................... 1192 (B10, Thu), ....................................................1696 (B12, Wed) Monroy-Pelaez, Marel................... 204 (A2, Wed) Monson, Loxie...............................2120 (E8, Tue) Montalvo, Elizabeth.......................647 (B5, Wed), .....................................................2433 (H1, Mon) Montalvo, Elizabeth........................652 (B5, Wed) Montaner, Jason.............................2750 (J3, Wed) Montegrossi, Giordano..................2035 (E6, Tue) Montenegro-Hernandez, Alejandra........................ ........................................................740 (B6, Wed) Monti, Damien.................................383 (B2, Tue) Montoya, Rodrigo........................ 1841 (D5, Wed) Montserrat, Josep..........................1944 (E3, Wed) Moon, Eui-seong..............................919 (B9, Tue) Moon, Hyeongjoo.......................... 352 (B1, Thu), ....................................................1130 (B10, Wed) Moon, Kwangjin............................2073 (E7, Tue) Moon, Kyoung-Seok........................714 (B6, Tue) Moon, San...................................... 361 (B2, Mon) Moon, Sung In.........2120 (E8, Tue), 2127 (E8, Tue) Moore, Amy........... 414 (B2, Tue), 427 (B2, Wed) Moore, Brad................................ 1176 (B10, Thu) Moore, Charles................................ 523 (B2, Thu) Moorthy, Santhana..........................428 (B2, Wed)

Moos, Ralf......................................2705 (J2, Tue) Moradi, Farhad.................................. 80 (A1, Tue) Moraes, Fernando...........................2675 (J1, Tue) Morais, Claudia............................. 2468 (I1, Mon) Morales, Estivalia........................ 1721 (D1, Wed) Moran, Peter........548 (B3, Wed), 977 (B10, Mon) Morand, Yves...............................2236 (E12, Tue) Moraru, Daniel............................2243 (E12, Wed) Morawietz, Tobias........................1338 (B11, Tue) Morawietz, Tobias......................1419 (B11, Wed), ....................................................1462 (B11, Wed) More, Karren..............................1411 (B11, Wed), ...................... 1445 (B11, Wed), 1578 (B11, Thu), .................................................... 1619 (B11, Thu) Moreau, P.........................................273 (B1, Tue) Moreau, Philippe............................418 (B2, Wed), ..................................................... 966 (B10, Mon) Morgan, Dane.............................. 2407 (G1, Wed) Morgenroth, Laurence.....................619 (B5, Tue), .......................................................1875 (E2, Thu) Mori, Shinichiro..............................923 (B9, Wed) Mori, Takuya.................................... 61 (A1, Tue), ............................. 434 (B2, Wed), 494 (B2, Wed), ............................. 499 (B2, Wed), 824 (B8, Wed), ............................. 835 (B8, Wed), 858 (B8, Wed), ........................... 923 (B9, Wed), 1066 (B10, Tue) Mori, Toshiyuki...............................489 (B2, Wed) Morimitsu, Masatsugu..................... 26 (A1, Tue), .......................................................... 27 (A1, Tue) Morimoto, Yu..............................1253 (B11, Sun), .........................1282 (B11, Tue), 1300 (B11, Tue) Morisawa, Kirihiko........................ 211 (A2, Wed) Morishita, Masanori.....................1003 (B10, Tue) Morishita, Tetsuya...........................592 (B4, Wed) Morita, Akira................................ 2106 (E8, Mon) Morita, Motoaki.............................2584 (I3, Wed) Morita, Yuichiro.............................2595 (I3, Wed) Morita, Yukinori..........................2181 (E10, Wed) Moriwake, Hiroki.............................555 (B4, Tue) Moriyama, Yoshihiko...................2234 (E12, Tue) Morozov, Alexandre...................... 2632 (J1, Mon) Morris, Darius..........814 (B8, Tue), 972 (B10, Mon) Morrison, David............................ 1729 (D1, Thu) Mortet, Vincent........................... 1899 (E3, Mon), ..................................................... 1900 (E3, Mon) Morton, Sean................................ 1748 (D2, Wed) Moskovits, Martin..........................2565 (I3, Wed) Moss, Rachel...................................2692 (J2, Tue) Mosselmans, Fred........................1770 (D4, Mon) Mota, Andressa............................ 1635 (B11, Fri), ...................................................... 1649 (B11, Fri) Motegi, Haruki............................1261 (B11, Sun), .........................1468 (B11, Wed), 1624 (B11, Fri) Motheo, Artur..................................111 (A1, Tue), ................................116 (A1, Tue), 2501 (I1, Tue) Motobayashi, Kenta...................... 2614 (I4, Mon) Motoda, Shinichi............................2584 (I3, Wed) Motoyoshi, Makoto...................... 2055 (E7, Mon) Mougenot, Mathieu......................... 149 (A2, Tue) Mouli, Chandra.............................1987 (E5, Wed) Moulin, Johan.......... 2783 (J4, Wed), 2785 (J4, Wed) Moustakas, Theodore.....................1950 (E3, Thu) Mouyad, Amine...............................2690 (J2, Tue) Movva, Hema............................. 2145 (E10, Mon) Moy, Derek.....................................486 (B2, Wed) Moylan, Thomas..........................1301 (B11, Tue) Msehli, Oumaya....... 2505 (I2, Mon), 2664 (J1, Tue) Mshoperi, Edith............................... 230 (A3, Tue) Mtambanengwe, Kudzai................. 230 (A3, Tue) Mueller, Brennen...........................2082 (E7, Tue) Mueller, Stephan...........................1938 (E3, Wed) Muff, Stefan.................................... 2631 (I5, Tue) Muhammad, Shoaib.....................1014 (B10, Tue) Mukahara, Shingo........................ 2060 (E7, Mon) Mukai, Kazuhiko..........................1009 (B10, Tue) Mukai, Takashi............................... 368 (B2, Mon)

Mukerjee, Sanjeev..........................305 (B1, Wed), .............................. 449 (B2, Wed), 813 (B8, Tue), ....................... 1349 (B11, Tue), 1597 (B11, Thu), .......................... 1639 (B11, Fri), 1643 (B11, Fri), .......................... 1646 (B11, Fri), 2409 (G1, Wed) Mukherjee, Bratindranath..............2582 (I3, Wed) Mukherjee, Partha...........................570 (B4, Tue), ................................ 571 (B4, Tue), 573 (B4, Tue) Mukherjee, Sanjeev....................... 1647 (B11, Fri) Mukherjee, Santanu....................1277 (B11, Tue), ....................................................1683 (B12, Wed) Mukherjee, Somik...........................728 (B6, Wed) Mukouyama, Yoshiharu................... 87 (A1, Tue), .......................................................... 90 (A1, Tue) Mukoyama, Daikichi....................1082 (B10, Tue) Mukundan, Rangachary................. 148 (A1, Tue), .......................... 720 (B6, Wed), 1289 (B11, Tue), ........................1290 (B11, Tue), 1292 (B11, Tue), .......................1304 (B11, Tue), 1425 (B11, Wed), ...................... 1445 (B11, Wed), 1578 (B11, Thu), .........................1583 (B11, Thu), 2632 (J1, Mon), ........................................................2695 (J2, Tue) Mulder, Grietus........................... 1169 (B10, Thu) Muller, David............................. 1267 (B11, Mon) Muller, Guillaume...........................613 (B5, Tue), ........................................................ 763 (B6, Thu) Müller, Martin.............................1453 (B11, Wed) Muller, R......................................2158 (E10, Tue) Mulmi, Suresh.................................2697 (J2, Tue) Mun, Jihun...................................2161 (E10, Tue) Munakata, Hirokazu........................904 (B9, Tue), .......................................................998 (B10, Tue) Munekata, Toshihisa....................1253 (B11, Sun) Munktell, Sara............................... 1731 (D1, Thu) Munnangi, Anji Reddy.................... 515 (B2, Thu) Munnangi, Samuel.......................2237 (E12, Tue) Muńoz Mįrquez, Miguel Įngel.......445 (B2, Wed), .....................................................1088 (B10, Tue) Munroe, Norman........................... 1846 (D6, Tue) Murakami, Hideki.......................2247 (E12, Wed) Murakami, Koh................................. 33 (A1, Tue) Murakami, Shuichi.........................2024 (E5, Thu) Murakoshi, Erika............................. 2628 (I5, Tue) Murakoshi, Kei........ 96 (A1, Tue), 1486 (B11, Wed) Murase, Kuniaki............................... 58 (A1, Tue), ................................. 78 (A1, Tue), 332 (B1, Wed) Murase, Kuniaki............................... 73 (A1, Tue), ....................................74 (A1, Tue), 77 (A1, Tue) Murayama, Haruno.........................824 (B8, Wed) Murayama, Masami....................... 2113 (E8, Tue) Murota, Junichi...........................2226 (E12, Tue), .........................2228 (E12, Tue), 2230 (E12, Tue) Murphy, James.............................. 2709 (J3, Mon) Murphy, Richard............................2075 (E7, Tue) Murugappan, Krishnan...................2647 (J1, Tue) Murugesan, Mariappan................ 2054 (E7, Mon) Mųrup, Steen...................................842 (B8, Wed) Muscat, Anthony...........................2131 (E8, Wed) Mushove, Tapiwa.......................... 2541 (I3, Mon) Musiani, Marco............................. 1807 (D5, Tue) Musil, Michal..............................1488 (B11, Wed) Mustain, William........................ 1548 (B11, Thu), ...................................................... 1633 (B11, Fri) Muthuraja, S....................................2781 (J4, Tue) Muthuvel, Madhivanan................ 2402 (G1, Wed) Muto, Hiroyuki............................ 1823 (D5, Wed) Muto, Izumi................66 (A1, Tue), 69 (A1, Tue), ..............................70 (A1, Tue), 1710 (D1, Wed), .....................................................1775 (D4, Mon) Muto, Izumi......1773 (D4, Mon), 1796 (D5, Mon) Myers, Deborah...........................1400 (B11, Wed) Myers-Ward, Rachael.................. 1903 (E3, Mon), ..................................................... 1907 (E3, Mon) Myint, MyatNoeZin.....................1367 (B11, Tue) Myles, Timothy............................1317 (B11, Tue) Myojin, Masao.............................1102 (B10, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

269


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Myrdal, Jon............. 412 (B2, Tue), 704 (B6, Tue) Myung, Nosang............................. 2253 (F1, Wed) Myung, Noseung............................2531 (I2, Wed) Myung, Seung-Taek........................403 (B2, Tue), .............................. 415 (B2, Wed), 812 (B8, Tue), ..............................867 (B8, Wed), 879 (B8, Thu), ................................888 (B8, Thu), 890 (B8, Thu)

Nakanishi, Takuya...........................2672 (J1, Tue) Nakano, Akihiro..........................1459 (B11, Wed) Nakano, Hideyuki.......................... 189 (A2, Wed) Nakano, Masanori...........................2663 (J1, Tue) Nakano, Masatsugu...................... 969 (B10, Mon) Nakashima, Hiroshi.....................2232 (E12, Tue), ....................................................2241 (E12, Wed) Nakashima, Naotoshi..................1424 (B11, Wed) Nakatsuka, Osamu......................2225 (E12, Tue), ........................2234 (E12, Tue), 2248 (E12, Wed) Nakayama, Hideki..........................495 (B2, Wed), ........................................................505 (B2, Wed) Nakayama, Masaharu......................622 (B5, Tue), ..............................2588 (I3, Wed), 2618 (I5, Tue) Nakayama, Masanobu...................... 50 (A1, Tue), ................................. 52 (A1, Tue), 558 (B4, Tue), ........................................................577 (B4, Wed) Nakiri, Shuichi..............................2007 (E5, Wed) Nam, Do-Hwan......... 416 (B2, Wed), 479 (B2, Wed) Nam, DoHwan.............................. 1656 (B11, Fri) Nam, Ki Tae.................................. 2542 (I3, Mon) Nam, Kyoung Mo..........................849 (B8, Wed), ........................................................948 (B9, Wed) Nam, Kyung-Wan...........................406 (B2, Tue), .............................. 817 (B8, Tue), 843 (B8, Wed), ...............................872 (B8, Thu), 875 (B8, Thu), ............................934 (B9, Wed), 968 (B10, Mon) Namiki, Yusuke..............................998 (B10, Tue) Nammalwar, Prasanth Kumar...... 2709 (J3, Mon), ............................2715 (J3, Mon), 2748 (J3, Wed) Nanda, Jagjit....... 524 (B2, Thu), 972 (B10, Mon) Nanjundan, Ashok........................ 975 (B10, Mon) Naohara, Hideji............................ 2106 (E8, Mon) Napolitano, Federico.......................801 (B7, Wed) Napporn, Teko............................... 2468 (I1, Mon) Nara, Hiroki................................1002 (B10, Tue), ...........................1082 (B10, Tue), 2321 (F4, Tue) Narasimhan, Murali......................2129 (E8, Wed) Narayanan, S...................................288 (B1, Tue), .............................. 290 (B1, Tue), 468 (B2, Wed), ........................................................486 (B2, Wed) Narayanan, Sudarshan..................2166 (E10, Tue) Narendar, Nasani............................. 754 (B6, Thu) Narita, Masakuni.......................... 1113 (B10, Tue) Naruse, Mitsuru..............................2529 (I2, Wed) Naruskevicius, Leonas................... 2271 (F2, Tue) Narwankar, Pravin........................2129 (E8, Wed) Nash, Christena............................... 124 (A1, Tue) Nasikas, Nektarios..........................799 (B7, Wed) Nasybulin, Eduard..........................425 (B2, Wed), .......................... 530 (B2, Thu), 1153 (B10, Wed), ....................................................... 2379 (F5, Tue) Nath, Anindya............................. 1903 (E3, Mon), ......................................................1939 (E3, Wed) Nation, Leah...................................832 (B8, Wed), .................................................... 1195 (B10, Thu) Natishan, Paul.............................1786 (D5, Mon), ...........................1810 (D5, Tue), 1818 (D5, Tue), ..................................................... 1832 (D5, Wed) Natori, Kenji................................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Nauber, Andreas..............................2681 (J1, Tue) Navaei, Milad............2795 (J4, Wed), 2828 (J6, Tue) Navrotsky, Alexandra......................768 (B7, Tue), ........................................................799 (B7, Wed) Nayak, Prasant............................. 957 (B10, Mon) Nazar, Linda................................... 353 (B2, Mon) Nazario, Renny............................1037 (B10, Tue) Nazarov, A...................................2190 (E10, Wed) Nazemi, Amir.................................. 157 (A2, Tue) Neathery, James............................. 240 (A3, Wed) Neaton, Jeffrey...............................2297 (F2, Thu) Nebel, Christoph........ 639 (B5, Wed), 698 (B6, Tue)

Negro, Emanuela.........................1243 (B11, Sun), ....................... 1249 (B11, Sun), 1610 (B11, Thu), ...................................................... 2444 (H1, Tue) Negro, Enrico........461 (B2, Wed), 1698 (B12, Wed) Nelson, Eric..................................... 512 (B2, Thu) Nelson, Jeffrey.............................. 1765 (D3, Tue) Nelson, Johanna........................... 972 (B10, Mon) Nelson, Kathlyne.........................1139 (B10, Wed) Nelson, Ruben.................................2694 (J2, Tue) Nelson, William........................... 1711 (D1, Wed) Nemanick, E....................................504 (B2, Wed) Nemouchi, Fabrice.......................2236 (E12, Tue) Neo, Chin Yong..............................2293 (F2, Thu) Neophytides, Stylianos................1307 (B11, Tue) Nepal, Neeraj........1930 (E3, Wed), 2206 (E11, Tue) Nerimetla, Rajasekhara................ 2472 (I1, Mon), ........................................................ 2490 (I1, Tue) Neto, Almir......................................113 (A1, Tue) Neubert, Volkmar.......................... 1763 (D3, Tue) Neumann, Johannes........................498 (B2, Wed) Nevers, Douglas...............................285 (B1, Tue) Newman, John................................ 527 (B2, Thu), ............................... 705 (B6, Tue), 914 (B9, Tue), ......................... 1064 (B10, Tue), 2465 (I1, Mon), .......................................................2586 (I3, Wed) Newman, Roger............................ 182 (A2, Wed), ........................ 1744 (D2, Wed), 1772 (D4, Mon), .....................................................1787 (D5, Mon) Neyerlin, K. C.............................1245 (B11, Sun), .........................1308 (B11, Tue), 1331 (B11, Tue) Ng, Desmond....1673 (B12, Tue), 2275 (F2, Wed) Ng, Inn-Khuan.............................. 2638 (J1, Mon) Ng, Nelson......................................543 (B3, Wed) Ngo, Duc Tung.............................1054 (B10, Tue) Ngoepe, Phuti..................................596 (B4, Wed) Nguyen, An..................................... 151 (A2, Tue) Nguyen, Binh-Minh................... 2151 (E10, Mon) Nguyen, Cao Cuong.......................868 (B8, Wed), .........................................................912 (B9, Tue) Nguyen, Chi Lang.........................1855 (E1, Wed) Nguyen, Dan...................................868 (B8, Wed) Nguyen, Duc............................. 2138 (E10, Mon), ................................................... 2141 (E10, Mon) Nguyen, Hai.................................. 2398 (F5, Wed) Nguyen, Hoang........................... 1713 (D1, Wed), .......................................................2046 (E6, Tue) Nguyen, Lang.................................1954 (E3, Thu) Nguyen, Quan................................1954 (E3, Thu) Nguyen, Thoa.............................1474 (B11, Wed), ........................1607 (B11, Thu), 1713 (D1, Wed), .......................................................2046 (E6, Tue) Nguyen, Trung...............................298 (B1, Wed), ........................1339 (B11, Tue), 1674 (B12, Tue), .....................................................1677 (B12, Tue) Nguyen Thi, Giang Huong.......... 1607 (B11, Thu) Nham, Jeasun................................ 2451 (H1, Tue) Nham, Jeasun...............................1044 (B10, Tue) Ni, Chi-Nung...............................2237 (E12, Tue) Ni, Shi-Bing.................................1027 (B10, Tue) Niangar, Ellazar............................ 1644 (B11, Fri) Niaz, Iftikhar.................................1850 (E1, Wed) Nicholas, Jason................................776 (B7, Tue) Nie, Hui.........................................1932 (E3, Wed) Nie, Mengyun..................................913 (B9, Tue) Nie, Zimin.......................................399 (B2, Tue), .......................... 425 (B2, Wed), 1658 (B12, Tue), ....................... 1659 (B12, Tue), 1661 (B12, Tue), ...................... 1680 (B12, Wed), 1691 (B12, Wed) Niedzwiedzki, Dariusz....................728 (B6, Wed) Nien, Yung-Tang.............................2740 (J3, Tue) Nihonyanagi, Satoshi...................1299 (B11, Tue) Nikkuni, Flavio........................... 1556 (B11, Thu) Nikolay Kornienko, Nikolay..........2581 (I3, Wed) Nilsson, Anders..............................2572 (I3, Wed) Ningsih, Purnama............................ 677 (B5, Thu) Nipoti, Roberta..............................1939 (E3, Wed)

N

Na, Hyunwoong.........................1461 (B11, Wed), ....................................................1499 (B11, Wed) Nabae, Yuta........1485 (B11, Wed), 1564 (B11, Thu) Nabais, Catarina..............................951 (B9, Wed) Nafus, Kathleen.............................. 2115 (E8, Tue) Nagai, Chihiro................................. 2493 (I1, Tue) Nagai, Haruna................................... 45 (A1, Tue) Nagai, Hidekazu.......................... 1586 (B11, Thu) Nagai, Hiroyuki...............................2706 (J2, Tue) Nagai, Tsukasa............................1508 (B11, Wed) Nagakane, Tomohiro....................1003 (B10, Tue) Nagamatsu, Ken..........................2244 (E12, Wed) Nagaoka, Naoto...........................1060 (B10, Tue), .....................................................1077 (B10, Tue) Nagarale, Rajaram........................... 2515 (I2, Tue) Nagase, Katsuya............................ 1624 (B11, Fri) Nagase, Masaaki...........................1862 (E2, Wed) Nagashima, Ikuo.......................... 2412 (G1, Wed) Nagashima, Shota............................. 60 (A1, Tue) Nagashio, Kosuke.......................2227 (E12, Tue), ....................................................2249 (E12, Wed) Nagasubramanian, Ganesan.......... 265 (B1, Mon), ........................................................550 (B3, Wed) Nagata, Mikito............................1135 (B10, Wed) Nagata, Ryo..........2032 (E6, Tue), 2042 (E6, Tue) Nagata, Yuji................................ 1264 (B11, Mon) Nagatomo, Syota............................. 2479 (I1, Tue) Naguib, Hani...................................632 (B5, Wed) Nagumo, Yuzo........ 1624 (B11, Fri), 1625 (B11, Fri) Nah, Junghyo.................................1967 (E4, Tue) Nahm, KeeSuk....... 510 (B2, Wed), 1042 (B10, Tue) Nahm, Sahn.................................1461 (B11, Wed) Naicker, Selvaraj............................2788 (J4, Wed) Nail, Benjamin................................730 (B6, Wed) Nair, Vineet..................................... 2557 (I3, Tue) Naito, Shinji..................................2007 (E5, Wed) Nakafuji, Hiroki................................ 68 (A1, Tue) Nakagawa, Hiroe............................... 893 (B8, Fri) Nakagawa, Nobuyoshi.................. 1650 (B11, Fri) Nakagawa, Takuya....................... 1895 (E3, Mon) Nakahara, Akira.............................2041 (E6, Tue) Nakahara, Kentaro......................1124 (B10, Wed) Nakahara, Shohei...........................2352 (F4, Thu) Nakai, Hiromi............................... 2345 (F4, Wed) Nakai, Tsukasa............................1513 (B11, Wed) Nakajima, Hironori....................1369 (B11, Wed), ..........................1545 (B11, Thu), 1623 (B11, Fri) Nakajima, Hitoshi.......................1521 (B11, Wed) Nakajima, Kaoru.......................... 1960 (E4, Mon) Nakajo, Arata...................................778 (B7, Tue) Nakamori, Mitsunori...................... 2117 (E8, Tue) Nakamori, Tadashi......................... 2118 (E8, Tue) Nakamura, G.............................. 2139 (E10, Mon) Nakamura, Hiroyoshi.......................820 (B8, Tue) Nakamura, Junji..........................1493 (B11, Wed) Nakamura, Ken...........................1404 (B11, Wed) Nakamura, Masashi.....................1347 (B11, Tue), ...................... 1403 (B11, Wed), 1502 (B11, Wed) Nakamura, Tatsuya.........................851 (B8, Wed), ........................... 862 (B8, Wed), 1170 (B10, Thu) Nakamura, Tetsuya......................1502 (B11, Wed) Nakamura, Tomoaki.........................558 (B4, Tue) Nakanishi, Koji...............................835 (B8, Wed) Nakanishi, Shinji.............................477 (B2, Wed) Nakanishi, Shinji.......495 (B2, Wed), 505 (B2, Wed) Nakanishi, Shuji............................... 87 (A1, Tue), ................................90 (A1, Tue), 2504 (I2, Mon) 270

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Nirozumi, Yuichiro......................... 1911 (E3, Tue) Nisancioglu, Kemal....................... 1809 (D5, Tue) Nishi, Naoya................................. 2614 (I4, Mon) Nishi, Nobuyuki..........................1500 (B11, Wed) Nishi, Y...........................................2012 (E5, Thu) Nishi, Yoshio................................2159 (E10, Tue) Nishida, Kosuke..........................1346 (B11, Tue), ....................................................1458 (B11, Wed) Nishide, Hiroyuki......................... 1624 (B11, Fri), ...................................................... 1625 (B11, Fri) Nishijima, Motoaki.......................... 91 (A1, Tue), ..................................................... 982 (B10, Mon) Nishikawa, Kei.................................904 (B9, Tue) NIshikawa, Takehito..................1404 (B11, Wed), ...................... 1520 (B11, Wed), 1522 (B11, Wed) Nishiki, Yoshinori........................ 2412 (G1, Wed) Nishikoori, Hidetaka.......................453 (B2, Wed) Nishimura, Shinichi........................831 (B8, Wed) Nishimura, Tomoaki.....................2233 (E12, Tue) Nishimura, Tomonori..................2227 (E12, Tue), ....................................................2249 (E12, Wed) Nishimura, Yoshimi........................862 (B8, Wed) Nishino, Eriko............................... 1626 (B11, Fri) Nishio, Kazunori..........................1025 (B10, Tue) Nishio, Koji........... 463 (B2, Wed), 464 (B2, Wed) Nishioka, Yasushiro..................... 1845 (D6, Tue), ............................2026 (E6, Tue), 2032 (E6, Tue), ............................ 2042 (E6, Tue), 2644 (J1, Mon) Nishiyama, Akira.........................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Nishizawa, Shoichiro.....................2069 (E7, Tue) Nitani, Hiroaki................................847 (B8, Wed) Nitta, Koji.....................................2257 (F2, Mon) Nitta, Naoki....................................991 (B10, Tue) Niwa, Hideharu..........................1485 (B11, Wed), ....................................................1493 (B11, Wed) Niwa, Masaaki.............................2159 (E10, Tue) Niwano, Michio............................. 109 (A1, Tue), .........................2183 (E10, Wed), 2362 (F4, Thu), ........................................................2676 (J1, Tue) Nminibapiel, David......................1857 (E2, Wed), ..........................1863 (E2, Wed), 1864 (E2, Wed), ......................................................1866 (E2, Wed) Nobili, Luca...........2341 (F4, Wed), 2432 (H1, Mon) Nobuhara, Kunihiro.......................495 (B2, Wed), .............................. 505 (B2, Wed), 592 (B4, Wed) Noda, Kazuhiko.......................... 1709 (D1, Wed), ..................................................... 1715 (D1, Wed) Noda, Yohei.................................... 2269 (F2, Tue) Noda, Zhiyun.............................1465 (B11, Wed), ..................... 1503 (B11, Wed), 1518 (B11, Wed), .........................1614 (B11, Thu), 1631 (B11, Fri), ...................................................... 2445 (H1, Tue) Noel, James..........1794 (D5, Mon), 1802 (D5, Mon) Nogami, Mitsuzo.............................300 (B1, Wed) Nogami, Takeshi............................2075 (E7, Tue) Noguchi, Hideyuki...........................820 (B8, Tue) Noguera, Daniel..............................2692 (J2, Tue) Noh, H.-J................340 (B1, Wed), 525 (B2, Thu) Noh, Hee-Sook................................490 (B2, Wed) Noh, Yuseong..............................1530 (B11, Wed) Nohira, Toshiyuki............................. 61 (A1, Tue), ........................... 2257 (F2, Mon), 2295 (F2, Thu) Noiri, Toshihiro...............................862 (B8, Wed) Noked, Malachi............................... 685 (B5, Thu) Noma, Hiroaki...............................2085 (E7, Wed) Nomura, Keisuke......................... 969 (B10, Mon) Nomura, Takehiko.......................... 1911 (E3, Tue) Nonaka, Kazuhiro.........................2085 (E7, Wed) Nonoyama, Nobuaki................... 1553 (B11, Thu) Noppakunkajorn, Jukkrit...............1946 (E3, Wed) Norby, Poul........... 412 (B2, Tue), 472 (B2, Wed), .............................. 473 (B2, Wed), 842 (B8, Wed)

Nordlund, Dennis...........................726 (B6, Wed), .............................. 846 (B8, Wed), 917 (B9, Tue), ....................................................1380 (B11, Wed) Noreus, Dag................................... 262 (B1, Mon) Norkus, Eugenijus......................1506 (B11, Wed), .........................1532 (B11, Wed), 2271 (F2, Tue), ............................2378 (F5, Mon), 2396 (F5, Tue) Northrop, Paul............................... 256 (B1, Mon), ....................................................1693 (B12, Wed) Nosach, Tetiana...... 447 (B2, Wed), 811 (B8, Tue) Nose, Masafumi.............................495 (B2, Wed), ........................................................505 (B2, Wed) Nourai, Ali................................... 1176 (B10, Thu) Novak, Peter.................................. 1218 (B10, Fri) Novak, Robert.... 1620 (B11, Thu), 2696 (J2, Tue) Novak, Vitezslav............................338 (B1, Wed), ....................................................1488 (B11, Wed) Novįk, Petr...................................... 885 (B8, Thu) Novita, Mega..........2733 (J3, Tue), 2735 (J3, Tue) Novita, Mega...................................2732 (J3, Tue) Novitski, David...........................1464 (B11, Wed) Nowak, Christoph.......................... 177 (A2, Wed) Nowak, J........................................2018 (E5, Thu) Nowak, Sascha............................ 1180 (B10, Thu) Nowak, Wolfgang......................... 1227 (B10, Fri) Nowotny, Janusz............................ 243 (A3, Wed) Nozik, Arthur................................ 2507 (I2, Mon) Ntais, Spyridon......721 (B6, Wed), 764 (B6, Thu) Numata, Mitsuhiro............................ 69 (A1, Tue) Nurrochman, Andrieanto............... 1728 (D1, Thu) Nųrskov, Jens........689 (B6, Mon), 1437 (B11, Wed) Nuspl, Gerhard...............................999 (B10, Tue) Nutariya, Jeerapat.......................... 2330 (F4, Tue) Nyakiti, Luke........1903 (E3, Mon), 1907 (E3, Mon) Nyholm, Leif..................................943 (B9, Wed), ...................... 1047 (B10, Tue), 1125 (B10, Wed), .......................... 1233 (B10, Fri), 1731 (D1, Thu), ...................................................... 2282 (F2, Wed) Nyholm, Leif....................................916 (B9, Tue)

Ogiahra, Nobuhiro..........................947 (B9, Wed) Ogihara, Shou............................... 2644 (J1, Mon) Ogitsu, Tadashi............................2433 (H1, Mon), .............................. 2552 (I3, Tue), 2553 (I3, Tue), ........................................................ 2554 (I3, Tue) Ogiwara, Misako..........................1796 (D5, Mon) Ogumi, Zempachi......................... 269 (B1, Mon), ..............................355 (B2, Mon), 562 (B4, Tue), ............................. 824 (B8, Wed), 835 (B8, Wed), ................................893 (B8, Fri), 923 (B9, Wed), .....................................................1066 (B10, Tue) Oh, Hyo-Jin.....................................867 (B8, Wed) Oh, JI-Won.... 1461 (B11, Wed), 1499 (B11, Wed) Oh, Jinuk........................................2050 (E6, Tue) Oh, Jung.........................................2080 (E7, Tue) Oh, Kyu............ 954 (B10, Mon), 964 (B10, Mon) Oh, Minsub................................... 605 (B5, Mon), .........................967 (B10, Mon), 1004 (B10, Tue) Oh, S. C.........................................1995 (E5, Wed) Oh, Seung Jae............................... 2204 (E11, Tue) Oh, Seung-Min.......415 (B2, Wed), 879 (B8, Thu) Oh, Seungha...................................... 59 (A1, Tue) Oh, Seungha.....2171 (E10, Tue), 2172 (E10, Tue) Oh, U..............................................2121 (E8, Tue) Oh, Woong................................... 1114 (B10, Tue) Ohara, Katsuhiko...........................2066 (E7, Tue) Ohashi, Hidenori..........................1316 (B11, Tue) Ohashi, Masato................................ 534 (B2, Fri), .........................1335 (B11, Tue), 1336 (B11, Tue) Ohashi, Shintaro........................... 2100 (E8, Mon) Ohgaki, Fujika............................. 1193 (B10, Thu) Ohgi, Yoshiro.............................. 1562 (B11, Thu) Ohira, Hironori............................1420 (B11, Wed) Ohji, Masahiko.............................1003 (B10, Tue) Ohkuma, Hirokazu...........................411 (B2, Tue) Ohlsen, Braden............................... 245 (A3, Wed) Ohmi, Tadahiro............................1862 (E2, Wed), ........................... 1911 (E3, Tue), 2170 (E10, Tue) Ohmura, Tomohiko........................... 69 (A1, Tue) Ohnishi, Tsuyoshi............................822 (B8, Tue), .....................................................1025 (B10, Tue) Ohnmacht, Benjamin..................1428 (B11, Wed) Ohno, Yuuki..................................1992 (E5, Wed) Ohori, Yurina........2026 (E6, Tue), 2042 (E6, Tue) Ohsaka, Takeo................................. 2619 (I5, Tue) Ohshima, Takeshi....................... 2142 (E10, Mon) Ohta, Akio...................................2247 (E12, Wed) Ohta, Narumi................................1025 (B10, Tue) Ohta, Shingo............................... 1196 (B10, Thu) Ohta, Toshiaki..............................1066 (B10, Tue) Ohta, Toshiaki.................................835 (B8, Wed) Ohta, Toshiyuki..............................2364 (F4, Thu) Ohtomo, Takamasa...................... 1197 (B10, Thu) Ohwaki, Tsukuru..........................1248 (B11, Sun) Ohya, Masaharu..............................2686 (J2, Tue) Ohyanagi, Takasumi.......................2025 (E5, Thu) Ohzeki, Masaya.............................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Ohzuku, Tsutomu............................817 (B8, Tue), .................................................... 1193 (B10, Thu) Oishi, Masatsugu.............................823 (B8, Tue) Oji, Hiroshi..................................... 874 (B8, Thu) Oka, Yoshihiro...... 851 (B8, Wed), 862 (B8, Wed) Okada, Akiko............................... 1895 (E3, Mon) Okada, Jiro.....................................2284 (F2, Thu) Okada, Kohei..............................1517 (B11, Wed) Okada, Shigeto................................400 (B2, Tue), ..............................478 (B2, Wed), 532 (B2, Thu), ........................................................553 (B3, Wed) Okada, Yohei..............................1495 (B11, Wed), .................................................... 1562 (B11, Thu) Okado, Tetsuya.......... 494 (B2, Wed), 499 (B2, Wed) Okajima, Takeyoshi........................ 2619 (I5, Tue) Okamoto, Hiroshi........87 (A1, Tue), 90 (A1, Tue) Okamoto, Mitsuo....................... 2142 (E10, Mon)

O

O Conghaile, Peter.......................... 2517 (I2, Tue) O Sullivan, Ciara............................ 2522 (I2, Tue), ...............................2700 (J2, Tue), 2701 (J2, Tue) O’Connor, E................................2190 (E10, Wed) O’Dwyer, Colm................................ 16 (A1, Tue), .............................. 162 (A2, Tue), 451 (B2, Wed), ...........................876 (B8, Thu), 2201 (E11, Mon) O’Grady, William........................1786 (D5, Mon), ...................................................... 1818 (D5, Tue) O’Hayre, Ryan........................... 1576 (B11, Thu), .................................................... 1603 (B11, Thu) O’Mahony, Aileen.........................1858 (E2, Wed) O’Mullane, Anthony...................... 2263 (F2, Tue) O’ Riordan, Alan.............................2767 (J4, Tue) O’Sullivan, E..................................2018 (E5, Thu) Obata, Taiki.....................................862 (B8, Wed) Obeisun, Oluwamayowa.............1373 (B11, Wed) Oberhauser, Werner........................733 (B6, Wed), ........................ 1531 (B11, Wed), 2403 (G1, Wed) Oberholzer, Pierre........................1291 (B11, Tue) Oberst, Justin................................ 2399 (F5, Wed) Obrovac, Mark................................. 34 (A1, Tue), ..........................1039 (B10, Tue), 1232 (B10, Fri) Ochi, Kentaro.................................. 142 (A1, Tue) Ochiai, Naoya......... 2105 (E8, Mon), 2121 (E8, Tue) Ochida, Manabu................................ 893 (B8, Fri) Odnevall Wallinder, Inger............ 1751 (D2, Wed) Odom, Susan...................................543 (B3, Wed) Oehler, Gudrun................................2705 (J2, Tue) Oezaslan, Mehtap........................1398 (B11, Wed) Ofer, David......... 832 (B8, Wed), 1195 (B10, Thu) Ogale, Anuradha...........................1946 (E3, Wed) Ogasawara, Kazuyoshi...................2732 (J3, Tue), ...............................2733 (J3, Tue), 2735 (J3, Tue) Ogawa, Junichiro.............................. 66 (A1, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

271


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Okamoto, Naoki.......................... 2060 (E7, Mon), ............................2063 (E7, Tue), 2090 (E7, Wed) Okamura, Kazuhiro........................ 355 (B2, Mon) Okashi, Sivan.................................. 685 (B5, Thu) Okasinski, John................................393 (B2, Tue) Okazaki, Kyosuke............................. 74 (A1, Tue) Okazaki, Motoya..........................2237 (E12, Tue) Oki, Hideki.......................................555 (B4, Tue) Okorn-Schmidt, Harald................ 2095 (E8, Mon) Oktaviano, Haryo........................ 1565 (B11, Thu) Okubo, Takashi............................1062 (B10, Tue) Okuchi, Hisashi.............................. 2118 (E8, Tue) Okuhata, Go................................1458 (B11, Wed) Okukawa, Takanori.......................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Okumura, Toyoki............................847 (B8, Wed) Okuno, Yukihiro..............................594 (B4, Wed) Okuyama, Arata.............................. 141 (A1, Tue) Olibet, Sara....................................2039 (E6, Tue) Olivares-Marķn, Mara.....................474 (B2, Wed) Oloman, Colin.............................1385 (B11, Wed) Olsen, Eric..............2831 (J6, Tue), 2832 (J6, Tue) Olsen, Michele........137 (A1, Tue), 878 (B8, Thu) Oltean, Gabriel............................1125 (B10, Wed) Olynick, Deirdre............................2575 (I3, Wed) Omar, Noshin................................ 1220 (B10, Fri) Omar, Noshin.................................668 (B5, Wed), ........................ 1169 (B10, Thu), 1222 (B10, Fri), ...................................................... 1224 (B10, Fri) Omichi, Kaoru.................................456 (B2, Wed) Omura, Masaya................................. 33 (A1, Tue) Omura, Saori...............................1496 (B11, Wed) Ońate, Ruben................................... 122 (A1, Tue) Ong, Shyue.................................... 365 (B2, Mon), .............................. 576 (B4, Wed), 578 (B4, Wed) Ong, Zhun-Yong..........................2166 (E10, Tue) Ono, Kotaro......................................278 (B1, Tue) Ono, Sachiko.................................. 132 (A1, Tue), ............................133 (A1, Tue), 1829 (D5, Wed), ...................................................... 1843 (D6, Tue) Ono, Yoko...................................... 370 (B2, Mon) Ono, Yoshinori............................... 2118 (E8, Tue) Ono, Yuji...................................... 2426 (G2, Wed) Onobuchi, Toshiaki......................... 2628 (I5, Tue) Onsrud, Morten........................... 1190 (B10, Thu) Onuki, Jin.......................................2078 (E7, Tue) Ooi, Azusa.................................... 1705 (D1, Wed) Oomine, Hiroshi..........................2191 (E10, Wed) Opsomer, Karl..............................2158 (E10, Tue) Opu, Md.......................................1335 (B11, Tue) Orazem, Mark.............................1108 (B10, Tue), ............................ 1807 (D5, Tue), 2683 (J2, Tue), ........................................................2690 (J2, Tue) Orendorff, Christopher...................542 (B3, Wed), ........................................................550 (B3, Wed) Orfanidi, Alin...............................1307 (B11, Tue) Oriani, Andrea................................2290 (F2, Thu) Orii, Takehiko................................ 2117 (E8, Tue) Orikasa, Yuki.................................... 61 (A1, Tue), ...................................63 (A1, Tue), 65 (A1, Tue), ............................. 434 (B2, Wed), 494 (B2, Wed), ............................. 499 (B2, Wed), 824 (B8, Wed), ............................. 835 (B8, Wed), 858 (B8, Wed), .......................... 923 (B9, Wed), 1066 (B10, Tue), ...................... 1403 (B11, Wed), 1513 (B11, Wed) Orimo, Shin-ichi.............................592 (B4, Wed) Orlandi, Marcelo............................ 195 (A2, Wed) Orlowski, Marius...........................2011 (E5, Thu) Oropeza-Guzman, Mercedes.........2316 (F3, Mon) Ortiz, Alfredo...............................1276 (B11, Tue) Ortiz, G........................................ 1899 (E3, Mon) Ortiz-Quiles, Edwin.........................811 (B8, Tue) Orvananos, Bernardo......................830 (B8, Wed) Osaka, Kyosuke........................... 1716 (D1, Wed)

Osaka, Tetsuya............................1002 (B10, Tue), ..........................1082 (B10, Tue), 2264 (F2, Tue), ............................ 2321 (F4, Tue), 2390 (F5, Tue), ........................................................2672 (J1, Tue) Osaki, Mayuko............................ 1197 (B10, Thu) Osawa, Masatoshi......................1451 (B11, Wed), ...................................................... 2614 (I4, Mon) Osayemwenre, Gilbert...................2040 (E6, Tue) Oshima, Masaharu.....................1485 (B11, Wed), . ....................................................1493 (B11, Wed) Oshima, Yoshifumi.......................989 (B10, Tue), ....................................................... 2331 (F4, Tue) Oshimura, Nobumitsu....................2284 (F2, Thu) Osiak, Michal...........16 (A1, Tue), 162 (A2, Tue), 876 (B8, Thu) Osterloh, Frank......158 (A2, Tue), 160 (A2, Tue), ............................ 730 (B6, Wed), 2536 (I3, Mon), .......................................................2576 (I3, Wed) Osterwalder, Jürg............................ 2631 (I5, Tue) Ota, Hiroyuki..............................2181 (E10, Wed) Ota, Ken-ichiro.............................. 154 (A2, Tue), ..................... 1490 (B11, Wed), 1491 (B11, Wed), ..................... 1495 (B11, Wed), 1496 (B11, Wed), ........................1561 (B11, Thu), 1562 (B11, Thu) Otani, Minoru..................................592 (B4, Wed) Otsuji, Masayuki...........................2133 (E8, Wed) Otsuka, Shintaro............................2006 (E5, Wed) Ottakam Thotiyl, Muhammed..........389 (B2, Tue) Ou, Keng-Liang........................... 1699 (D1, Wed) Ou, Shih-Fu.................................. 1699 (D1, Wed) Ou Yang, Liang-Yueh.................... 2324 (F4, Tue), ....................................................... 2381 (F5, Tue) Ouattara-Brigaudet, Mathilde..... 1191 (B10, Thu) Oudenhoven, Jos.............................2839 (J6, Tue) Ouhib, Farid.................................2430 (H1, Mon) Outlaw, Ronald...............................643 (B5, Wed) Ouyang, Jianyong........................2001 (E5, Wed), .......................................................2293 (F2, Thu) Overgaard, Marc.............................472 (B2, Wed) Oviedo, Oscar................................ 2323 (F4, Tue) Owen, Drew....................................2825 (J6, Tue) Owrutsky, Jeffrey.........772 (B7, Tue), 774 (B7, Tue) Oyama, Jun....................................... 63 (A1, Tue) Oyama, Junpei..............................1255 (B11, Sun) Oyama, Masataka.............................820 (B8, Tue) Oyama, Munetaka........................... 153 (A2, Tue) Ozaki, Tetsuya................................. 874 (B8, Thu) Ozanam, Franēois...........................951 (B9, Wed) Ozanich, Richard........................... 2758 (J4, Mon) Ozdemir, Ozan.............................1332 (B11, Tue) Ozdemir, Ozan............................1333 (B11, Tue), .....................................................1334 (B11, Tue) Ozgit-Akgun, Cagla........................ 1887 (E2, Fri) Ozhikandathil, Jayan......................2784 (J4, Wed) Ozkan, Umit.................................. 1638 (B11, Fri) Ozoemena, Kenneth.......................309 (B1, Wed), .......................................................992 (B10, Tue)

Pagliaro, Maria............................... 2328 (F4, Tue) Pagnier, Thierry................................775 (B7, Tue) Pak, Chanho................................ 1558 (B11, Thu) Pakalapati, Rajeev.........................1931 (E3, Wed) Pakalapati, Suryanarayana.............. 343 (B1, Thu) Palacķn, Marķa.........383 (B2, Tue), 897 (B8, Fri) Palacios, Tomas.............................1943 (E3, Wed) Palanichamy, Sennu........................323 (B1, Wed) Palanisamy, Kowsalya................. 1114 (B10, Tue) Palanisamy, Ponnusamy..................2695 (J2, Tue) Pallem, Venkateswara...................1864 (E2, Wed) Palluconi, Steve............................. 1622 (B11, Fri) Palm, Rasmus................................. 610 (B5, Mon) Palma, Jesśs.................................... 683 (B5, Thu) Palma, Livia.................................1363 (B11, Tue) Palomares, Veronica.........................405 (B2, Tue) Pan, Chun-Jern.............................1677 (B12, Tue) Pan, Guanghong...........................1033 (B10, Tue) Pan, Hsiao-An..................................620 (B5, Tue) Pan, Ming.......................................1912 (E3, Tue) Pan, Tung-Ming............................ 196 (A2, Wed), .......................... 206 (A2, Wed), 2175 (E10, Tue), ........................................................2673 (J1, Tue) Pan, X..............................................2668 (J1, Tue) Panabiere, Eddie............................. 884 (B8, Thu) Panarin, Andrei............................. 2643 (J1, Mon) Panchal, Chetan...............................2722 (J3, Tue) Panchmatia, Pooja.......................1158 (B10, Wed) Pande, Priyanka................................616 (B5, Tue) Pandey, Tara................................1539 (B11, Wed) Pandya, Ashish............................1132 (B10, Wed) Pandya, Kaumudi.........................1786 (D5, Mon) Pang, Wei Kong..........................1076 (B10, Tue), .....................................................1086 (B10, Tue) Pangrac, Jiri.................................. 2212 (E11, Tue) Pannala, Sreekanth......................... 524 (B2, Thu), .............................572 (B4, Tue), 1210 (B10, Fri), . ...................................................... 1229 (B10, Fri) Papandrew, Alexander.....................710 (B6, Tue), . ........................ 1246 (B11, Sun), 1667 (B12, Tue) Papasouliotis, George...................1936 (E3, Wed) Papautsky, Ian.................................2774 (J4, Tue) Parajuli, Suman............................. 179 (A2, Wed), ............................2577 (I3, Wed), 2585 (I3, Wed), . .......................................................2598 (I3, Wed) Parameswaran, Ash........................2799 (J4, Wed) Paranjpe, Ajit.................................1936 (E3, Wed) Paranthaman, Mariappan.............1012 (B10, Tue) Paraschiv, Vasile..........................2246 (E12, Wed) Parida, Smrutiranjan...................... 182 (A2, Wed) Parimalam, B...............................1138 (B10, Wed) Park, Andrew................................1312 (B11, Tue) Park, Bae Ho.................................2008 (E5, Wed) Park, Beom-Kyeong........................333 (B1, Wed) Park, Bosoon...................................2807 (J6, Tue) Park, Byung Lyul...........................2073 (E7, Tue) Park, Chan-bum...........................1043 (B10, Tue) Park, Chan-Jin................................481 (B2, Wed), ............................. 482 (B2, Wed), 483 (B2, Wed), ................................. (B10, Tue), 1704 (D1, Wed) Park, Chi-Kyun...............................545 (B3, Wed) Park, Choong-Nyeon....................1054 (B10, Tue) Park, Chu Sik........ 744 (B6, Wed), 745 (B6, Wed) Park, Dae hum.............................1470 (B11, Wed) Park, Dae-Yeop............................... 888 (B8, Thu) Park, Dahye.................................... 237 (A3, Wed) Park, Doh-Yeon............................1315 (B11, Tue) Park, Dong-Hyun.........................2002 (E5, Wed), ......................................................2003 (E5, Wed) Park, Eunjun.................................1080 (B10, Tue) Park, Ga-Eun................................ 1704 (D1, Wed) Park, Gang-Jun................................317 (B1, Wed) Park, Gu-Gon.............................1460 (B11, Wed), ..........................1615 (B11, Thu), 1632 (B11, Fri) Park, Gumjae................................1085 (B10, Tue) Park, Gwi Ok...............................1014 (B10, Tue)

272

P

Pabbaraju, Kanti............................ 2761 (J4, Mon) Pacco, Antoine............................. 2096 (E8, Mon) Pace, Giuseppe...............................461 (B2, Wed), ....................................................1698 (B12, Wed) Pach, Elzbieta.................................. 170 (A2, Tue) Pacheco Pereira, Robson.............1480 (B11, Wed) Pacherova, Oliva.......................... 2212 (E11, Tue) Packer, Michael..............................2594 (I3, Wed) Packirisamy, Muthukumaran.........2784 (J4, Wed) Paddison, Stephen.......................1284 (B11, Tue), ...................................................... 1637 (B11, Fri) Padilla, Monica...............................701 (B6, Tue), .......................... 1366 (B11, Tue), 1651 (B11, Fri) Pae, Sangwoo............................. 2137 (E10, Mon) Paek, Jun Yeol................................1873 (E2, Thu) Paez, Maritza................................ 1721 (D1, Wed) Page, Kirt....................................1406 (B11, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Park, Han-Sol..................................316 (B1, Wed) Park, HeeYoung............................ 1656 (B11, Fri) Park, Hyejin...................................2826 (J6, Tue), ...............................2840 (J6, Tue), 2841 (J6, Tue) Park, Hyeon-Cheol...........................714 (B6, Tue) Park, Hyoung-Sun.........................2005 (E5, Wed) Park, In-sub................................... 1732 (D1, Thu) Park, Inchul....................................994 (B10, Tue) Park, Inyu........................................738 (B6, Wed) Park, Jae Sang................................. 890 (B8, Thu) Park, Jae Wan..............................1375 (B11, Wed) Park, Jaehyun............................... 1714 (D1, Wed) Park, Jea-Gun.............................. 1831 (D5, Wed), `.........................1997 (E5, Wed), 1998 (E5, Wed), ..........................2002 (E5, Wed), 2003 (E5, Wed), ........................... 2020 (E5, Thu), 2021 (E5, Thu), .............................029 (E6, Tue), 2154 (E10, Tue) Park, Jeongho.............................. 1585 (B11, Thu) Park, Jeongwon.............................2129 (E8, Wed) Park, Jin Hong..............................2176 (E10, Tue) Park, Jin-Bum.................................317 (B1, Wed) Park, Jin-Goo............................... 2097 (E8, Mon) Park, Jin-Hwan............................ 965 (B10, Mon), ..................................................... 973 (B10, Mon) Park, Jin-Soo........239 (A3, Wed), 241 (A3, Wed), ............................. 295 (B1, Wed), 314 (B1, Wed), ......................... 316 (B1, Wed), 1477 (B11, Wed), ....................................................1536 (B11, Wed) Park, Jin-Sung........ 1831 (D5, Wed), 2029 (E6, Tue) Park, Jong-Bong.............................2027 (E6, Tue) Park, Jong-Hee.............................. 1727 (D1, Thu) Park, Jong-Hyeok.........................2229 (E12, Tue) Park, Jongwoo............................ 2137 (E10, Mon) Park, Joo-Hyeong........................ 1831 (D5, Wed), .......................................................2029 (E6, Tue) Park, Joong Sun.............................439 (B2, Wed), ..................................................... 981 (B10, Mon) Park, Joonho...................................1873 (E2, Thu) Park, Ju-Won...................................493 (B2, Wed) Park, Jun-Young............................... 89 (A1, Tue), ....................................................1516 (B11, Wed) Park, Junekyun........................... 2137 (E10, Mon) Park, Jung.................................... 1546 (B11, Thu) Park, Jungwoo.............................. 1112 (B10, Tue) Park, Ka-Young................................. 89 (A1, Tue) Park, Kyu-Sung...............................458 (B2, Wed) Park, Kyu-Young...........................994 (B10, Tue) Park, Kyung...................................... 76 (A1, Tue) Park, Kyung-Bae........................... 2645 (J1, Mon) Park, Kyung-Hee.........35 (A1, Tue), 38 (A1, Tue) Park, Mi-Kyung..............................2843 (J6, Tue) Park, Min Joo............................... 2211 (E11, Tue) Park, Min-Sik...............................1080 (B10, Tue) Park, Min-Sik............................... 973 (B10, Mon) Park, Minseo...................................2837 (J6, Tue) Park, Mira.....................................2008 (E5, Wed) Park, Nam-Kyu.............................. 2270 (F2, Tue) Park, Sae........................................2015 (E5, Thu) Park, Sam....................................1277 (B11, Tue), ........................1280 (B11, Tue), 1340 (B11, Tue), ...................... 1436 (B11, Wed), 1683 (B12, Wed) Park, Sang hyun................................ 59 (A1, Tue) Park, Sang-Jae.............................1068 (B10, Tue), .....................................................1100 (B10, Tue) Park, Seok-Joo...............................333 (B1, Wed), .............................. 334 (B1, Wed), 407 (B2, Tue), ........................................................800 (B7, Wed) Park, Seongyong.............................339 (B1, Wed) Park, Seungwon........60 (A1, Tue), 147 (A1, Tue) Park, Soo Young............................ 2645 (J1, Mon) Park, Soo-gil................................. 608 (B5, Mon), .............................. 670 (B5, Wed), 671 (B5, Wed) Park, Sung......................................2015 (E5, Thu) Park, Sung Bum............................... 99 (A1, Tue), ................................103 (A1, Tue), 104 (A1, Tue) Park, Tae-Jun................................1051 (B10, Tue)

Park, Taehyun.................................1873 (E2, Thu) Park, Yiseul....................................2568 (I3, Wed) Park, Yo........................................ 955 (B10, Mon) Park, Yohan................................... 1632 (B11, Fri) Park, Yong-il.................................... 99 (A1, Tue), ................................103 (A1, Tue), 104 (A1, Tue) Park, Yong-sang............................ 1732 (D1, Thu) Park, Yongbum............................ 1558 (B11, Thu) Park, Young Min.............................321 (B1, Wed) Park, Young-bog........................... 1732 (D1, Thu) Park, Young-Chul........................1514 (B11, Wed) Park, Young-Uk..............................994 (B10, Tue) Park, Youngsin................................576 (B4, Wed) Parker, Charles................................ 248 (A3, Thu) Parker, Joseph................................. 512 (B2, Thu) Parker, Stephen...........................1158 (B10, Wed) Parkinson, Bruce.......................... 2508 (I2, Mon), ............................. 2545 (I3, Mon), 2556 (I3, Tue) Parra, Kenia......................................116 (A1, Tue) Parrondo, Javier......................... 1572 (B11, Thu), ........................ 1695 (B12, Wed), 2411 (G1, Wed) Parsi Benehkohal, Nima................2308 (F3, Mon) Pasaogullari, Ugur.......................1296 (B11, Tue), ........................1332 (B11, Tue), 1333 (B11, Tue), ........................1334 (B11, Tue), 1456 (B11, Wed) Pascall, Andrew.............................2304 (F3, Mon) Pascucci, Brigitta........................... 376 (B2, Mon) Pasel, Joachim..............................1272 (B11, Tue) Paskaleva, Albena..........................1878 (E2, Thu) Passerini, Stefano...........................310 (B1, Wed), ............................ 364 (B2, Mon), 379 (B2, Mon), ........................................................ 684 (B5, Thu) Pate, Bradford.......1930 (E3, Wed), 2206 (E11, Tue) Patel, Monika................................. 182 (A2, Wed) Patel, Shrayesh....... 118 (A1, Tue), 341 (B1, Wed) Patel, Vinay.........2617 (I4, Mon), 2637 (J1, Mon) Patoux, Sebastien.............................. 899 (B8, Fri) Patru, Alexandra...............................617 (B5, Tue) Patterson, Joseph..........................1256 (B11, Sun) Paul, Michael......... 157 (A2, Tue), 2778 (J4, Tue) Paulson, Scott..................................746 (B6, Wed) Pauporté, Thierry..........................2031 (E6, Tue), ......................... 2198 (E11, Mon), 2358 (F4, Thu) Pauric, Allen................................1142 (B10, Wed) Pauzauskie, Peter..........................1984 (E4, Wed) Pavez, Jorge.................................... 122 (A1, Tue) Pavlov, Michael.............................. 2382 (F5, Tue) Pavlov, Michael.............................. 2114 (E8, Tue) Payne, Gregory...............................2661 (J1, Tue) Payne, Martin..............................1106 (B10, Tue), .....................................................1107 (B10, Tue) Pearton, S....................................2192 (E11, Mon) Pech-Rodriguez, W.......................2315 (F3, Mon) Peckham, Timothy......................1473 (B11, Wed) Pederson, Larry............................... 752 (B6, Thu) Peethala, Brown.............................2124 (E8, Tue) Pélissier, Serge............................ 1191 (B10, Thu) Pena Hueso, Adrian..................... 1184 (B10, Thu) Peng, Gang...................................1027 (B10, Tue) Peng, Po-Yang.................................467 (B2, Wed) Peng, Xihong..................................725 (B6, Wed) Peng, Zhangquan..............................389 (B2, Tue) Penner-Hahn, James.........................616 (B5, Tue) Penny, Christopher.........................2075 (E7, Tue) Peppin, Daniel............................. 1579 (B11, Thu) Peralta, David.................................... 899 (B8, Fri) Perchthaler, Markus....................1397 (B11, Wed) Perea, Alexis......... 852 (B8, Wed), 927 (B9, Wed) Perea, Alexis................................... 106 (A1, Tue) Perea, Alexis...................................865 (B8, Wed) Pereira, Elsa...... 1701 (D1, Wed), 1725 (D1, Thu) Pereira, Nathalie.............................933 (B9, Wed), ....................................................1155 (B10, Wed) Pereira-Ramos, Jean-Pierre............ 884 (B8, Thu), ........................................................949 (B9, Wed)

Perera, Neluni............................... 2456 (I1, Mon) Perez, Carlos R................................. 53 (A1, Tue), ..............................607 (B5, Mon), 624 (B5, Tue), ............................... 628 (B5, Tue), 669 (B5, Wed) Perez Ferriz, Francisco.................. 1636 (B11, Fri) Perez-Garcia, Marķa.....................2316 (F3, Mon) Pérez-Roa, Rodolfo....................... 236 (A3, Wed), ............................ 1707 (D1, Wed), 2692 (J2, Tue) Periyakaruppan, Adaikkappan....... 181 (A2, Wed) Perkins, John................................... 137 (A1, Tue) Perrier, Michel............................ 1560 (B11, Thu) Perrin, Jean-Christophe...............1288 (B11, Tue), ....................................................1387 (B11, Wed) Perrot, Hubert........ 1388 (B11, Wed), 2685 (J2, Tue) Perry, Mike..................................1692 (B12, Wed) Persson, Kristin................................560 (B4, Tue) Petefish, Joseph............................. 2642 (J1, Mon) Peter, Antony...............................2179 (E10, Wed) Peter, Laurie...................................2044 (E6, Tue) Peters, Dennis................................. 2626 (I5, Tue) Peters, Ralf...................................1272 (B11, Tue) Peterson, David............................. 2532 (I3, Mon) Pethig, Ronald............................... 2754 (J4, Mon) Petibon, Remi..............................1150 (B10, Wed) Petit, Matthieu............................ 2216 (E12, Mon) Petkovic, Lucia...............................932 (B9, Wed) Petruska, Melissa............................646 (B5, Wed) Petry, Leanne......... 1747 (D2, Wed), 1757 (D2, Thu) Pettigrew, Katherine........................ 889 (B8, Thu) Pewnim, Naray.............................. 2344 (F4, Wed) Pfanzelt, Manuel............................999 (B10, Tue) Pham, An........................................ 140 (A1, Tue), ..............................144 (A1, Tue), 2455 (I1, Mon) Pham, Chau.....................................2659 (J1, Tue) Phan, Trang............502 (B2, Wed), 529 (B2, Thu) Phaneuf, Ray................................... 1886 (E2, Fri) Pharoah, Jon................................ 1190 (B10, Thu) Phillips, Jonathan........................ 1619 (B11, Thu) Phung, Luong Viźt........................1940 (E3, Wed) Piana, Michele................................429 (B2, Wed), ........................... 448 (B2, Wed), 1599 (B11, Thu) Pianetta, Piero.................................814 (B8, Tue), ...........................972 (B10, Mon), 2296 (F2, Thu) Picard, Yoosuf.............................. 1907 (E3, Mon) Pichler, Birgit..............................1397 (B11, Wed) Pichler, Peter.........1899 (E3, Mon), 1900 (E3, Mon) Pichonat, Emmanuelle....................644 (B5, Wed) Pick, Teresa.................................1149 (B10, Wed) Picone, Carlos.............................. 1722 (D1, Wed) Pieczonka, Nicholas.................... 1177 (B10, Thu) Piering, Benjamin........................... 2519 (I2, Tue) Pierson, Jean-Francois.....................615 (B5, Tue) Pietrasz, Patrick........................... 1620 (B11, Thu) Pigliafreddo, Dario.......................2432 (H1, Mon) Pilli, Satyander.............................. 2543 (I3, Mon) Pilon, D........................................ 966 (B10, Mon) Pilson, Kate-Leigh..........................2684 (J2, Tue) Pinar, Francisco...........................1318 (B11, Tue), ....................................................1372 (B11, Wed) Pinaud, Blaise........... 726 (B6, Wed), 2580 (I3, Wed) Piner, Ed.......................................1933 (E3, Wed), ......................................................1935 (E3, Wed) Pinkwart, Karsten........................1358 (B11, Tue), ...................................................... 1657 (B11, Fri) Pintauro, Peter............................1121 (B10, Wed), ........................1305 (B11, Tue), 1306 (B11, Tue), ........................1312 (B11, Tue), 1386 (B11, Wed) Pinto, Alejandro............................. 2323 (F4, Tue) Pipi, Angelo...................................2587 (I3, Wed) Piquette, Alan...............................2309 (F3, Mon), .......................... 2707 (J3, Mon), 2713 (J3, Mon), ........................................................2721 (J3, Tue) Piro, Benoit.....................................2659 (J1, Tue) Pishko, Michael............................... 2520 (I2, Tue) Piskorski, Krzysztof..................... 1898 (E3, Mon) Pison, Jonathan..............................2574 (I3, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

273


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Pitzschel, Kristina........................1357 (B11, Tue) Pivovar, Bryan............................1239 (B11, Sun), ........................ 1245 (B11, Sun), 1308 (B11, Tue) Placke, Tobias...................................11 (A1, Tue), ............................. 310 (B1, Wed), 861 (B8, Wed), ............ 891 (B8, Fri), 892 (B8, Fri), 894 (B8, Fri) Planson, Dominique......................1940 (E3, Wed) Platt, Heather...........137 (A1, Tue), 878 (B8, Thu) Plaza, Manuel................................. 2338 (F4, Tue) Plewa-Marczewska, Anna................385 (B2, Tue) Plylahan, Nareerat..........................644 (B5, Wed), ........................... 877 (B8, Thu), 1145 (B10, Wed) Podlaha-Murphy, Elizabeth............. 127 (A1, Tue) Poelt, Peter....................................2363 (F4, Thu), .......................................................2364 (F4, Thu) Pohl, Chris...................................... 2477 (I1, Tue) Pohlmann, Sebastian.......................631 (B5, Wed) Pokhrel, Madhab.............................2731 (J3, Tue) Pokornį, Veronika..........................2723 (J3, Tue), ........................................................2724 (J3, Tue) Pol, Vilas......................................1017 (B10, Tue) Polat, Deniz..................................1006 (B10, Tue) Polat, Deniz.................................1007 (B10, Tue), ....................................................1161 (B10, Wed) Polisetti, Sneha.............................. 2755 (J4, Mon) Pollack, Alan................................... 2523 (I2, Tue) Pollet, Olivier.................................2122 (E8, Tue) Pollina, Michael.......................... 1184 (B10, Thu) Pomfret, Michael.........772 (B7, Tue), 774 (B7, Tue) Ponce, Ingrid................................... 122 (A1, Tue) Ponrouch, Alexandre.......................383 (B2, Tue), .......................................................... 897 (B8, Fri) Ponzoni, Chiara.............................2317 (F3, Mon) Poodt, P..........................................1872 (E2, Thu) Popov, Branko.............................1250 (B11, Sun), ....................... 1402 (B11, Wed), 1611 (B11, Thu) Popovici, Mihaela..........................1876 (E2, Thu) Porcellato, Denis......................... 1191 (B10, Thu) Porob, Digamber.......................... 2715 (J3, Mon), .......................................................2748 (J3, Wed) Porter, Jason.................................1327 (B11, Tue) Porter, Matthew..............................1920 (E3, Tue) Portoles, Jose............................... 1839 (D5, Wed) Poska, Jeffery................................ 1727 (D1, Thu) Potdevin, Audrey.............................2730 (J3, Tue) Potnis, Tanmay...............................2011 (E5, Thu) Potocki, Michael........................... 1622 (B11, Fri) Potter, Robert...................................414 (B2, Tue) Pöttgen, Rainer............................1123 (B10, Wed) Poudel, Pramod...............................543 (B3, Wed) Pourjafari, Dena.............................1811 (D5, Tue) Pourtois, Geoffrey........................2164 (E10, Tue) Povey, I.......................................2190 (E10, Wed) Powell, Bob.........526 (B2, Thu), 1177 (B10, Thu) Powers, Peter...................................2662 (J1, Tue) Poznyak, Sergei............................. 1804 (D5, Tue) Prabakar, Richard.........................1001 (B10, Tue) Prabhakaran, Venkateshkumar....... 1429 (B11, Wed) Pradhan, Aswini............................. 1891 (E2, Fri), ............................. 2779 (J4, Tue), 2802 (J4, Wed) Pradhan, Nilay..............................2237 (E12, Tue) Prakash, Adithya............................. 138 (A1, Tue) Prakash, G. K......... 288 (B1, Tue), 290 (B1, Tue), ........................... 468 (B2, Wed), 1032 (B10, Tue) Prakash, J...................................... 2603 (I4, Mon) Prakash, Jai.....................................462 (B2, Wed) Prakash, Ravi................................ 2761 (J4, Mon) Prasad, Ajay................................1471 (B11, Wed) Prasher, Dixit.................................. 2548 (I3, Tue) Preisser, Robert..............................2077 (E7, Tue) Prendergast, David.......................... 2554 (I3, Tue) Presser, Voker.................................. 674 (B5, Thu) Prinz, Fritz......................................313 (B1, Wed), .............................. 342 (B1, Thu), 2300 (F2, Thu) Prochazka, Jan............................... 1221 (B10, Fri) Proff, Christian.................................810 (B8, Tue)

Prorok, Bart............2834 (J6, Tue), 2835 (J6, Tue) Prusinskas, Kestutis......................2378 (F5, Mon) Przewlocki, Henryk...................... 1898 (E3, Mon) Puech, Laurent................................469 (B2, Wed) Pulletikurthi, Chandan.................. 1846 (D6, Tue) Purcell, Mary................................1039 (B10, Tue) Pustovyy, Oleg................................2831 (J6, Tue) Put, Brecht...................................2179 (E10, Wed) Put, Stijn...........................................907 (B9, Tue) Putz, Andreas...............................1256 (B11, Sun) Pylypenko, Svitlana....................1245 (B11, Sun), ....................... 1308 (B11, Tue), 1576 (B11, Thu), .................................................... 1603 (B11, Thu) Pyo, Myoungho............................1001 (B10, Tue) Pyo, Sung Gyu.............................1089 (B10, Tue)

Ramadesigan, Venkatasailanathan......................... ...................................................... 253 (B1, Mon), .......................... 1693 (B12, Wed), 2654 (J1, Tue) Ramadoss, Ananthakumar............... 679 (B5, Thu) Ramaker, David...........................1349 (B11, Tue) Ramalingam, Balavinayagam.........728 (B6, Wed) Ramalingom Pillai, Arun Deepak.....1857 (E2, Wed) Ramamurthi, Badri.......................... 347 (B1, Thu) Ramamurthy, Sridhar................... 1723 (D1, Thu), ......................... 1734 (D2, Wed), 1794 (D5, Mon) Ramanathan, Mayandi....................462 (B2, Wed) Ramani, Vijay............................1429 (B11, Wed), .........................1572 (B11, Thu), 1629 (B11, Fri), ........................ 1695 (B12, Wed), 2411 (G1, Wed) Ramanujam, Kothandaraman.........306 (B1, Wed), ........................................................308 (B1, Wed) Ramaseshan, Ramani.....................2799 (J4, Wed) Ramaswamy, Naggapan.............. 1597 (B11, Thu) Ramey, Joanne................................838 (B8, Wed) Ramķrez, Daniel...........................2044 (E6, Tue), ..............................2045 (E6, Tue), 2500 (I1, Tue) Ramirez, Erick.............................1799 (D5, Mon) Ramirez-Caro, Alejandra.................707 (B6, Tue) Ramirez-Castro, Claudia.................621 (B5, Tue), ...............................656 (B5, Wed), 684 (B5, Thu) Ramon, Michael......................... 2145 (E10, Mon) Ramos-Barrado, José-Ramón........2044 (E6, Tue) Rana, Tawhid............................... 1904 (E3, Mon) Randall, Clive............................. 1199 (B10, Thu) Randolph, Katie............................ 2532 (I3, Mon) Rangasamy, Ezhiylmurugan..........312 (B1, Wed), .............................. 437 (B2, Wed), 441 (B2, Wed) Rani, Sana.......................................921 (B9, Wed) Ranjan, Rajeev................................480 (B2, Wed) Rao, Rajesh...................................1933 (E3, Wed) Rapecki, Tomasz....... 2334 (F4, Tue), 2650 (J1, Tue) Raphael, Getin..............................2153 (E10, Tue) Rasmussen, Michelle................... 2464 (I1, Mon), ...............................2523 (I2, Tue), 2814 (J6, Tue) Rasmussen, Paul..............................616 (B5, Tue) Rastedt, Maren............................1318 (B11, Tue), ....................................................1372 (B11, Wed) Rath, David....................................2124 (E8, Tue) Rau, Karen.......... 1304 (B11, Tue), 1425 (B11, Wed) Raubach, Alexander........................2653 (J1, Tue) Raukas, Madis................................2750 (J3, Wed) Raut, Akshay................................... 248 (A3, Thu) Ravichandran, S.......................... 2410 (G1, Wed), .......................................................2591 (I3, Wed) Ravnsbaek, Dorthe........................ 255 (B1, Mon), ....................................................... 260 (B1, Mon) Rawlings, Ben............................... 2348 (F4, Wed) Ray, Subrata................................ 1186 (B10, Thu) Ray Chaudhuri, Ashesh................. 2646 (J1, Mon) Rayaprolu, Sanjeev....................... 2283 (F2, Wed) Raygani, Anahit..............................2290 (F2, Thu) Rayment, Trevor......................... 1745 (D2, Wed), ......................... 1746 (D2, Wed), 1770 (D4, Mon) Raymundo-Pereira, Paulo...............2675 (J1, Tue) Rayne, Roy................................... 1832 (D5, Wed) Razdan, Mayuri............................1801 (D5, Mon) Razeeb, Kafil...................................2770 (J4, Tue) Reaver, Nathan................................2703 (J2, Tue) Recio, Francisco.............................. 134 (A1, Tue) Recknagle, Kurt..........................1658 (B12, Tue), ........................ 1659 (B12, Tue), 1660 (B12, Tue) Reddy, Dharmendar................... 2145 (E10, Mon) Redman, Daniel.............................2376 (F5, Mon) Redolfi, Augusto............................1876 (E2, Thu) Redondo-Iglesias, Eduardo......... 1191 (B10, Thu) Reed, David.................................1658 (B12, Tue), ....................... 1659 (B12, Tue), 1660 (B12, Tue), ....................................................1680 (B12, Wed) Reed, Michael.................................2772 (J4, Tue) Reehil, Cristopher.........................2034 (E6, Tue), ..................................................... 2205 (E11, Tue)

274

Q

Qi, Jing........................................1332 (B11, Tue), .........................1333 (B11, Tue), 1334 (B11, Tue) Qi, Wang.........................................644 (B5, Wed) Qi, Xin...........................................995 (B10, Tue) Qi, Yue............................................557 (B4, Tue), .............................. 564 (B4, Tue), 579 (B4, Wed), ............................... 918 (B9, Tue), 929 (B9, Wed) Qian, Danna.....................................559 (B4, Tue) Qian, Fang.....................................2304 (F3, Mon) Qiao, Jinli........................................702 (B6, Tue), ........................1314 (B11, Tue), 1535 (B11, Wed) Qiao, Ruimin................................. 1207 (B10, Fri) Qiao, Yun.........................................382 (B2, Tue) Qidwai, Siddiq............................1782 (D4, Mon), .....................................................1783 (D4, Mon) Qin, Fengxiang................................ 169 (A2, Tue) Qin, Jinwen.....................................645 (B5, Wed) Qin, Linlin...................................1120 (B10, Wed) Qin, Xin......................................1535 (B11, Wed) Qin, Zack..........1774 (D4, Mon), 1777 (D4, Mon) Qin, Zhisheng...............................1779 (D4, Mon) Qiu, Gang........... 430 (B2, Wed), 1670 (B12, Tue) Qiu, Jingxia.................................1129 (B10, Wed) Qu, Guoying.................................... 135 (A1, Tue) Qu, Yan..........................................220 (A3, Mon) Queffelec, Patrick.......................2177 (E10, Wed) Queiroz Guimarćes, Amanda..........307 (B1, Wed) Quesada, Calita............................... 148 (A1, Tue) Quesnel, Charles......................... 1541 (B11, Thu) Quill, Nathan...............................2201 (E11, Mon) Quinlan, Ronald..............................643 (B5, Wed) Quinn, Paul..................................1770 (D4, Mon) Quinzio, Michael..........................2429 (H1, Mon)

R

Rabis, Annett................................. 2274 (F2, Wed) Radhakrishnan, Gouri..................2429 (H1, Mon) Radhakrishnan, Rajeswaran........... 2521 (I2, Tue), 2691 (J2, Tue) Radisic, Aleksandar.......................2067 (E7, Tue), ............................2089 (E7, Wed), 2391 (F5, Tue) Radke, Clayton............................1421 (B11, Wed) Radu, Ionut................................. 2215 (E12, Mon) Radu, Iuliana...............................2179 (E10, Wed) Rafailovic, Lidija........................... 177 (A2, Wed) Raghavan, Rahul............................. 883 (B8, Thu) Raghavan, Srini............................ 2104 (E8, Mon) Raghothamachar, Balaji................1938 (E3, Wed) Rahel, Jozef.................................... 177 (A2, Wed) Rahn, Christopher...........................538 (B3, Wed) Raina, Supil........... 257 (B1, Mon), 678 (B5, Thu) Raja, Krishnan....... 680 (B5, Thu), 2360 (F4, Thu) Rajeshwar, Krishnan......................2531 (I2, Wed) Rajh, Tijana......................................397 (B2, Tue) Rajoua, Khalil.................................2651 (J1, Tue) Ramachandran, Balasubramanian.......................... .....................................................2169 (E10, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Reeler, Nini.....................................472 (B2, Wed) Regan, William..............................214 (A3, Mon) Register, Frank........................... 2145 (E10, Mon) Rehnlund, David............................943 (B9, Wed), ........................... 1233 (B10, Fri), 2282 (F2, Wed) Reier, Tobias....................................711 (B6, Tue) Reimer, Uwe...............................1371 (B11, Wed) Reinaudi, Luis................................ 2323 (F4, Tue) Reinhard, Christina..................... 1745 (D2, Wed), ..................................................... 1746 (D2, Wed) Reisberg, Steeve..............................2659 (J1, Tue) Reissner, Michael...........................2363 (F4, Thu) Reksten, Anita................................... 80 (A1, Tue) Rempel, Jane...................................536 (B3, Wed) Ren, Fan........ 2192 (E11, Mon), 2194 (E11, Mon) Ren, Jianguo.....................................275 (B1, Tue) Ren, Naifei................................... 1708 (D1, Wed) Ren, Tian-Ling............................. 1956 (E4, Mon) Ren, Wei.......................................... 166 (A2, Tue) Ren, Xiaoming.............................1317 (B11, Tue) Ren, Yang.........................................809 (B8, Tue) Ren, Yang.............. 395 (B2, Tue), 452 (B2, Wed), ........................... 520 (B2, Thu), 1157 (B10, Wed) Renaud, Adčle.................................418 (B2, Wed) Renault, Stéven............................1084 (B10, Tue) Rensmo, Hakan................................916 (B9, Tue) Reprogle, Briana......................... 1588 (B11, Thu) Reshetenko, Tatyana...................1328 (B11, Tue), ........................1330 (B11, Tue), 1466 (B11, Wed) Retoux, Richard...............................621 (B5, Tue) Reuter, Mark.................................1982 (E4, Wed) Revel, Renaud............................. 1191 (B10, Thu) Revzin, Alexander...........................2808 (J6, Tue) Rey-Chapuis, Marlene...................... 899 (B8, Fri) Reyes, Karla......... 470 (B2, Wed), 2539 (I3, Mon) Reyes-Natal, Meralys................... 1908 (E3, Mon) Reyter, D..........................................273 (B1, Tue) Rezaei Niya, Seyed Mohammad.....303 (B1, Wed) Rhee, Hee-Woo............................1287 (B11, Tue) Rhine, Wendell...............................985 (B10, Tue) Rho, Jang-Woong......................... 1704 (D1, Wed) Rhodes, Kevin.............................. 963 (B10, Mon) Riaz, Ahmer.....................................407 (B2, Tue) Ribeiro, Mildred........................... 2428 (G2, Wed) Ribeiro, Vilmaria..............................113 (A1, Tue) Rice, Cynthia..............................1441 (B11, Wed), ..................... 1442 (B11, Wed), 1444 (B11, Wed), ....................................................1452 (B11, Wed) Richard, Claire...............................2122 (E8, Tue) Richards, Justin............................. 1767 (D3, Tue) Richards, Ryan.................................917 (B9, Tue) Richards, William..........................576 (B4, Wed), ........................................................578 (B4, Wed) Richardson, Thomas......................439 (B2, Wed), ............................. 541 (B3, Wed), 926 (B9, Wed), ....................................................1149 (B10, Wed) Richey, Francis................................ 675 (B5, Thu) Richter, Lee.................................... 2381 (F5, Tue) Ridgeway, Paul............................. 1206 (B10, Fri) Riechert, Henning........................... 2547 (I3, Tue) Riek, Ute.........................................428 (B2, Wed) Rieutort-Louis, Warren.................1853 (E1, Wed) Rigdon, William.........................1431 (B11, Wed), ..................... 1463 (B11, Wed), 1507 (B11, Wed), ...................................................... 1628 (B11, Fri) Riha, Shannon..............................1028 (B10, Tue) Riley, James................................2199 (E11, Mon) Riley, Jason....................................2596 (I3, Wed) Rinaldo, Steven..........................1442 (B11, Wed), ....................................................1444 (B11, Wed) Ringuedé, Armelle.......................... 763 (B6, Thu) Rip, Jens........................................2130 (E8, Wed) Rishpon, Judith............................. 2757 (J4, Mon) Risteen, Bailey............................ 1735 (D2, Wed), ..................................................... 1736 (D2, Wed) Ritslaid, Peeter................................ 2473 (I1, Tue)

Ritzert, Nicole................................... 37 (A1, Tue) Ritzmann, Roy................................ 2523 (I2, Tue) Rivera-Įlvarez, Zacarias.................2743 (J3, Tue), ........................................................2744 (J3, Tue) Riveros, Gonzalo...........................2044 (E6, Tue), ..............................2045 (E6, Tue), 2500 (I1, Tue) Rivest, Jessy...................................2297 (F2, Thu) Robbins, William...........................1922 (E3, Tue) Robertazzi, R..................................2018 (E5, Thu) Roberts, John.................................1913 (E3, Tue) Roberts, Matthew........................1047 (B10, Tue), ...................................................... 2458 (I1, Mon) Roberts, Matthew.........................1030 (B10, Tue) Robertson, Logan.............................285 (B1, Tue) Robinson, David............................ 164 (A2, Tue), ........................... 2365 (F5, Mon), 2539 (I3, Mon) Robinson, James.........................1373 (B11, Wed) Robinson, Z.................................. 1903 (E3, Mon) Rocco, Ana Maria......................1479 (B11, Wed), ....................................................1480 (B11, Wed) Rocha, Thairo................................ 1635 (B11, Fri) Roche, Noel..........367 (B2, Mon), 996 (B10, Tue) Rochefort, Dominic.................... 1188 (B10, Thu), ..........................1189 (B10, Thu), 2604 (I4, Mon) Rocheleau, Richard.....................1238 (B11, Sun), ....................................................1376 (B11, Wed) Rockward, Tommy......................... 148 (A1, Tue), ........................ 1304 (B11, Tue), 1619 (B11, Thu) Roddatis, Vladimir......................... 366 (B2, Mon) Rode, Edward...................................699 (B6, Tue) Rodgers, Marianne..................... 1270 (B11, Mon) Rodriguez, David........................1793 (D5, Mon), .....................................................1798 (D5, Mon) Rodriguez, Leonard.......................2132 (E8, Wed) Rodriguez, Paramaconi...............1398 (B11, Wed) Rodrķguez-López, Joaquķn.............. 37 (A1, Tue) Rodriguez-Varela, F......................2315 (F3, Mon) Roeper, Donald...........................1786 (D5, Mon), ...................................................... 1818 (D5, Tue) Rogosic, John.................................. 516 (B2, Thu) Roh, Yonghan................................2004 (E5, Wed) Rohwer, Lauren...............................2728 (J3, Tue) Rohwerder, Michael........................769 (B7, Tue), .......................... 1738 (D2, Wed), 1753 (D2, Thu) Rojas Carbonell, Mario Santiago........................... ...................................................... 1641 (B11, Fri) Rojo, Teófilo..........366 (B2, Mon), 404 (B2, Tue), ............................... 405 (B2, Tue), 445 (B2, Wed) Rolison, Debra......... 512 (B2, Thu), 603 (B5, Mon), .............................. 889 (B8, Thu), 2285 (F2, Thu) Rolland, Nathalie...........................1875 (E2, Thu) Roller, Justin..............................1405 (B11, Wed), .................................................... 1548 (B11, Thu) Romankiw, Lubomyr....................2367 (F5, Mon) Romann, Tavo................................ 610 (B5, Mon) Romanuik, Sean.............................2789 (J4, Wed) Rondinone, Adam......................... 377 (B2, Mon), .............................. 440 (B2, Wed), 441 (B2, Wed) Rong, Jiepeng............................... 979 (B10, Mon) Rongé, Jan.......................................729 (B6, Wed) Rongeat, Carine............................... 515 (B2, Thu) Ronquillo, Karen An....................... 126 (A1, Tue) Rooney, Ryan................................2370 (F5, Mon) Roozeboom, F...............................1872 (E2, Thu), ............................ 1877 (E2, Thu), 1882 (E2, Thu) Rosa, Roberto................................2317 (F3, Mon) Rose, David................................... 1760 (D2, Thu) Rosen, Gerald.............................. 1201 (B10, Thu) Ross, Frances................................1982 (E4, Wed) Ross, Philip.......... 920 (B9, Wed), 921 (B9, Wed), .......................... 925 (B9, Wed), 1679 (B12, Wed) Rossmeisl, Jan......... 712 (B6, Tue), 755 (B6, Thu) Rosso, Michel.................................951 (B9, Wed) Rost, Marcel J.............................. 2347 (F4, Wed), ...................................................... 2349 (F4, Wed) Rotchford, Joseph.......................1402 (B11, Wed)

Roth, Jörg.............1297 (B11, Tue), 1320 (B11, Tue) Rothermel, Sergej.............................11 (A1, Tue), ............................. 310 (B1, Wed), 861 (B8, Wed), .................................. 891 (B8, Fri), 892 (B8, Fri), .......................................................... 894 (B8, Fri) Roue, L.................273 (B1, Tue), 966 (B10, Mon) Rouget, Robert................................509 (B2, Wed) Roullard, Julie.............................. 2052 (E7, Mon) Roure, Marie-Christine................ 2101 (E8, Mon) Roussel, Pascal...............................1875 (E2, Thu) Rousslang, Zach............................1984 (E4, Wed) Roussos, Jason...............................1912 (E3, Tue) Rowe, Aaron...................................803 (B8, Tue), ................................ 804 (B8, Tue), 805 (B8, Tue) Rowe, Brandon...........................1406 (B11, Wed) Rowlett, Jarrett.............................1344 (B11, Tue) Roy, Aaron.................................. 1618 (B11, Thu) Roy, Jared............... 223 (A3, Tue), 2524 (I2, Tue) Roy, Sudipta.......... 1839 (D5, Wed), 2344 (F4, Wed) Roziere, Jacques.......................... 1589 (B11, Thu) Rubesa, Jelena............................... 1225 (B10, Fri) Rubino, Robert................................545 (B3, Wed) Rubloff, G. W.................................. 1886 (E2, Fri) Rücker, Holger........................... 2221 (E12, Mon) Rucki, Andreas...............................2750 (J3, Wed) Rudi, Stefan......... 1353 (B11, Tue), 1555 (B11, Thu) Rudolf, Petra...........2441 (H1, Tue), 2452 (H1, Tue) Rueschhoff, Lisa.........................1159 (B10, Wed) Rui, Xianhong................................. 886 (B8, Thu) Ruiz, Diego.....................................748 (B6, Wed) Ruiz Camacho, Beatriz...................661 (B5, Wed) Ruiz-Trejo, Enrique......................2299 (F2, Thu), ......................................................2375 (F5, Mon) Rumpf, Klemens...........................2363 (F4, Thu), .......................................................2364 (F4, Thu) Runnerstrom, Evan.........................2725 (J3, Tue) Ruoff, Rodney.................................642 (B5, Wed) Ruotolo, Luis Augusto................... 238 (A3, Wed) Rurigaki, Takeshi.........................1347 (B11, Tue) Russell, Selena........ 910 (B9, Tue), 915 (B9, Tue) Russina, Margarita........................2258 (F2, Mon) Russo, Richard......... 439 (B2, Wed), 2286 (F2, Thu) Rutkowska, Iwona........................... 2555 (I3, Tue) Ruzgas, Tautgirdas..........................2652 (J1, Tue) Ruzmetov, Dmitry......................... 1237 (B10, Fri) Ruzyllo, Jerzy...............................2134 (E8, Wed) Ryan, Emily.................................... 351 (B1, Thu) Ryan, Kevin................................... 2386 (F5, Tue) Ryan, Michael............................... 2613 (I4, Mon) Ryoo, Jin-Yong..............................2004 (E5, Wed) Ryou, Jae-Hyun.............................1928 (E3, Wed) Ryou, Myung-Hyun....................1103 (B10, Tue), .....................................................1104 (B10, Tue) Ryssel, Heiner.............................. 1899 (E3, Mon) Ryu, Myung-Heyun.....................1059 (B10, Tue) Rzeszutek, Agnieszka....................2575 (I3, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

S

Sa, Niya......................................... 2462 (I1, Mon) Saad, Laila......................................2049 (E6, Tue) Sabau, Adrian...................................272 (B1, Tue) Saboungi, Marie-Louise................2258 (F2, Mon) Saccone, Adriana............................749 (B6, Wed), ...................................................... 1653 (B11, Fri) Sachs, Catherine...........................2166 (E10, Tue) Sadaka, Mariam......................... 2215 (E12, Mon) Sadana, Devendra.........................1980 (E4, Wed) Saddow, S. E................................ 1908 (E3, Mon) Sadoh, Taizoh..............................2229 (E12, Tue), .........................2233 (E12, Tue), 2238 (E12, Tue) Sadoway, Donald............................386 (B2, Tue), ................................513 (B2, Thu), 516 (B2, Thu) Saeed, Mahfouz..............................2037 (E6, Tue) Sagisaka, Taiga.................................. 67 (A1, Tue) Sagong, Hyunchul...................... 2137 (E10, Mon) Saha, Madhu...............................1407 (B11, Wed) 275


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Sahiner, Mehmet...........................2034 (E6, Tue), ..................................................... 2205 (E11, Tue) Sahner, Kathy..................................2705 (J2, Tue) Sahoo, Kartika................................1954 (E3, Thu) Sahu, A. K...................................1286 (B11, Tue), ........................1340 (B11, Tue), 1436 (B11, Wed) Sahu, Gayatri......... 440 (B2, Wed), 441 (B2, Wed) Saidin, Nur Ubaidah...................... 2638 (J1, Mon) Sailor, M.........................................984 (B10, Tue) Saito, Hirofumi............................ 1845 (D6, Tue), .......................................................2042 (E6, Tue) Saito, Mikiko................................. 2337 (F4, Tue) Saito, Minoru...............................1788 (D5, Mon) Saito, Mitsumasa........................ 2222 (E12, Mon) Saito, Morihiro...............................741 (B6, Wed), ....................... 1062 (B10, Tue), 1087 (B10, Tue), ....................................................1533 (B11, Wed) Saito, Takeyasu........................... 2060 (E7, Mon), ............................2063 (E7, Tue), 2090 (E7, Wed) Sakaebe, Hikari............................. 355 (B2, Mon), ...............................547 (B3, Wed), 873 (B8, Thu) Sakaguchi, Hiroki........................ 1113 (B10, Tue) Sakai, Hironori............................1475 (B11, Wed) Sakai, Nanami.............................1502 (B11, Wed) Sakai, Nobuyuki................................ 39 (A1, Tue) Sakai, Shoichiro............................2257 (F2, Mon) Sakai, Tetsuo................................. 368 (B2, Mon), .........................974 (B10, Mon), 1003 (B10, Tue) Sakai, Yuki...................................... 2493 (I1, Tue) Sakakidani, Akihito.....................2245 (E12, Wed) Sakamoto, Akihiko.......................1003 (B10, Tue) Sakamoto, Hiroaki.......................1796 (D5, Mon) Sakamoto, Jeff.................................272 (B1, Tue), .............................. 312 (B1, Wed), 437 (B2, Wed) Sakamoto, Tomokazu..................1359 (B11, Tue), .........................1361 (B11, Tue), 1366 (B11, Tue) Sakamoto, Toshitsugu...................1999 (E5, Wed) Sakano, Mitsuru.......................... 1197 (B10, Thu) Sakashita, Mitsuo........................2225 (E12, Tue), ....................................................2248 (E12, Wed) Sakata, Kouhei................................ 2479 (I1, Tue) Sakka, Tetsuo................................ 2614 (I4, Mon) Sako, Shinnosuke.............................. 65 (A1, Tue) Sakuda, Atsushi.............................. 355 (B2, Mon) Sakuraba, Masao.........................2226 (E12, Tue), .........................2228 (E12, Tue), 2230 (E12, Tue) Sakurai, Masataka.......................1493 (B11, Wed) Salak, Andrei................................. 1804 (D5, Tue) Salazar, Pablo................................ 2609 (I4, Mon) Salehi Gilani, Amir Hosein........... 2471 (I1, Mon) Salitra, Gregory...........................1131 (B10, Wed) Salmeron, Miquel........................... 170 (A2, Tue), ........................................................ 2486 (I1, Tue) Saloka, George.............................. 1622 (B11, Fri) Salomon, Mark................................475 (B2, Wed) Salonen, Jarno.............................. 1959 (E4, Mon) Salta, Maria........... 1701 (D1, Wed), 1725 (D1, Thu) Samanta, Arup.............................2243 (E12, Wed) Samba, Ahmadou...........................668 (B5, Wed), ........................... 1220 (B10, Fri), 1222 (B10, Fri) Samba, Ahmadou....................... 1169 (B10, Thu), ...................................................... 1224 (B10, Fri) Sambasivarao, Somisetti..................114 (A1, Tue) Sammelselg, Väino......................... 2473 (I1, Tue) Samsun, Remzi Can.....................1272 (B11, Tue) Samuthira Pandian, Amaresh............258 (B1, Mon), ............................. 323 (B1, Wed), 325 (B1, Wed), ........................................................328 (B1, Wed) Sanada, Toshiyuki........................ 2103 (E8, Mon) Sanchez, Daniel G........................1276 (B11, Tue) Sanchez, Edward...........................1938 (E3, Wed) Sanchez- Garcia, Mario F............... 204 (A2, Wed) Sancy, Mamie............................... 1721 (D1, Wed) Sanda, Takahiro...............................856 (B8, Wed) Sanderson, Robbie......................1039 (B10, Tue), .................................................... 1552 (B11, Thu)

Sanetuntikul, Jakkid....................1382 (B11, Wed) Sanjewaa, Duminda..................... 956 (B10, Mon) Sankarapandian, Muthumanickam......................... .......................................................2124 (E8, Tue) Sano, Yasuhisa...............................1952 (E3, Thu) Sanquer, Marc............................ 2218 (E12, Mon) Sansińena, José-Marķa................... 2474 (I1, Tue), ...................................................... 2608 (I4, Mon) Santamaria, Anthony...................1375 (B11, Wed) Santana Rodriguez, Guillermo....... 204 (A2, Wed) Santato, Clara.................................2574 (I3, Wed) Santhanagopalan, Shriram..............544 (B3, Wed) Santinacci, Lionel........................1357 (B11, Tue) Santos, Ana Camila Santos............. 877 (B8, Thu) Santos, Cleis.................................... 683 (B5, Thu) Santos, Diogo.......749 (B6, Wed), 1653 (B11, Fri) Santos, Vanessa............................2173 (E10, Tue) Sanvito, Stefano..........................1457 (B11, Wed) Sanwald, Kai..................................2572 (I3, Wed) Sarangan, Andrew...........................2662 (J1, Tue) Saravanan, Govindachetty............... 13 (A1, Tue), ...................................14 (A1, Tue), 33 (A1, Tue), ...............................2628 (I5, Tue), 2666 (J1, Tue) Sardar, Dhiraj..................................2731 (J3, Tue) Sarkar, Swagotom........................... 2620 (I5, Tue) Sarker, Swagotom..........................2582 (I3, Wed) Sarlioglu, Bulent...........................1946 (E3, Wed) Sarma, Biplab..................................637 (B5, Wed) Sarode, Himanshu.......................1540 (B11, Wed) Sasabe, Takashi............................1295 (B11, Tue) Sasaki, Akito.................................1851 (E1, Wed) Sasaki, Kazunari........................1369 (B11, Wed), ..................... 1465 (B11, Wed), 1503 (B11, Wed), ...................... 1518 (B11, Wed), 1568 (B11, Thu), .......................1613 (B11, Thu), 1614 (B11, Thu), ............................1631 (B11, Fri), 2445 (H1, Tue) Sasaki, Kotaro............................1438 (B11, Wed), .................................................... 1605 (B11, Thu) Sasaki, Mayu..................................... 70 (A1, Tue) Sasaki, Sho...................................1664 (B12, Tue) Sasaki, Shunsuke.......................... 1235 (B10, Fri) Sasmito, Agus................................748 (B6, Wed), .....................................................1278 (B11, Tue) Sassin, Megan..........603 (B5, Mon), 2285 (F2, Thu) Satapathy, Akshaya.........................790 (B7, Wed) Sather, Nicholas..............................304 (B1, Wed) Sato, Akira...................................1467 (B11, Wed) Sato, Ayu......................................... 2618 (I5, Tue) Sato, Chikai..................................1065 (B10, Tue) Sato, Keita......................................... 17 (A1, Tue) Sato, Mineo.................................. 2708 (J3, Mon), ............................ 2711 (J3, Mon), 2752 (J3, Wed) Sato, Naoto........................................ 69 (A1, Tue) Sato, Shigeki...................................592 (B4, Wed) Sato, Shigeo.....2228 (E12, Tue), 2230 (E12, Tue) Sato, Shinji................................... 1896 (E3, Mon) Sato, Shinya........ 1892 (E3, Mon), 2773 (J4, Tue) Sato, Takahiko................................2032 (E6, Tue) Sato, Takashi...............................1494 (B11, Wed) Sato, Taketomo.........51 (A1, Tue), 178 (A2, Wed) Sato, Yasushi.......... 311 (B1, Wed), 759 (B6, Thu) Sato, Yoshihiko.............................1994 (E5, Wed) Sato, Yoshihiro........................... 2142 (E10, Mon) Satsangee, Soami.............................. 12 (A1, Tue) Saubančre, Matthieu.......................840 (B8, Wed) Sauer, Dirk Uwe...............................567 (B4, Tue) Saurel, Damien.................................404 (B2, Tue) Sauri, Daniel................................1778 (D4, Mon) Sauter, Ulrich..................................2705 (J2, Tue) Savadogo, Oumarou.................... 1560 (B11, Thu) Savan, Alan..................................1354 (B11, Tue) Savinell, Robert.......... 297 (B1, Wed), 623 (B5, Tue) Savinova, Elena............................1307 (B11, Tue) Sawada, Kazuaki........................ 2222 (E12, Mon) Sawano, Naoyuki............................2666 (J1, Tue) Saxena, Sachin.................................. 94 (A1, Tue)

Sayago, Jonathan............................2574 (I3, Wed) Sayers, Ruth................................... 367 (B2, Mon) Sayle, Dean.....................................596 (B4, Wed) Saylor, David..................................942 (B9, Wed) Scalise, Emilio............................2164 (E10, Tue), .....................................................2165 (E10, Tue) Scandroglio, Giacomo....................219 (A3, Mon) Schaefer, Jennifer............................ 531 (B2, Thu) Schalenbach, Maximilian............. 2417 (G2, Wed) Schall, Norbert...............................999 (B10, Tue) Schaller, Rebecca......................... 1737 (D2, Wed) Schanovsky, Franz..................... 2140 (E10, Mon) Schappacher, Falko...................... 983 (B10, Mon) Schatz, Rich.....................................708 (B6, Tue) Schechter, Alex..........................1449 (B11, Wed), ....................................................1525 (B11, Wed) Schedel-Niedrig, Thomas............... 2562 (I3, Tue) Scheers, Johan.................................590 (B4, Wed) Scheiba, Frieder..............................588 (B4, Wed) Schell, Mark.................................. 2466 (I1, Mon) Schenk, Alexander......................1397 (B11, Wed) Scherson, Daniel.......................... 2459 (I1, Mon), ............................... 2478 (I1, Tue), 2523 (I2, Tue) Scheuermann, Andrew...................1869 (E2, Thu) Schied, Thomas...............................588 (B4, Wed) Schieda, Mauricio.......................... 2559 (I3, Tue), .......................................................2575 (I3, Wed) Schindelholz, Eric....................... 1735 (D2, Wed), ..................................................... 1736 (D2, Wed) Schlettwein, Derck........................2354 (F4, Thu), ......................................................2373 (F5, Mon) Schloegl, Robert...........................1307 (B11, Tue) Schmeisser, Dieter........................2132 (E8, Wed) Schmidt, Craig............................... 252 (B1, Mon) Schmidt, Ina.................................. 2537 (I3, Mon) Schmidt, Jan............................... 1175 (B10, Thu), ......................... 1204 (B10, Thu), 1215 (B10, Fri) Schmidt, Jan-Philipp......................... 900 (B8, Fri) Schmidt, Kerstin........................... 1767 (D3, Tue) Schmidt, Thomas............................283 (B1, Tue), ........................1291 (B11, Tue), 1319 (B11, Tue), ..................... 1398 (B11, Wed), 1413 (B11, Wed), ........................1427 (B11, Wed), 1630 (B11, Fri), ...................................................... 2274 (F2, Wed) Schmitt, Kevin.............................. 2399 (F5, Wed) Schmoldt, Daniel.............................2805 (J6, Tue) Schmuelling, Guido..........................11 (A1, Tue), .......................................................... 891 (B8, Fri) Schmuki, P.................................... 184 (A2, Wed), ...........................185 (A2, Wed), 1824 (D5, Wed), .............................2377 (F5, Mon), 2558 (I3, Tue) Schmut, Katharina............................274 (B1, Tue) Schnyder, Ashley........................1697 (B12, Wed) Scholta, Joachim......................... 1544 (B11, Thu) Schrandt, Matthew........................985 (B10, Tue), ....................................................1399 (B11, Wed) Schroder, Kjell.................................906 (B9, Tue) Schroeder, Melanie...................... 983 (B10, Mon) Schroeder, Thomas.........................1878 (E2, Thu) Schroen, Ian................................... 2380 (F5, Tue) Schrotter, Gabriel.............................274 (B1, Tue) Schuhmann, Wolfgang.................... 2516 (I2, Tue) Schulze, Joerg............................ 2216 (E12, Mon) Schulze, Mathias......................... 1549 (B11, Thu) Schuppert, Anna...........................1354 (B11, Tue) Schwartz, D....................................2361 (F4, Thu) Schwartz, Ilana.............................. 2509 (I2, Mon) Schwartz, Jeffrey.........................2244 (E12, Wed) Schwegler, Eric............................... 2553 (I3, Tue) Schweiss, Ruediger.....................1425 (B11, Wed) Schwenke, K. Uta...........................448 (B2, Wed) Schwenzer, Birgit.............................399 (B2, Tue) Schütter, Christoph.......................... 684 (B5, Thu) Scott, Keith................................... 1654 (B11, Fri) Scott, William..............................1791 (D5, Mon)

276

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Scrosati, Bruno...............................317 (B1, Wed), .............................. 415 (B2, Wed), 493 (B2, Wed) Scudiero, Louis...........................1450 (B11, Wed) Scully, J........................................ 1737 (D2, Wed) Sebastian, David.............................301 (B1, Wed) Secanell, Marc............................. 1547 (B11, Thu) Secondo, Lynn............................. 1192 (B10, Thu) See, Evan........ 1418 (B11, Wed), 1580 (B11, Thu) Seeberger, Frank.............................454 (B2, Wed) Seesukphronrarak, Surasak.........1482 (B11, Wed) Segalman, Rachel...........................2586 (I3, Wed) Segaud, Roselyne...........................2068 (E7, Tue) Segawa, Hiroyo............................ 1716 (D1, Wed) Seger, Brian..................................... 2561 (I3, Tue) Sehgal, Akshey...............................2108 (E8, Tue) Seid, Kalid......................................... 898 (B8, Fri) Seifert, Soenke.................................114 (A1, Tue) Seifitokaldani, Ali....................... 1560 (B11, Thu) Seitz, Linsey....................................726 (B6, Wed) Sekhar, Praveen............................ 2632 (J1, Mon), ...............................2695 (J2, Tue), 2776 (J4, Tue) Seki, Kohei.................................... 2711 (J3, Mon) Seki, Shiro...................................1126 (B10, Wed) Seki, Yusuke...................................... 58 (A1, Tue) Sekiba, Toru.......1248 (B11, Sun), 1502 (B11, Wed) Sekol, Ryan......................................113 (A1, Tue) Sel, Ozlem......... 1388 (B11, Wed), 2685 (J2, Tue) Selamet, Omer..............................1298 (B11, Tue) Seland, Frode.................................... 80 (A1, Tue) Self, Ethan...................................1121 (B10, Wed) Selman, J........................................2298 (F2, Thu) Selman, Jan..................................... 350 (B1, Thu) Selskis, Algirdas.........................1532 (B11, Wed), ....................................................... 2271 (F2, Tue) Semasko, Miroslav......................1506 (B11, Wed) Seminario, Jorge..............................901 (B9, Tue) Sen, Mustafa...................................2663 (J1, Tue) Senanayake, Sanjaya................... 1605 (B11, Thu) Senoo, Yuichi..............................1504 (B11, Wed) Seo, Daniel.................................1138 (B10, Wed), ...................... 1154 (B10, Wed), 1164 (B10, Thu), .................................................... 1165 (B10, Thu) Seo, Doo-Won.............................. 2424 (G2, Wed) Seo, Hyoree..................................1101 (B10, Tue) Seo, Im Sul........................................ 60 (A1, Tue) Seo, Inseok................................... 1110 (B10, Tue) Seo, Min-Ho................................ 1587 (B11, Thu) Seo, Min-Soo............................... 2425 (G2, Wed) Seo, Myungsoo............................1040 (B10, Tue) Seo, Seok-Jun.................................295 (B1, Wed), .............................. 314 (B1, Wed), 316 (B1, Wed) Sepehr, Fatemeh...........................1284 (B11, Tue) Sequeira, Cesar..............................749 (B6, Wed), ...................................................... 1653 (B11, Fri) Sergeev, Dmitry...............................770 (B7, Tue) Sergent, Nicolas...............................775 (B7, Tue) Serizawa, Nobuyuki....................1126 (B10, Wed) Serov, Alexey..............................1366 (B11, Tue), ...................... 1385 (B11, Wed), 1603 (B11, Thu), .........................1608 (B11, Thu), 1639 (B11, Fri), .......................... 1641 (B11, Fri), 1643 (B11, Fri), .......................... 1644 (B11, Fri), 1646 (B11, Fri), .......................... 1647 (B11, Fri), 1651 (B11, Fri), ......................... 1657 (B11, Fri), 2405 (G1, Wed), .....................................................2435 (H1, Mon) Serquis, Adriana..............................801 (B7, Wed) Serrano, Gustavo........................... 2634 (J1, Mon) Serras, Paula.....................................405 (B2, Tue) Servat, Karine............................... 2468 (I1, Mon) Seshadri, Harinipriya.................... 1226 (B10, Fri) Sethuraman, Vijay......................... 2280 (F2, Wed) Setkus, Arturas............................... 2271 (F2, Tue) Setlur, A........................................ 2715 (J3, Mon) Setlur, Anant........2709 (J3, Mon), 2748 (J3, Wed) Setzler, Brian................................1258 (B11, Sun)

Seung, Hyun-Min.........................2002 (E5, Wed), ......................................................2003 (E5, Wed) Severi, Simone.............................. 2646 (J1, Mon) Seyeux, Antoine.............................951 (B9, Wed), .....................................................1797 (D5, Mon) Seymour, Ieuan...............................595 (B4, Wed) Sezer, Hayri..................................... 343 (B1, Thu) Sezgin, Nagihan...........................1007 (B10, Tue) Sgobbi, Livia...................................2670 (J1, Tue) Shaffer, Christian............................538 (B3, Wed) Shah, Ankita..........813 (B8, Tue), 1216 (B10, Fri) Shah, Deepal................................1274 (B11, Tue) Shah, Shailesh..............................1274 (B11, Tue) Shahedipour, F................................1917 (E3, Tue) Shahedipour-Sandvik, F.................1953 (E3, Thu) Shahrjerdi, Davood.......................1853 (E1, Wed) Shalyt, Eugene.............................. 2114 (E8, Tue), ....................................................... 2382 (F5, Tue) Shamim, Tariq................................748 (B6, Wed), .....................................................1278 (B11, Tue) Shamoto, Mitsuhiro.......................2588 (I3, Wed) Shaner, Matthew............................2568 (I3, Wed) Shanmugam, Parthiban..................... 76 (A1, Tue) Shanmugam, Sangaraju...............1286 (B11, Tue), .......................1340 (B11, Tue), 1382 (B11, Wed), ....................................................1436 (B11, Wed) Shanmuganathan, Kadhiravan........458 (B2, Wed) Shao, Ingrid.................................2239 (E12, Wed) Shao, Lihua..................................2433 (H1, Mon) Shao, Yuyan...................................425 (B2, Wed), .......................... 433 (B2, Wed), 1680 (B12, Wed) Shao, Zaidong.............................. 1717 (D1, Wed) Shao-Horn, Yang.............................. 65 (A1, Tue), ............................. 394 (B2, Tue), 2407 (G1, Wed) Sharifi-Asl, Samin........................ 1834 (D5, Wed) Sharma, A.......................................1872 (E2, Thu) Sharma, Rajni.............................. 1186 (B10, Thu) Sharma, Shashank........................2237 (E12, Tue) Sharma, Surbhi............................. 1720 (D1, Wed) Sharon, Daniel..................................276 (B1, Tue) Sharp, Ian.......................................2297 (F2, Thu) Shaver, Andrew............................1344 (B11, Tue) Shavorskiy, Andrey..........................777 (B7, Tue) She, Zhe........................................2371 (F5, Mon) Shearing, Paul.............................. 2421 (G2, Wed) Shedd, Mara.................................. 1762 (D2, Thu) Sheelam, Anjaiah............................308 (B1, Wed) Sheina, Ludmila..............................330 (B1, Wed) Sheldon, Brian.................................557 (B4, Tue), ................................ 905 (B9, Tue), 918 (B9, Tue) Shen, Chen...................................1795 (D5, Mon) Shen, Chong-Heng..........................848 (B8, Wed) Shen, Kuan-Yu.............815 (B8, Tue), 816 (B8, Tue) Shen, Shyh-Chiang.......................1928 (E3, Wed) Shenai, Krishna.............................1914 (E3, Tue), ............................1918 (E3, Tue), 1921 (E3, Tue), ......................................................1934 (E3, Wed) Sheng, Wenchao...........................1367 (B11, Tue) Shenoy, Vivek......... 557 (B4, Tue), 628 (B5, Tue) Sheridan, Edel.................................857 (B8, Wed) Sheridan, Leah..............................2365 (F5, Mon) Shi, Bing.........................................935 (B9, Wed) Shi, Feifei........................................920 (B9, Wed) Shi, Jing-Jing................................. 198 (A2, Wed) Shi, Jingjing...............................1378 (B11, Wed), ....................................................1535 (B11, Wed) Shi, Leathen..................................1980 (E4, Wed) Shi, Siqi...........................................929 (B9, Wed) Shi, Wenqing................................. 2462 (I1, Mon) Shi, Xiaoping................................. 2115 (E8, Tue) Shi, Yijing.................................... 1749 (D2, Wed) Shi, Zhigui.................................... 1236 (B10, Fri) Shi, Zhiwei....................................2369 (F5, Mon) Shibata, Daisuke............................998 (B10, Tue) Shibayama, Shigehisa.................2248 (E12, Wed) Shiga, Tohru....................................453 (B2, Wed)

Shiiba, Hiromasa....... 52 (A1, Tue), 558 (B4, Tue) Shikano, Masahiro.........................547 (B3, Wed), ..............................847 (B8, Wed), 873 (B8, Thu), .................................................... 1170 (B10, Thu) Shiku, Hitoshi.................................2663 (J1, Tue) Shillingford, Tyrone...................... 2607 (I4, Mon) Shim, Joonmok...............................466 (B2, Wed) Shim, Kyu-Hwan..........................1986 (E4, Wed) Shim, Tae-Hun.............................1997 (E5, Wed), .......................... 1998 (E5, Wed), 2020 (E5, Thu), .......................... 2021 (E5, Thu), 2154 (E10, Tue) Shima, Hisashi..............................1991 (E5, Wed) Shimada, Hiroyuki......................... 2269 (F2, Tue) Shimada, Keisuke........................1102 (B10, Tue) Shimahashi, Naoya......................1775 (D4, Mon) Shimizu, Masahiro....................... 1113 (B10, Tue) Shimizu, Tomohiro.......................2006 (E5, Wed), .......................................................2069 (E7, Tue) Shimoi, Norihiro.........31 (A1, Tue), 32 (A1, Tue) Shimokawa, Ryosuke.................. 1586 (B11, Thu) Shimpalee, Sirivatch....................1345 (B11, Tue) Shin, Chang Dae.............................317 (B1, Wed) Shin, Chee Burm.............................339 (B1, Wed) Shin, Dong Ok.................................281 (B1, Tue) Shin, Dongwon......... 597 (B4, Wed), 838 (B8, Wed) Shin, Dongwook.............................738 (B6, Wed) Shin, Ho-Chul.................................322 (B1, Wed) Shin, Jeong Hun...........................2176 (E10, Tue) Shin, Kyung-Hee.............................407 (B2, Tue), ............................. 484 (B2, Wed), 488 (B2, Wed), ........................... 492 (B2, Wed), 1059 (B10, Tue) Shin, Moo Whan............................ 100 (A1, Tue), ............................... 101 (A1, Tue), 507 (B2, Wed) Shin, Mun-Sik............................... 239 (A3, Wed), ...................... 1477 (B11, Wed), 1536 (B11, Wed) Shin, Sun........................................2593 (I3, Wed) Shin, Sungho..................................1967 (E4, Tue) Shin, Swanee...................................647 (B5, Wed) Shin, Woonsup................................ 2514 (I2, Tue) Shin, Yonghyeon..........................2161 (E10, Tue) Shinagawa, Tsutomu...................... 2272 (F2, Tue) Shingubara, Shoso.......................2006 (E5, Wed), .......................................................2069 (E7, Tue) Shino, Sato..................................1486 (B11, Wed) Shinohara, Akihiro......................1282 (B11, Tue), .....................................................1300 (B11, Tue) Shinohara, Hidetoshi.................... 1895 (E3, Mon) Shinohara, Kazuhiko...................1248 (B11, Sun), 1502 (B11, Wed) Shinohara, Tadashi.........................2584 (I3, Wed) Shinozaki, Kazuma.....................1239 (B11, Sun), .....................................................1300 (B11, Tue) Shintani, Haruhiko........................ 1634 (B11, Fri) Shintani, Yukihiro...........................2680 (J1, Tue) Shinto, Kosuke............................ 1545 (B11, Thu) Shirai, Akira................................1404 (B11, Wed) Shirai, Yasuyuki.............................2301 (F2, Thu) Shirai, Yoshimasa............................436 (B2, Wed) Shiraishi, Kenji............................2159 (E10, Tue) Shirke, Amol.................................. 244 (A3, Wed) Shiroishi, Hidenobu....................1533 (B11, Wed) Shirpour, Mona......... 444 (B2, Wed), 447 (B2, Wed) Shishehchi, Sara.............................1923 (E3, Tue) Shishitani, Hideyuki....................1310 (B11, Tue), ..................................................... 1311 (B11, Tue) Shitanda, Isao................................... 67 (A1, Tue), ...................................68 (A1, Tue), 71 (A1, Tue), ...............................139 (A1, Tue), 141 (A1, Tue), .............................. 142 (A1, Tue), 2665 (J1, Tue), ........................................................2686 (J2, Tue) Shiu, Kuen-Ting............................1980 (E4, Wed) Shleev, Sergey........2517 (I2, Tue), 2652 (J1, Tue) Shobu, Kazuhisa...........................2085 (E7, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

277


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Shoesmith, Dave.......................... 1723 (D1, Thu), ........................ 1734 (D2, Wed), 1774 (D4, Mon), ........................1777 (D4, Mon), 1794 (D5, Mon), .........................1801 (D5, Mon), 1802 (D5, Mon) Shono, Kumi............................... 1170 (B10, Thu) Short, Paul..................................... 1643 (B11, Fri) Shrestha, Biju................................ 1218 (B10, Fri) Shrivastava, Udit......................... 1584 (B11, Thu) Shrotriya, Pranav.......................... 1805 (D5, Tue), ...................................................... 1808 (D5, Tue) Shterenberg, Ivgeni.........................431 (B2, Wed) Shui, Jianglan...... 393 (B2, Tue), 1588 (B11, Thu) Shukla, Alpesh................................926 (B9, Wed) Shukla, Ashok......... 284 (B1, Tue), 687 (B5, Thu) Shukla, Shantanu......................... 1547 (B11, Thu) Shul, Yong-gun........................... 1585 (B11, Thu) Shulga, Eugene...........................1381 (B11, Wed) Shur, Michael.......1909 (E3, Tue), 1927 (E3, Tue) Siahrostami, Samira.........................712 (B6, Tue) Sideratou, Zili............................... 2452 (H1, Tue) Siegel, Donald.................................936 (B9, Wed) Siegmund, Oswald........................1858 (E2, Wed) Sieradzki, Karl.............................1787 (D5, Mon) Siew, Yong Kong.......................... 2057 (E7, Mon) Sigalov, Sergey............................1131 (B10, Wed) Signamarcheix, Thomas............. 2215 (E12, Mon) Siimenson, Carolin........................2583 (I3, Wed), ...................................................... 2612 (I4, Mon) Siinor, Liis........... 2583 (I3, Wed), 2612 (I4, Mon) Sil, Anjan.................................... 1186 (B10, Thu) Silipigni, Salvatore.........................2083 (E7, Tue) Silo-Suh, Laura..........2821 (J6, Tue), 2824 (J6, Tue) Silva, Carlos...... 1701 (D1, Wed), 1725 (D1, Thu) Silva, Juan.......................................110 (A1, Tue), ..............................122 (A1, Tue), 2454 (H1, Tue) Silva, Juan.....................................1854 (E1, Wed) Silvester, Debbie.............................2647 (J1, Tue) Silvestrini, Daniela............................ 28 (A1, Tue) Silvestro, Matt................................2786 (J4, Wed) Sim, Jun Seok..............................1049 (B10, Tue) Sim, Uk......................................... 2542 (I3, Mon) Simin, Grigory...............................1909 (E3, Tue) Simkiene, Irena.............................. 2271 (F2, Tue) Simkunaite-Stanyniene, Birute.......... 2271 (F2, Tue) Simms, Ihsan.................................. 2115 (E8, Tue) Simoen, Eddy..............................2246 (E12, Wed) Simon, Christoph.........................1364 (B11, Tue) Simon, Patrice............................... 235 (A3, Wed), .............................. 607 (B5, Mon), 674 (B5, Thu) Simonian, Aleksandr.......................2829 (J6, Tue) Simonin, Loic.................................... 899 (B8, Fri) Simons, Stefaan..............................782 (B7, Wed), ..................................................... 2421 (G2, Wed) Simunovic, Srdjan...........................572 (B4, Tue), ........................... 1210 (B10, Fri), 1229 (B10, Fri) Sina, Mahsa.................................1155 (B10, Wed) Sinclair, Derek................................ 753 (B6, Thu) Singh, Deepika.............................. 1638 (B11, Fri) Singh, Nikhilendra..........................462 (B2, Wed) Singh, Nirala...............................1676 (B12, Tue), ...........................1677 (B12, Tue), 2565 (I3, Wed) Singh, Poonam.............................. 2600 (I4, Mon) Singh, Prabhakar............................. 121 (A1, Tue) Singh, Rajendra.............................1937 (E3, Wed) Singh, Randhir............................1430 (B11, Wed) Singh, Sonika................................. 203 (A2, Wed) Singh, Vini......................................2657 (J1, Tue) Singhal, Subhash.............................715 (B6, Wed) Sinha, Nupur..............................1143 (B10, Wed), .........................1150 (B10, Wed), 1211 (B10, Fri) Siracusano, Stefania.....................1343 (B11, Tue) Sirbuly, Donald.............................1985 (E4, Wed) Sirenko, Andrei.............................2256 (F2, Mon) Sirés, Ignasi....................................2587 (I3, Wed) Siroma, Zyun...............................1066 (B10, Tue), ....................................................1508 (B11, Wed)

Sisk, Brian.......... 1209 (B10, Fri), 1214 (B10, Fri) Sitler, Steven..................................2360 (F4, Thu) Sivaiah, Matte................................ 210 (A2, Wed) Sivalingam, Yuvaraj.......................2574 (I3, Wed) Skorupska, Katarzyna................... 2545 (I3, Mon) Skou, Eivind................................1512 (B11, Wed) Skowronski, Marek...................... 1907 (E3, Mon) Skunik-Nuckowska, Magdalena......... 686 (B5, Thu) Slanac, Daniel................................. 233 (A3, Tue) Slater, Michael............................... 371 (B2, Mon) ............................... 487 (B2, Wed), 809 (B8, Tue) Slattery, Darlene......................... 1270 (B11, Mon) Sleightholme, Alice..........................616 (B5, Tue) Sljukic, Biljana...............................749 (B6, Wed), ...................................................... 1653 (B11, Fri) Sloan, Ben....................................1067 (B10, Tue) Smart, Marshall............................. 600 (B5, Mon), ...................... 1032 (B10, Tue), 1135 (B10, Wed), ....................................................1140 (B10, Wed) Smekens, Jelle............................ 1169 (B10, Thu), .......................... 1220 (B10, Fri), 1222 (B10, Fri), ...................................................... 1224 (B10, Fri) Smiechowski, Matthew...................2699 (J2, Tue) Smirnova, Alevtina.......................985 (B10, Tue), ....................................................1399 (B11, Wed) Smith, Dayle................................... 351 (B1, Thu) Smith, Diane.................................. 128 (A1, Tue), ...............................131 (A1, Tue), 140 (A1, Tue), ...............................143 (A1, Tue), 144 (A1, Tue), ............................. 2455 (I1, Mon), 2483 (I1, Tue) Smith, Diane................................... 126 (A1, Tue) Smith, Kyle........... 421 (B2, Wed), 423 (B2, Wed) Smith, Robin.................................1953 (E3, Thu), ....................................................2178 (E10, Wed) Smith, Rodney...............................2288 (F2, Thu) Smith, York.........637 (B5, Wed), 1825 (D5, Wed) Smyrl, William.............................. 2760 (J4, Mon) Snider, Rachel........ 2524 (I2, Tue), 2525 (I2, Tue) Snook, Graeme......... 270 (B1, Mon), 2263 (F2, Tue) Snydacker, David............................581 (B4, Wed) Snyder, Joshua...........................1401 (B11, Wed), ........................................................ 2627 (I5, Tue) So, Seulgi...................................... 184 (A2, Wed), ...........................185 (A2, Wed), 2377 (F5, Mon), ........................................................ 2558 (I3, Tue) Soares, David................................. 125 (A1, Tue), ..............................192 (A2, Wed), 193 (A2, Wed) Sobkowiak, Adam........................1030 (B10, Tue) Sodeyama, Keitaro.........................590 (B4, Wed), ........................................................594 (B4, Wed) Sofian, Azizul............................... 1709 (D1, Wed) Sohm, Evan.....................................506 (B2, Wed) Sohn, Hun-Joon............................2091 (E7, Wed) Sohn, Kee-Sun...............................2746 (J3, Wed) Sohn, Young-Jun........................ 1615 (B11, Thu), ...................................................... 1632 (B11, Fri) Sokaras, Dimosthenis.....................2572 (I3, Wed) Solarska, Renata............................. 2555 (I3, Tue), .......................................................2579 (I3, Wed) Soldati, Analķa................................801 (B7, Wed) Soldo-Olivier, Yvonne.................1396 (B11, Wed) Soler, Jessica....................................811 (B8, Tue) Soles, Christopher.......................1406 (B11, Wed) Soliman, Moataz............................2049 (E6, Tue) Solnickova, Lucie......................... 1211 (B10, Fri) Solorza, Omar................................... 88 (A1, Tue) Soltis, Richard............................. 1620 (B11, Thu) Sommer, Heino............................ 978 (B10, Mon) Sommer, Romain...........................2122 (E8, Tue) Somorjai, Gabor..............................920 (B9, Wed) Somu, Sivasubramanian................ 1216 (B10, Fri) Son, Ahjeong...................................2837 (J6, Tue) Son, Bongki................................1090 (B10, Tue), .........................1091 (B10, Tue), 1104 (B10, Tue) Son, Hyungbin.............................1089 (B10, Tue) Son, Jin-Young................................ 874 (B8, Thu)

Son, Jong Tae...............................1051 (B10, Tue) Son, Seoung-Bum....................... 954 (B10, Mon), ..................................................... 964 (B10, Mon) Sone, Masato................................ 2058 (E7, Mon) Song, D. H....................................1856 (E1, Wed) Song, Dong Hoon..........................2047 (E6, Tue) Song, Edward.........2765 (J4, Tue), 2777 (J4, Tue) Song, Haizheng............................ 1907 (E3, Mon) Song, Hee-Youb..............................940 (B9, Wed) Song, J. E......................................1856 (E1, Wed) Song, Jinhan............................... 2148 (E10, Mon) Song, Jun-Young............................2084 (E7, Tue) Song, Jungmin............................ 1558 (B11, Thu) Song, Kayoung............................ 1558 (B11, Thu) Song, Min-Kyu............................. 359 (B2, Mon), ...................................................... 2503 (I2, Mon) Song, Myeong Jun......................... 100 (A1, Tue), ............................... 101 (A1, Tue), 507 (B2, Wed) Song, Myung-JIn.........................2002 (E5, Wed), ......................................................2003 (E5, Wed) Song, Myunggeun........................ 2102 (E8, Mon) Song, Na...........................................700 (B6, Tue) Song, Rak-Hyun.............................333 (B1, Wed), .............................. 334 (B1, Wed), 407 (B2, Tue), ........................................................800 (B7, Wed) Song, SeongHyun........................1096 (B10, Tue) Song, Seung-Hyun.......................2154 (E10, Tue) Song, Seung-Wan...........................849 (B8, Wed), .............................. 868 (B8, Wed), 912 (B9, Tue), .............................. 946 (B9, Wed), 948 (B9, Wed) Song, Tae-Ho.................................. 145 (A1, Tue) Song, Wenping...............................2797 (J4, Wed) Song, Xiangyun..........................1105 (B10, Tue), ...................................................... 1206 (B10, Fri) Song, Yen-Fang......374 (B2, Mon), 814 (B8, Tue) Song, Ying...................................1463 (B11, Wed) Song, Younghak.......................... 967 (B10, Mon), .....................................................1004 (B10, Tue) Sonoda, Kenichiro.......................2245 (E12, Wed) Sordi, Daniela............................... 2444 (H1, Tue) Sorokulova, Iryna...........................2831 (J6, Tue), ........................................................2832 (J6, Tue) Sotomayor Torres, Clivia................. 16 (A1, Tue), ........................................................ 162 (A2, Tue) Souadda, Malika............................2783 (J4, Wed) Soudy, Rania...................................2775 (J4, Tue) Soundappan, Thiagarajan................2654 (J1, Tue) Sozhan, G........... 2410 (G1, Wed), 2591 (I3, Wed) Spakowitz, Andrew.....................1537 (B11, Wed) Spatocco, Brian................................386 (B2, Tue) Specht, Petra..................................1920 (E3, Tue) Spendelow, Jacob.........................1290 (B11, Tue) Sperling, Eva..................................2594 (I3, Wed) Spernjak, Dusan..........................1289 (B11, Tue), ........................1290 (B11, Tue), 1292 (B11, Tue), ..................... 1425 (B11, Wed), 1445 (B11, Wed), .......................1578 (B11, Thu), 1583 (B11, Thu), ........................... 1606 (B11, Thu), 2695 (J2, Tue) Spies, Kurt.................................. 1600 (B11, Thu) Spinacé, Estevam.............................113 (A1, Tue) Spoerke, Erik..................................2030 (E6, Tue) Spotnitz, Robert..............................593 (B4, Wed) Spreafico, Marco.........................1026 (B10, Tue), ......................................................2254 (F2, Mon) Sprenkle, Vincent............................399 (B2, Tue), .......................... 422 (B2, Wed), 1658 (B12, Tue), ....................... 1659 (B12, Tue), 1660 (B12, Tue), ...................... 1661 (B12, Tue), 1680 (B12, Wed), ..................... 1681 (B12, Wed), 1682 (B12, Wed), ....................................................1691 (B12, Wed) Spriya, Shashank..........................2155 (E10, Tue) Spurgeon, Joshua...........................2571 (I3, Wed) Spyrou, Konstantinos.................... 2441 (H1, Tue) Sridhar, Narasi.................................699 (B6, Tue) Srinivasan, Jay...............................2123 (E8, Tue)

278

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Srinivasan, Jayendran.................. 1762 (D2, Thu), .....................................................1768 (D4, Mon) Srinivasan, Madhavi....................1016 (B10, Tue) Srinivasan, Raghu......................... 1765 (D3, Tue) Srinivasan, Sampath.........................284 (B1, Tue) Srinivasan, Venkat...........................390 (B2, Tue), .............................. 459 (B2, Wed), 821 (B8, Tue), ........................ 987 (B10, Tue), 1152 (B10, Wed), ....................... 1675 (B12, Tue), 1679 (B12, Wed) Sriramulu, Suresh...........................536 (B3, Wed), ........................... 832 (B8, Wed), 1195 (B10, Thu) Srivastava, Alok.....2719 (J3, Tue), 2720 (J3, Tue) Srivastava, Ratnanjali....................... 12 (A1, Tue) Srouji, A. K.................................1410 (B11, Wed) St-Pierre, Jean.............................1328 (B11, Tue), ....................................................1466 (B11, Wed) St-Pierre, Jean.............................1238 (B11, Sun), .........................1330 (B11, Tue), 1337 (B11, Tue) St-Pierre, Jean.............................1302 (B11, Tue), ........................1329 (B11, Tue), 1498 (B11, Wed) Stacchiola, Dario......................... 1605 (B11, Thu) Stach, Eric........ 1079 (B10, Tue), 1982 (E4, Wed) Stadermann, Michael.................... 251 (B1, Mon), .......................... 647 (B5, Wed), 2433 (H1, Mon), .....................................................2434 (H1, Mon) Stafford, Gery.......... 2280 (F2, Wed), 2329 (F4, Tue) Stahl, Shannon............................. 2405 (G1, Wed) Stahlbush, Robert........................ 1893 (E3, Mon), .........................1903 (E3, Mon), 1907 (E3, Mon), ......................................................1939 (E3, Wed) Staiti, Pietro....... 667 (B5, Wed), 1343 (B11, Tue) Staley, Patrick........ 143 (A1, Tue), 2483 (I1, Tue) Stalnionis, Giedrius.......................2378 (F5, Mon) Stamatin, Serban.........................1512 (B11, Wed) Stamenkovic, Vojislav.....................392 (B2, Tue), ...................... 1251 (B11, Sun), 1401 (B11, Wed), ........................................................ 2627 (I5, Tue) Stampanoni, Marco.....................1297 (B11, Tue), ........................1319 (B11, Tue), 1320 (B11, Tue), ..................................................... 1746 (D2, Wed) Stan, Klimas.................................1795 (D5, Mon) Stan, Marian....................................454 (B2, Wed) Stangl, Christoph............................537 (B3, Wed) Stanislavchuk, Taras......................2256 (F2, Mon) Stankeviciene, Ina........................2378 (F5, Mon), ....................................................... 2396 (F5, Tue) Stark, Johanna................................320 (B1, Wed), .............................. 528 (B2, Thu), 2332 (F4, Tue) Starr, Christopher............................ 163 (A2, Tue) Staser, John......................................625 (B5, Tue) Stassi, Alessandro....................... 1598 (B11, Thu) Stathi, Panagiota........................... 2441 (H1, Tue) Steckel, Jonathan.............................2729 (J3, Tue) Steed, Jared.................................... 693 (B6, Mon) Steenberg, Thomas......................1374 (B11, Wed) Stefan-van Staden, Raluca........... 2762 (J4, Mon), ...............................2780 (J4, Tue), 2812 (J6, Tue) Stefanopoulou, Anna................... 1192 (B10, Thu) Steichen, Marc............................. 2252 (F1, Wed), ...................................................... 2602 (I4, Mon) Steiger, Jens....................................944 (B9, Wed) Stein, Malcolm.................................571 (B4, Tue) Steinbach, Andrew......................1292 (B11, Tue), ........................1304 (B11, Tue), 1350 (B11, Tue), .................................................... 1579 (B11, Thu) Steinberger, Kevin......344 (B1, Thu), 345 (B1, Thu) Steingart, Daniel............................. 514 (B2, Thu) Steinhurst, Daniel.........772 (B7, Tue), 774 (B7, Tue) Stenta, A.......................................1784 (D4, Mon) Stephens, Ifan...................................712 (B6, Tue) Stephenson, David.......................1660 (B12, Tue) Stephenson, Scott.........................1107 (B10, Tue) Stephenson, Wess...........................2598 (I3, Wed) Steppan, Jim....................................2696 (J2, Tue)

Sternad, Michael..............................274 (B1, Tue) Stesmans, Andre..........................2164 (E10, Tue), .......................2179 (E10, Wed), 2185 (E10, Wed) Steter, Juliana.................................. 2501 (I1, Tue) Stetter, Joseph..........244 (A3, Wed), 2617 (I4, Mon), ............................2637 (J1, Mon), 2795 (J4, Wed) Stevens, David............................ 1552 (B11, Thu) Stevens, James...............................2013 (E5, Thu) Stevens, Nicholas......................... 1744 (D2, Wed) Stevens, Philippe.............................112 (A1, Tue), .............................. 469 (B2, Wed), 509 (B2, Wed) Stevenson, Jeffry............................. 752 (B6, Thu) Stevenson, Keith............................ 233 (A3, Tue), ............................. 442 (B2, Wed), 636 (B5, Wed), ............................ 906 (B9, Tue), 2376 (F5, Mon), ........................................................ 2518 (I2, Tue) Stewart, S. Michael......................1303 (B11, Tue) Stickney, John...............................2365 (F5, Mon) Stinchcombe, Andrew....................219 (A3, Mon) Stojek, Zbigniew.......................... 1844 (D6, Tue), ..............................2334 (F4, Tue), 2650 (J1, Tue) Stollar, David..................................2659 (J1, Tue) Stolten, Detlef.............................1453 (B11, Wed) Stone, Simon...................................718 (B6, Wed) Stoner, Brian................................... 248 (A3, Thu) Storm, David..................................1912 (E3, Tue) Storm, Mie......................................472 (B2, Wed) Stournara, Maria..............................557 (B4, Tue) Strasser, Peter..................................711 (B6, Tue), ........................1352 (B11, Tue), 1353 (B11, Tue), ....................... 1359 (B11, Tue), 1555 (B11, Thu), .................................................... 1604 (B11, Thu) Strawsine, Lauren........................... 2626 (I5, Tue) Streeb, Martin.................................2705 (J2, Tue) Street, Steven.............................. 1745 (D2, Wed), ......................... 1746 (D2, Wed), 1770 (D4, Mon) Strenger, Christian...................... 1899 (E3, Mon), ..................................................... 1900 (E3, Mon) Strickland, Kara.............................305 (B1, Wed), .................................................... 1597 (B11, Thu) Stringfellow, Richard......................536 (B3, Wed) Striolo, Alberto.............................2433 (H1, Mon) Strmcnik, Dusan...............................392 (B2, Tue) Strobridge, Fiona.............................833 (B8, Wed) Struyf, Herbert............................ 2057 (E7, Mon), ....................................................... 2115 (E8, Tue) Strycharz-Glaven, Sarah................. 2524 (I2, Tue) Stuart, Steven..................................598 (B4, Wed) Stucky, Galen.................................2565 (I3, Wed) Stumper, Juergen....................... 1265 (B11, Mon), ........................1322 (B11, Tue), 1323 (B11, Tue), ..................... 1407 (B11, Wed), 1409 (B11, Wed), ...................... 1442 (B11, Wed), 1444 (B11, Wed) Stumpp, Martina...........................2354 (F4, Thu), ......................................................2373 (F5, Mon) Sturm, James...............................2244 (E12, Wed) Stuve, Eric................................... 1600 (B11, Thu) Su, A................1550 (B11, Thu), 1567 (B11, Thu) Su, Jie............................................1936 (E3, Wed) Su, Shuenn-Kung........................... 198 (A2, Wed) Su, Yu-Sheng.................................. 375 (B2, Mon) Su, Zonghui...................................1941 (E3, Wed) Suarez, Karina................................... 88 (A1, Tue) Suazo-Dįvila, Damaris................ 1605 (B11, Thu) Subarda, Jiri................................1488 (B11, Wed) Subbaraman, Ram............................392 (B2, Tue) Subramanian, Kumar......................2776 (J4, Tue) Subramanian, Palaniappan..............644 (B5, Wed) Subramanian, Vaidyanathan..........2582 (I3, Wed), ........................................................ 2620 (I5, Tue) Subramanian, Venkat.................... 253 (B1, Mon), ............................ 256 (B1, Mon), 266 (B1, Mon), .......................... 1693 (B12, Wed), 2654 (J1, Tue) Subramanyam, Guru.....................1948 (E3, Wed) Suchomel, Matthew........................ 871 (B8, Thu) Suda, Atsushi..................................2663 (J1, Tue)

Suda, Shota.................................. 1706 (D1, Wed) Suda, Yoshiyuki............................1994 (E5, Wed) Sudarshan, Tangali...................... 1904 (E3, Mon), ..................................................... 1907 (E3, Mon) Sudoh, Masao........1586 (B11, Thu), 2635 (J1, Mon) Suehiro, Takayuki..........................2751 (J3, Wed) Suen, Wesley................................2237 (E12, Tue) Suergers, Christoph.................... 2216 (E12, Mon) Suescun, Leopoldo..........................801 (B7, Wed) Suga, Takeo........ 1624 (B11, Fri), 1625 (B11, Fri) Sugano, Karen.............................1476 (B11, Wed) Sugar, Joshua..................................829 (B8, Wed) Sugawa, Shigetoshi......................1862 (E2, Wed), ........................... 1911 (E3, Tue), 2170 (E10, Tue) Sugawara, Hiroshi.......................... 2118 (E8, Tue) Sugawara, Kosuke........................ 1829 (D5, Wed) Sugawara, Seiho..........................1248 (B11, Sun), ....................................................1502 (B11, Wed) Sugawara, Yu.............66 (A1, Tue), 69 (A1, Tue), ..............................70 (A1, Tue), 1710 (D1, Wed), ........................1773 (D4, Mon), 1775 (D4, Mon), .....................................................1796 (D5, Mon) Sugaya, Yuta................................1481 (B11, Wed) Sugesawa, Yukihiro..................... 1586 (B11, Thu) Sugii, Nobuyuki...........................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Sugimoto, Wataru...........................641 (B5, Wed), ....................................................1515 (B11, Wed) Sugimura, Hiroyuki........................... 77 (A1, Tue) Sugiyama, Atsushi......................... 2390 (F5, Tue) Sugiyama, Shiori............................ 2268 (F2, Tue) Suh, Joonki.....................................1972 (E4, Tue) Suh, Minsuk................................. 2053 (E7, Mon) Suh, Sang-Jin.........2821 (J6, Tue), 2824 (J6, Tue) Suh, Soon......... 955 (B10, Mon), 964 (B10, Mon) Suhr, Bettina.................................. 1225 (B10, Fri) Sui, Pang-Chieh..........................1430 (B11, Wed) Suito, Kazuaki.........154 (A2, Tue), 1562 (B11, Thu) Suito, Yoshiki..............18 (A1, Tue), 21 (A1, Tue) Sukackiene, Zita............................. 2396 (F5, Tue) Sul, Soohwan.................................2027 (E6, Tue) Sulek, Jonathan............................ 963 (B10, Mon) Sulek, Mark................................. 1620 (B11, Thu) Sullivan, Marianne.........................2834 (J6, Tue), ........................................................2835 (J6, Tue) Sumer, Aslihan........1771 (D4, Mon), 2625 (I5, Tue) Sumi, Hirofumi............................1092 (B10, Tue) Sun, Bing...................................... 1233 (B10, Fri) Sun, Che-Nan.................................419 (B2, Wed), ....................... 1665 (B12, Tue), 1667 (B12, Tue), ...................... 1694 (B12, Wed), 1697 (B12, Wed) Sun, Chengjun................................. 520 (B2, Thu) Sun, J..............................................2018 (E5, Thu) Sun, Kai...................................... 1620 (B11, Thu) Sun, Ke.........................................1094 (B10, Tue) Sun, Kening.................................1105 (B10, Tue) Sun, Min........................................1943 (E3, Wed) Sun, Qian.....................................1094 (B10, Tue) Sun, Shiyu....................................2237 (E12, Tue) Sun, Shouheng.............................. 2280 (F2, Wed) Sun, Wei.......................................1019 (B10, Tue) Sun, Xiang...................................1008 (B10, Tue) Sun, Xiangcheng.............................866 (B8, Wed) Sun, Xiao-Guang............................. 522 (B2, Thu) Sun, Xiaoxuan................................ 2382 (F5, Tue) Sun, Xueliang................................ 1236 (B10, Fri) Sun, Y.-K........................................415 (B2, Wed), .............................. 424 (B2, Wed), 452 (B2, Wed) Sun, Y.-K......................................317 (B1, Wed), | .............................. 340 (B1, Wed), 403 (B2, Tue), ..............................493 (B2, Wed), 525 (B2, Thu), ............................ 879 (B8, Thu), 1063 (B10, Tue) Sun, Ying........................................430 (B2, Wed), ......................... 1670 (B12, Tue), 2367 (F5, Mon) Sun, Yu............................................ 156 (A2, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

279


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Sun, Zhichao................................1105 (B10, Tue) Sunada, Yoshio............................. 2412 (G1, Wed) Sunakawa, Haruo......................... 1895 (E3, Mon) Sundaram, Ganesh........................1861 (E2, Wed) Sundaram, Kalpathy....................... 130 (A1, Tue), ...........................138 (A1, Tue), 2147 (E10, Mon) Sunde, Svein.........80 (A1, Tue), 1166 (B10, Thu) Sung, Donggil..............................1040 (B10, Tue) Sung, Yung-Eun..........................1035 (B10, Tue), .....................................................1036 (B10, Tue) Suni, Ian....................................... 1729 (D1, Thu), ...............................2521 (I2, Tue), 2691 (J2, Tue) Suntivich, Jin..............................1377 (B11, Wed) Suppes, Graeme.............................2597 (I3, Wed) Susac, Darija...............................1322 (B11, Tue), .......................1323 (B11, Tue), 1407 (B11, Wed), ....................................................1501 (B11, Wed) Sushko, Maria................................ 2379 (F5, Tue) Sussman, Micah.............................. 881 (B8, Thu) Suthar, Bharat Kumar................... 253 (B1, Mon), ............................. 256 (B1, Mon), 266 (B1, Mon) Suto, Koichi................18 (A1, Tue), 21 (A1, Tue) Sutter, Eliane...................................2690 (J2, Tue) Suu, Koukou................................. 1235 (B10, Fri) Suvarna, P.......................................1917 (E3, Tue) Suzuki, Akira...............................1483 (B11, Wed) Suzuki, Akiyoshi........................... 1235 (B10, Fri) Suzuki, Kengo.............................1321 (B11, Tue), .................................................... 1543 (B11, Thu) Suzuki, Kota.................................... 102 (A1, Tue) Suzuki, Motofumi........................ 1960 (E4, Mon) Suzuki, Syunsuke........................1502 (B11, Wed) Suzuki, Takahiro..........................1325 (B11, Tue) Suzuki, Takahisa.........................1253 (B11, Sun), .....................................................1300 (B11, Tue) Suzuki, Toshio..............................1092 (B10, Tue) Suzuki, Yukiko................................ 2628 (I5, Tue) Suzuki, Yuta.................................... 132 (A1, Tue) Svendsen, Winnie............................2768 (J4, Tue) Svensson, Ann Mari..................1166 (B10, Thu), | .......................................................2039 (E6, Tue) Svensson, Gunnar.......................... 262 (B1, Mon) Sviridov, Lev................................... 514 (B2, Thu) Swain, Greg.........1819 (D5, Tue), 1820 (D5, Tue) Swartz, Scott............................... 1176 (B10, Thu) Swerts, Johan.........1876 (E2, Thu), 2057 (E7, Mon) Swiatowska, Jolanta........................951 (B9, Wed) Swider-Lyons, Karen..................1238 (B11, Sun), ...................... 1383 (B11, Wed), 1498 (B11, Wed) Switzer, Jay......... 2281 (F2, Wed), 2380 (F5, Tue) Syzdek, Jaroslaw.............................908 (B9, Tue), ...........................911 (B9, Tue), 1160 (B10, Wed), ........................... 2256 (F2, Mon), 2286 (F2, Thu) Szkopek, Thomas.........................1015 (B10, Tue) Szunerits, Sabine.............................644 (B5, Wed)

Tai, Yoshikazu..............................1788 (D5, Mon) Tailleart, Nicole............................ 1832 (D5, Wed) Tajiri, Kazuya.............................. 1584 (B11, Thu) Tak, Yongsug...................................497 (B2, Wed) Takabatake, Yuma......................1503 (B11, Wed), ...................................................... 1631 (B11, Fri) Takada, Kazunori............................822 (B8, Tue), .....................................................1025 (B10, Tue) Takada, Keita..................................847 (B8, Wed) Takagaki, Munehito..................... 1960 (E4, Mon) Takagi, Shinichi...........................2223 (E12, Tue) Takahara, Hikari.......................... 1170 (B10, Thu) Takahashi, Akira............................... 49 (A1, Tue) Takahashi, Hideyuki........................ 17 (A1, Tue), ...................................18 (A1, Tue), 19 (A1, Tue), ...................................20 (A1, Tue), 21 (A1, Tue), ...................................22 (A1, Tue), 23 (A1, Tue), ....................................31 (A1, Tue), 32 (A1, Tue) Takahashi, Masao........................... 2113 (E8, Tue) Takahashi, Tateru.............................. 69 (A1, Tue) Takahashi, Yasuo..........................1992 (E5, Wed), ................................................... 2219 (E12, Mon) Takahashi, Yohei..........................1065 (B10, Tue) Takahashi, Yu................................ 2273 (F2, Wed) Takai, Shigeomi........60 (A1, Tue), 147 (A1, Tue) Takakuwa, Tatsuya......................1533 (B11, Wed) Takamatsu, Daiko...........................923 (B9, Wed) Takami, Norio................................. 882 (B8, Thu) Takamiya, Satoshi......................... 2644 (J1, Mon) Takano, Jun.................................1519 (B11, Wed) Takanohashi, Kazuhiro................. 1625 (B11, Fri) Takara, Kosuke...............................2663 (J1, Tue) Takasaki, Fumiaki......................... 1631 (B11, Fri) Takase, Mai....................................... 96 (A1, Tue) Takaura, Norikatsu.........................2025 (E5, Thu) Takayanagi, Kunio.........................989 (B10, Tue) Take, Seisho................................. 1706 (D1, Wed) Takechi, Kensuke............................453 (B2, Wed) Takeda, Hiroki................................. 521 (B2, Thu) Takeda, Takashi..............................2751 (J3, Wed) Takeda, Yasuo.................................856 (B8, Wed) Takeguchi, Tatsuya..........................489 (B2, Wed) Takei, Katsuhito..........................1126 (B10, Wed) Takei, Kuniharu............................ 1962 (E4, Mon) Takei, Naoko................................1082 (B10, Tue) Takei, Yuki................................... 969 (B10, Mon) Takemura, Yasutaka.....................1998 (E5, Wed), .......................................................2021 (E5, Thu) Takenaka, Hiroto........................ 2219 (E12, Mon) Takenaka, Mitsuru........................2223 (E12, Tue) Takenaka, Toshio.........................1062 (B10, Tue) Takenobu, Taishi.......................... 2207 (E11, Tue) Takesue, Yuki..............................1347 (B11, Tue), ....................................................1403 (B11, Wed) Takeuchi, Esther..............................839 (B8, Wed) Takeuchi, Ken.......... 349 (B1, Thu), 1989 (E5, Wed) Takeuchi, Kenneth..........................839 (B8, Wed) Takeuchi, Minoru........................ 2060 (E7, Mon), ......................................................2090 (E7, Wed) Takeuchi, Mitsue............................. 874 (B8, Thu) Takeuchi, Norimitsu.................... 1551 (B11, Thu) Takeuchi, Tomonari....................... 355 (B2, Mon) Takeuchi, Wakana.......................2248 (E12, Wed) Takeuchi, Yoji.................................947 (B9, Wed) Talbot, J........................................2306 (F3, Mon), ......................... 2309 (F3, Mon), 2316 (F3, Mon), .......................... 2707 (J3, Mon), 2713 (J3, Mon), ........................................................2727 (J3, Tue) Talin, A............................................ 2560 (I3, Tue) Talin, Albert........1237 (B10, Fri), 2030 (E6, Tue) Tallarida, Massimo........................2132 (E8, Wed) Tam, Mickey...............................1407 (B11, Wed) Tamaddon, Amir-Hossein.............. 2116 (E8, Tue) Tamaki, Takanori........................1316 (B11, Tue), ........................ 1355 (B11, Tue), 1559 (B11, Thu)

Tamasauskaite-Tamasiunaite, Loreta..................... ..................... 1506 (B11, Wed), 1532 (B11, Wed), ...........................2271 (F2, Tue), 2378 (F5, Mon), ....................................................... 2396 (F5, Tue) Taminato, Sou................................. 102 (A1, Tue) Tammeveski, Kaido...................1381 (B11, Wed), ........................................................ 2473 (I1, Tue) Tamura, Naoyoshi.......................2245 (E12, Wed) Tamura, Noriyuki........................1124 (B10, Wed) Tamura, Sho...................................2584 (I3, Wed) Tan, Cen............................................ 37 (A1, Tue) Tan, Chaou..................................... 367 (B2, Mon) Tan, Hoe..................................... 2149 (E10, Mon) Tan, Hui...................681 (B5, Thu), 886 (B8, Thu) Tan, Samantha................................ 2112 (E8, Tue) Tan, Zhengquan............................2153 (E10, Tue) Tanaka, Akira..................................432 (B2, Wed) Tanaka, Hidekazu..........................1978 (E4, Tue), .......................................................2023 (E5, Thu) Tanaka, Hiroaki............................2170 (E10, Tue) Tanaka, Hirohisa....................... 1266 (B11, Mon), ........................1310 (B11, Tue), 1311 (B11, Tue), ........................1359 (B11, Tue), 1361 (B11, Tue), .......................... 1366 (B11, Tue), 2636 (J1, Mon) Tanaka, Hiroki................................ 2268 (F2, Tue) Tanaka, Hiroyuki.........................1248 (B11, Sun), ....................................................1502 (B11, Wed) Tanaka, Hisashi................................. 49 (A1, Tue) Tanaka, Isao.....................................562 (B4, Tue) Tanaka, Nanako............................. 1223 (B10, Fri) Tanaka, Tetsu............................... 2054 (E7, Mon) Tanaka, Tsutomu.............................438 (B2, Wed) Tanakit, Ryan................................2306 (F3, Mon) Tang, Bo.........................................2109 (E8, Tue) Tang, Jinyao...................................2567 (I3, Wed) Tang, Maureen......914 (B9, Tue), 2275 (F2, Wed) Tang, Wei................................... 2151 (E10, Mon) Tang, Yiwei.......... 688 (B5, Thu), 1230 (B10, Fri) Tang, Yuanzhi...................................401 (B2, Tue) Tang, Zhaoyun...............................2109 (E8, Tue) Tang, Zhijiang.............................1668 (B12, Tue), ....................................................1697 (B12, Wed) Tangirala, Madhavi......................1857 (E2, Wed), ..........................1863 (E2, Wed), 1864 (E2, Wed), ......................................................1866 (E2, Wed) Tani, Komomo............................. 1892 (E3, Mon) Tanida, Hagime................................ 63 (A1, Tue), .............................. 824 (B8, Wed), 923 (B9, Wed) Taniguchi, Yui..................................280 (B1, Tue) Tanikawa, Tsuyoshi.......................1862 (E2, Wed) Tanimoto, Satoshi........................ 1896 (E3, Mon) Tanimoto, Takahiro..........................622 (B5, Tue) Tanisawa, Hidekazu..................... 1896 (E3, Mon) Tanishiro, Yasumasa.......................989 (B10, Tue) Tanuma, Toshihiro...................... 1543 (B11, Thu) Tao, Meng............. 165 (A2, Tue), 2038 (E6, Tue) Tao, Wenquan...............................1254 (B11, Sun) Taoka, Noriyuki..........................2225 (E12, Tue), ........................2234 (E12, Tue), 2248 (E12, Wed) Tapily, Kandabara...................... 2139 (E10, Mon) Tappertzhofen, Stefan..................2160 (E10, Tue) Taranovskyy, Andriy..................... 2349 (F4, Wed) Tariq, Farid......... 2299 (F2, Thu), 2375 (F5, Mon) Tasaka, Akimasa.........................1533 (B11, Wed) Tasaki, Ken......................................569 (B4, Tue) Taspinar, Reyhan.........................1469 (B11, Wed) Tassel, Cedric.................................499 (B2, Wed), .............................. 835 (B8, Wed), 858 (B8, Wed) Tateyama, Yoshitaka......................590 (B4, Wed), ........................................................594 (B4, Wed) Tatinclaux, Maia............................. 225 (A3, Tue) Tatsuda, Narihito............................ 189 (A2, Wed) Tatsuma, Tetsu.................................. 39 (A1, Tue) Tatsumi, K....................................... 873 (B8, Thu) Tatsumi, Kuniaki............................ 355 (B2, Mon)

T

Tabe, Michiharu..........................2243 (E12, Wed) Tabe, Yutaka................................1321 (B11, Tue), .................................................... 1543 (B11, Thu) Taberna, Pierre-Louis.................... 235 (A3, Wed), ....................................................... 607 (B5, Mon) Tabuchi, Mitsuharu......................... 873 (B8, Thu) Tabuchi, Yuichiro........................1296 (B11, Tue), ....................................................1456 (B11, Wed) Tada, Eiji...................................... 1739 (D2, Wed) Tada, Munehiro.............................1999 (E5, Wed) Tadaki, Daisuke...........................2183 (E10, Wed) Tadjer, Marko................................1920 (E3, Tue), ..........................1930 (E3, Wed), 2206 (E11, Tue) Tadokoro, Kazuya.......................... 2390 (F5, Tue) Taft, Charles................................. 2106 (E8, Mon) Taguchi, Yoshiaki........................... 183 (A2, Wed) Tahara, Tahei................................1299 (B11, Tue) Taheri Najafabadi, Amin..................703 (B6, Tue) Tai, Cheuk-Wai............................1030 (B10, Tue) 280

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Tavassol, Hadi................................928 (B9, Wed), .............................2399 (F5, Wed), 2684 (J2, Tue) Taveira, Luciano............................. 877 (B8, Thu) Taxak, Vinod.................................. 176 (A2, Wed) Taylor, André....................................113 (A1, Tue) Taylor, C........................................ 1640 (B11, Fri) Taylor, Eric...................................... 129 (A1, Tue) Taylor, Rebecca............................... 753 (B6, Thu) Tefashe, Ushula............................1802 (D5, Mon) Tefera, Anteneh............................. 2318 (F3, Tue), ....................................................... 2320 (F3, Tue) Teixeira-Dias, Bruno.................... 2505 (I2, Mon), ........................................................2664 (J1, Tue) Tejedor, M.................................... 1707 (D1, Wed) Tejedor, Maria.......236 (A3, Wed), 238 (A3, Wed) Tejos, Marisol................................2045 (E6, Tue) Teller, Hanan..............................1449 (B11, Wed), ....................................................1525 (B11, Wed) Tellez Lozano, Helena...................2596 (I3, Wed) Tellier, Raymond........................... 2761 (J4, Mon) Templeton, Jeremy..........................470 (B2, Wed) Tender, Leonard..........225 (A3, Tue), 2524 (I2, Tue) Tenent, Robert................................. 168 (A2, Tue) Teng, Xiaowei.........676 (B5, Thu), 1601 (B11, Thu) Tengco, John..................................... 24 (A1, Tue) Tenhaeff, Wyatt...............................272 (B1, Tue), .............................. 312 (B1, Wed), 437 (B2, Wed) Tepavcevic, Sanja............................397 (B2, Tue) Terakura, Kiyoyuki....................1485 (B11, Wed), ....................................................1493 (B11, Wed) Teramoto, Akinobu....................... 1911 (E3, Tue), .....................................................2170 (E10, Tue) Terekhov, Sergei............................ 2643 (J1, Mon) Terryn, Herman.............................. 2333 (F4, Tue) Teschke, Omar......192 (A2, Wed), 193 (A2, Wed) Teugels, Lieve...............................2368 (F5, Mon) Tevar, Amul....................................214 (A3, Mon) Tezcan, Deniz.................................2787 (J4, Wed) Tezel, Ahmet............................... 1166 (B10, Thu) Tezuka, Tsutomu..........................2234 (E12, Tue) Thackeray, Michael.........................395 (B2, Tue), ............................... 807 (B8, Tue), 819 (B8, Tue), ............................909 (B9, Tue), 958 (B10, Mon), .....................................................1017 (B10, Tue) Thaler, Alexander............................537 (B3, Wed) Thampan, Tony............................1274 (B11, Tue) Thangadurai, Venkataraman..........723 (B6, Wed), ........................................................2697 (J2, Tue) Thanigaivelan, Thirumal..............2237 (E12, Tue) Thapa, Resham................................2837 (J6, Tue) Theil, Simon................................1137 (B10, Wed) Thelen, Jacob......... 118 (A1, Tue), 1132 (B10, Wed) Thiele, Philipp.................................498 (B2, Wed) Thieme, Sören................................ 358 (B2, Mon) Thierry, Dominique...................... 1752 (D2, Thu), ...................................................... 1753 (D2, Thu) Thimsen, Elijah..............................1871 (E2, Thu) Thodla, Ramgopal....................... 1719 (D1, Wed), .....................................................1800 (D5, Mon) Thomas, Colin...............................2303 (F3, Mon) Thomas, Sobi..............................1277 (B11, Tue), .....................................................1280 (B11, Tue) Thomberg, Thomas....................... 604 (B5, Mon), ..............................610 (B5, Mon), 662 (B5, Wed) Thompson, Levi..............................616 (B5, Tue), ...................................................... 2541 (I3, Mon) Thompson, Travis...........................437 (B2, Wed) Thomsen, Ed...............................1658 (B12, Tue), ....................... 1659 (B12, Tue), 1660 (B12, Tue), ....................................................1680 (B12, Wed) Thomson, Mark............................ 1748 (D2, Wed) Thorne, John................................. 1232 (B10, Fri) Thornton, Katsuyo.........................575 (B4, Wed), ........................................................830 (B8, Wed) Thrun, Lora................................. 1176 (B10, Thu) Thundat, Thomas...........................2788 (J4, Wed)

Tian, He........................................ 1956 (E4, Mon) Tian, Huajun.................................1072 (B10, Tue) Tian, Juan...................................... 1638 (B11, Fri) Tian, Yuan......................................2363 (F4, Thu) Ticianelli, Edson......................... 1556 (B11, Thu) Tiedemann, William.....................1064 (B10, Tue) Tighe, Chris........ 2299 (F2, Thu), 2375 (F5, Mon) Tighe, Sean.....................................991 (B10, Tue) Tillack, Bernd............................. 2221 (E12, Mon) Tilmans, Harrie............................. 2646 (J1, Mon) Tilmant, Pascal.......... 619 (B5, Tue), 1875 (E2, Thu) Timoshevskii, Vladimir..................584 (B4, Wed) Ting, Yu-Chien.................................. 25 (A1, Tue) Tiwari, Chandra.............................2123 (E8, Tue) Tiwari, Shruti................................ 1764 (D3, Tue) To, Loan..........................................2685 (J2, Tue) Tobe, Tsubasa..................................2676 (J1, Tue) Tobe, Tsubasa.................................2362 (F4, Thu) Toda, Eiji........................................2284 (F2, Thu) Toda, Kenji................................... 2708 (J3, Mon), ............................ 2711 (J3, Mon), 2752 (J3, Wed) Toda, Masanari................................654 (B5, Wed) Todi, Vinit....................................... 138 (A1, Tue) Todo, Ryosuke.................................. 95 (A1, Tue) Todoroki, Naoto..........................1348 (B11, Tue), ...................................................... 2273 (F2, Wed) Toeller, Michael..........................2179 (E10, Wed) Tohji, Kazuyuki................................ 17 (A1, Tue), ...................................18 (A1, Tue), 19 (A1, Tue), ...................................20 (A1, Tue), 21 (A1, Tue), ...................................22 (A1, Tue), 23 (A1, Tue), ....................................31 (A1, Tue), 32 (A1, Tue) Tohjoh, Masayuki........................ 1710 (D1, Wed) Tokarev, Alexander.....................1411 (B11, Wed) Tokei, Zsolt.................................. 2057 (E7, Mon) Tokranov, Anton...........905 (B9, Tue), 918 (B9, Tue) Tokuda, Yomei............................ 2419 (G2, Wed), ............................ 2426 (G2, Wed), 2706 (J2, Tue) Tokumasu, Takashi......................1255 (B11, Sun), ....................... 1257 (B11, Sun), 1285 (B11, Tue), ...................... 1475 (B11, Wed), 1481 (B11, Wed) Toledano-Luque, Maria.............. 2140 (E10, Mon) Toleuova, Aliya...............................782 (B7, Wed) Tomar, Maharaj............................1037 (B10, Tue) Tomcsi, Michael..........................1135 (B10, Wed) Tominaga, Junji..............................2024 (E5, Thu) Tomioka, Katsuhiro.................... 2150 (E10, Mon) Tomita, Hiroshi.............................. 2118 (E8, Tue) Tomiyasu, Joji.............................1253 (B11, Sun), ....................................................1420 (B11, Wed) Tompkins, R...................................1917 (E3, Tue) Tomson, Neil................................. 2608 (I4, Mon) Toney, Michael............................1394 (B11, Wed) Tong, Fei.........................................2837 (J6, Tue) Tong, William...............................1858 (E2, Wed) Tong, Xiaodong................................... 6 (A1, Tue) Tong, YuYe..................................1447 (B11, Wed) Tong, Zhou.............2821 (J6, Tue), 2824 (J6, Tue) Tongay, Sefaattin............................1972 (E4, Tue) Tonoike, Takeshi.........................1458 (B11, Wed) Tonti, Dino......................................474 (B2, Wed) Tõnurist, Kerli................................ 604 (B5, Mon) Tooming, Tauno............................. 610 (B5, Mon) Topa, Vasile.................................. 1837 (D5, Wed) Topalov, Angel.............................1354 (B11, Tue) Toriumi, Akira.............................2227 (E12, Tue), ....................................................2249 (E12, Wed) Torres Bautista, Blanca...................2689 (J2, Tue) Tortet, Laurence..............................460 (B2, Wed) Tortorich, Ryan...............................2765 (J4, Tue) Toshima, Takayuki......................... 2117 (E8, Tue) Totir, Dana.......................................646 (B5, Wed) Toumar, Alexandra......................... 365 (B2, Mon) Tournier, Dominique.....................1940 (E3, Wed) Toussaint, Gwenaėlle......................112 (A1, Tue), .............................. 469 (B2, Wed), 509 (B2, Wed)

Toyoda, Kenji...................................709 (B6, Tue) Toyoda, Masahiro.......................... 146 (A1, Tue), ....................................................1509 (B11, Wed) Tragl, Sonja....................................2750 (J3, Wed) Trahey, Lynn...................................810 (B8, Tue), ............................909 (B9, Tue), 956 (B10, Mon), .....................................................1028 (B10, Tue) Trahey, Lynn....................................395 (B2, Tue) Trainham, James..............................705 (B6, Tue) Tran, Dung.......................................567 (B4, Tue) Tran, Hoang....................................2659 (J1, Tue) Tran, Man...................................1474 (B11, Wed), .........................1607 (B11, Thu), 1713 (D1, Wed) Tran, Nhan..................................1474 (B11, Wed) Tran, Tinh.......................................1954 (E3, Thu) Tran, Trung................................... 1713 (D1, Wed) Travis, Jonathan........................... 954 (B10, Mon) Trease, Nicole................................. 674 (B5, Thu) Trefz, Tyler..................................1501 (B11, Wed) Treger, Jack.....................................832 (B8, Wed) Trembacki, Brad............................. 251 (B1, Mon) Tribollet, Bernard......................... 1807 (D5, Tue), ..............................2683 (J2, Tue), 2689 (J2, Tue), ........................................................2690 (J2, Tue) Trigub, Gregory..........................1421 (B11, Wed) Trinh, Phong.....................................290 (B1, Tue) Triulzi, Francesco........................1026 (B10, Tue), ......................................................2254 (F2, Mon) Trlica, Chris...................................2796 (J4, Wed) Trotsenko, Oleksandr..................1411 (B11, Wed) Trottier, Julie..................................853 (B8, Wed), ............................. 854 (B8, Wed), 855 (B8, Wed), .............................. 863 (B8, Wed), 864 (B8, Wed) Trouilloud, P...................................2018 (E5, Thu) Trudel, Simon.................................2288 (F2, Thu) Trulove, Paul.................................... 53 (A1, Tue), ............................... 624 (B5, Tue), 669 (B5, Wed) Trzeciak, Tomasz.............................385 (B2, Tue) Trzeciakiewicz, Hanna....................2702 (J2, Tue) Tsai, Fang-Chang........................... 198 (A2, Wed) Tsai, Ho-Cheng...........................1439 (B11, Wed) Tsai, Hung-Wei..............................1971 (E4, Tue) Tsai, Kai........................................ 2278 (F2, Wed) Tsai, Li-Duan................................. 374 (B2, Mon) Tsai, Lung-Chang........................... 198 (A2, Wed) Tsai, Wan Yu.................................. 607 (B5, Mon) Tsai, Wei-Kang............................... 2115 (E8, Tue) Tschuncky, Peter.............................2681 (J1, Tue) Tsehay, Johannes.............................2736 (J3, Tue) Tsiouvaras, Nikolaos.......................429 (B2, Wed) Tsitron, Julia.................................. 2632 (J1, Mon) Tsoi, Stanislav................................. 2524 (I2, Tue) Tsoufis, Theodoros....................... 2441 (H1, Tue), ...................................................... 2452 (H1, Tue) Tsubouchi, Shigetaka........................ 893 (B8, Fri) Tsuchiya, Hiroaki......................... 1828 (D5, Wed) Tsuchiya, Toshiaki......................2245 (E12, Wed) Tsuda, Kazuto............................... 1623 (B11, Fri) Tsuda, Takashi................................... 14 (A1, Tue) Tsuge, Hiroshi.............................. 1892 (E3, Mon) Tsui, Kwong-Hoi............................1969 (E4, Tue) Tsui, Lok-kun.................................2291 (F2, Thu) Tsuji, Etsushi.................................. 183 (A2, Wed) Tsuji, Yoichiro............................... 1634 (B11, Fri) Tsujiguchi, Takuya........................ 1650 (B11, Fri) Tsujikawa, Tomonobu..................1075 (B10, Tue) Tsujimura, Seiya.........68 (A1, Tue), 71 (A1, Tue) Tsujiwaki, Wataru............................. 85 (A1, Tue) Tsukamoto, Takahiro.....................1994 (E5, Wed) Tsukatsune, Takuya....................1503 (B11, Wed), ...................................................... 1631 (B11, Fri) Tsumuji, Futo................................ 2644 (J1, Mon) Tsumura, Tomoki........................... 146 (A1, Tue), ....................................................1509 (B11, Wed) Tsunashima, Katsuhiko................... 2493 (I1, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

281


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Tsushima, Shohji.............................396 (B2, Tue), ........................1295 (B11, Tue), 1298 (B11, Tue), ........................1325 (B11, Tue), 1346 (B11, Tue), .......................1361 (B11, Tue), 1458 (B11, Wed), .....................................................1664 (B12, Tue) Tsutsui, Kazuo..............................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Tsuyuki, Yasuhiro...........................2296 (F2, Thu) Tübke, Jens.................................1358 (B11, Tue), ............................1657 (B11, Fri), 1767 (D3, Tue) Tuci, Giulia.................................... 2267 (F2, Tue) Tucker, Michael..........................1679 (B12, Wed) Tulloch, John......... 783 (B7, Wed), 784 (B7, Wed) Tuokedaerhan, Kamale.............. 2143 (E10, Mon) Turek, Thomas...........................1422 (B11, Wed), ...................................................... 1652 (B11, Fri) Turley, Forbes..............................1312 (B11, Tue) Turner, John................................. 2533 (I3, Mon), ............................. 2543 (I3, Mon), 2551 (I3, Tue) Turner, John....................................572 (B4, Tue), ........................... 1210 (B10, Fri), 1229 (B10, Fri) Turner, Stuart...................................907 (B9, Tue) Tutuc, Emanuel.......................... 2145 (E10, Mon) Tutunjyan, Nina.............................2787 (J4, Wed) Tuxen, Anders................................. 170 (A2, Tue) Twu, Nancy..................................... 523 (B2, Thu) Tydén, Mats................................... 1731 (D1, Thu) Tyliszczak, Tolek............................777 (B7, Tue), ........................................................829 (B8, Wed) Tylka, Magdalena.......................... 2603 (I4, Mon) Tylus, Urszula............................ 1597 (B11, Thu), ...................................................... 1639 (B11, Fri) Tzedakis, Theo............................... 235 (A3, Wed)

Ülgüdür, Nilüfer.............................2353 (F4, Thu) Ulsh, Michael...............................1327 (B11, Tue) Ulu, Fulya..................................... 2343 (F4, Wed) Umar, Salim.................................... 2546 (I3, Tue) Umeda, Takahide....................... 2142 (E10, Mon) Unal, Ugur.................................... 2418 (G2, Wed) Unocic, Raymond........................1012 (B10, Tue) Unoki, Shohei................................... 27 (A1, Tue) Uosaki, K........................................409 (B2, Tue), .............................. 2526 (I2, Tue), 2622 (I5, Tue), ........................................................ 2623 (I5, Tue) Upham, David..............................1676 (B12, Tue) Urban, Jeffrey..............................1095 (B10, Tue) Urchaga, Patrick.........................1441 (B11, Wed), ...................... 1442 (B11, Wed), 1444 (B11, Wed) Uruchurtu, Jorge.......................... 1822 (D5, Wed) Uryu, Hazuki...............................1538 (B11, Wed) Usgaocar, Ashwin........................1024 (B10, Tue) Ushakov, Sergey...............................768 (B7, Tue) Ushio, Shohji............................... 1892 (E3, Mon) Ushirogata, Keisuke........................594 (B4, Wed) Usrey, Monica............................. 1184 (B10, Thu) Ustarroz, Jon.................................. 2333 (F4, Tue) Usui, Akira................................... 1895 (E3, Mon) Usui, Hiroyuki............................. 1113 (B10, Tue) Usui, Shou.......................................2666 (J1, Tue) Uzunlar, Erdal................................2355 (F4, Thu)

Vanpaemel, Johannes....................2372 (F5, Mon) Vanżsek, Petr...................................2684 (J2, Tue) Varadan, Vijay............................... 2753 (J4, Mon) Varcoe, John.................................... 226 (A3, Tue) Vargas-Gutierrez, G......................2315 (F3, Mon) Varia, Jeet..................................... 1839 (D5, Wed) Variam, Naushad..........................2237 (E12, Tue) Vasiljevic, Natasa.......................... 2330 (F4, Tue), ...................................................... 2348 (F4, Wed) Vasquez, Joquel............................... 143 (A1, Tue) Vasudevan, S...... 2410 (G1, Wed), 2591 (I3, Wed) Vatamanu, Jenel...............................629 (B5, Tue) Vaughey, John................................ 511 (B2, Thu), .............................809 (B8, Tue), 956 (B10, Mon) Vazquez-Reina, Rafeal................1133 (B10, Wed) Vedarajan, Raman...................... 1163 (B10, Thu), .......................................................2595 (I3, Wed) Vedharathinam, Vedasri............... 2404 (G1, Wed) Vediappan, Kumaran.......................271 (B1, Tue), .............................. 863 (B8, Wed), 864 (B8, Wed) Vega, Jose............548 (B3, Wed), 977 (B10, Mon) Vegge, Tejs......................................412 (B2, Tue), ............................... 473 (B2, Wed), 704 (B6, Tue) Veith, Gabriel.................................419 (B2, Wed), ..............................446 (B2, Wed), 522 (B2, Thu), ........................... 524 (B2, Thu), 1012 (B10, Tue), .....................................................1665 (B12, Tue) Vejar, Nelson................................ 1721 (D1, Wed) Velasco-Velez, Juan......................... 2486 (I1, Tue) Velazquez, Jesus.............................2571 (I3, Wed) Veleva, Lucien..............................1778 (D4, Mon) Vélez, Carlos............................... 1605 (B11, Thu) Velez, Patricio................................ 2323 (F4, Tue) Velez, Victor.......130 (A1, Tue), 2147 (E10, Mon) Velichenko, Alexander................. 2423 (G2, Wed) Velikokhatnyi, Oleg.........................289 (B1, Tue) Velmurugan, Jeyavel......................828 (B8, Wed), ........................................................924 (B9, Wed) Veloso, Anabela...........................2246 (E12, Wed) Velupillai, Shereen..........................2736 (J3, Tue) Venegas, Ricardo............................. 134 (A1, Tue) Venkataraman, Ramki..................... 348 (B1, Thu) Venkatkarthick, R...........................2591 (I3, Wed) Venstrom, Luke...............................786 (B7, Wed) Verdaguer-Casadevall, Arnau..........712 (B6, Tue) Verde, Michael............................1686 (B12, Wed) Verde Gomez, Ysmael.................... 136 (A1, Tue), ....................................................1523 (B11, Wed) Vereecke, Guy............................... 2115 (E8, Tue), ....................................................... 2116 (E8, Tue) Vereecken, Philippe.......................1874 (E2, Thu), ...........................2067 (E7, Tue), 2089 (E7, Wed), ............................2372 (F5, Mon), 2391 (F5, Tue) Verheijen, Marcel..........................1877 (E2, Thu), .......................................................1882 (E2, Thu) Vernstrom, George.......................1279 (B11, Tue) Vesborg, Peter................................. 2561 (I3, Tue) Vetter, Jordan..............................1159 (B10, Wed) Vezzł, Keti.......................................461 (B2, Wed) Viana, Bruno...............................2198 (E11, Mon) Vicenzo, Antonello...................... 1720 (D1, Wed), ...................................................... 2447 (H1, Tue) Vie, Preben.................................. 1190 (B10, Thu) Vignal, Vincent...............................2350 (F4, Thu) Vijapur, Santosh.............................. 152 (A2, Tue) Vijayakumar, Murugesan............1680 (B12, Wed) Vikkisk, Merilin..........................1381 (B11, Wed) Vila-Comamala, Joan.......................778 (B7, Tue) Villarreal, Marcos.......................... 2323 (F4, Tue) Villevieille, Claire........................... 885 (B8, Thu) Vimalanandan, Ashokanand.......... 1753 (D2, Thu) Vinassa, Jean-Michel.................. 1191 (B10, Thu) Vinatier, Philippe............................469 (B2, Wed) Vinet, Maud................................ 2218 (E12, Mon) Vinodgopal, Kizhanipuram..........2431 (H1, Mon) Virji, Maheboob...........................1337 (B11, Tue)

U

Uchida, Hiroyuki.........................1341 (B11, Tue), ..................... 1504 (B11, Wed), 1505 (B11, Wed), ..................... 1514 (B11, Wed), 1519 (B11, Wed), ...................................................... 1634 (B11, Fri) Uchida, Makoto...........................1341 (B11, Tue), ..................... 1504 (B11, Wed), 1505 (B11, Wed), ..................... 1514 (B11, Wed), 1519 (B11, Wed), .......................... 1624 (B11, Fri), 1625 (B11, Fri), ........................... 1626 (B11, Fri), 1634 (B11, Fri) Uchida, Takafumi....................... 2219 (E12, Mon) Uchida, Taro................................1451 (B11, Wed) Uchimoto, Yoshiharu....................... 61 (A1, Tue), ...................................63 (A1, Tue), 65 (A1, Tue), ................................73 (A1, Tue), 269 (B1, Mon), ............................. 332 (B1, Wed), 434 (B2, Wed), ............................. 463 (B2, Wed), 464 (B2, Wed), ............................. 494 (B2, Wed), 499 (B2, Wed), .............................. 562 (B4, Tue), 824 (B8, Wed), ............................. 835 (B8, Wed), 858 (B8, Wed), .......................... 923 (B9, Wed), 1066 (B10, Tue), ...................... 1403 (B11, Wed), 1513 (B11, Wed) Uchiyama, Sari.................................. 96 (A1, Tue) Uddin, Jasim.......... 413 (B2, Tue), 587 (B4, Wed) Uddin, Md. Aman.......................1333 (B11, Tue), .....................................................1334 (B11, Tue) Ueda, Hirokazu.............................. 1911 (E3, Tue) Ueda, Wataru...................................489 (B2, Wed) Ueda, Yoshikatsu......................... 2419 (G2, Wed), ............................ 2426 (G2, Wed), 2706 (J2, Tue) Uehara, Naoki............................1490 (B11, Wed), .................................................... 1562 (B11, Thu) Uematsu, Kazuyoshi.................... 2708 (J3, Mon), ............................ 2711 (J3, Mon), 2752 (J3, Wed) Uematsu, Susumu..........................2584 (I3, Wed) Uemura, Shinobu............................ 2479 (I1, Tue) Uemura, Suguru...............................396 (B2, Tue) Ueno, Naofumi.............................2228 (E12, Tue) Uhnevionak, Viktoryia................ 1899 (E3, Mon), ..................................................... 1900 (E3, Mon) Ui, Koichi..................................... 969 (B10, Mon) 282

V

Vaas, Ingrid.................................... 604 (B5, Mon) Vadehra, Geeta............................... 268 (B1, Mon) Vahidi, Nasim..................................2769 (J4, Tue) Vaiciuniene, Jurate......................1506 (B11, Wed) Vairavapandian, Deepa................. 2280 (F2, Wed) Valdez, Thomas...........................1507 (B11, Wed) Valenzuela-Muńiz, Ana.................. 136 (A1, Tue), ....................................................1523 (B11, Wed) Valery, Alexia...................................391 (B2, Tue) Väli, Ronald....................................633 (B5, Wed) Vallance, Michael............................ 347 (B1, Thu) Valov, Ilia.....................................2160 (E10, Tue) Valvo, Mario........943 (B9, Wed), 2282 (F2, Wed) van De Krol, Roel............................707 (B6, Tue) Van den Bossche, Peter..................668 (B5, Wed), ........................ 1169 (B10, Thu), 1222 (B10, Fri), ........................... 1220 (B10, Fri), 1224 (B10, Fri) van den Broek, Bas.....................2164 (E10, Tue), .....................................................2165 (E10, Tue) Van Den Daele, William............ 2215 (E12, Mon) van der Straten, O.........................1883 (E2, Thu), .......................................................2075 (E7, Tue) van der Veen, Marleen..................2372 (F5, Mon) van der Ven, Anton.......................... 875 (B8, Thu) van der Vliet, Dennis...................1350 (B11, Tue) van Duin, Adri C. T..........................566 (B4, Tue) van Eisden, Jobert.......................... 2386 (F5, Tue) Van Elshocht, S.............................1876 (E2, Thu), .......................................................1881 (E2, Thu) Van Havenbergh, Kristof.................907 (B9, Tue) Van Meervelt, Luc......................... 2602 (I4, Mon) Van Mierlo, Joeri........................... 1220 (B10, Fri) Van Mierlo, Joeri............................668 (B5, Wed), ........................ 1169 (B10, Thu), 1222 (B10, Fri), ...................................................... 1224 (B10, Fri) Van Overmeere, Quentin............... 1815 (D5, Tue) van Schaijk, Rob.............................2839 (J6, Tue) Van Staden, Jacobus.......................2780 (J4, Tue), ........................................................2812 (J6, Tue) Van Tendeloo, Gustaaf.....................907 (B9, Tue) Van Zee, John..............................1260 (B11, Sun), ........................1331 (B11, Tue), 1335 (B11, Tue), .........................1336 (B11, Tue), 1345 (B11, Tue) Vandervorst, W.............................2158 (E10, Tue) Vandiver, Melissa........................ 1570 (B11, Thu) VanDrunen, Julia............................. 157 (A2, Tue) Vanis, Jan..................................... 2212 (E11, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Virkar, Anil..................................... 751 (B6, Thu), .............................. 788 (B7, Wed), 789 (B7, Wed) Virtanen, Sannakaisa..................... 1842 (D6, Tue) Visco, Vincent.............................1135 (B10, Wed) Visser, Jaco......................................2696 (J2, Tue) Viste, Mark.......................................627 (B5, Tue) Viswanathan, Venkatasubramanian........................ ....................................................1437 (B11, Wed) Vivier, Vincent.......... 1807 (D5, Tue), 2683 (J2, Tue) Vizza, Francesco............................733 (B6, Wed), .........................1531 (B11, Wed), 2328 (F4, Tue), ..................................................... 2403 (G1, Wed) Vlad, Alexandru...........................2430 (H1, Mon) Vlaic, Codruta.............................. 976 (B10, Mon) Vodyanoy, Vitaly........2831 (J6, Tue), 2832 (J6, Tue) Vogel, Alexandra..............................769 (B7, Tue) Vogel, Dirk.......................................769 (B7, Tue) Vogl, Ulrike......................................902 (B9, Tue) Vogt, Thomas................................ 2714 (J3, Mon) Voitic, Gernot..................................537 (B3, Wed) Volkov, Alexander..........................2830 (J6, Tue), ........................................................2833 (J6, Tue) von Miller, Victor.............................911 (B9, Tue) Vontobel, Peter.............................1291 (B11, Tue) Vosch, Tom......................................472 (B2, Wed) Voth, Gregory...............................1309 (B11, Tue) Vu Thi, Hong Phuong................. 1607 (B11, Thu) Vukmirovic, Miomir...................1405 (B11, Wed) Vullum-Bruer, Fride.......................857 (B8, Wed), .................................................... 1190 (B10, Thu) Vżprachtickż, Drahomķr................2723 (J3, Tue), ........................................................2724 (J3, Tue)

Wang, Chen-Hao............................ 606 (B5, Mon) Wang, Chiu-yen........................... 2210 (E11, Tue) Wang, Chongmin............................399 (B2, Tue), .......................................................984 (B10, Tue) Wang, Chun Chieh.......................... 682 (B5, Thu) Wang, Chunmei..........................1510 (B11, Wed), ...................................................... 1644 (B11, Fri) Wang, Chunsheng....................... 1201 (B10, Thu) Wang, Dan............. 152 (A2, Tue), 1966 (E4, Tue) Wang, Debin................................ 1956 (E4, Mon) Wang, Dong........ 2232 (E12, Tue), 2241 (E12, Wed) Wang, Donghai...............................282 (B1, Tue), .............................360 (B2, Mon), 988 (B10, Tue) Wang, Dunwei............................... 2540 (I3, Mon) Wang, Francis..............................1033 (B10, Tue) Wang, Fu-Ming.. 938 (B9, Wed), 1071 (B10, Tue) Wang, Geon....................................2070 (E7, Tue) Wang, George..............................2199 (E11, Mon) Wang, Gongming..........................2304 (F3, Mon) Wang, Guilei.................................. 1890 (E2, Fri), ........................2156 (E10, Tue), 2240 (E12, Wed) Wang, Guoxiu.................................660 (B5, Wed) Wang, Hailin............................... 1559 (B11, Thu) Wang, Hao....................................... 674 (B5, Thu) Wang, Heli............. 2550 (I3, Tue), 2551 (I3, Tue) Wang, Hsin-Ping.......................... 1958 (E4, Mon) Wang, Hsin-Wei........................... 2061 (E7, Mon) Wang, Huaiyou............................... 2492 (I1, Tue) Wang, Huanhuan...........................1938 (E3, Wed) Wang, Hui...................................... 206 (A2, Wed) Wang, Jer-Chyi.............................. 2633 (J1, Mon) Wang, Jiajun.................................. 261 (B1, Mon), ........................1173 (B10, Thu), 1174 (B10, Thu) Wang, Jiarui.................................... 160 (A2, Tue) Wang, Jin-yun................................. 348 (B1, Thu) Wang, Jing......................................... 72 (A1, Tue) Wang, Jingjing............................... 2114 (E8, Tue) Wang, Jiulin.................................... 530 (B2, Thu) Wang, John.................................... 1213 (B10, Fri) Wang, Jun...................................... 261 (B1, Mon), ...........................765 (B6, Thu), 1173 (B10, Thu), .................................................... 1174 (B10, Thu) Wang, Junhua..........120 (A1, Tue), 1571 (B11, Thu) Wang, Kai-Sheng............................2673 (J1, Tue) Wang, Lei.........................................780 (B7, Tue) Wang, Liang................................1471 (B11, Wed) Wang, Lianqin............................1531 (B11, Wed), ............................ 2328 (F4, Tue), 2339 (F4, Tue), ..................................................... 2403 (G1, Wed) Wang, Lidong................................ 2544 (I3, Mon) Wang, Lihui................................. 1572 (B11, Thu) Wang, Ming......................................... 6 (A1, Tue) Wang, Mingsheng..........................2750 (J3, Wed) Wang, Ou........................................2838 (J6, Tue) Wang, Pen-Cheng..........................2033 (E6, Tue) Wang, Peng.................................... 2262 (F2, Tue) Wang, Quan......... 1708 (D1, Wed), 2669 (J1, Tue) Wang, Rainey..............................1423 (B11, Wed) Wang, S.........................................1993 (E5, Wed) Wang, Shing-Ru........................... 2056 (E7, Mon) Wang, Siwei.................................... 760 (B6, Thu) Wang, Steve.....................................778 (B7, Tue) Wang, Szu-Yu................................ 196 (A2, Wed) Wang, Tianming............................. 187 (A2, Wed) Wang, Tsing-Hai............................2590 (I3, Wed) Wang, Victor...................................2696 (J2, Tue) Wang, Wei.......................................399 (B2, Tue), .......................... 422 (B2, Wed), 1658 (B12, Tue), ....................... 1659 (B12, Tue), 1661 (B12, Tue), ...................... 1680 (B12, Wed), 1691 (B12, Wed) Wang, Wei-Ning..............................728 (B6, Wed) Wang, Wenwu..............................2156 (E10, Tue) Wang, Xiao-Liang........................1018 (B10, Tue) Wang, Xiaodong......................... 1599 (B11, Thu) Wang, Xiaofeng..........................1332 (B11, Tue), .........................1333 (B11, Tue), 1334 (B11, Tue)

Wang, Xiaohua................................ 2492 (I1, Tue) Wang, Xiaolei.........2109 (E8, Tue), 2156 (E10, Tue) Wang, Xiaoming........................1403 (B11, Wed), ....................................................1513 (B11, Wed) Wang, Xiaoping..........................1400 (B11, Wed) Wang, Xin.....................7 (A1, Tue), 86 (A1, Tue) Wang, Xiqing.................................. 233 (A3, Tue) Wang, Ye......................................1365 (B11, Tue) Wang, Yeong-Her..........................1848 (E1, Wed) Wang, Yeong-Her..........................1847 (E1, Wed) Wang, Yi-Chung............................1971 (E4, Tue), ......................................................1981 (E4, Wed) Wang, Ying................................... 959 (B10, Mon) Wang, Yinmin.................................647 (B5, Wed) Wang, Yongjie.............................1130 (B10, Wed) Wang, Yu-Lin..............................2194 (E11, Mon) Wang, Zhichao.................................701 (B6, Tue) Wang, Zhihui...............................1105 (B10, Tue), ....................................................1128 (B10, Wed) Wang, Zhongqi............................1524 (B11, Wed) Ward, Donald..................................470 (B2, Wed) Ward, P. J...................................... 1908 (E3, Mon) Ward, Tim................................... 1618 (B11, Thu) Wardle, Brian..................................666 (B5, Wed) Warner, Marvin............................. 2758 (J4, Mon) Warren, Jaci................................... 1759 (D2, Thu) Waser, Rainer...............................2160 (E10, Tue) Washe, Alemayehu..........................2664 (J1, Tue) Washida, Daisuke.............................817 (B8, Tue) Watanabe, Akio................................. 51 (A1, Tue) Watanabe, Hisashi........................ 969 (B10, Mon) Watanabe, Kinuyo........................ 1896 (E3, Mon) Watanabe, Masahiro....................1261 (B11, Sun), .......................1341 (B11, Tue), 1478 (B11, Wed), ..................... 1504 (B11, Wed), 1505 (B11, Wed), ..................... 1514 (B11, Wed), 1519 (B11, Wed), .......................... 1624 (B11, Fri), 1625 (B11, Fri), ........................... 1626 (B11, Fri), 1634 (B11, Fri) Watanabe, Masayoshi.................1126 (B10, Wed) Watanabe, Mitsuhiro......................... 33 (A1, Tue) Watanabe, Satoru............................438 (B2, Wed) Watanabe, Shin........................... 1569 (B11, Thu) Watanabe, Tsukasa......................... 2117 (E8, Tue) Watanabe, Yuta............................... 2264 (F2, Tue) Watanabe, Yuto...............................851 (B8, Wed) Watkins, Tylan............................... 2599 (I4, Mon) Watson, Cody.............................. 1552 (B11, Thu) Watson, Mark..............................1435 (B11, Wed) Way, Brian..................................... 1211 (B10, Fri) Weatherford, Todd..........................1920 (E3, Tue) Weatherspoon, Mark.......................2694 (J2, Tue) Weaver, Brad..................................1920 (E3, Tue) Webb, Lauren...................................906 (B9, Tue) Weber, Adam......... 232 (A3, Tue), 727 (B6, Wed), ........................1283 (B11, Tue), 1292 (B11, Tue), ..................... 1406 (B11, Wed), 1415 (B11, Wed), ..................... 1421 (B11, Wed), 1432 (B11, Wed), ...................... 1476 (B11, Wed), 1675 (B12, Tue), ....................................................1679 (B12, Wed) Weber, André.................................... 896 (B8, Fri), .............................900 (B8, Fri), 1099 (B10, Tue), .......................1175 (B10, Thu), 1204 (B10, Thu), ...................................................... 1215 (B10, Fri) Webster, Richard.............4 (A1, Tue), 5 (A1, Tue) Weeman, William............................ 2523 (I2, Tue) Weerakoon, Kanchana....................2817 (J6, Tue) Wei, Alexander............................1136 (B10, Wed) Wei, Bingqing.................................645 (B5, Wed) Wei, Tzu Chien............................. 2279 (F2, Wed) Wei, Wei......................................1125 (B10, Wed) Wei, Xiaoliang...............................422 (B2, Wed), ....................... 1658 (B12, Tue), 1659 (B12, Tue), ...................... 1661 (B12, Tue), 1680 (B12, Wed), ....................................................1691 (B12, Wed) Wei, Yiying.....................................660 (B5, Wed) Weidinger, Inez................................711 (B6, Tue)

W

Wachsman, Eric..............................723 (B6, Wed) Wachtler, Mario............................1109 (B10, Tue) Wacquez, Romain...................... 2218 (E12, Mon) Wada, Ayumi....................................411 (B2, Tue) Wada, Kenji.................................. 1716 (D1, Wed) Wadayama, Toshimasa................1348 (B11, Tue), ...................................................... 2273 (F2, Wed) Wagner, Fredrick...........................1860 (E2, Wed) Wagner, Jakob..................................712 (B6, Tue) Wagner, Julian.................................537 (B3, Wed) Wagner, Nicholas............................ 883 (B8, Thu) Wagner, Norbert.........376 (B2, Mon), 410 (B2, Tue) Wagner, Peter..............................1318 (B11, Tue), ....................................................1372 (B11, Wed) Wagner, Robert.............................1858 (E2, Wed) Wainright, Jesse..............................297 (B1, Wed) Waite, Andrew..............................2237 (E12, Tue) Wajda, Cory............................... 2139 (E10, Mon) Wakabayashi, Hitoshi..................1851 (E1, Wed), .....................2143 (E10, Mon), 2148 (E10, Mon), ....................................................2191 (E10, Wed) Wakao, Toshiaki................................ 33 (A1, Tue) Waki, Keiko................................ 1565 (B11, Thu) Walczak, Karl.................................2586 (I3, Wed) Waldecker, James.........................1293 (B11, Tue) Walgama, Charuksha................... 2472 (I1, Mon), ........................................................ 2490 (I1, Tue) Walker, Amy.................................2369 (F5, Mon) Walker, Robert........ 772 (B7, Tue), 774 (B7, Tue) Walker, Wesley....... 413 (B2, Tue), 587 (B4, Wed) Wallace, James............................1423 (B11, Wed) Wallace, Jean.................................. 603 (B5, Mon) Wallace, Robert...............................2828 (J6, Tue) Wallon, Simon..............................1802 (D5, Mon) Waltar, Kay.................................1413 (B11, Wed) Walter, Jack..................................1677 (B12, Tue) Waluyo, Nurhadi.............................333 (B1, Wed) Wan, Qijin............ 2469 (I1, Mon), 2497 (I1, Tue) Wang, Bin.......................................541 (B3, Wed) Wang, Chao-Yang..........................538 (B3, Wed), ...................... 1268 (B11, Mon), 1456 (B11, Wed) Wang, Chen..........117 (A1, Tue), 1702 (D1, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

283


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Weidmann, Christoph.................. 978 (B10, Mon) Weidner, John................................... 24 (A1, Tue), .............................625 (B5, Tue), 1336 (B11, Tue) Weill, Franēois................................ 871 (B8, Thu) Weinhardt, Lothar........................... 2551 (I3, Tue) Weir, Michael......... 2548 (I3, Tue), 2551 (I3, Tue) Weiss, Michael..........900 (B8, Fri), 1175 (B10, Thu) Weissbach, Thomas.....................1473 (B11, Wed) Weissbecker, Vitali......................1371 (B11, Wed) Weissmann, Martin...................... 975 (B10, Mon) Weissmueller, Joerg.....................2433 (H1, Mon) Welch, Cynthia............................1390 (B11, Wed) Wen, Cheng-Yen...........................1982 (E4, Wed) Wen, J. G............. 810 (B8, Tue), 1017 (B10, Tue) Wen, Lei............. 1741 (D2, Wed), 2385 (F5, Tue) Wen, Wen....................................... 264 (B1, Mon) Wen, Yuan........................................285 (B1, Tue) Wendel, Christopher...................1685 (B12, Wed) Weng, Fang-Bor......................... 1550 (B11, Thu), .................................................... 1567 (B11, Thu) Weng, Guoming...........................1674 (B12, Tue) Weng, Tsu-Chien............................846 (B8, Wed), ...............................917 (B9, Tue), 2572 (I3, Wed) Weng, Wei....................................... 520 (B2, Thu) Weng, Yu-Ting...............................417 (B2, Wed), .............................. 620 (B5, Tue), 990 (B10, Tue) Wessel, Silvia.............................. 1554 (B11, Thu) West, Alan....................................... 347 (B1, Thu) West, Mark...................................... 170 (A2, Tue) West, Robert................................ 1184 (B10, Thu) West, Ryan......................................2688 (J2, Tue) West, William......... 600 (B5, Mon), 811 (B8, Tue) Westphal, Anne..............................2611 (I4, Mon) Wetstein, Matthew........................1858 (E2, Wed) Wetz, David........ 1218 (B10, Fri), 2471 (I1, Mon) Wetzel, Christian............................1949 (E3, Thu) Wheeler, Daniel............................. 2381 (F5, Tue) Wheeler, Dean........267 (B1, Mon), 285 (B1, Tue) Wheeler, Virginia........................ 1903 (E3, Mon), ..................................................... 1907 (E3, Mon) Whitacre, Jay...............................1684 (B12, Wed) Whitcanack, Larry.......................1135 (B10, Wed) White, Curtis................................... 1891 (E2, Fri) White, Emma..............................1159 (B10, Wed) White, Joseph..................................723 (B6, Wed) White, Preston.................................781 (B7, Wed) White, Ralph......................................1 (A0, Mon) Whitman, Stuart.............................. 680 (B5, Thu) Wiaderek, Kamilla........................ 255 (B1, Mon), ........................................................833 (B8, Wed) Wiberg, Gustav................................392 (B2, Tue) Wickman, Bjųrn...............................712 (B6, Tue) Widodo, Teguh............................. 1715 (D1, Wed) Wieczorek, Wieczorek.....................385 (B2, Tue) Wiegmann, Andreas.........................571 (B4, Tue) Wiesbauer, Harald..........................2074 (E7, Tue) Wietelmann, Ulrich.........................450 (B2, Wed) Wikiel, Hanna...............................2093 (E7, Wed) Wikiel, Kazimierz.........................2093 (E7, Wed) Wikle, Howard................................2844 (J6, Tue) Wilkening, Martin............................274 (B1, Tue) Williams, Adrian............................1950 (E3, Thu) Williams, Geraint......................... 1758 (D2, Thu), .......................... 1776 (D4, Mon), 1816 (D5, Tue) Williams, Krystaufeux.................. 1810 (D5, Tue) Williamson, Mark......................... 2603 (I4, Mon) Willis, Mark.................................... 2523 (I2, Tue) Willit, James.................................. 2603 (I4, Mon) Willmann, Patrick........................... 884 (B8, Thu) Wilson, Chris................................. 2111 (E8, Tue) Wilson, David..................................710 (B6, Tue) Wilson, Zachary.............................2355 (F4, Thu) Wiltsche, Helmar............................537 (B3, Wed) Winkler, Krzysztof........................ 2438 (H1, Tue) Winkler, Thomas.............................2661 (J1, Tue) Winter, Florian............................1123 (B10, Wed)

Winter, Martin...................................11 (A1, Tue), .............................310 (B1, Wed), 364 (B2, Mon), ............................. 450 (B2, Wed), 454 (B2, Wed), ............................. 508 (B2, Wed), 861 (B8, Wed), .................................. 891 (B8, Fri), 892 (B8, Fri), .................................894 (B8, Fri), 902 (B9, Tue), ..........................983 (B10, Mon), 995 (B10, Tue), ....................... 1119 (B10, Wed), 1180 (B10, Thu) Wippermann, Klaus....................1371 (B11, Wed) Wise, Anna.....................................2572 (I3, Wed) Witten, Thomas............................1309 (B11, Tue) Wittmaier, Dennis............................410 (B2, Tue) Wittman, Reed................................725 (B6, Wed) Wittstock, Gunther........................... 535 (B2, Fri), ...................................................... 2537 (I3, Mon) Witvrouw, Ann.............................. 2646 (J1, Mon) Wodarz, Siggi................................. 2389 (F5, Tue) Wohlfahrt-Mehrens, Margret.........428 (B2, Wed), ........................1109 (B10, Tue), 1137 (B10, Wed) Woias, Peter.................................. 2463 (I1, Mon) Wokaun, Alexander.....................1427 (B11, Wed) Woldemedhin, Michael................. 1762 (D2, Thu) Wolden, Colin................................. 168 (A2, Tue) Wolfenstine, Jeff............................437 (B2, Wed), ........................................................834 (B8, Wed) Wolverton, Chris.............................395 (B2, Tue), .............................. 568 (B4, Tue), 581 (B4, Wed), ....................................................1116 (B10, Wed) Won, Jaihyung.........2065 (E7, Tue), 2091 (E7, Wed) Won, SungBin.............................. 1700 (D1, Wed) Wong, Bryan..................................2030 (E6, Tue) Wong, Christopher.......................... 158 (A2, Tue) Wong, Dominica.........................1132 (B10, Wed) Wong, H.-S.....................................2022 (E5, Thu) Wong, Ka....................................1430 (B11, Wed) Wong, Ka Hung..........................1433 (B11, Wed) Wong, Man....................................1935 (E3, Wed) Wong, Raymond......................... 1565 (B11, Thu) Wong, Sallene............................... 2761 (J4, Mon) Woo, Chang-su............................ 967 (B10, Mon), .....................................................1004 (B10, Tue) Woo, Leta........................................2696 (J2, Tue) Woo, Sang-Kuk........................... 2424 (G2, Wed), ..................................................... 2425 (G2, Wed) Woo, Sang-Wook............................912 (B9, Tue), ........................................................946 (B9, Wed) Woo, Sungho..................................2048 (E6, Tue) Wood, Bingxi...............................2237 (E12, Tue) Wood, Brandon...........................2433 (H1, Mon), ............................... 2553 (I3, Tue), 2554 (I3, Tue) Wood, Kevin.............................. 1576 (B11, Thu), .................................................... 1603 (B11, Thu) Woodford, William..........................827 (B8, Wed) Woods, Jessica................................ 144 (A1, Tue) Workman, Michael........................ 1641 (B11, Fri) Worledge, D...................................2018 (E5, Thu) Worsley, Marcus.............................647 (B5, Wed), . .........................2433 (H1, Mon), 2434 (H1, Mon) Wouters, Daan.................................2839 (J6, Tue) Wouters, Jesse................................ 236 (A3, Wed) Wower, Iwona........2818 (J6, Tue), 2819 (J6, Tue) Wower, Jacek.................................2818 (J6, Tue), ...............................2819 (J6, Tue), 2820 (J6, Tue) Woytasik, Marion..........................2783 (J4, Wed), .......................................................2785 (J4, Wed) Wright, Lindsay............................ 2634 (J1, Mon) Wu, Chenghao................................. 2486 (I1, Tue) Wu, Chia-Hua................................ 2266 (F2, Tue) Wu, Chia-Tien.......196 (A2, Wed), 206 (A2, Wed) Wu, Ching-Chen............................2590 (I3, Wed) Wu, Dongjun.................................. 2326 (F4, Tue) Wu, Fangzhen...............................1938 (E3, Wed) Wu, Fei...........................................2289 (F2, Thu) Wu, Feng......................................1105 (B10, Tue)

Wu, Gang....................................1022 (B10, Tue), ....................... 1289 (B11, Tue), 1566 (B11, Thu), ...................................................... 1640 (B11, Fri) Wu, Hao.............................................. 6 (A1, Tue) Wu, Haoran.............. 84 (A1, Tue), 632 (B5, Wed) Wu, Hsing-Chen.............................2125 (E8, Tue) Wu, Hung-Chun........814 (B8, Tue), 895 (B8, Fri) Wu, J............................................2169 (E10, Tue) Wu, Jen-Wei................................... 208 (A2, Wed) Wu, Jingjie..................................... 694 (B6, Mon) Wu, Junqiao...................................1972 (E4, Tue) Wu, Junwei..................................1147 (B10, Wed) Wu, Liming.................................... 364 (B2, Mon) Wu, Linda.....................................1774 (D4, Mon) Wu, Marvin..................................2431 (H1, Mon) Wu, Mingyan...............................1105 (B10, Tue) Wu, Nae-Lih.................................. 374 (B2, Mon), .............................. 417 (B2, Wed), 620 (B5, Tue), .................................814 (B8, Tue), 895 (B8, Fri), .......................................................990 (B10, Tue) Wu, Nianqiang...............................724 (B6, Wed), ........................... 2569 (I3, Wed), 2639 (J1, Mon), ........................................................2827 (J6, Tue) Wu, Pu-Wei.................................... 156 (A2, Tue), ......................... 1439 (B11, Wed), 2450 (H1, Tue) Wu, Qingliu.....................................808 (B8, Tue), ............................826 (B8, Wed), 960 (B10, Mon) Wu, Shao-Ling....... 821 (B8, Tue), 2683 (J2, Tue) Wu, She Huang...........................1076 (B10, Tue), .....................................................1086 (B10, Tue) Wu, Shijie....................................... 191 (A2, Wed) Wu, Tianpin.....................................452 (B2, Wed) Wu, Xu.......................................... 1654 (B11, Fri) Wu, Yan........................................ 957 (B10, Mon) Wu, Ziyu...................................... 972 (B10, Mon) Wuerfl, Joachim.............................1910 (E3, Tue) Wujcik, Kevin............................... 1234 (B10, Fri) Wulfmeier, Hendrik....................1146 (B10, Wed) Wustoni, Shofarul...........................2672 (J1, Tue) Wycisk, Ryszard.........................1121 (B10, Wed), ........................1305 (B11, Tue), 1306 (B11, Tue), ........................1312 (B11, Tue), 1386 (B11, Wed) Wynne, Bob.................................1463 (B11, Wed)

284

X

Xi, Y............................................2192 (E11, Mon) Xia, Dahai....................................1795 (D5, Mon) Xia, Guofeng................................1022 (B10, Tue) Xia, Jiaxin.....................................2370 (F5, Mon) Xiang, Bin....................................1005 (B10, Tue) Xiang, Chengxiang........................727 (B6, Wed), .......................................................2566 (I3, Wed) Xiang, Jinjuan................................ 1890 (E2, Fri), ...........................2109 (E8, Tue), 2156 (E10, Tue) Xiang, Kai...................................... 255 (B1, Mon) Xiao, Bo........................................2000 (E5, Wed) Xiao, Guoliang................................ 760 (B6, Thu) Xiao, Jie.......................................1771 (D4, Mon) Xiao, Penghao.................................442 (B2, Wed) Xiao, Xingcheng.............................557 (B4, Tue), ............................... 905 (B9, Tue), 918 (B9, Tue), ....................... 1015 (B10, Tue), 1156 (B10, Wed) Xie, Dan....................................... 1956 (E4, Mon) Xie, Guoqiang................................. 169 (A2, Tue) Xie, Hong........................................2817 (J6, Tue) Xie, Jian......... 1408 (B11, Wed), 1612 (B11, Thu) Xie, Jing..........................................421 (B2, Wed) Xie, Ming.....................................1008 (B10, Tue) Xie, Rong-Jun................................2751 (J3, Wed) Xie, Tianyuan..............................1250 (B11, Sun), ....................... 1402 (B11, Wed), 1611 (B11, Thu) Xie, Wei......................................1692 (B12, Wed) Xie, Xingbin.................................1293 (B11, Tue) Xie, Zhong..................................1464 (B11, Wed) Xin, Feng-Xia..............................1018 (B10, Tue) Xin, Huolin......................................917 (B9, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Xin, Ying........................................... 42 (A1, Tue) Xing, Wenting................................ 255 (B1, Mon) Xing, Yangchuan............................475 (B2, Wed), ....................... 1448 (B11, Wed), 1602 (B11, Thu) Xiong, Hui (Claire).........................443 (B2, Wed) Xiong, Xiahua.............................. 1743 (D2, Wed) Xiong, Zhu......................................672 (B5, Wed) Xu, Chao.........................................939 (B9, Wed) Xu, Chen......................................... 886 (B8, Thu) Xu, Chunchuan........................... 1620 (B11, Thu) Xu, Gaobo....................................... 1890 (E2, Fri) Xu, Haiping.....................................666 (B5, Wed) Xu, Hui........................................1344 (B11, Tue), .....................................................1345 (B11, Tue) Xu, Jie.......................................... 2763 (J4, Mon), ...............................2811 (J6, Tue), 2828 (J6, Tue) Xu, Jing..........................................476 (B2, Wed), ..............................553 (B3, Wed), 1890 (E2, Fri), ..............................2109 (E8, Tue), 2478 (I1, Tue) Xu, Jun.............................................. 72 (A1, Tue) Xu, Kang................ 910 (B9, Tue), 915 (B9, Tue), ...................... 1133 (B10, Wed), 1134 (B10, Wed) Xu, Mengqing............................1138 (B10, Wed), ....................................................1141 (B10, Wed) Xu, Nansheng...........465 (B2, Wed), 533 (B2, Fri) Xu, Pang........ 1378 (B11, Wed), 1535 (B11, Wed) Xu, Qiang........... 1890 (E2, Fri), 2240 (E12, Wed) Xu, Qingmin...................................456 (B2, Wed) Xu, Rui.......................................... 354 (B2, Mon), ........................... 362 (B2, Mon), 961 (B10, Mon) Xu, Tiegang.....................................2836 (J6, Tue) Xu, Wanli.....................................1073 (B10, Tue) Xu, Weichen.................................1770 (D4, Mon) Xu, Wu................. 422 (B2, Wed), 425 (B2, Wed), .......................... 530 (B2, Thu), 1153 (B10, Wed), ....................................................... 2379 (F5, Tue) Xu, Xiaodong.................................1973 (E4, Tue) Xu, Xiuhui.......................................... 4 (A1, Tue) Xu, XiuMei.................................... 2115 (E8, Tue) Xu, Yiheng..................................2239 (E12, Wed) Xu, Yun........................................... 887 (B8, Thu) Xue, Simon..................................1033 (B10, Tue) Xue, W............................................2668 (J1, Tue) Xun, Shidi....................................1005 (B10, Tue)

Yamakawa, Shinya......................2245 (E12, Wed) Yamakawa, Shunsuke..................1253 (B11, Sun) Yamaki, Tetsuya..........................1310 (B11, Tue),

Yang, Moon..................................2159 (E10, Tue) Yang, Nianjun................................639 (B5, Wed), ............................. 698 (B6, Tue), 2469 (I1, Mon), ........................................................ 2497 (I1, Tue) Yang, Peidong............................2195 (E11, Mon), .............................2567 (I3, Wed), 2581 (I3, Wed) Yang, Peixia................................... 2262 (F2, Tue) Yang, Qing.......................................776 (B7, Tue) Yang, Suk.......................................... 76 (A1, Tue) Yang, Sun-Woo............................1038 (B10, Tue) Yang, Sunhye..................................651 (B5, Wed) Yang, Tae-Hyun......................... 1615 (B11, Thu), ...................................................... 1632 (B11, Fri) Yang, Tae-Youl.............................. 2542 (I3, Mon) Yang, Tao............ 1890 (E2, Fri) , 2109 (E8, Tue), ....................................................2240 (E12, Wed) Yang, Tieying................................. 264 (B1, Mon) Yang, Ting.......................................844 (B8, Wed) Yang, Wanli.......... 1207 (B10, Fri), 2551 (I3, Tue) Yang, Xiao.....................................2295 (F2, Thu) Yang, Xiao-Qing.............................406 (B2, Tue), .............................. 817 (B8, Tue), 843 (B8, Wed), ...............................872 (B8, Thu), 875 (B8, Thu), ............................934 (B9, Wed), 968 (B10, Mon) Yang, Xiaowei..............................1074 (B10, Tue) Yang, Xue-Lin..............................1027 (B10, Tue) Yang, Yao-Yue.............................1365 (B11, Tue), ...................................................... 2467 (I1, Mon) Yang, Yi........................................ 1956 (E4, Mon) Yang, Yuan......................................114 (A1, Tue), ..............................174 (A2, Wed), 293 (B1, Wed) Yang, Zhenzhen...... 395 (B2, Tue), 909 (B9, Tue) Yano, Daisaku................................ 2113 (E8, Tue) Yano, Kazuhisa.............................. 189 (A2, Wed) Yano, Takayuki............................ 1892 (E3, Mon) Yanson, Yuriy I............................. 2347 (F4, Wed), ...................................................... 2349 (F4, Wed) Yao, Hehua........................................ 56 (A1, Tue) Yao, Takeshi..................................... 60 (A1, Tue), .................................91 (A1, Tue), 147 (A1, Tue), ..................................................... 982 (B10, Mon) Yao, Ying......................................... 2492 (I1, Tue) Yariv, Ortal...................................... 526 (B2, Thu) Yarlagadda, Venkata.......................298 (B1, Wed), .....................................................1674 (B12, Tue) Yashiro, Hirokatsu....................... 1892 (E3, Mon) Yashiro, Hitoshi.......................... 1716 (D1, Wed), ..................................................... 1830 (D5, Wed) Yasin, Amrita.................................. 881 (B8, Thu) Yasuda, Kouji.................................2295 (F2, Thu) Yasui, Ryohei..................................463 (B2, Wed) Yasuzawa, Mikito...........................2773 (J4, Tue), .......................................................2804 (J4, Wed) Yatabe, Zenji............51 (A1, Tue), 178 (A2, Wed) Yatskiv, Roman.............................. 2319 (F3, Tue) Yau, Shueh..................................... 190 (A2, Wed) Ye, Hui........................................... 252 (B1, Mon) Ye, Jianchao....................................647 (B5, Wed) Ye, Jiping........1144 (B10, Wed), 1326 (B11, Tue) Ye, Peide..........2163 (E10, Tue), 2224 (E12, Tue) Ye, Siyu........... 1303 (B11, Tue), 1609 (B11, Thu) Ye, Tianchun................................... 1890 (E2, Fri) Ye, Yu-Ren.................................... 2633 (J1, Mon) Ye, Zong-Hao.................................2014 (E5, Thu) Yeager, Gary................................1374 (B11, Wed) Yeager, Matthew............................. 676 (B5, Thu) Yeh, Wei-Hsun.............................. 2642 (J1, Mon) Yen, Shi-Chern............................... 205 (A2, Wed) Yen, Yu-Ting.......1971 (E4, Tue), 1981 (E4, Wed) Yeo, Jae-seong............................1043 (B10, Tue), .....................................................1045 (B10, Tue) Yeon, Han-Wool.............................2084 (E7, Tue) Yeon, Kyeong-Ho.......................... 239 (A3, Wed) Yeon, Subin..................................1103 (B10, Tue) Yesil, Zerin......................................2741 (J3, Tue) Yesilyurt, Serhat..........................1393 (B11, Wed)

Y

Yabuki, Akinori.............................. 2268 (F2, Tue) Yabuta, Kahou..............................1075 (B10, Tue) Yabuuchi, Naoaki.......................... 363 (B2, Mon), ............................... 398 (B2, Tue), 558 (B4, Tue), ........................................................ 874 (B8, Thu) Yager, Kevin........1406 (B11, Wed), 2310 (F3, Mon) Yagi, Ichizo........... 43 (A1, Tue), 1299 (B11, Tue) Yagi, Shunsuke.........432 (B2, Wed), 436 (B2, Wed), .............................. 500 (B2, Wed), 582 (B4, Wed) Yagi, Yusuke............................... 1196 (B10, Thu) Yajima, Ayako............................... 1761 (D2, Thu) Yajima, Takeaki............................2227 (E12, Tue) Yakabe, Natsuki.............................. 139 (A1, Tue) Yakal-Kremski, Kyle...................... 765 (B6, Thu) Yakushijin, Tadayuki.....................1862 (E2, Wed) Yamada, Atsuo................................831 (B8, Wed) Yamada, Hidenori............................820 (B8, Tue) Yamada, Kazuki...........................1321 (B11, Tue) Yamada, Yasutaka.........................2090 (E7, Wed) Yamaguchi, Atsushi..................... 1895 (E3, Mon) Yamaguchi, Masao...................... 1569 (B11, Thu) Yamaguchi, Susumu....................1310 (B11, Tue), ..................................................... 1311 (B11, Tue) Yamaguchi, Takeo.......................1316 (B11, Tue), ........................ 1355 (B11, Tue), 1559 (B11, Thu) Yamaguchi, Takitaro.......................491 (B2, Wed) Yamaguchi, Tasuku.........................2665 (J1, Tue) Yamaguchi, Toshiaki....................1092 (B10, Tue) Yamaha, Takashi..........................2225 (E12, Tue) Yamaji, Michio..............................1862 (E2, Wed)

..................................................... 1311 (B11, Tue) Yamamoto, Atsushi.....................1420 (B11, Wed) Yamamoto, Junpei...........................734 (B6, Wed) Yamamoto, Kazuya......................1310 (B11, Tue) Yamamoto, Keisuke....................2232 (E12, Tue), ....................................................2241 (E12, Wed) Yamamoto, Kentaro......................... 61 (A1, Tue), ............................. 434 (B2, Wed), 494 (B2, Wed), ............................. 499 (B2, Wed), 824 (B8, Wed), ............................. 835 (B8, Wed), 858 (B8, Wed), ........................... 923 (B9, Wed), 1066 (B10, Tue) Yamamoto, Naoki.......................... 211 (A2, Wed) Yamamoto, Osamu...........................411 (B2, Tue) Yamamoto, Shota......................... 1828 (D5, Wed) Yamamoto, Shuhei.......... 87 (A1, Tue), 90 (A1, Tue) Yamamoto, Takayuki....................2257 (F2, Mon) Yamamoto, Tamotsu.......................438 (B2, Wed) Yamamoto, Yuji.......................... 2221 (E12, Mon) Yamanaka, Koji.............................. 2113 (E8, Tue) Yamanaka, Toshiro............................ 893 (B8, Fri) Yamano, Akihiro..........................1003 (B10, Tue) Yamasaki, Jun............................... 2644 (J1, Mon) Yamashige, Hisao.........................1066 (B10, Tue) Yamashita, Atsushi........................1994 (E5, Wed) Yamashita, Satoru.........................1862 (E2, Wed) Yamashita, Yuya..........................1519 (B11, Wed) Yamauchi, Hideo..........................1003 (B10, Tue) Yamauchi, Kazuto..........................1952 (E3, Thu) Yamaura, Shin-ichi.......................... 169 (A2, Tue) Yamazaki, Shin-ichi....................1508 (B11, Wed) Yan, Emily..................................1690 (B12, Wed) Yan, Jhih-Jyun................................2071 (E7, Tue) Yan, Jiang..........2109 (E8, Tue), 2240 (E12, Wed) Yan, Jiang........................................ 1890 (E2, Fri) Yan, Jingbo.............743 (B6, Wed), 762 (B6, Thu) Yan, Litao....................................1448 (B11, Wed) Yan, Qingyu.................................... 886 (B8, Thu) Yan, Yushan........ 120 (A1, Tue), 1309 (B11, Tue), ....................................................1367 (B11, Tue), ...................... 1454 (B11, Wed), 1571 (B11, Thu), .......................1690 (B12, Wed), 2406 (G1, Wed), ..................................................... 2422 (G2, Wed) Yan, Zejia....................................1142 (B10, Wed) Yan, Zhao....................................... 372 (B2, Mon) Yanagi, Yuichiro............................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Yanagidate, Tatsuki.......................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Yanagisawa, Masahiro.................. 2389 (F5, Tue), ...................................................... 2640 (J1, Mon) Yanai, Shingo..................................436 (B2, Wed) Yang, Bo..........................................468 (B2, Wed) Yang, Bong Seob.........................2171 (E10, Tue), .....................................................2172 (E10, Tue) Yang, Chan...................................2169 (E10, Tue) Yang, Chang-Chung....................... 2266 (F2, Tue) Yang, Chang-Rung.......................1070 (B10, Tue) Yang, Chenguang.............................288 (B1, Tue) Yang, Chunzhen..............................302 (B1, Wed) Yang, Dongfang..............................663 (B5, Wed) Yang, Feifei.................................. 972 (B10, Mon) Yang, Hong.....................................836 (B8, Wed) Yang, Hui....................................... 2115 (E8, Tue) Yang, Hyeon Deok........................1986 (E4, Wed) Yang, Jianhua............................. 2214 (E12, Mon) Yang, Jong-Han.............................1986 (E4, Wed) Yang, Juanyu................................ 962 (B10, Mon) Yang, Jun......... 1074 (B10, Tue), 1620 (B11, Thu) Yang, Junbing...................................275 (B1, Tue) Yang, Jung Hoon.............................466 (B2, Wed) Yang, Liu.............2067 (E7, Tue), 2089 (E7, Wed) Yang, Min-Ji................................1516 (B11, Wed)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

285


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Yezerska, Olga...............................2611 (I4, Mon) Yi, Cheol-Woo...............................735 (B6, Wed), .....................................................1101 (B10, Tue) Yi, Jaeshin.......................................339 (B1, Wed) Yi, Ran...........................................988 (B10, Tue) Yi, Tanghong........ 860 (B8, Wed), 993 (B10, Tue) Yi, Ziqi.............................................. 42 (A1, Tue) Yildiz, Bilge.................................... 761 (B6, Thu) Yildiz, Huseyin..............................2594 (I3, Wed) Yilmaz, Ceren.............................. 2418 (G2, Wed) Yilmaz, Eda.....................................471 (B2, Wed) Yilmaz, Mesut....... 257 (B1, Mon), 678 (B5, Thu) Yim, Changyong......................... 1714 (D1, Wed), ........................................................2842 (J6, Tue) Yim, Chul........ 1052 (B10, Tue), 1053 (B10, Tue) Yim, Taeeun.................................1050 (B10, Tue) Yin, Geping.................................1438 (B11, Wed) Yin, Guangzhi................................ 264 (B1, Mon) Yin, Huayi....................................... 513 (B2, Thu) Yin, Jun.........................................1860 (E2, Wed) Yin, Litao....................................... 2385 (F5, Tue) Yin, Ri-Zhu.....................................940 (B9, Wed) Yin, Shihong.............................. 1561 (B11, Thu), .................................................... 1562 (B11, Thu) Ying, Hangjun..............................1072 (B10, Tue) Yodoya, Chihiro...........................1062 (B10, Tue) Yoko, Toshinobu.............................2706 (J2, Tue) Yokoi, Masayuki...........................2063 (E7, Tue), ......................................................2090 (E7, Wed) Yokoshima, Tokihiko..................1002 (B10, Tue), ..........................1082 (B10, Tue), 2264 (F2, Tue), ............................. 2321 (F4, Tue), 2390 (F5, Tue) Yokoyama, Koji...........................1255 (B11, Sun) Yokoyama, Masafumi..................2223 (E12, Tue) Yokoyama, Shun.............................. 17 (A1, Tue), ...................................18 (A1, Tue), 19 (A1, Tue), ...................................20 (A1, Tue), 21 (A1, Tue), ...................................22 (A1, Tue), 23 (A1, Tue), ....................................31 (A1, Tue), 32 (A1, Tue) Yom, JeeHo..................................1041 (B10, Tue) Yoneda, Masakazu......................1261 (B11, Sun), .........................1468 (B11, Wed), 1624 (B11, Fri) Yoo, Bongyoung...........................2034 (E6, Tue), .......................... 2070 (E7, Tue), 2205 (E11, Tue), .......................................................2359 (F4, Thu) Yoo, Chan-Yeop...............................403 (B2, Tue) Yoo, Eun-ji...... 1043 (B10, Tue), 1045 (B10, Tue) Yoo, Eunjoo.....................................279 (B1, Tue) Yoo, Hak.......................................1931 (E3, Wed) Yoo, Hyun.......................................431 (B2, Wed) Yoo, Jaeseung...............................1014 (B10, Tue) Yoo, Ji-Hyun.......... 496 (B2, Wed), 1061 (B10, Tue) Yoo, Jung-Keun.............................994 (B10, Tue) Yoo, Ki-Won................................1051 (B10, Tue) Yoo, Seung.................................... 2606 (I4, Mon) Yoo, Sung Jong..........................1511 (B11, Wed), ...................................................... 1656 (B11, Fri) Yoo, SungJong............................1489 (B11, Wed) Yoo, Yong Kyoung........................2801 (J4, Wed), .......................................................2803 (J4, Wed) Yoo, Yoonjong.............................1460 (B11, Wed) Yoon, Boun.................................. 2102 (E8, Mon) Yoon, Chong seung......................1063 (B10, Tue) Yoon, Dae Ho.................................2752 (J3, Wed) Yoon, Hyun-gi.............................1043 (B10, Tue), .....................................................1045 (B10, Tue) Yoon, Jaegu.................................. 973 (B10, Mon) Yoon, Jeongbae............................1050 (B10, Tue) Yoon, Joong...................................2015 (E5, Thu) Yoon, Sanghwa..............................2359 (F4, Thu) Yoon, Songhun.............................1089 (B10, Tue) Yoon, Sukeun.................................484 (B2, Wed), ............................. 488 (B2, Wed), 492 (B2, Wed), .....................................................1059 (B10, Tue) Yoon, Tae-sik................................2008 (E5, Wed)

Yoon, Won-Sub...........................1014 (B10, Tue), .........................1050 (B10, Tue), 1114 (B10, Tue) Yoon, Wooyoung............................496 (B2, Wed), ....................... 1041 (B10, Tue), 1055 (B10, Tue), .....................................................1058 (B10, Tue) Yoon, Yuhchae............................ 1747 (D2, Wed), ...................................................... 1757 (D2, Thu) Yoshida, Akira...............................2026 (E6, Tue), .............................2032 (E6, Tue), 2042 (E6, Tue) Yoshida, Hiroyuki...........................741 (B6, Wed) Yoshida, Shin-ichi...................... 2222 (E12, Mon) Yoshida, Shuhei.............................998 (B10, Tue) Yoshida, Tetsuya.........................1459 (B11, Wed) Yoshida, Toshihiko..................... 1551 (B11, Thu), .................................................... 1553 (B11, Thu) Yoshida, Toyonobu.......................2255 (F2, Mon) Yoshida, Yasuki........................... 1558 (B11, Thu) Yoshikawa, Kenichi.......................... 29 (A1, Tue) Yoshimoto, Nozomi....................1060 (B10, Tue), .....................................................1077 (B10, Tue) Yoshimura, Kazumasa...................2588 (I3, Wed) Yoshimura, Kimio.......................1310 (B11, Tue), ..................................................... 1311 (B11, Tue) Yoshimura, Masahiro...................... 161 (A2, Tue) Yoshimura, Masayuki.................1494 (B11, Wed) Yoshinaga, Kohsuke.......................2041 (E6, Tue) Yoshizawa, Akihiro........................ 368 (B2, Mon) Yoshizumi, Hiroshi.....................1369 (B11, Wed) You, Ha-Young...............................2065 (E7, Tue) You, Yong..................................... 955 (B10, Mon) Youn, JuYoung................................554 (B3, Wed) Youn, S.-J........................................340 (B1, Wed) Younesi, Reza..................................412 (B2, Tue), ............................. 472 (B2, Wed), 473 (B2, Wed), .......................... 1030 (B10, Tue), 2458 (I1, Mon) Young, Christopher......................1791 (D5, Mon) Young, David...................................773 (B7, Tue) Young, G......................................1784 (D4, Mon) Young, Jason...................................785 (B7, Wed) Young, Matthias........................... 954 (B10, Mon) Young, Paul......................................627 (B5, Tue) Yu, Bill......................................... 2106 (E8, Mon) Yu, Dennis........................................402 (B2, Tue) Yu, Dong........................................1974 (E4, Tue) Yu, Haoran..........1405 (B11, Wed), 1548 (B11, Thu) Yu, Hongmei................................. 1627 (B11, Fri) Yu, Hui-Chia...................................830 (B8, Wed) Yu, Ji-Haeng................................. 2424 (G2, Wed) Yu, Ji-Sang...................................1050 (B10, Tue) Yu, Jiahan..........2109 (E8, Tue), 2240 (E12, Wed) Yu, Lu.............................................2077 (E7, Tue) Yu, Paul.......................................1368 (B11, Wed) Yu, Seung-Ho..............................1035 (B10, Tue), .....................................................1036 (B10, Tue) Yu, Stan............2169 (E10, Tue), 2153 (E10, Tue) Yu, Ted.............. 589 (B4, Wed), 1439 (B11, Wed) Yu, Weijie......................................1990 (E5, Wed) Yu, Xi-Qian.....................................406 (B2, Tue), ............................ 875 (B8, Thu), 968 (B10, Mon) Yu, Xiqian....................................... 872 (B8, Thu) Yu, Yi...............................................780 (B7, Tue) Yu, Zhengbo...................................2750 (J3, Wed) Yuan, Boyan.................................... 2629 (I5, Tue) Yuan, Lixia........................................ 42 (A1, Tue) Yuan, Qiuyi.......... 2326 (F4, Tue), 2327 (F4, Tue) Yuan, Shengwen.......................... 1588 (B11, Thu) Yuan, Weiyong.................................713 (B6, Tue) Yuan, Yan...................................... 1231 (B10, Fri) Yuasa, Kensei.................................... 66 (A1, Tue) Yue, Duyuan.................................... 2492 (I1, Tue) Yufit, Vladimir................................782 (B7, Wed) Yuge, Ryota.................................1124 (B10, Wed) Yuge, Tetsuharu..............................2292 (F2, Thu) Yun, Daesik..................................1040 (B10, Tue) Yun, Jae-Jung.................................... 35 (A1, Tue) Yun, Juyoung...............................2161 (E10, Tue)

Yun, Minhyuk................................2793 (J4, Wed) Yun, Sujin........................................671 (B5, Wed) Yun, Sukhwan.............................1695 (B12, Wed) Yun, Sung-Hyun.......................... 1165 (B10, Thu) Yun, Sungdo....................................651 (B5, Wed) Yun, Tae Gwang............................ 605 (B5, Mon), .........................967 (B10, Mon), 1004 (B10, Tue) Yung, Hoi....................................1148 (B10, Wed) Yushin, Gleb...................................991 (B10, Tue) Yushyna, Lyubov...........................1913 (E3, Tue)

286

Z

Zabielaite, Ausrine.....................1506 (B11, Wed), ....................................................1532 (B11, Wed) Żabiński, Piotr.................................. 48 (A1, Tue), ............................ 1756 (D2, Thu), 2325 (F4, Tue) Zabost, Ewelina............................. 1844 (D6, Tue) Zadeh, Dariush............................2191 (E10, Wed) Zafeiratos, Spyridon.....................1307 (B11, Tue) Zafferoni, Claudio......................... 2267 (F2, Tue), ....................................................... 2328 (F4, Tue) Zagal, Jose.......................................110 (A1, Tue), ...............................122 (A1, Tue), 134 (A1, Tue), ...................................................... 2454 (H1, Tue) Zaghib, Karim....... 106 (A1, Tue), 837 (B8, Wed), ............................. 852 (B8, Wed), 853 (B8, Wed), ............................. 854 (B8, Wed), 855 (B8, Wed), ............................. 863 (B8, Wed), 864 (B8, Wed), ............................. 865 (B8, Wed), 927 (B9, Wed), ..................................................... 952 (B10, Mon) Zaghib, Karim........ 271 (B1, Tue), 584 (B4, Wed) Zagidulin, Dmitrij........................ 1723 (D1, Thu), .....................................................1802 (D5, Mon) Zahoor, Awan..................................510 (B2, Wed) Zaima, Shigeaki..........................2225 (E12, Tue), ........................2234 (E12, Tue), 2248 (E12, Wed) Zaino, Lawrence........................... 2755 (J4, Mon) Zaleta-Alejandre, Efrain.................2743 (J3, Tue) Zaleta-Alejandre, Efraķn.................2744 (J3, Tue) Zalineeva, Anna.......................... 1608 (B11, Thu) Zalitis, Christopher......................1247 (B11, Sun) Zander, Brandon.......................... 1176 (B10, Thu) Zangari, Giovanni.........................2291 (F2, Thu), .............................2342 (F4, Wed), 2772 (J4, Tue) Zanna, Sandrine..............................951 (B9, Wed) Zanoni, Enrico................................1916 (E3, Tue) Zarrabeitia, Maider.........................445 (B2, Wed) Zaton, Marta................................ 1589 (B11, Thu) Zausch, Jochen.................................556 (B4, Tue) Zavadil, Kevin............................... 1806 (D5, Tue) Zavalis, Tommy.......................... 1203 (B10, Thu) Zawodzinski, Thomas....................419 (B2, Wed), ........................... 710 (B6, Tue), 1246 (B11, Sun), ....................... 1594 (B11, Thu), 1665 (B12, Tue), ....................... 1667 (B12, Tue), 1668 (B12, Tue), ...................... 1669 (B12, Tue), 1694 (B12, Wed), ....................................................1697 (B12, Wed) Zeb, Gul.......................................1015 (B10, Tue) Zegaoui, Malek................................619 (B5, Tue) Zeigler, Todd....................................623 (B5, Tue) Zeis, Roswitha.............................1419 (B11, Wed) Zelenay, Piotr..............................1254 (B11, Sun), ....................... 1289 (B11, Tue), 1566 (B11, Thu), ..........................1606 (B11, Thu), 1640 (B11, Fri) Zellers, Edward............................. 2634 (J1, Mon) Zeng, Lin.....................................1379 (B11, Wed) Zeng, ZhenHua.............................. 755 (B6, Thu), .....................................................1360 (B11, Tue) Zenyuk, Iryna..............................1241 (B11, Sun), ....................................................1469 (B11, Wed) Zevenbergen, Marcel......................2839 (J6, Tue) Zhai, Yuchun................................ 980 (B10, Mon) Zhai, Yunfeng..............................1302 (B11, Tue), ........................1329 (B11, Tue), 1330 (B11, Tue), ....................................................1498 (B11, Wed) Zhan, Dian-Zhen..........................2153 (E10, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Zhang, Angela.............................1386 (B11, Wed) Zhang, Bing.................30 (A1, Tue), 44 (A1, Tue) Zhang, Bingzi.............................. 1571 (B11, Thu) Zhang, Bo......................................1942 (E3, Wed) Zhang, Changkun.......................... 1627 (B11, Fri) Zhang, Chunlei............................. 1743 (D2, Wed) Zhang, Cong................................ 1200 (B10, Thu) Zhang, Congling........................ 1594 (B11, Thu), .....................................................1668 (B12, Tue) Zhang, Guangsheng........................538 (B3, Wed) Zhang, Guangyu.............................2797 (J4, Wed) Zhang, Guoqing..............................672 (B5, Wed) Zhang, Han...................................1316 (B11, Tue) Zhang, Ji-Guang.............................425 (B2, Wed), ............................. 530 (B2, Thu), 984 (B10, Tue), ..........................1153 (B10, Wed), 2379 (F5, Tue) Zhang, Jie........................................ 2476 (I1, Tue) Zhang, Jing...................................1314 (B11, Tue) Zhang, Jingxin..............................1301 (B11, Tue) Zhang, Jinqiu.................................. 2262 (F2, Tue) Zhang, Jinyu................................2183 (E10, Wed) Zhang, Junliang............................1301 (B11, Tue) Zhang, Kai....................................1857 (E2, Wed), ..........................1863 (E2, Wed), 1864 (E2, Wed), ......................................................1866 (E2, Wed) Zhang, Le Qi...............................2179 (E10, Wed) Zhang, Lei......................................788 (B7, Wed), ............................. 789 (B7, Wed), 2787 (J4, Wed) Zhang, Li......................................... 2546 (I3, Tue) Zhang, Lin.......................................2838 (J6, Tue) Zhang, Lu............... 511 (B2, Thu), 542 (B3, Wed) Zhang, Lu-Lu...............................1027 (B10, Tue) Zhang, Qiming...... 642 (B5, Wed), 666 (B5, Wed) Zhang, Qing....................................645 (B5, Wed) Zhang, Rui....................................2223 (E12, Tue) Zhang, Rui....................................... 348 (B1, Thu) Zhang, Rui-Ming..........................1262 (B11, Sun) Zhang, Sa..................................... 1717 (D1, Wed) Zhang, Sarah................................. 1816 (D5, Tue) Zhang, Shanqing............................326 (B1, Wed), ....................... 1021 (B10, Tue), 1129 (B10, Wed) Zhang, Sheng...................................700 (B6, Tue) Zhang, Tian....................................... 27 (A1, Tue) Zhang, William............................1772 (D4, Mon) Zhang, Wuxing.................................382 (B2, Tue) Zhang, Xian.................................. 1751 (D2, Wed) Zhang, Xiaofeng........................... 354 (B2, Mon), ..................................................... 961 (B10, Mon) Zhang, Xiaoyi.................................452 (B2, Wed) Zhang, Xiuli................................... 2385 (F5, Tue) Zhang, Xunyuan.............................1883 (E2, Thu) Zhang, Xunyuan.............................2075 (E7, Tue) Zhang, Y..........................................2669 (J1, Tue) Zhang, Y......................................... 180 (A2, Wed) Zhang, Y........................................ 2446 (H1, Tue) Zhang, Yaohui....... 530 (B2, Thu), 2379 (F5, Tue) Zhang, Yaohui.............................1153 (B10, Wed) Zhang, Ying........... 580 (B4, Wed), 836 (B8, Wed) Zhang, Yinghe................................2296 (F2, Thu) Zhang, Yongguang......................... 372 (B2, Mon) Zhang, Yuanyuan............................2829 (J6, Tue)

Zhang, Yuegang............................ 359 (B2, Mon), ...........................1956 (E4, Mon), 2503 (I2, Mon) Zhang, Zhaoliang.............................. 42 (A1, Tue) Zhang, Zhengcheng.........................542 (B3, Wed) Zhang, Zhenli............................... 1209 (B10, Fri), ...................................................... 1214 (B10, Fri) Zhang, Zhuoxiang.......................1427 (B11, Wed) Zhao, Chao............... 6 (A1, Tue), 2109 (E8, Tue), ........................2156 (E10, Tue), 2240 (E12, Wed) Zhao, Chao...................................... 1890 (E2, Fri) Zhao, Chuan.................................... 2484 (I1, Tue) Zhao, Gaoyang...............................2026 (E6, Tue) Zhao, Hongying..........................1431 (B11, Wed) Zhao, Hui.....................................1100 (B10, Tue) Zhao, Jianqing.............................. 959 (B10, Mon) Zhao, Jie..........................................553 (B3, Wed) Zhao, Jing...................................... 2536 (I3, Mon) Zhao, Jing...................................... 2755 (J4, Mon) Zhao, Lichuan..................................... 6 (A1, Tue) Zhao, Liwei......................................400 (B2, Tue) Zhao, Mei.......................................... 72 (A1, Tue) Zhao, Ran...............844 (B8, Wed), 883 (B8, Thu) Zhao, Tianshou............................1379 (B11, Wed) Zhao, Wenwen.................................820 (B8, Tue) Zhao, Xiaohui.................................501 (B2, Wed) Zhao, Xiaojing...........................1465 (B11, Wed), ..........................1614 (B11, Thu), 2445 (H1, Tue) Zhao, Xuan...............465 (B2, Wed), 533 (B2, Fri) Zhao-Karger, Zhirong.....................435 (B2, Wed) Zheludkevich, Mikhail................ 1701 (D1, Wed), ...................................................... 1804 (D5, Tue) Zheng, B..........................................2668 (J1, Tue) Zheng, Bijuan.................................. 227 (A3, Tue) Zheng, Bo......................................2129 (E8, Wed) Zheng, Dan......................................2836 (J6, Tue) Zheng, Guangyuan..........................293 (B1, Wed) Zheng, Jianming.............................425 (B2, Wed), ....................................................1153 (B10, Wed) Zheng, Jie....................................1454 (B11, Wed) Zheng, Jim.......................................2694 (J2, Tue) Zheng, Lijuan..............................1410 (B11, Wed) Zheng, Mingfu............................1378 (B11, Wed) Zheng, Mingsen..........................1120 (B10, Wed) Zheng, Peng....................................2827 (J6, Tue) Zheng, Qianpeng............................1965 (E4, Tue) Zheng, Qiaoming........................ 1550 (B11, Thu) Zheng, Shijian..................................555 (B4, Tue) Zheng, Xiaolin............................. 1955 (E4, Mon) Zheng, Yingjing..............................2705 (J2, Tue) Zheng, Zhijun............................... 1730 (D1, Thu), ..................................................... 1743 (D2, Wed) Zheng, Ziyan...............................1122 (B10, Wed) Zhi, Mingjia.....................................271 (B1, Tue) Zhitomirsky, Igor...........................635 (B5, Wed), .......................... 2302 (F3, Mon), 2312 (F3, Mon) Zhong, Huicai..................................... 6 (A1, Tue) Zhong, Zhong.................................. 514 (B2, Thu) Zhou, Bin.............. 165 (A2, Tue), 2038 (E6, Tue) Zhou, C...........................................2668 (J1, Tue) Zhou, Chongwu........................... 979 (B10, Mon) Zhou, Dehua....................................487 (B2, Wed)

Zhou, Haitao...................................857 (B8, Wed) Zhou, Han.................................... 1702 (D1, Wed) Zhou, Haosen........ 279 (B1, Tue), 989 (B10, Tue) Zhou, Hui........................................ 524 (B2, Thu) Zhou, Jian.......................................1972 (E4, Tue) Zhou, Juanjuan.............................1252 (B11, Sun) Zhou, Lina.......................................825 (B8, Wed) Zhou, Liu.....................................1141 (B10, Wed) Zhou, Ming.................................1148 (B10, Wed) Zhou, Qi........................................1942 (E3, Wed) Zhou, Tianchi...............................1314 (B11, Tue) Zhou, Xiang...................................2750 (J3, Wed) Zhou, Xiangyang.............................626 (B5, Tue), ...........................758 (B6, Thu), 1252 (B11, Sun), ...................................................... 2461 (I1, Mon) Zhou, Xiao-Dong.......................... 694 (B6, Mon), ...............................743 (B6, Wed), 762 (B6, Thu) Zhou, Xiaolin................................ 2453 (H1, Tue) Zhou, Xingtai................................. 264 (B1, Mon) Zhou, Yongning...............................406 (B2, Tue), ............................... 817 (B8, Tue), 872 (B8, Thu), ............................ 875 (B8, Thu), 968 (B10, Mon) Zhou, Yue.............. 642 (B5, Wed), 666 (B5, Wed) Zhou, Zhi-Bin.............................1154 (B10, Wed) Zhu, Jianguo....................................660 (B5, Wed) Zhu, Jiefang....................................455 (B2, Wed), ............................. 2458 (I1, Mon), 2563 (I3, Tue) Zhu, Min......... 1019 (B10, Tue), 1020 (B10, Tue) Zhu, Renkang...............................1795 (D5, Mon) Zhu, Ryan........................................ 347 (B1, Thu) Zhu, Wen.........................................853 (B8, Wed) Zhu, Xiuping................................ 2414 (G2, Wed) Zhu, Yan.......................................2155 (E10, Tue) Zhu, Yanan.....................................2783 (J4, Wed) Zhu, Ye............................................808 (B8, Tue), ...................... 1136 (B10, Wed), 1151 (B10, Wed) Zhuang, Lin................................. 1575 (B11, Thu) Zhuang, Zhongbin.......................1367 (B11, Tue), ..................................................... 2422 (G2, Wed) Zhytnytska, Rimma........................1910 (E3, Tue) Ziegelbauer, Joseph....................1142 (B10, Wed), .....................................................1349 (B11, Tue) Ziegler, Jed......................................2653 (J1, Tue) Zieliene, Albina.............................. 2271 (F2, Tue) Zimmermann, Lars..................... 2221 (E12, Mon) Zimny, Christopher.........................750 (B6, Wed) Zinigrad, Ella.................................. 526 (B2, Thu) Ziomek-Moroz, Margaret........... 1719 (D1, Wed), .....................................................1800 (D5, Mon) Zivkovic, Olivera.............................401 (B2, Tue) Zobel, Marco................................1275 (B11, Tue) Zorba, Vassilia.......... 439 (B2, Wed), 2286 (F2, Thu) Zou, Feng....................................1127 (B10, Wed) Zou, Shouzhong............................. 2381 (F5, Tue) Zu, Chenxi...................................... 357 (B2, Mon) Zu, Jean........................................1263 (B11, Sun) Zukowska, Grazyna.........................385 (B2, Tue) Zurbrügg, Mark............................1320 (B11, Tue) Zushi, Takahiro............................ 2419 (G2, Wed) Zwieb, Christian.........2818 (J6, Tue), 2819 (J6, Tue) Zygouri, Panagiota........................ 2441 (H1, Tue)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

287


PELS Member Privileges Include… • Online subscriptions to IEEE Transactions on Power Electronics and IEEE Journal of Emerging and Selected Topics on Power Electronics • Online Access to all PELS sponsored conference proceedings. • Quarterly PELS Magazine • Registration discounts on conferences, symposiums and workshops • Easy access to books, tutorials and videotapes, at discounted member rates • Participation in technical committees, conference committees, chapters and other professional activities • Networking with colleagues and leaders in the field from around the world to support professional development and career advancement • Enhanced leadership and management skills cultivated by holding elective office in the Society

Join today and become empowered!

If you are not an IEEE member yet, join at: www.ieee-pels.org. IEEE Power Electronics Society 445 Hoes Lane Piscataway, NJ 08855, USA Phone: +1.732.465.6480 Fax: +1.732.235-1627 Email: pels-staff@ieee.org

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Meeting Program l October 27–November 1, 2013 l San Francisco, CA


www.ecee2014.com

ECEE 2014

is the first Electrochemical Conference on Energy & the Environment, a major international conference that covers a unique blend of topics pertaining to energy and the environment. A joint meeting of The Electrochemical Society (ECS) and the Chinese Society of Electrochemistry (CSE), ECEE 2014 is a unique forum for the discussion of interdisciplinary research from around the world through a variety of formats, such as invited and keynote oral presentations, poster sessions, and exhibits.

Symposium topics include: • Electrochemical Energy Storage (E1)

• Electrochemical Fundamentals (E3)

• Electrochemical Energy Conversion (E2)

• Environmental Electrochemistry (E4)

IMPORTANT DEADLINES & INFORMATION: u Abstract Submission Deadline: October 31, 2013

u Hotel Accommodations: Now accepting reservations

u Early Bird Registration Deadline: February 14, 2014

u Sponsorship & Exhibit Opportunities are also available

For more information about the first-ever

Electrochemical Conference on Energy & the Environment,

a joint meeting of ECS and CSE, please continue to visit the ECEE 2014 website.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

www.ecee2014.com

289


2 014

17th International Meeting on Lithium Batteries Como, ItalywJune 10-14, 2014 IMLB 2014 (www.imlb.org) is the premier international conference on the state of lithium battery science and technology, as well as current and future applications in transportation, commercial, aerospace, biomedical, and other promising sectors. Convening in the heart of downtown Como/Cernobbio at Villa Erba, the conference is expected to draw 1,200 experts, researchers, and company representatives involved in the lithium battery field. This international meeting will provide an exciting forum to discuss recent progress in advanced lithium batteries for energy storage and conversion. The meeting will focus on both basic and applied research findings that have led to improved Li battery materials, and to the understanding of the fundamental processes that determine and control electrochemical performance. A major (but not exclusive) theme of the meeting will address recent advances beyond lithium-ion batteries. All areas of lithium battery related science and technology will be covered, such as, but not limited to: • general and national projects • anodes and cathodes • nanostructured materials for lithium batteries • liquid electrolytes and ionic liquids • polymer, gel, and solid electrolytes • issues related to sources and availability of materials for Li batteries

• Li battery recycling • electrode/electrolyte interface phenomena • safety, reliability, cell design and engineering • primary and rechargeable Li cells • industrial production and development for HEVs, PHEVs, and EVs • latest developments in Li battery technology

International Organizing Committee Chairs (in alphabetical order) • Doron Aurbach, Bar Ilan University, Tel Aviv, Israel • Peter Bruce, University of St.Andrews, Scotland • Rosa Palacin, ICMAB-CSIC Campus, Bellaterra, Spain • Bruno Scrosati, Helmholtz Institute Ulm, Germany

• Jean-Marie Tarascon, Université de Picardie Jules Verne, France • Josh Thomas, Uppsala University, Sweden • Margret Wohlfahrt-Mehrens, Center for Solar Energy and Hydrogen Research Baden-Württemberg, ZSW, Ulm, Germany

International Scientific Committee (in alphabetical order) • KM Abraham, E-KEM Science, USA • Khalil Amine, Argonne National Lab, USA • Yi Cui, Stanford University, USA • Juergen Garche, FCBAT, Ulm, Germany • Li Hong, China • Youn-Jun Kim, Korea Electronics Technology Institute (KETI), Korea • Marina Mastragostino, University of Bologna, Italy • Aleksandar Matic, Chalmers University of Technology, Sweden

• Linda Nazar, Waterloo University, Canada • Zempachi Ogumi, University of Kyoto, Japan • Tetsuya Osaka, Waseda University, Tokyo Japan • Stefano Passerini, Muenster University, Germany • Yang Shao-Horn, MIT, USA • Yang-Kook Sun, Hanyang University, Seoul, Korea • Osamu Yamamoto, Mie University, Japan • Yang Yong, Xiamen University, China

The Meeting Venue IMLB 2014 will be held in Como, Italy, in the same location where two successful previous meetings convened. The site of the meeting is the Villa Erba (www.villaerba.it) convention center, which is set magnificently on the lake shore on the edge of the 15th century villa. IMLB 2014 is being managed by ECS with logistical support provided by Centro Volta (www.centrovolta.it). General sessions, breaks and lunches, and the technical exhibit will be held at the spacious Padiglione Centrale at Villa Erba, and posters will be on display for the entire five days of the event. The Villa Erba is centrally located at the heart of one of Europe’s premier destinations, and offers six centuries of charm, atmosphere, and beauty. An astounding park, with vast lawns, magnificent trees, and an historical garden surrounds the exhibition centre and the Villa—a green heaven where one can relax in between sessions and meeting.

Visit www.imlb.org for deadlines, submission information, and more. 290

Meeting Program l October 27–November 1, 2013 l San Francisco, CA IMLB 2014 is sponsored and managed by ECS (www.electrochem.org).


2 014 w IMLB Call for Papers w To ensure that the highest levels of scientific discovery are presented at IMLB 2014, the meeting will be limited to 1,200 delegates. Presentations will be carefully reviewed and selected by a special scientific committee.Oral presentations will be selected by the scientific committee of IMLB 2014. The number of posters will be limited to between 400 and 500. All posters will be on view and available for discussion during the entire five-days of the meeting. IMLB 2014 will include presentations related to: • Li battery anodes • Li battery cathodes • Li battery electrolyte systems (solutions, polymeric, solid-state)

• Li-sulphur systems • Li-oxygen systems • magnesium batteries • sodium batteries

• interfaces • diagnostic challenges • safety matters • redox and flow nonaqueous battery systems

Publication Opportunities All authors who are invited to submit an abstract to IMLB also will have the opportunity to submit a full paper to ECS Transactions (ECST). We are also pleased to announce that selected presentations will be invited for publication in a Focus Issue of the Journal of The Electrochemical Society (JES). Unlike ECST, JES follows a rapid, continuous publication model with individual articles published online every day having full final citation details. All papers will undergo the journal’s high standards of quality peer review.

Symposium Topics Topic 5: Li-Oxygen Systems

Topic 1: Electrode Materials Presentations that reflect: 1. cycle life, 2. cycling efficiency approaching 100%, 3. impressive rate capability, and, 4. proven excellent wide temperature performance of these electrodes. Presentations that will not be accepted: Many hundreds of thousands of papers have already been published on topics such as graphite; soft/hard carbons; LixTiOy and conversion reactions as negative electrodes; LiFePO4, LiMO2,(M = transition metal); and Lix[MnNiCo]Oy , LixVOy, Li[MnNi]2O4 spinel cathodes for Li ion batteries. These presentations will not be considered.

Topic 2: Electrolytes Presentations that reflect the development of new electrolyte solutions possessing very wide electrochemical windows (with an emphasis on high anodic stability, > 5 V vs. Li) and good performance in a wide temperature range. These may include reports on new solvents, salts, and additives. It is recommended that such studies include a good understanding of the limiting (surface) reactions of the new electrolyte systems.

Topic 3: New Electrodes

Presentations that discuss the true stability of oxygen cathodes and possibly relevant electrolyte solutions. Work on electrocatalysis for these systems is also interesting, provided that the effect of the catalysts presented on possible side reactions is discussed as well.

Topic 6: Li-Sulphur Systems Presentations must reflect prolonged cycle life and practically high loading of sulfur (per cm2). Systems that are too exotic and that may reflect good performance by very low specific content of sulfur may not be considered for presentation. Special attention should be given to the practical reversibility of negative electrodes for these systems.

Topic 7: Application of New and Novel Analytical Tools Reports on the application of new and novel analytical tools in the above fields are encouraged.

Topic 8: Computational Work Related to Experimental Reality

Presentations on new electrodes (both positive and negative) for rechargeable magnesium and sodium batteries, provided that they include appropriate, concluding structural studies.

Reports on proven computational work connected to experimental reality are encouraged.

Topic 4: Novel Magnesium Electrolyte Solutions

Although there is a clear interest in these types of battery systems (including flow/redox systems), only those that have a wide enough common denominator to the above systems (e.g., nonaqueous electrolyte solutions, metal ion insertion electrodes) will be positively considered. While the main criteria are purely novelty and high level of science, some preference will be given to young presenters (students, post-doctoral fellows).

Presentations on novel electrolyte solutions for rechargeable Mg batteries, provided that they reflect new concepts and are suitable for both reversible Mg anodes an Mg insertion cathodes. Presentations on new Mg insertion electrodes (with proven reversibility approaching 100%) will be positively considered as well.

Topic 9: Systems for Load-Leveling Applications

Important Deadlines • September 2013 – Abstract submission site opens • January 10, 2014 – Abstracts due • February 1, 2014 – Sponsorship deadline

• June 23, 2014 – ECS Transactions website opens • September 30, 2014 – Journal of The Electrochemical Society manuscript submissions deadline

Visit www.imlb.org for deadlines, submission information, and more.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

291 2 014


ECS Future Biannual Meetings

225th ECS Spring Meeting

226th ECS Fall Meeting

Orlando, FL l May 11-16, 2014

Cancun, Mexico l October 5-10, 2014

227th ECS Spring Meeting

228th ECS Fall Meeting

Hilton Bonnet Creek

Chicago, IL l May 24-28, 2015 Hilton Chicago

Moon Palace Resort

Phoenix, AZ l October 11-16, 2015

Hyatt Regency Phoenix & Phoenix Convention Center

229th ECS Spring Meeting San Diego, CA l May 29-June 3, 2016

Hilton San Diego Bayfront & San Diego Convention Center 292

Honolulu, HI l October 9-14, 2016 Hawaii Convention Center & Hilton Hawaiian Village

Meeting Program l October 27–November 1, 2013 l San Francisco, CA


© Cynthia Lindow

© Disney

225th ECS Meeting ORLANDO, FL May 11-16, 2014 Hilton Orlando Bonnet Creek

General Topics Abstract Deadline: November 15, 2013*

• Batteries, Fuel Cells, and Energy Conservation • Chemical and Biological Sensors • Corrosion Science and Technology • Electrochemical/Electroless Deposition • Electrochemical Engineering • Fuel Cells, Electrolyzers, and Energy Conversion • Organic and Bioelectrochemistry • Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry

• Carbon Nanostructures and Devices • Dielectric Science and Materials • Electronic Materials Processing • Electronic and Phototonic Devices

and Systems • Luminescence and Display Materials, Devices, and Processing • Physical Sensors *Please carefully check the symposium listings; some abstracts may have alternate submission deadlines.

Don’t miss the deadlines . . . Now Open . . . Discounted hotel rates start at $205 and are now available at the meeting headquarters hotel, the Hilton Orlando Bonnet Creek Hotel. The early-bird reservation deadline is April 11, 2014, or as soon as the block sells out!

November 2013 Abstracts are due NO LATER than November 15, 2013. Please carefully check each symposium for any alternate abstract submission deadlines.

January 2014 Early-bird registration opens – Deadline is April 11, 2014. Travel grants are available for student attendees, and for young faculty and early career attendees. Applications are due January 1, 2014.

April 2014 Early-bird registration and hotel discounts are available until April 11, or until the block sells out! Reserve early!

More . . . • Short Courses are tentatively planned for the meeting: Basic Impedance Spectroscopy,

Fundamentals of Electrochemistry, Grid Scale Energy Storage, Solar Energy Conversion, Battery Safety, Chemical/Biological Sensors, and Survey of Materials Characterization Techniques. Please check the ECS website for the final list of offerings. • Full papers presented at ECS meetings will be published in ECS Transactions. Visit the ECS website for more details.

Please visit the Orlando Meeting page for more information:

www.electrochem.org/meetings/biannual/225/


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