2014 ECS & SMEQ: Meeting Program

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W FRE iF iN EW et ire wo le rk ss :M N oo etw n or Pa k la ce

2014 ECS and SMEQ Joint International Meeting

226th Meeting of The Electrochemical Society

XXIX Congreso de la Sociedad Mexicana de ElectroquĂ­mica

7th Meeting of the Mexico Section of The Electrochemical Society

CANCUN

Mexico October 5-9, 2014 Moon Palace Resort

Meeting Program


CANCUN

Mexico October 5-9, 2014 Moon Palace Resort ECS Officers Paul Kohl, President Daniel Scherson, Sr. Vice-President Krishnan Rajeshwar, 2nd Vice-President Johna Leddy, 3rd Vice-President Hariklia Deligianni, Secretary E. J. Taylor, Treasurer Roque J. Calvo, Executive Director ECS Board of Directors James Burgess, Chair, Organic & Biological Electrochemistry Division Roque J. Calvo, Executive Director Michael Carter, Chair, Sensor Division Hariklia Deligianni, Secretary Shinji Fujimoto, Chair, Corrosion Division Andrew Hoff, Chair, Electronics & Photonics Division Paul Kohl, President and Board Chair Dolf Landheer, Chair, Dielectric Science & Technology Division Johna Leddy, 3rd Vice-President Bor Yann Liaw, Chair, Battery Division Robert Mantz, Chair, Physical & Analytical Electrochemistry Division Tetsuya Osaka, Past President Krishnan Rajeshwar, 2nd Vice-President Dan Scherson, Vice President Anant Setlur, Chair, Luminescence and Display Materials Division Venkat Subramanian, Chair, Industrial Electrochemistry & Electrochemical Engineering Division Stuart Swirson, Nonprofit Financial Professional E. J. Taylor, Treasurer Adam Weber, Chair, Energy Technology Division Eric Wachsman, Chair, Interdisciplinary Science and Technology Subcommittee R. Bruce Weisman, Chair, Nanocarbons Division Giovanni Zangari, Chair, Electrodeposition Division Xiao-Dong Zhou, Chair, High Temperature Materials Division ECS Staff Dinia Agrawala, Interface Production Manager Roque J. Calvo, Executive Director/Chief Executive Officer Linda Cannon, Staff Accountant Karen Chmielewski, Finance Associate Becca Compton, Development Manager Paul B. Cooper, Editorial Manager Dan Fatton, Director of Development Tim Gamberzky, Chief Operating Officer Glenn Gang, Director of Membership & Constituent Programs Rob Gerth, Director of Marketing & Digital Engagement Annie Goedkoop, Director of Publications & Associate Publisher Paul Grote, Director of Finance Andrea L. Guenzel, Publications Specialist Mary Hojlo, Membership & Constituent Programs Associate Colleen Klepser, Executive Operations Administrator Christie Knef, Meetings & Exhibit Manager John Lewis, Associate Director of Publications Heather McAlinn, Board Relations Administrator Winnie Mutch, Web Manager Anna Olsen, Senior Membership & Constituent Programs Associate Beth Schademann, Publications Specialist Keith Schlesinger, Technical Programs Coordinator Amanda Staller, Marketing Communications Assistant Logan Streu, Publications Assistant Beth Anne Stuebe, Meetings & Conference Content Manager Tonya Woodland, Human Resources Manager Mary E. Yess, Deputy Executive Director & Chief Content Officer

SMEQ Executive Board 2013-2015 President: Facundo Almeraya Calderón Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA Facultad de Ingeniería Mecánica y Eléctrica, FIME Universidad Autónoma de Nuevo León, UANL falmeraya.uanl.ciiia@gmail.com Vice-President: Francisco J. Rodríguez Gómez Facultad de Quimica Universidad Nacional Autónoma de Mexico, UNAM fxavier@unam.mx Secretary: Ricardo Orozco Cruz Instituto de Ingeniería Universidad Veracruzana rorozco@uv.mx Treasurer: José Ángel Cabral Miramontes Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA Facultad de Ingeniería Mecánica y Eléctrica, FIME Universidad Autónoma de Nuevo León, UANL jocamira@hotmail.com SMEQ Officers Citlalli Gaona Tiburcio Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA Facultad de Ingeniería Mecánica y Eléctrica, FIME Universidad Autónoma de Nuevo León, UANL citlalli.gaona@gmail.com Alberto Martínez Villafañe Centro de Investigación en Materiales Avanzados CIMAV Departamento de Integridad y Diseño de Materiales Compuestos martinez.villafane@cimav.edu.mx Homero Castañeda López The University of Akron Department of Chemical and Biomolecular Engineering homeroc@uakron.edu Joan Genesca Llongeras Punta-UNAM genesca@unam.mx

www.electrochem.org www.smeq.org.mx

All recycled paper. Printed in USA.


226th Meeting of The Electrochemical Society XXIX Congreso de la Sociedad Mexicana de Electroquímica 7th Meeting of the Mexico Section of The Electrochemical Society

2014 ECS and SMEQ Joint International Meeting

W Paul Kohl ECS President

ECS and SMEQ Welcome You to Cancun

elcome to Cancun, Mexico! ECS and SMEQ are excited to host the 2014 Joint International Meeting, which combines the 226th Meeting of The Electrochemical Society (ECS) and the XXIX Congreso de la Sociedad Mexicana de Electroquimica (SMEQ). This major international conference is being held at the Moon Palace Resort hotel and will include over 50 topical symposia consisting of 2,300 technical presentations, full-day short courses, professional development workshops, career opportunities, poster sessions, and a dynamic technical exhibit including demo workshops. On Sunday October 5, 2014 please join us for the Plenary Session, “Mexico’s National Policy on Science and Technology,” presented by Enrique Cabrero Mendoza followed by the Sunday Evening Get-Together. On Monday, October 6, 2014 the ECS Charles W. Tobias Young Investigator Award Lecture address will be presented by Adam Weber who will speak on “Understanding Transport Phenomena in Polymer-Electrolyte Fuel Cells.” On Tuesday, October, 7, 2014 the ECS Edward Goodrich Acheson Award Lecture address will be presented by Ralph Brodd who will speak on “Maintaining the Momentum in Electrochemical Energy and Power Conversion.”

Facundo Almeraya Calderón SMEQ President

In addition to the comprehensive technical program the organizing committees have scheduled various social events to complement your technical meeting experience in Cancun. Please join us for the 2nd Free the ScienceTM 5K Run on Wednesday morning, with proceeds benefitting the ECS Publications Endowment in support of Open Access. On Monday evening, students are invited to participate in the Student Mixer. Nontechnical Registrants are invited to enjoy exclusive use of the “Get-together Lounge,” Monday through Thursday 0800-1000h; and a special “Welcome to Cancun” orientation presented Monday at 0900h. It is also worth noting that on Thursday evening we will host the not-to-be-missed Cena Baile dinner and dance party; the Cena Baile is a ticketed event starting at 2000h. ECS is holding a multi-day workshop during the meeting in Cancun to address critical technology gaps and water, sanitation and hygiene challenges in partnership with the Bill & Melinda Gates Foundation. The workshop is being designed to foster collaborative problem solving among participants and apply the collective brainpower of the joint ECS and SMEQ meeting attendees to complex technical challenges that require integrated thinking and out of the box solutions. More than $200,000 in research grants will be distributed by a review panel as seed funding for projects that address critical technical gaps; at least two grants will be distributed at this meeting, each in the range of $25,000-$100,000. More details on the application process will be available on Monday morning, and selected applicants will be given the opportunity to present their concepts and answer questions on Thursday afternoon. Further details are listed on pages 22-23. Please join us to lend your voice and expertise in helping to solve some of the world’s most challenging water and sanitation problems! We begin Monday morning at 0800h in Universal Second Floor Expo. Please refer to the meeting program for additional information regarding technical and nontechnical events. Feel free to stop by the registration desk located in the Expo Center if you would like further assistance.

Program Guide ADA Accessibility................................................................2 Advertiser...................................................................... 29-33 Author Choice Open Access.................................................2 Author Index.....................................................................197 Award Winners......................................................................9 Companion Registrant Program............................................2 ECS Transactions for Cancun 2014......................................8 Electrochemical Energy & Water Summit 2014 (E2S).......22 Featured Speakers............................................................. 6-7 Free the ScienceTM 5K Run...................................................3 Floor Plan............................................................................17 General Meeting Information...............................................2 Hotel Information..................................................................2 Key Locations.......................................................................2 Meeting Program l October 5-9, 2014 l Cancun, Mexico

Meeting Events-at-a-Glance.................................................3 ECS & SMEQ Officers & Staff............... Inside Front Cover Photography and Recording............................................4, 25 Poster Sessions......................................................................3 Presenter Information..........................................................25 Professional Development Series.......................................25 Registration Hours................................................................2 Short Courses and Tutorials................................................24 Special & Ticketed Events....................................................4 Sponsors..............................................................................16 Symposium Topics and Organizers.....................................26 Technical Exhibit.......................................................... 18-21 Technical Sessions..............................................................34 Wireless Network..................................................................3 1


General Meeting Information and Meeting Registration The 2014 ECS and SMEQ Joint International Meeting will be held in Cancun, Mexico at the meeting headquarters hotel, the Moon Palace Resort (Moon Palace Golf & Spa Resort, Carr. Fed. 307 CancunChetumal, Km 340. Cancún, Quintana Roo, C.P. 77500). Key Locations in the Moon Palace Resort Meeting Registration..................... Universal, First Floor Expo Center, Hotel Registration...........................Universal, First Floor Expo Center Information/Message Board.......... Universal, First Floor Expo Center, ECS Headquarters Office............ Sunrise Conference Center, Saturn 1 AV Tech Table..................... Located outside select symposium rooms Technical Exhibit............................Universal, First Floor Expo Center Symposium Assistance.................. Universal, First Floor, Expo Center Hospitality Desk............................ Universal, First Floor, Expo Center

Registration Information Meeting Registration—The meeting registration area will be located in the Moon Palace Resort, in the Universal Expo Center, first floor. Registration will open on Saturday morning and the technical sessions will be conducted Monday through Thursday. Registration Hours Saturday, October 4............................................................1100-1900 Sunday, October 5..............................................................0700-1900 Monday, October 6.............................................................0700-1900 Tuesday, October 7............................................................0700-1730 Wednesday, October 8........................................................0800-1600 Thursday, October 9...........................................................0800-1600 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. Early-Bird Registration The deadline for Early-Bird registration is September 5, 2014. Regular registration rates are in effect online after September 5, 2014 and at the meeting. Register online at 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 5th 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 Fees Regular Fees

(until 9/5/2014)

(after 9/5/2014)

ECS & SMEQ Member.................................$475............................$575 Nonmember....................................................$600............................$700 ECS & SMEQ Student Member....................$170............................$270 Student Nonmember.......................................$200............................$300 One Day ECS & SMEQ Member.................$325............................$425 One Day Nonmember....................................$410............................$510 Emeritus & Honorary Member...................... $0............................. $0 Nontechnical Registrant................................. $25............................ $30 Please note, attendees not staying at the Moon Palace will be required to pay an additional one-time $198.00 USD resort access fee to cover unlimited meals, snacks, and beverages throughout the duration of the meeting. This fee is payable directly to the Moon Palace when you pick up your registration materials. 2

Refunds Refund requests for Meeting Registration or Short Course Registration (separate fees) must be requested in writing and will be accepted only if received by September 29, 2014. All refunds are subject to a 10% processing fee. Requests for refunds should be e-mailed to customerservice@electrochem.org. Refunds will not be processed until AFTER the meeting. 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 Accommodations for attendees with special needs will be handled on an individual basis provided that adequate notice is given to the ECS Headquarters Office. Permissions Granted to ECS & SMEQ ECS and SMEQ reserves the right to electronically record any or all meeting-related events. By registering for and/or attending an ECS and SMEQ meeting you are granting ECS and SMEQ 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 or SMEQ), nor can any endorsement by ECS or SMEQ be claimed. Financial Assistance Financial assistance is limited and generally governed by the symposium organizers. Individuals may inquire directly to the symposium 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 ECS headquarters office; such letters will not imply any financial responsibilities of ECS. 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; download them directly from the 226th ECS Meeting website. Paper editions of meeting abstracts are no longer distributed; attendees who require paper should download abstracts and print them in advance of the meeting. Author Choice Open Access ECS has launched of Author Choice Open Access across its four peer-reviewed journals: Journal of The Electrochemical Society, ECS Journal of Solid State Science and Technology, ECS Electrochemistry Letters, and ECS Solid State Letters. If you are attending the meeting in Cancun, you will also receive one Article Credit, which may be used for up to 12 months after the meeting. If you have question, please visit electrochem.org/oa or contact oa@electrochem.org for personal assistance. Travel Companions/Nontechnical Registrants Travel companions of attendees are invited to register for the meeting as a “Nontechnical Registrant.” The nontechnical registrant registration Early-Bird fee of $25 (increases to $30 after September 5) includes admission to non-ticketed social events; use of an exclusive Get-together Lounge with beverage service and light refreshments, Monday through Thursday, 0800-1000h; and a special “Welcome to Cancun” orientation presented at 0900h in the lounge. Nontechnical

Meeting Program l October 5-9, 2014 l Cancun, Mexico


registrants not staying at the Moon Palace will be required to pay an additional $198.00 USD fee to cover unlimited meals, snacks, and beverages during the meeting. The $198.00 USD resort access fee is for the entire week of the conference and will be paid upon arrival to the resort.

Meeting Tools ECS and SMEQ are pleased to provide a complimentary wireless network! For the duration of the meeting, ECS and SMEQ will be providing a wireless network for your use. This complimentary service is available is throughout the Moon Palace Resort. To use the wireless network, please connect to “Moon Palace“ and then open your web browser.

Free the Science 5K Run TM

Claim your space at the starting line of the second ECS Free the Science 5K Run and enjoy the scenery of the Moon Palace Resort during a fresh morning run! Plus, the top three finishers will receive prizes. See if you can beat the Orlando 1st place finisher Matthew Thomas Lawder, who had an incredible winning time of 14:12! The Free the Science 5K Run is a ticketed event, with proceeds benefitting the ECS Publications Endowment, in support of our open access initiative. Bring your running shoes and join us for a memorable activity to jog your mind, as well as your body. When: Wednesday, October 8, starting time of 0700h Where: Expo Center Motor Lobby Cost: Early-Bird rate until September 5, 2014..........$15.00 Between September 5 and October 8, 2014.....$20.00 Event day sign-up.............................................$25.00 To register for this exciting event, please add it to your meeting registration. If you have any questions, please contact dan.fatton@electrochem.org.

Letters of Invitation—Individuals requiring an official letter of invitation should complete the electronic form at 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 and/or SMEQ. Letters of Attendance—Individuals requiring an official letter of attendance should see an Onsite Registration Representative in the Registration Area.

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Events-at-a-Glance Sunday, October 5

0900h �����������������Short Courses 0820h �����������������Technical Sessions* 1400h �����������������Career Development Series: Essential Elements for Employment Success 1630h �����������������Plenary Session 1730h �����������������Sunday Evening Get-Together

Monday, October 6

0800h �����������������E2S Workshop: Applying Electrochemistry to Complex Global Challenges 0800h �����������������Career Development Series: Essential Elements for Employment Success 0930h �����������������Technical Session Coffee Break 1000h �����������������Technical Sessions* 1200h �����������������Career Development Series: Résumé Review 1700h �����������������Career Development Series: Panel of Professionals 1930h �����������������Student Mixer (RSVP required)

Tuesday, October 7

0800h �����������������Technical Sessions* 0800h �����������������Career Development Series: Résumé Review 0930h �����������������Technical Session Coffee Break in Exhibit Hall 1300h �����������������Technical Exhibit 1330h �����������������Exhibitor Workshop in Exhibit Hall 1500h �����������������Exhibitor Workshop in Exhibit Hall 1700h �����������������ECS Publications–Author Information Session – Edison Theatre in Exhibit Hall 1745h �����������������Acheson Award Reception in Honor of Ralph J. Brodd, Arena A 1800h �����������������Technical Exhibit and General and Student Poster Session

Wednesday, October 8

0700h �����������������Free the Science 5K Run 0800h �����������������Technical Sessions* 0800h �����������������Career Development Series: Résumé Review 0900h �����������������Technical Exhibit 0930h �����������������Technical Session Coffee Break in Exhibit Hall 0930h �����������������Exhibitor Workshop in Exhibit Hall 1100h ������������������Exhibitor Workshop in Exhibit Hall 1800h �����������������Student Poster Award Presentation in Exhibit Hall 1800h �����������������Technical Exhibit and General Poster Session

Thursday, October 9

0800h �����������������Technical Sessions* 0900h �����������������Technical Exhibit 0930h �����������������Exhibitor Workshop in Exhibit Hall 1100h ������������������Exhibitor Workshop in Exhibit Hall 1700h �����������������SMEQ Assembly (open to SMEQ members only) 2000h �����������������Cena Baile (Dinner and Dance Party) *Check technical program for exact times

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Photography and Recording is not permitted

REC

By attending the ECS and SMEQ meeting, you agree that you will not record any meeting-related activity, without the express, written consent from ECS and SMEQ. Recording means any audiovisual or photographic methods. Meetingrelated 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 Meeting 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 and SMEQ also reserve the right to deny your attendance at future ECS, or ECS sponsored meetings, or SMEQ meetings. Thank you for your consideration.

75 2090

IT ADM ONE

75 2090

Luncheons & Special Events

We are sorry but meal and event tickets are non-refundable because we are required to provide a guarantee to the venue.

Monday, October 6

Early-Bird (through Sep. 5)

Regular Rate (Sep. 6 and after)

Symposium Reception in Honor of Ralph White.......................$10.00...................... $15.00

Tuesday, October 7 Battery Division Luncheon and Business Meeting............$5.00...................... $10.00 Corrosion Division Luncheon and Business Meeting............$5.00...................... $10.00 Corrosion Division Uhlig & Cohen Awards Reception........$10.00...................... $15.00 Symposium Reception in Honor of Hajime Yamamoto.............$10.00...................... $15.00 High Temperature Materials Division Luncheon and Business Meeting............$5.00...................... $10.00 Sensor Division Luncheon and Business Meeting............$5.00...................... $10.00

ECS Future Meetings 227th Spring Meeting Chicago, IL

May 24-28, 2015 Hilton Chicago

CHICAGO 228th Fall Meeting Phoenix, AZ

PRiME 2016

Electrodeposition Division Luncheon and Business Meeting............$5.00...................... $10.00 Free the Science 5K Run........................$15.00...................... $20.00 Event day sign-up ................................................................. $25.00

Thursday, October 9

Cena Baile...............................................$15.00...................... $20.00

Honolulu, HI

October 9-14, 2016 Hawaii Convention Center & Hilton Hawaiian Village

229th Spring Meeting

231st Spring Meeting

May 29-June 3, 2016 Hilton San Diego Bayfront & San Diego Convention Center

232nd Fall Meeting

To Be Announced

National Harbor, MD (greater Washington, DC area)

October 1-6, 2017 Gaylord National Resort and Convention Center

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Battery Division Award Reception...................................$10.00...................... $15.00

PAE Division Max Bredig Award Reception...............$10.00...................... $15.00

October 11-16, 2015 Hyatt Regency Phoenix & Phoenix Convention Center

San Diego, CA

Wednesday, October 8

Student Mixer Students are invited to join distinguished members and staff of ECS and SMEQ for an evening of fun, networking, and socializing over complimentary food and beverages. Always one of the most popular events of the meeting, the student mixer is by invitation, with RSVP required, and will be held on Monday, October 6 from 1930-2130h. Registered students will receive an e-mail invitation with details of the mixer. Please remember to bring your badge and identification (passport or drivers license)Â - proof of age is required. Please contact ecs@ electrochem.org for more information.

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Committees, Boards, and Other Meetings Sunday, October 5 1500h ������ Electronics & Photonics Division Symposium Planning & Technical Directions Subcommittee; Universal 12 – First Floor Expo Center 1530h ������ Interface Advisory Board; Universal 17 – First Floor Expo Center 1800h ������ Dielectric Science & Technology Division Governing Body / Long Range Planning Committee & Symposium Planning Meeting; Universal 15 – First Floor Expo Center 1800h ������ Physical & Analytical Electrochemistry Division Symposium Planning Committee; Universal 14 – First Floor Expo Center 1800h ������ Fuel Cell Subcommittee; Universal 6 – First Floor Expo Center 1800h ������ Corrosion Division Executive Committee; Afna – First Floor Expo Center 1800h ������ Sensor Division Executive Committee; Universal 10 – First Floor Expo Center 1800h ������ Battery Division Executive Committee & Symposium Planning Subcommittee; Universal 7 – First Floor Expo Center 1900h ������ Industrial Electrochemistry and Electrochemical Engineering Division Symposium Planning Committee; Universal 16 – First Floor Expo Center 1900h ������ Electronics & Photonics Division Award Reception & General Meeting; Universal 8 – First Floor Expo Center

Monday, October 6 0700h ������ High Temperature Materials Division Executive Committee; Jupiter 1 & 2 – Sunrise Conference Center 0700h ������ Industrial Electrochemistry & Electrochemical Engineering Division Executive Committee; Jupiter 3 & 5 – Sunrise Conference Center 0700h ������ Physical & Analytical Electrochemistry Division Executive Committee; Board of Directors – Sunrise Conference Center 1400h ������ Education Committee; Beta – 2nd Floor Expo Center 1400h ������ ECS Transactions Editorial Board; Board of Directors Room – Sunrise Conference Center 1600h ������ Interdisciplinary Science & Technology Subcommittee; Alfa – 2nd floor Expo Center 1630h ������ Luminescence & Display Materials Division Executive Committee; Jupiter 3 & 5 – Sunrise Conference Center 1800h ������ Europe Section Executive Committee Meeting; Universal 12 – First Floor Expo Center

Meeting Program l October 5-9, 2014 l Cancun, Mexico

1800h ������ Luminescence & Display Materials Division Reception & General Business Meeting; Star 2 – Sunrise Conference Center 1900h ������ Europe Section Meeting; Universal 12 – First Floor Expo Center 1900h ������ Electrodeposition Division Executive Committee; Gama 2nd floor Expo Center 1900h ������ Energy Technology Division Executive Committee; Jupiter 1 & 2 Sunrise Conference Center

Tuesday, October 7 0700h ������ Combined ECS and SSST Editorial Boards; Board of Directors – Sunrise Conference Center 0700h ������ Symposium Subcommittee; Arena A 0730h ������ Council of Past Presidents; Jupiter 4 – Sunrise Conference Center 0930h ������ Publications Subcommittee; Board of Directors Room – Sunrise Conference Center 1215h ������ Battery Division Luncheon & Business Meeting; Arena A (ticket required) 1215h ������ Corrosion Division Luncheon & Business Meeting; Nizuc–Tortugas Ballroom-Laud (ticket required) 1215h ������ High Temperature Materials Division Luncheon & Business Meeting; Nizuc–Tortugas BallroomCaretta (ticket required) 1215h ������ Sensor Division Luncheon & Business Meeting; Nizuc–Tortugas Ballroom-Carey (ticket required) 1330h ������ Meetings Subcommittee; Board of Directors Room – Sunrise Conference Center 1600h ������ Individual Membership Committee/Division/Section Representatives; Universal 6 – First Floor Expo Center 1600h ������ Honors & Awards Committee; Jupiter 4 – Sunrise Conference Center

Wednesday, October 8 0700h ������ Technical Affairs Committee; Board of Directors Room – Sunrise Conference Center 1215h ������ Electrodeposition Division Luncheon & Business Meeting; Arena A (ticket required) 1230h ������ Sponsorship Committee; Board of Directors Room – Sunrise Conference Center

Thursday, October 9 0830h ������ Board of Directors Meeting; Board of Directors Room – Sunrise Conference Center

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Featured Speakers and Lecturers Plenary Session Be sure to arrive on Sunday in time for this special plenary session.

Mexico´s National Policy on Science and Technology by Enrique Cabrero Mendoza Sunday, October 5, 1630h Universal Ballroom, 2nd Floor Expo Center Enrique Cabrero Mendoza obtained his Bachelor of Arts in Administration at the Autonomous University of San Luis Potosi. Later on, he obtained a Master’s degree in Pedagogical Improvement at the French Centre d´Enseignement Supérieur des Affaires and a Master’s in Public Administration at the Center for Economic Research and Teaching (CIDE). In France in 2001, Enrique Cabrero Mendoza received his PhD in Management Sciences at L’École des Hautes Études Commerciales. In January 2013, Dr. Cabrero was appointed General Director of the Consejo Nacional de Ciencia y Tecnología (CONACYT, the National Council of Science and Technology), and since then, he has been in charge of articulating Mexico’s national policy on science and technology. Dr. Cabrero’s lecture is structured in three sections. The first includes definitions and concepts of the knowledge economy and the knowledge society, as well as a comparative perspective among Organization for Economic Co-operation and Development (OECD) countries using the most relevant indicators for assessing science and technology. The second part presents the main programs, policy instruments, and priorities in the Mexican scientific and technological agenda, for instance: strengthening human capital; attracting global talent, building research infrastructure, promoting regional development, and establishing links between public instances and the private sector. The third part presents some of the main challenges ahead such as: boosting the overall expenditure on research and development activities, designing a long-term policy that strategically boosts regions and specialized science topics, increasing the availability of researchers and highly trained human capital, along with strengthening the national research oriented infrastructure.

Author Choice Open Access ECS has launched Author Choice Open Access across its four peer-reviewed journals: Journal of The Electrochemical Society, ECS Journal of Solid State Science and Technology, ECS Electrochemistry Letters, and ECS Solid State Letters. If you are attending the meeting in Cancun, you will also receive one Article Credit, which may be used for up to 12 months after the meeting. If you have questions, please visit our Open Access page on the ECS website (electrochem.org/oa/) or contact oa@ electrochem.org for personal assistance.

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ECS Edward Goodrich Acheson Award Lecture Maintaining the Momentum in Electrochemical Energy and Power Conversion by Ralph Brodd Tuesday, October 7, 1710h Universal 1, 1st Floor Expo Center Special Reception

Tuesday, October 7, 1745h Arena A Ralph Brodd is President of Broddarp of Nevada. He has over 40 years’ experience in the technology, manufacturing, and market aspects of the electrochemical energy conversion business. His experience spans the major primary and rechargeable battery systems, fuel cells, and electrochemical capacitors. He is a Past President of ECS and was elected an ECS Honorary Member in 1987. With Dr. A. Kozawa, he founded the IBA and arranged for the first joint meetings of the Electrochemical Society of Japan and ECS in Honolulu. He served as Vice-President and National Secretary of the International Society of Electrochemistry; served on technical advisory committees for the National Research Council and the International Electrotechnic Commission; as Secretary for the P1625 and P1725 of the IEEE, and NEMA; as well as on program review committees for the U.S. Department of Energy and NASA. Dr. Brodd began his studies in 1950 at the University of Texas under Norman Hackerman. His PhD thesis was on the relationship of capacitance and surface area of electrodes. This work continued at the National Bureau of Standards (now NIST) using impedance as a function of frequency to determine the characteristics of battery electrode reactions. His relationship with ECS began in 1952 when he was awarded membership as the result of winning an essay contest sponsored by the ECS Corrosion Division. Dr. Brodd pushed hard to increase funding for lithium exploration over that for alkaline as a key for the future. He re-engineered the alkaline technology with new MnO2 materials, a new separator, a new anode current collector, and a new seal to prevent leakage. The new current collector was adopted because it lowered cost and instantly saved over a million dollars annually. The MnO2 research work continued and eventually resulted in new cathode materials for Li-ion cells. In many respects electrochemical energy conversion (batteries, fuel cells, flow batteries, capacitors, etc.) has become the hope of the future in maintaining our world as we know it. Battery technology has reached goals that were considered by many as impossible only 15 years ago. The pace of new developments has accelerated along with the entrance of people with exceptional skills who have been drawn into the technology. Dr. Brodd will relate his observations from the period of time when he entered the arena. Society has seen the promise of electric cars fulfilled, and the promise of solar and wind power as replacements for coal-fired power plants as viable possibilities to control global warming. Dr. Brodd’s reflections will encourage others to keep up the momentum and the remarkable growth that has led to the use of electrochemical energy and power conversion in our everyday personal life.

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Featured Speakers and Lecturers (continued) Charles W. Tobias Young Investigator Award Lecture Understanding Transport Phenomena in Polymer-Electrolyte Fuel Cells by Adam Weber Monday, October 6, 1730h Galactic Ballroom 7, 2nd Floor Sunrise Adam Z. Weber holds BS and MS degrees from Tufts University, the latter under the guidance of Professor Maria FlytzaniStephanopoulos. Next, he earned his PhD at University of California, Berkeley in chemical engineering under the guidance of John Newman. Dr. Weber’s dissertation work focused on the fundamental investigation and mathematical modeling of water management in polymer-electrolyte fuel cells. Dr. Weber continued his study of water and thermal management in polymer-electrolyte fuel cells at Lawrence Berkeley National Laboratory, where he is now a staff scientist. His current research involves understanding and optimizing fuel-cell performance and lifetime including component and ionomer structure/function studies using advanced modeling and diagnostics, understanding flow

batteries for grid-scale energy storage, and analysis of solar-fuel generators where he is a Team Leader for Modeling and Simulation at the Joint Center for Artificial Photosynthesis (JCAP). Dr. Weber has authored over 50 peer-reviewed articles and nine book chapters on fuel cells, flow batteries, and related electrochemical devices, developed many widely used models for fuel cells and their components, and has been invited to present his work at various international and national meetings including the Gordon Research Conference on Fuel Cells, the Special Invitation Session at FC Expo 2007, and nine keynote\invited lectures at national society meetings. He has also been the recipient of a number of awards including a Fulbright scholarship to Australia, the 2008 Oronzio and Niccolò De Nora Foundation Prize on Applied Electrochemistry of the International Society of Electrochemistry, the 2012 Supramaniam Srinivasan Young Investigator Award of the Energy Technology Division of The Electrochemical Society, and a 2012 Presidential Early Career Award for Scientists and Engineers (PECASE). Dr. Weber is also on the Editorial Board of the Journal of Applied Electrochemistry and is current chair of the Energy Technology Division of The Electrochemical Society. Dr. Weber will speak about understanding transport phenomena in polymer-electrolyte fuel cells, including current macroscopic modeling approaches for multiphase flow in fuel cells, diagnostics and effective-property measurements for gas-diffusion layers, and the impact and genesis of catalyst-layer ionomer in limiting fuel-cell performance, especially at low catalyst loadings.

Panel of Professionals As part of its Career Development Series, ECS is pleased to present our Panel of Professionals on Monday 1700-1830h. Attendees will hear from three guest speakers, representing industry, academia, and government, each discussing the unique challenges and opportunities of pursuing a career in their chosen field. The session will be moderated by Jamie Noël, PhD, of University of Western Ontario. There will be ample time for questions and answers. Students and earlycareer professionals are strongly encouraged to attend. Amy Marschilok (standing) of Stony Brook University, SUNY, spoke at the Panel of Professionals in Orlando, a new feature of the ECS meetings.

Meeting Program l October 5-9, 2014 l Cancun, Mexico

7


Volume 64– C a n c u n , M e x i c o

from the Cancun meeting, October 5—October 10, 2014

The following issues of ECS Transactions are from symposia held during the Cancun 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. 64 No. 13

Fundamentals and Applications of Microfluidic and Nanofluidic Devices 2 SC.............................TBD PDF .............................TBD

Vol. 64 No. 14

Nonvolatile Memories 3 SC.............................TBD PDF .............................TBD

Atomic Layer Deposition Applications 10 HC..............................M $96.00, NM $119.00 PDF.............................M $86.89, NM $108.61

Vol. 64 No. 15

Photovoltaics for the 21st Century 10 SC.............................TBD PDF .............................TBD

Vol. 64 No. 10

Thin Film Transistors 12 (TFT 12) HC..............................M $96.00, NM $119.00 PDF.............................M $86.89, NM $108.61

Vol. 64 No. 16

Semiconductor Wafer Bonding 13: Science, Technology, and Applications HC..............................M $107.00, NM $134.00 PDF.............................M $97.26, NM $121.57

Vol. 64 No. 11

High Purity and High Mobility Semiconductors 13 SC.............................TBD PDF .............................TBD

Solid-State Electronics and Photonics in Biology and Medicine SC.............................TBD PDF .............................TBD

Vol. 64 No. 17

SiGe, Ge, and Related Compounds: Materials, Processing, and Devices 6 HC.............................M $159.00, NM $198.00 PDF............................M $144.33, NM $180.41

Vol. 64 No. 12

Emerging Nanomaterials and Devices SC.............................TBD PDF .............................TBD

State-of-the-Art Program on Compound Semiconductors 56 (SOTAPOCS 56) SC.............................TBD PDF .............................TBD

Vol. 64 No. 7

GaN and SiC Power Technologies 4 HC..............................M $103.00, NM $129.00 PDF............................M $93.80, NM $117.25

Vol. 64 No. 8

Semiconductors, Dielectrics, and Metals for Nanoelectronics 12 HC..............................M $97.00, NM $122.00 PDF.............................M $88.62, NM $110.77

Polymer Electrolyte Fuel Cells 14 (PEFC 14) CD/USB.....................M $203.00, NM $254.00 PDF...............................M $184.65, NM $230.81

Vol. 64 No. 9

Vol. 64 No. 4

Molten Salts and Ionic Liquids 19 HC.............................M $149.00, NM $186.00 PDF............................M $135.11, NM $168.89

Vol. 64 No. 5

Vol. 64 No. 6

Vol. 64 No. 1

Chemical and Biological Sensors 11 and MEMS/NEMS 11 HC.............................M $132.00, NM $164.00 PDF .............................M $119.63, NM $149.54

Vol. 64 No. 2

Solid State Ionic Devices 10 HC.............................M $109.00, NM $136.00 PDF .............................M $98.98, NM $123.73

Vol. 64 No. 3

Forthcoming Issues CAN A1

Batteries and Energy Technology Joint Session (General) - 226th ECS Meeting

CAN H1

Physical and Analytical Electrochemistry (General) - 226th ECS Meeting

CAN A2

Batteries Beyond Lithium Ion

CAN H2

Chemically Modified Electrodes

CAN A3

Electrochemical Capacitors: Fundamentals to Applications

CAN H7

Oxygen Reduction Reactions

CAN A4

Electrochemical Interfaces in Energy Storage Systems

CAN H8

Systems Electrochemistry

CAN A5

Lithium-Ion Batteries

CAN M1

CAN A6

Nano-architectures for Next-Generation Energy Storage Technologies

Nanocarbon Fundamentals and Applications - from Fullerenes to Graphene

CAN A7

Nonaqueous Electrolytes

CAN N1

Thermal and Plasma CVD of Nanostructures and Their Applications

CAN A8

Solar Fuels and Photocatalysts 4

CAN P4

Plasma Processes

CAN A9

Stationary and Large-Scale Electrical Energy Storage Systems 4

CAN P5

CAN C1

Corrosion (General) - 226th ECS Meeting

Processing Materials of 3D Interconnects, Damascene, and Electronics Packaging 6

Electrochemical Techniques and Corrosion Monitoring

CAN P8

Thermoelectric and Thermal Interface Materials

CAN C2

Transparent Conducting Materials for Electronic and Photonics

CAN C3

High Resolution Characterization of Corrosion Process 4

CAN P9

Electrodeposition for Energy Applications 3

CAN Q4

Low-Dimensional Nanoscale Electronic and Photonic Devices 7

CAN D1 CAN D2

Electrochemical Science and Technology: Challenges and Opportunities in the Path from Invention to Product

CAN R1

Luminescence and Display Materials: Fundamentals and Applications (in Honor of Hajime Yamamoto)

Magnetic Materials, Processes, and Devices 13

CAN Z1

Student Poster Session (General) - 226th ECS Meeting

CAN D3

Energy Water Nexus - 226th ECS Meeting

CAN E2

Electrochemical Treatments for Organic Pollutant Degradation in Water and Soils

CAN Z2 CAN Z3

Nanotechnology (General) - 226th ECS Meeting

CAN E3

Symposium in Honor of Professor Ralph E. White

CAN G1

Bioelectroanalysis and Bioelectrocatalysis 2

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 5-9, 2014 l Cancun,07/01/14 Mexico


Award Winners 2014 Class of ECS Fellows George Blomgren is president and founder of Blomgren Consulting Services, Ltd., where he has provided consulting services worldwide in the field of battery technology and applications for many companies. He holds a BS in chemistry from Northwestern University and a PhD in physical chemistry from the University of Washington and received the Boese Post Doctoral Fellowship from Columbia University. Blomgren had a 41-year career as a research scientist with Union Carbide Corporation, now known as Eveready Battery Co. finishing as Senior Technology Fellow, the highest Technical position at Eveready. At Eveready, he utilized his background in electrolyte solutions to enable the development of liquid cathode primary batteries (including a fundamental patent on the use of thionyl chloride or sulfuryl chloride as a liquid cathode), and his interest in electrochemical methods to explain the operation of sulfide cathodes resulted in the development and commercialization of lithium iron disulfide batteries. He subsequently served as Chief Scientist at Imara Corp. (where he was a co-founder) and successfully helped to develop an industry leading battery for high power applications such as power tools. He is Adjunct Professor of Chemical Engineering at Case Western Reserve University. Dr. Blomgren has served as officer and Chair of the Battery Division of The Electrochemical Society, member of several committees of that organization and served as Associate Editor of the Journal of The Electrochemical Society. He has also served on the Board of the International Battery Materials Association (IBA) for many years. He has received the 1998 IBA Research Award, the 1998 Battery Division of The Electrochemical Society Technology Award and the 2010 IBA Yeager Award. He has been a frequent reviewer of battery programs and proposals for the Department of Energy, proposals for the SBIR program of the National Institute of Health, and an external examiner for 5 PhD theses. Dr. Blomgren has authored 30 book chapters and chapters on batteries for Kirk Othmer Encyclopedia of Chemical Technology, Ullmann’s Encyclopedia of Industrial Chemistry, the Encyclopedia of Physics, and the new Springer Encyclopedia of Applied Electrochemistry in addition to holding 20 patents and over 30 journal publications, Gerardine (Gerri) Botte is the Russ Professor of Chemical and Biomolecular Engineering at Ohio University, the founder and director of Ohio University’s Center for Electrochemical Engineering Research, and the founder and director of the National Science Foundation I/UCRC Center for Electrochemical Processes and Technology. Dr. Botte and members of her research group are working on projects in the areas of electrochemical engineering, electro-synthesis, batteries, electrolyzers, sensors, fuel cells, mathematical modeling, and electro-catalysis. Example projects include: hydrogen production from ammonia, biomass, urea, and coal, synthesis of carbon nanotubes and graphene, water remediation, selective catalytic reduction, ammonia synthesis, and electrochemical conversion of shale gas and CO2 to high value products. Professor Botte has 116 publications (peer-reviewed, book chapters, proceedings, and patents) and over 190 presentations in international conferences. She is the inventor of 18 US patents and 29 pending applications. She is the Editor in Chief of the Journal of Applied Electrochemistry. In 2010, she was named a Fellow of the World Technology Network for her contributions on the development of sustainable and environmental technologies. In 2012 she was named a Chapter Fellow of the National Academy of Inventors. Dr. Botte has been active in ECS for over 16 years, including past Chair, Vice-Chair, and Secretary/Treasurer of the IEEE Division, past member of the Honors and Awards Committee, and the Symposium Meeting Program l October 5-9, 2014 l Cancun, Mexico

Planning Subcommittee. She is a founder and leader of the IEEE Division outreach program. This program, which started in the fall of 2006, consists of demonstrations performed to high school students on electrochemical technologies. Since then, the program had served 743 students in the United States and Overseas. Professor Botte received her BS in Chemical Engineering from Universidad de Carabobo (Venezuela) in 1994. Prior to graduate school, Dr. Botte worked as a process engineer in a petrochemical plant (Petroquimica de Venezuela) where she was involved in the production of fertilizers and polymers. She received her PhD in 2000 (under the direction of Dr. Ralph E. White) and M.E. in 1998, both in Chemical Engineering, from the University of South Carolina. Prior to joining Ohio University as an assistant professor in 2002, Dr. Botte was an assistant professor at the University of Minnesota-Duluth. Ralph J. Brodd is President of Broddarp of Nevada. He has over 40 years experience in the technology, manufacturing and market aspects of the electrochemical energy conversion business. His experience spans the major primary and rechargeable battery systems, fuel cells and electrochemical capacitors. He is a Past President of The Electrochemical Society and was elected Honorary Member in 1987. With Dr. A. Kozawa, he founded the IBA and arranged for the first joint meetings of the Electrochemical Society of Japan and the ECS in Honolulu. He served as Vice President and National Secretary of the International Society of Electrochemistry as well as on technical advisory committees for the National Research Council, the International Electrotechnic Commission, Secretary for the P1625 and P1725 of the IEEE, and NEMA as well as on program review committees for the Department of Energy and NASA. Yasuhiro Fukunaka is currently a visiting professor at the Institute for Nanoscience and Nanotechnology in Waseda University. He obtained his Dr. of Eng. in Metallurgy Dept. at Kyoto University, (1975, “Kinetic Analysis of Gas-Solid Reactions in a Fluidized Bed,” advisor Prof. Y. Kondo). Afterwards, he held a postdoctoral fellow position at the University of Toronto (Oxidation Kinetics of Ni Sulfide Droplet Levitated above 2300K, with Prof. J. M. Toguri). In late 1977, he was appointed as a research associate in Kyoto University. Through his international experiences, Professor Fukunaka learned that nonferrous metallurgy provides a treasure trove of academic seeds for a young materials scientist. Moreover, he came to realize that the electrolyte circulation process with additive supply in copper refinery had been already optimized for over 100 years and that many refinery engineers believed there was no room to improvement except for materials handlings. This situation strongly stimulated his academic interests. In particular, he was inspired by the pioneering approach of C. Wagner and the Berkeley electrochemical engineering school to the role of natural convection in electrochemical processes. After the ISE Meeting in Berkeley, 1984, his interest shifted to the coupling phenomena between the morphological/microstructural variations and the mass transfer rate. The introduction of another degree of freedom like gravitational forces or magnetic gradient fields into electrochemical processing further broadened his research activities. In 1996, Dr. Fukunaka moved to the field of energy science and technology and started research on space energy and resources as well as on solar-hydrogen energy. He was the first to observe various kinds of unique electrochemical interfacial phenomena in microgravity conditions, including three-phase interfacial phenomena such as the influence of froth layer growth on the surface coverage ratio of H2 and O2 gas bubbles on electrodes in alkaline water electrolysis as well as the MHD effect to implement efficient liquid/gas separation. The electrodeposition of Li and Si from ionic liquids was also studied. (continued on next page) 9


Award Winners-Fellows (continued from previous page)

Professor Fukunaka retired from Kyoto University and joined Waseda University and Japan Aerospace Exploration Agency (JAXA) in 2008. His current interests include non-equilibrium electrochemical processing confined in nano-scale volumes as well as the technology of large scale solar-hydrogen energy systems. He has also been interested in the ultra-fast reduction processing of SiO2 refined from diatomaceous earth resources and in high temperature molten salt electrochemistry for in-situ resources utilization. Jay W. Grate has been at the Pacific Northwest National Laboratory (PNNL) since 1992, where he is currently a Laboratory Fellow, a Wiley Research Fellow in association with the Environmental Molecular Sciences Laboratory, and a Battelle Distinguished Inventor. He has been an Affiliated Professor with the Chemistry Department at the University of Washington since 2004. He was a scientist at the Naval Research Laboratory from 1984 to 1992. Dr. Grate’s research interests are in interfacial chemistry and materials science, including polymer thin films, organic monolayers, monolayer-protected inorganic nanoparticles, and stabilized enzyme nanoparticles and composites. His expertise has been applied to various topics in analytical and bioanalytical chemistry, particularly in chemical sensors. He was a pioneer in the development of polymercoated vapor sensors, where his signature contribution was to develop a systematic understanding of vapor-polymer interactions as they relate to sensor selectivity, and to determine the basis for selecting sets of sensor coatings to maximize selectivity in an array of acoustic wave sensors. He applied this understanding to the development of new sensing polymers, receiving an R&D100 Award for “BSP3 Polymer” in 2004 and the American Chemical Society Regional Industrial Innovation Award in 2007. At PNNL, Dr. Grate initiated the development of a new class of chemically-selective sensors for radionuclides in water. These sensors use a preconcentrating mini-column device and have been engineered into systems for field testing at the Hanford nuclear site in Washington State. He has also contributed to the development of microfluidic sensors for biological toxins, and investigated oxygen sensors incorporated into microfluidic structures as habitats for microbial communities. His work has been featured on the covers of several leading journals including Analytical Chemistry, Chemical Reviews, Langmuir, and Chemical Communications, and described in magazines such as Chemical and Engineering News. Within the Electrochemical Society, Dr. Grate participated in the founding of the Sensor Division and has been a continuous member of the Executive Committee of the Sensor Division since its inception. He served on the ECS committee to award the Henry B. Linford Award for Distinguished Teaching in 2010 and 2012. Dirk M. Guldi is one of the world-leading scientists in the field of charge transfer/ nanocarbons. In particular, he is well-known for his outstanding contributions to the areas of charge-separation in donor-acceptor materials and construction of nanostructured thin films for solar energy conversion. His scientific career began at the University of Köln, from where he graduated in Chemistry (1988) and from where he received his PhD (1990). After a postdoctoral stay at the National Institute of Standards and Technology (NIST) in Gaithersburg/USA (1991/1992), he took a position at the Hahn-Meitner-Institute Berlin (1992-1994). Following a brief stay as a Feodor-Lynen Fellow at Syracuse University/USA he joined the faculty of the Notre Dame Radiation Laboratory/USA (1995). Then, after nearly a decade in the USA, the University of Erlangen-Nürnberg succeeded in attracting Dirk M. Guldi back to Germany, despite major efforts by the University of Notre Dame (2004), who offered him a position as Director of the Notre Dame Radiation Laboratory & Full Professor in the Physics Department, and the University of 10

Bowling Green (2005) as Ohio Board of Regents Eminent Scholar in Photochemical Sciences. Professor Guldi is the recipient of numerous honors and awards– VCI Abschlussstipendium (VCI, 1990), Heisenberg Preis (DFG, 1999), Grammaticakis-Neumann Prize (Swiss Society of Photochemistry, 2000), JSPS Award (Japan Society for the Promotion of Science, 2003), JPP Award (Society of Porphyrins & Phthalocyanines, 2004), and Elhuyar-Goldschmidt Award (Spanish Chemical Society, 2009). He served as Chair of the Fullerenes, Nanotubes, and Carbon Nanostructures Division of The Electrochemical Society between 2008 and 2012. Bruce Parkinson grew up in Minnesota and in high school showed an early interest in electrochemistry by working on electrochemical science projects that placed first at the regional science fair three years in a row from 1967-1969. After high school he went to Iowa State University where he did undergraduate research on rotating electrodes with Dennis Johnson and received his BS in chemistry in 1972. He then attended Caltech where he earned his PhD in 1977 under the guidance of Fred Anson working on electrode kinetics and surface phase formation on mercury electrodes. In 1978, Dr. Parkinson did post-doctoral studies at Bell Laboratories with Adam Heller and Barry Miller where he was introduced to the area of semiconductor photoelectrochemistry that became his primary career interest. His first real job was as a staff scientist at the Ames Laboratory from 1979-1981 after which he moved on to the Solar Energy Research Institute (now known as the National Renewable Energy Laboratory) in Golden, Colorado working on solar energy conversion as a senior scientist in the Photoconversion Branch with Art Nozik. In 1985 he joined the Central Research and Development Department of the DuPont Company in Wilmington, Delaware. In 1991 he became Professor of Chemistry at Colorado State University until his departure in 2008 to join the Department of Chemistry and the School of Energy Resources at the University of Wyoming where he is now the J. E. Warren Professor of Energy and Environment. Professor Parkinson’s current research covers a wide range of areas including electrochemistry, materials chemistry, nanomaterials, photoelectrochemistry on Mars and photoelectrochemical energy conversion. He has more than 210 publications in peer-reviewed journals and holds 5 US patents and is a Fellow of the American Association for the Advancement of Science. Dr. Parkinson is married to Lucinda Baker and has three children Lily, Graham, and Robin Parkinson. His other interests include photography and swimming. Fred Roozeboom received his MSc in chemistry (cum laude) from Utrecht University in 1976, and his PhD in chemical engineering in 1980 at Twente University (both in The Netherlands) on topics in catalysis. From 19801983 he worked on zeolite catalysis with Exxon R&D Labs in Baton Rouge, USA (1980-1982) and with Exxon Chemicals in Rotterdam (1983). In 1983, Dr. Roozeboom joined Philips Research (since 2006: NXP Research) in Eindhoven, Netherlands, where his earlier work encompassed MOCVD of III-V semiconductors (1983-1988), IC metallization deposition and (rapid thermal) processing (1988-1990), soft-magnetic materials for magnetic recording (1990-1996), and on MBE of ultrathin magnetic and “switchable mirror” hydride multilayers (1996). More recently (19972009) he led a team working on silicon-based 3D passives and Li-ion microbatteries, and heterogeneous integration into System-in-Package products in wireless communication, power management and digital signal processing. For part of this work he received the Bronze Award of the ‘NXP Invention of the Year 2007’ and became an NXP Research Fellow. Since 2007, Professor Roozeboom is also a part-time professor at the Department of Applied Physics of the Eindhoven University of Technology, Netherlands, in the group Plasma and Material Processing. In 2009, he left NXP and joined TNO, Eindhoven, Netherlands as a senior technical advisor working in a team specializing in Meeting Program l October 5-9, 2014 l Cancun, Mexico


spatial atmospheric Atomic Layer Deposition and other high-speed processing. In 2011, the spatial processing team received the 2nd EARTO Innovation Prize Award. Dr. Roozeboom has authored or co-authored ~150 journal and conference publications and 5 book chapters. He holds 24 US patents and has ~30 pending patent applications. He has edited or co-edited of 28 conference books on semiconductor processing. His h-index (web of science) is 28. Dr. Roozeboom serves or has served as a member-at-large of the Electronics and Photonics Division of the Electrochemical Society, as a member of the ENIAC* advisory committee to the European Commission (subcommittee Beyond CMOS). He also served as Meeting Chair of the Materials Research Society (MRS) Fall 2003 Meeting. Topics of interest: ultrathin-film technology, plasma processing, spatial ALD (incl. roll-to-roll), RTP, reactive ion etching, 3D passive and heterogeneous integration, microsystem technology, Li-ion microbatteries, sensors, displays. Alvin Salkind has been involved in electrochemical technology for most of his career. His graduate education at Polytechnic Institute, now NYU, was part-time while working at battery companies around NYC. His masters thesis involved membranes for silver-zinc batteries and absorbent separators for lead-acid batteries. His rejected membranes were used by H. Mark to directly measure the MW of cellulosics. Dr. Salkind’s doctoral training at Polytechnic (Poly) was interdisciplinary, chemical engineering with minors in electrochemistry and x-ray physics. His thesis involved nickel-cadmium batteries. He was the first to build a battery into an x-ray port tracking structure with state of charge. He shared the x-ray machine with Margo Bergmann, (the wife of Peter Bergmann who earlier was Einstein’s assistant). With a visiting faculty member, Vladimir Scatturin, Dr. Salkind resolved the structure of AgO using neutron diffraction. At the initial request of Don Othmer, then Chemical Engineering Chair, Dr. Salkind taught a graduate course at Poly in Applied Electrochemistry from 1959-1970. While at Poly, Dr. Salkind shared lab space with Rudy Marcus, who later won the Nobel Prize in Chemistry. After completing his doctorate, Dr. Salkind became a group leader at ESB Central Lab which had subsidiaries and licensees in 26 countries, and whose divisions included Exide, Rayovac, Willson, and Grant. In 1970, he became President of the ESB Technology Center and Vice-President of the parent company. He also became a member of the Industrial Research Institute. Also in 1970, Dr. Salkind became a part-time Professor of Surgery/ Bioengineering at Rutgers Medical School. By 1980, Dr. Salkind returned to academia full-time, dividing his time between Rutgers, and Case Western as the Executive Director of the Case Center for Electrochemical Sciences (now the Yeager Center). In 1982, Professor Salkind became the Associate Dean of the Rutgers School of Engineering. In 2004, he became Professor Emeritus. From 2004-2012, Dr. Salkind was a visiting Professor at the University of Miami and at CUNY. He has been a visiting professor in Russia, Japan, China, Austria, India, Serbia, and Croatia. Professor Salkind is also a Fellow of the American Medical Association, AIMBE, AAAS, and the NJ Academy of Medicine and has received awards from societies in England and Japan. Dr. Salkind has been the author or editor of 17 books. His first book, Alkaline Storage Batteries, with S. Uno Falk, was an ECS monograph. He wrote another title, Techniques of Electrochemistry with Ernest Yeager. Dr. Salkind is co-editor of 11 ECS proceedings volumes, and is the author of over 200 articles. He has over 2 dozen patents, Dr. Salkind has been chair of the ECS Battery Division, the ECS Metropolitan Section, and the chair of many ECS committees and subcommittees, including the New Technology Subcommittee (now Interdisciplinary Science & Technology Subcommittee). Professor Salkind is grateful to colleagues who helped along the way including Rutgers faculty members Forrest Trumbore, Vladimir Bagotzky, Lisa Klein, Tom Reddy, and Tony Cannone; and students/ colleagues Max Schautz (ESA), Sergio Sironi (Sironi battery Milan), and Terry Atwater (Aberdeen). Meeting Program l October 5-9, 2014 l Cancun, Mexico

Dr. Salkind has two children, Susanne and James, and two grandchildren, Abby and Jacob. He also enjoys sailing, skiing, swimming, photography and traveling to revisit friends. Sudipta Seal joined the Advanced Materials Processing and Analysis Center (AMPAC) and Mechanical Materials Aerospace Engineering at the University of Central Florida in Fall 1997. He is the University Distinguished Professor and UCF Pegasus Professor. He received his BS (BTech-Hons) (1990) from Indian Institute of Technology (KGP) in Metallurgy and Materials Eng, worked for TATA Steel India (90-91), MS in Metallurgy, University of Sheffield (91-92), UK, and PhD from U Wisconsin (UWM) in Materials Engineering and Minor in Biochemistry and Surface Chemistry (93-96). During his PhD, he developed various surface techniques to evaluate organic/iorganic interfaces relevant to defects, corrosion and biological radical production. After that, he joined Lawrence Berkeley National Laboratory, University of California, Berkeley and was involved in the development of Scanning transmission X-ray microscopy and spectroscopy and Scanning photoemission spectroscopy. At UCF, he pioneered nanostructured cerium oxide and other metal/oxide platforms (micro to nano) and discovered its antioxidant properties and applied in various biomedical problems and led to various patents in the area of regenerative nanostructures. His group is currently studying the biochemical interfaces of nanostructures and composites using various surface and electrochemical techniques to understand the redox properties responsible for its regenerative properties at nanoscale. He is also involved in plasma based large scale manufacturing of nano-coatings and products for corrosion applications and developing novel nano-energetics materials. His research is funded by DOD, NSF, NIH, NIH, SBIR programs, and numerous industries including (Airproducts, Siemens, Lucent, Garmor, Nemours Children Hospital, Florida High Tech Corridor, Sanofi Pastour, and others). Besides research and teaching, he has served as Nano Initiative Coordinator for the Vice-President of Research & Commercialization. He is currently the Director of Nanoscience Technology Center and Advanced Materials Processing Analysis Center at UCF and Professor of Materials Science and Engineering and holds a secondary joint appointment at UCF College of Medicine. In 2014, he is elected as an Interim Chair of the Materials Science and Engineering Department. He created Professional Science Masters Program in Nanotechnology at UCF. He is the recipient of the 2002 Office of Naval Research Young Investigator Award (ONR-YIP) in the areas of bulk nanocomposites. He’s also been selected for the Japan Society of Promotion of Science Awardee and the Alexander Von Humboldt Fellow, ASM IIM Lecturer award, Royal Soc of Eng - Visiting Professor Distinguished Fellowship at Imperial College of Science, Technology and Medicine, Central Florida Engineers Week award, Academic Trail Blazor Award from DC. He was elected to attend the prestigious Frontiers of Eng Symposium sponsored by National Academy of Engineering. He is the recipient of Fellow of American Society of Materials (FASM) and Fellow of the American Association of Advancement of Science (FAAAS), Fellow of American Vacuum Society (FAVS), Fellow of Institute of Nanotechnology-UK (FIoN) and recently elected to the Fellow of American Institute of Medical and Biological Engineering (FAIMBE) and Fellow of National Academy of Inventors (FNAI). He has won multiple teaching and research awards from UCF. He was awarded the UCF Dean’s Advisory Board: Faculty Award for Excellence from UCF College of Engineering. He has more than 350 journal papers, conference proceedings papers, book chapters, and three books on nanotechnology (including one on Nanoscience and Technology Education). He has 39 issued patents (and many pending), and h index >54 and his technology is responsible for various startups (nSolgel, NanoCe, Nantiox, etc). He graduated 16 PhD, 19 MS, 18 postdoc/researchers and mentored more than 80 undergraduate students in research. He is currently supervising a group of 12-graduate and undergraduate students/postdocs/researchers. His expertise lies in (continued on next page) 11


Award Winners-Fellows (continued from previous page)

the field of oxides, nanomanufacturing, sensors, nanobio-therapeutics, nano-energetics, green manufacturing and surface engineering. http:// sudipta-seal.ucf.edu. He is an active member of ECS DS&T and served on various committees over the years, and organized numerous Chemical Mechanical Planarization symposium/CMP Proceedings and delivered various short courses. He was instrumental in creating the first Electrochemical Society Student chapter at University of Central Florida and many of his students have received various ECS awards for talks and posters. Michael M. Thackeray is an Argonne Distinguished Fellow and senior scientist in the Chemical Sciences and Engineering Division at Argonne National Laboratory. He received his PhD from the University of Cape Town, South Africa (1977) and studied as a post-doctoral student at Oxford University, UK. He was manager of the Battery Unit at the Council of Scientific and Industrial Research (CSIR), South Africa before moving to Argonne in 1994. He was Director of the Department of Energy’s (DOE’s) Energy Frontier Research Center (EFRC), the Center for Electrical Energy Storage (CEES) from 2009 to 2014, and is currently Deputy Director of the renewed EFRC, the Center for Electrical Energy Science (CEES-II). Dr. Thackeray has focused his career on unraveling structureelectrochemical relationships in solid electrodes and electrolytes for battery systems and in designing new or improved materials. While at the CSIR, he contributed to the early concepts of high-temperature sodium-metal chloride (‘Zebra’) batteries, and he pioneered the discovery of several transition-metal-oxide electrodes for lithium batteries, notably the spinel LiMn2O4. While at Argonne, in a CRADA between DOE, 3M, and Hydro-Quebec his identification of a new cathode chemistry led to significant advances in lithium-polymer battery technology; he is also recognized for his contributions to the design of composite electrode structures for lithium-ion batteries. Dr. Thackeray has published more than 200 research papers and is an inventor on 51 patents, several of which have been licensed on an international scale. Recognition for his contributions to battery science and technology include an honorary doctorate from the University of Cape Town (2014), the International Battery Association Yeager Award for life-long achievements in lithium battery R&D (2011), a DOE R&D Award (2010), an R&D100 Award (2009), The Electrochemical Society Battery Division Research Award (2005) and the University of Chicago Distinguished Performance Medal (2003). In South Africa, he is recognized on the commemorative wall at Africa’s first internationally accredited science park for contributions as a South African to world science and technology. Dr. Thackeray is a Board member of the International Battery Association, serving as its President between 1999 and 2002. He has been a member of the Battery Division of ECS since 1994 and has served on several Committees of the Society. Tooru Tsuru is an Emeritus Professor at Tokyo Institute of Technology (TIT), Japan. He received his Doctor degree in metallurgical engineering from TIT in 1975 and joined the Department of Metallurgical Engineering at TIT as a Research Associate, in 1982 as an Associate Professor, in 1990 as a Professor, in 2010 as a Distinguished Professor, and retired in 2012. He joined Massachusetts Institute of Technology as PostDoctoral Research Fellow from 1980 to 1981. Professor Tsuru combined basic electrochemical measurements with other physical, chemical or mechanical methods, such as resistometry, electrochemical impedance, channel flow electrode, Kelvin probe, acoustic and photo acoustic measurements, and others, to advance corrosion research and developed understanding based on electrochemistry principles. He showed the amount of adsorbed intermediate for anodic dissolution of iron in the Bockris mechanism and diffusion control of oxygen in thin water film as proposed by 12

Tomashov. For electrochemical impedance spectroscopy, He and his group and the French group were pioneers for wide range measurement from 0.001Hz to 20kHz. He applied this for studies of many corrosion problems and proposed a practical application as corrosion monitoring system. He applied Kelvin probe, electrochemical methods and many others to study on atmospheric corrosion that is a most complicated phenomenon that involve many physical and chemical effects. He proposed a basic tool for design and evaluate a corrosion test in laboratories by the investigations of change in corrosion rate and mechanisms during wet and dry cycles. He and his co-workers have explored with success the electrochemistry of hot corrosion, hydrogen entry of steels, corrosion fatigue, and fuel cells. Professor Tsuru supervised 37 doctoral dissertations and published more than 175 original papers (include Japanese), more than 161 papers in international meeting proceedings, 19 co-authored books and 9 co-edited international proceeding volumes. He is an active member of Japan Society of Corrosion Engineering (JSCE) and was the president of JSCE (2007-2008) and he has been the member of International Corrosion Council (ICC) since 1998, and was vice president (2002-2007) and president (2008-2010). Harry L. Tuller is Professor of Ceramics and Electronic Materials, Department of Materials Science and Engineering and Head of the Crystal Physics and Electroceramics Laboratory at the Massachusetts Institute of Technology, Cambridge, Massachusetts, USA. He received BS and MS degrees in Electrical Engineering and Eng.Sc.D. in Solid State Science & Engineering from Columbia University, NY; served as Postdoctoral Research Associate, Physics, Technion, Israel 1974-5; following which he joined the faculty at MIT. Professor Tuller’s research focuses on defects, diffusion, and the electrical, electrochemical and optical properties of metal oxides with applications to sensors, fuel cells, photoelectrochemistry, thin film oxides, microphotonics, and MEMS devices. He has published over 420 articles, co-edited 15 books and was awarded 29 patents. He is Editor-in-Chief of the Journal of Electroceramics and Series Editor of Electronic Materials: Science and Technology and co-founder of Boston MicroSystems, a pioneer in silicon carbide-based MEMS technology and devices. His honors include: Fellow of the American Ceramic Society– ACERS (1984); recipient of Fulbright (1989-1990), and von Humboldt Awards (Germany) (1997-2002); Docteur Honoris Causa, University Provence, Marseilles (2004); ACERS F.H. Norton Award (2005); elected to World Academy of Ceramics (2006); ACERS Edward Orton Jr. Award (2007); The Joseph Meyerhoff Visiting Professor, Weizmann Institute of Science (2008); Honorable Guest Professor of Shizuoka University, Japan (2009-2014); Technices Doctor Honoris Causa, University of Oulu, Finland (2009); The John F. McMahon Award Lecture, Alfred University (2009); Outstanding Achievement Award - High Temperature Division, The Electrochemical Society (2010); Somiya Award for International Collaboration in Materials Research, International Union Materials Research Societies, Japan (2012); Helmholtz International Fellow Award (Germany) (2013); VP and President-Elect of International Society of Solid State Ionics-ISSI (2013); Fellow of The Electrochemical Society (2014). Jose H. Zagal is a professor at the University of Santiago de Chile. He received his undergraduate degree in Chemistry from the University of Chile in 1973 and a PhD from Case Western Reserve University, in 1978, under E. Yeager. He was a visiting scientist at Brookhaven National Laboratory in 1982, Brown & Williamson Visiting Scholar, University of Louisville in 1996 and has been visiting scientist at the Ecole Superieure de Chimie de Paris in several occasions. He was awarded the Presidential Chair in Science in 1996 in Chile by a committee chaired by Nobel Laureate Rudolph Marcus. He was appointed member of the Superior Council of Sciences by the President of Chile for the period 2011-2013. He has recently been elected Fellow of the International Society of Electrochemistry. Meeting Program l October 5-9, 2014 l Cancun, Mexico


Professor Zagal has been a member of ECS since 1977 and helped to create the Chile Section of ECS and became its first Chair in 2011. He has delivered more than 50 papers at ECS meetings. He has authored over 190 publications, 6 book chapters, co-authored two books and created 3 patents. He was member of the Editorial Board of the Journal of Applied Electrochemistry and is currently an Editorial Board member of several publications including the Journal of Solid State Electrochemistry, Electrocatalysis, Electrochemistry Communications, International Journal of Electrochemistry and of the Journal of the Serbian Chemical Society. He has contributed in many areas of electrochemistry including modified electrodes, conductive polymers, sensors and corrosion but he is particularly known for establishing reactivity guidelines for the design of efficient non-precious metal catalysts for the promotion of many electrochemical reactions including the reduction of O2. He developed the concept of “tuning” the redox properties of MN4 metal complexes for optimizing their electrocatalytic activity (volcano correlations). He is a contributor to the last edition of the Electrochemical Dictionary. More recently he has become involved in the development of hybrid micro-electrodes using carbon nanotubes and conductive polymers for the detection of molecules of biological interest. Zagal also writes poetry, plays the Scottish bagpipes, and draws cartoons. Some of his caricatures appeared in Interface in 2002. Piotr Zelenay received his PhD and DSc (“habilitation”) degrees in chemistry from Warsaw University, Warsaw, Poland. He was a postdoctoral research fellow at Texas A&M University, College Station (1983-1986), a visiting professor at the University of Illinois Urbana-Champaign (1988, 1989, 1990-92), University of Alicante, Spain (1994), and Colorado State University (1996-1997). Dr. Zelenay was appointed a faculty member in the Department of Chemistry, Warsaw University in 1983 and remained at the University until 1997, when he accepted permanent research position with Los Alamos National Laboratory (LANL). Dr. Zelenay has been associated with Materials Physics and Applications Division (formerly Materials Science and Technology Division) at Los Alamos National Laboratory for the past 15 years. He is currently a Project Leader and Team Leader at LANL focusing primarily on fundamental and applied aspects of polymer electrolyte fuel cell science and technology, electrocatalysis, and electrode kinetics. Dr. Zelenay has published more than 100 research articles in renowned scientific journals, including Nature and Science, coauthored nearly 300 presentations, of which approximately 100 have been invited/keynote/plenary lectures. To his credit, Dr. Zelenay has 16 patents and patent applications in the area of polymer electrolyte fuel cells. Since becoming Project Leader for LANL Fuel Cell Program in 2000, Dr. Zelenay has led numerous research projects and received more than 20 awards and recognitions. Among others, in June 2010, he was awarded the DOE Hydrogen Program R&D Award in Recognition of Outstanding Contributions to Fuel Cell Technologies for research on non-precious metal electrocatalysts for oxygen reduction reaction and, presently, The Electrochemical Society Energy Technology Division Research Award. Dr. Zelenay is a member of The Electrochemical Society, International Society of Electrochemistry and Editorial Board of Electrocatalysis.

2013 ECS Young Author Awards The Norman Hackerman Young Author Award was 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. To coincide with the change in Publications, beginning with the 2013 awards, the Norman Hackerman Young Author Award is being presented for the best paper published in the Journal of The Electrochemical Society for a topic in the field of electrochemical science and technology by a young author or authors. The Bruce Deal Meeting Program l October 5-9, 2014 l Cancun, Mexico

& Andy Grove Young Author Award, established in 2013, is being presented for the best paper published in the ECS Journal of Solid State Science and Technology for a topic in the field of solid state science and technology by a young author or authors.

Norman Hackerman Young Author Award Awarded to Rahul Malik and Aziz Abdellahi for “A Critical Review of the Li Insertion Mechanisms in LiFePO4 Electrodes” (JES, Vol. 160, No. 5, p. A3179). Rahul Malik is a research associate at the Massachusetts Institute of Technology (MIT) currently studying and developing materials for next-generation batteries from a combined experimental and first-principles calculations guided approach. After graduating summa cum laude with honors from Cornell University in 2007 with a BS in materials science and engineering, Dr. Malik completed his PhD in 2013 with Gerbrand Ceder at MIT for work on lithium iron phosphate cathodes, characterizing the particle size-dependence of the ionic diffusivity and non-equilibrium solid-solution transformation pathway. Currently, he is working in partnership with the Joint Center for Energy Storage Research (JCESR) developing novel materials for multi-valent intercalation based batteries which offer promise of significantly higher energy density compared to Li-ion batteries. His broader research interests include the thermodynamics and kinetics of materials (for energy), computationally guided materials development, collaboration with both theorists and experimentalists, and energy applications where material properties govern device performance. Aziz Abdellahi is a PhD student in the Materials Science and Engineering Department at the Massachusetts Institute of Technology (MIT). His thesis work, under the supervision of Gerbrand Ceder, focuses on understanding the single particle lithiation mechanisms in LiFePO4 using first principles. Prior to joining Prof. Ceder’s group, Mr. Abdellahi completed a bachelor in engineering physics from the Ecole Polytechnique (Paris, France) and a Masters in Nuclear Engineering from the Ecole Polytechnique de Montreal (Montreal, Canada). In addition to his research, Mr. Abdellahi is a member of the MIT Energy Club. As a co-director of the MIT Energy Club’s Events Committee, he has organized more than thirty energy lectures given by industrial and academic experts. Mr. Abdellahi also holds a black belt in Taekwondo, a Korean martial art which he practices very competitively. In addition to being a six-time Canadian champion, he earned a gold medal at the 2010 International Sports Karate Association World Championships (Orlando, USA), a bronze medal at the 2012 Taekwondo Pan-American Championships (Trois-Rivieres, Canada) and a top 8 finish at the 2013 Taekwondo World Championships (Benidorm, Spain).

Bruce Deal & Andy Grove Young Author Award Awarded to Konstantinos Spyrou for “Hydrogen Storage in GrapheneBased Materials: Efforts Towards Enhanced Hydrogen Absorption” (JSS, Vol. 2, No 10, p. M3160). Konstantinos Spyrou received his BS in Materials Science and Engineering (2007) from University of Ioannina, Greece and his PhD in the group of surfaces and thin films (Zernike Institute for Advanced Materials) from University of Groningen, The Netherlands. He is currently a postdoctoral associate in Materials Science and Engineering departments at Cornell University, Ithaca, New York. His research (continued on next page) 13


Award Winners-Deal & Grove (continued from previous page)

interests are materials chemistry, carbon nanostructures (graphene, carbon nanotubes, fullerenes), layered materials (clays, pillared clays, organo-clays), organic-inorganic composite materials, magnetic nanoparticles for multifunctional applications like gas storage, catalytically and environmental applications and CO2 capture.

Battery Division Research Award Arumugam Manthiram is currently the Joe C. Walter Chair in Engineering and Director of the Texas Materials Institute and the Materials Science and Engineering Graduate Program at the University of Texas at Austin (UT-Austin). He received BS (1974) and MS (1976) degrees in chemistry from Madurai University, India, and a PhD degree in chemistry (1980) from the Indian Institute of Technology at Madras. After working as a senior research fellow at the Indian Institute of Science at Bangalore, as a lecturer at Madurai Kamaraj University in India, and as a postdoctoral researcher at the University of Oxford in England and at UT-Austin with Professor John B. Goodenough, he became a faculty member at UT-Austin in 1991. Dr. Manthiram’s research is focused on rechargeable batteries, fuel cells, and supercapacitors. He has authored more than 550 publications, including 470 journal articles. He has been awarded 9 patents, and 14 patent applications are currently pending. He has graduated 41 PhD students and 22 MS students so far. He currently directs a large research group with about 30 graduate students and postdoctoral fellows. He is the Regional (USA) Editor of Solid State Ionics and is serving as an editorial board member for 5 other journals, including Chemistry of Materials, Journal of The Electrochemical Society, and ECS Electrochemistry Letters. He has served in various capacities at ECS including Chair of the South Texas Section (1998-1999), Texas Section (2005-2007), and Battery Division (2010-2012). He founded the Student Chapter of ECS at UT-Austin in 2006. Professor Manthiram received the Engineering Foundation Faculty Excellence Award in 1994, Mechanical Engineering Department Faculty Leadership Award in 1996, Charlotte Maer Patton Centennial Fellowship in 1996, Ashley H. Priddy Centennial Professorship in 2002, B. F. Goodrich Endowed Professorship in 2006, Jack S. Josey Professorship in Energy Studies in 2008, Joe C. Walter Chair in 2009, Mechanical Engineering Department Outstanding Teaching Award in 2011, and the University of Texas Outstanding Graduate Teaching award in 2012. He is a Fellow of the American Ceramic Society and The Electrochemical Society.

Battery Division Technology Award Feng Wu is head of the School of Chemical Engineering & the Environment, Beijing Institute of Technology, Beijing, China. He is currently the President of Green Energy Research Institute and the Co-Chair of the China Battery Industry Association. Professor Wu is a leading scientist in the battery research community in China and one of the internationally recognized materials researchers in this field. He has made outstanding contributions to both basic and applied research as well as commercialization of rechargeable batteries in China. Professor Wu has been involved in the research of NiMH batteries, lithium ion batteries and advanced power batteries for electric and hybrid vehicle applications. He has made great contributions in the development of high-strength composite membranes, electrolytes with electrochemically compatible flame retardants, as well as electrode materials with good thermal stability for lithium-ion battery applications. He has been leading several Chinese national key research programs in the battery area, such as the ‘863 Program,’ which is the National High Technology Research and Development Program in China, and 14

the ‘973 Program,’ the Chinese National Basic Research Program in China. Both 863 and 973 programs are supported by the Ministry of Science and Technology (MOST) of the central government of China. In these programs, his teams have been utilizing innovative approaches to successfully achieve enhancement of energy density using multi-valence systems containing light elements. Dr. Wu has also been leading several projects funded by the National Natural Science Foundation of China. As the first Chief Scientist of the Chinese Key Electric Vehicle Project of the Chinese National High Tech Research and Development Plan, he has successfully achieved several important milestones in this project. In the battery research field, Professor Wu has published more than 400 SCI and EI papers, edited two books as chief editors, and awarded 46 patents. In addition to the multiple national and provincial awards in China, Professor Wu received the International Battery Association 2012 Research Award in 2012 and the 2013 International Automobile Lithium Battery Association (IALB) Research Award in 2013. He has been serving as the lead organizer representing China in the China-US workshops on energy storage and vehicle technologies. He has been actively involving and serving as chairs or co-chairs in the Advanced Batteries for Automotive Applications (ABAA) conferences and International Forums on Li-ion Battery Technology & Industrial Development.

Corrosion Division H. H. Uhlig Award Paul M. Natishan received a BS in Biology from Wilkes College and a MS and PhD in Materials Science and Engineering from the University of Virginia. He went to the Naval Research Laboratory (NRL) as a National Research Council post-doc, joined NRL as a Research Metallurgist in 1985, and is currently section head in the Center of Corrosion Science and Engineering. Dr. Natishan has worked in the fields of corrosion science and engineering and electrochemistry for 31 years. His research has resulted in over 100 publications and 7 U.S. patents. He has been inducted as a Fellow of The Electrochemical Society (ECS) and NACE International. He was the recipient of the 1996 Blum and 1997 Foley Awards (National Capital Section of ECS) and the 2005 Kruger Award (Baltimore/Washington Section of NACE International). Dr. Natishan is a Past President and Secretary of ECS. He was a member of the Corrosion Division Executive Committee, Chair of the ECS Transactions Charter Committee, and has served on most committees within ECS. He was appointed Adjunct Full Professor at Duke University in 2006. Dr. Natishan was a section editor for the ASM Handbook on Corrosion, Volume 13A and co-wrote the chapter “Corrosion and Corrosion Control” for the Kirk-Othmer Encyclopedia of Chemical Technology in 1993 with second and third editions in 2002 and 2010. He was an associate editor for Corrosion Journal. Currently, Dr. Natishan is the Associate Editor for the Corrosion TIA of the Journal of The Electrochemical Society, a member of the Honors and Awards Committee, Audit Subcommittee, and Council of Past Presidents.

Electrodeposition Division Research Award Alan West received his BS in Chemical Engineering at Case Western Reserve University, where he was first introduced to electrochemical engineering in Uziel Landau’s course. He then studied under John Newman, where he focused on the numerical simulation and theory of current distributions; he received his PhD in Chemical Engineering from the University of California. In postdoctoral studies, he worked with Dieter Landolt in the area of electrochemical etching and polishing of metals at the Ecole Polytechnique Federale de Lausanne. Meeting Program l October 5-9, 2014 l Cancun, Mexico


Dr. West joined Columbia University in 1992 as an Assistant Professor of Chemical Engineering. He is the past chair of the Department of Chemical Engineering at Columbia University and is currently the Samuel Ruben-Peter G. Viele Professor of Electrochemistry. Professor West is a recipient of The Electrochemical Society’s Norman Hackerman Young Author Award, and a co-author on two other papers that garnered the prize for his students, Roberto Vidal and Igor Volov. His research interests include electrodeposition, electrochemical sensors, batteries, and electrochemical synthesis. In addition to his academic studies, Professor West has consulted and collaborated extensively with the industry. He is an author of a self-published text, Electrochemistry and Electrochemical Engineering: An Introduction, intended for engineering students at the advanced undergraduate or beginning graduate level. Furthermore, he is working to spin out from the University a technology that couples an electrochemical and biological process to convert dilute sources of CO2 into fuels and chemicals.

High Temperature Materials Division Outstanding Achievement Award Janusz Nowotny is Professor of Solar Energy Technologies, University of Western Sydney. He received his MSc, Silesian Technical University, Gliwice, Poland; and his PhD, at the Polish Academy of Sciences. He completed his postdoc at Northwestern University in Evanston, Illinois; and his ScD at the Academy of Mining and Metallurgy, Cracow. His former associations include Director, UNSW Centre for Materials Research in Energy Conversion, the Australian Nuclear Science & Technology Organisation, the Institute of Catalysis and Surface Chemistry, the Polish Academy of Sciences, and the Silesian Technical University. Professor Nowotny has been a visiting Professor at the University of Bordeaux, the University of Grenoble, the Tokyo Institute of Technology, the University of Burgogne, the Max-Planck-Institute for Solid State Research, the University of Paris-Sud, the University of Nancy, and the University of Marseille. His professional activities include the Director of NATO Advanced Research Workshop on Nonstoichiometric Compounds. Professor Nowotny has been the organizer of over 50 international meetings, including NATO Summer School, Oleron, ‘88. He is the founder of the International Network on Solar Hydrogen (established in ‘04). Dr. Nowotny is also the founder of two workshop series, Nonstoichiometric Compounds as well as Ceramic Interfaces. He is Fellow of the Polish Academy of Science & Art and member of Editorial Boards of 6 international journals, including Ionics, Hydrogen Energy, and Materials Science Forum. Dr. Nowotny has published more than 20 books, including Oxide Semiconductors for Solar Energy Conversion (‘12), has more than 440 refereed papers and edition of 5 topical issues of international journals.

Physical and Analytical Electrochemistry Division Max Bredig Award in Molten Salt and Ionic Liquid Chemistry Charles Logan Hussey is Chair and Professor of Chemistry at the University of Mississippi. He earned his BS and PhD degrees in Chemistry from this institution in 1971 and 1974, respectively. From 1974-78, he was a research chemist and active duty military officer at the Frank J. Seiler Research Laboratory (Air Force Systems Command) located at the United States Air Force Academy. Dr. Hussey joined the

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Department of Chemistry at the University of Mississippi as an Assistant Professor in 1978. Concurrently, he served as a member of the United States Air Force Reserve and was assigned to the Battery and Propulsion Directorate, Wright Laboratory, Air Force Materiel Command, retiring in 1994 as a Lieutenant Colonel. Dr. Hussey was promoted to Professor in 1987 and became Department Chair in 1997. During his academic career, Professor Hussey has served as ViceChair and Chair of the Gordon Conference on Molten Salts and Liquid Metals, as a consultant for Lawrence Livermore National Laboratory, as a member of the National Research Council Committee on Electrometallurgical Techniques for DOE Spent Fuel Treatment, as a member of the University of Chicago Review Committee for the CMT Division of Argonne National Laboratory, and as a member of the Board of Visitors for the Army Research Office. Professor Hussey, who is a Fellow of The Electrochemical Society, has been a member of the Electrochemical Society Editorial Board since 2000. As an Associate Editor and now Technical Editor, he has handled manuscripts in many topical areas for the Journal of The Electrochemical Society and ECS Electrochemistry Letters, but mainly those articles involving electrochemical/electroless deposition and electrochemistry in molten salts and ionic liquids. In addition, he has organized ECS symposia about electrochemistry in molten salts and nonaqueous solvents, and the electrochemistry and spectroscopy of surface-bound molecules. Professor Hussey’s scientific research with molten salts/ionic liquids has been directed at the electrochemistry and spectroscopy of d- and f-block elements, the electrodeposition of aluminum and corrosion-resistant aluminum-transition metal alloys, and the electrochemical treatment of spent nuclear fuel. He has also published extensively about the physical and transport properties of molten salts/ionic liquids. More than 25 students have earned advanced degrees in his laboratory, and many of them hold significant positions in industry or academia.

Sensor Division Outstanding Achievement Award Peter Hesketh received a B.Sc. in Electrical and Electronic Engineering from the University of Leeds (1979) and was a Thouron Fellow at the University of Pennsylvania, obtaining an MS (1983) PhD (1987) in Electrical Engineering. He worked in the Microsensor Group at the Physical Electronics Laboratory of Stanford Research Institute and then Teknekron Sensor Development Corporation before joining the faculty at the University of Illinois in 1990 in the Department of Electrical Engineering and Computer Science. Dr. Hesketh is currently a Professor of Mechanical Engineering at the Georgia Institute of Technology, Member of the Parker H. Petit Institute for Bioengineering and Biosciences, and Director of the Micro and Nano Engineering Group in the School of Mechanical Engineering. Professor Hesketh is a past chair of the Sensor Division, and past chair of the Honors and Awards Committee of the ECS. Currently, he is the Chair of the Georgia Section. He is organizer of the MEMS/ NEMS Symposia held at the ECS meeting. His research interests include micro/nanofabrication techniques, micro-cantilever chemical sensors, miniature gas chromatography systems, and microfluidics for sample preparation and sensing of microbial contamination of foods. He has published over seventy journal papers and edited fifteen books on microsystems. He is a Fellow of the AAAS, ASME, ECS, a member of ASEE, AVS, Sigma Xi, and IEEE. Professor Hesketh is married to Ann Marie with two children, Gabriel and Lillian Hesketh.

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SPONSORS ECS thanks our Sponsors for their generous support

Platinum Sponsors

Gold Sponsors

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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. 16

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Floor Plans

Convention Center Sunrise Lobby

Galactic Ballroom

Foyer Mars

Star Ballroom

Saturn

Board of Directors

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Posterboards 57 screen 94 1/2 x 371/2

Gamma Delta

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Expo The electrochemical Society Moon Palace Octubre 2014

Beta

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Hotel Check-In Area Meeting Program l October 5-9, 2014 l Cancun, Mexico

June. 19. 2014

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Technical Exhibit The Exhibit Hall is well-placed in an area that easily accommodates equipment demos and there will be several special workshops for exhibitors to showcase their equipment and services. Generous exhibit hours include receptions, and poster sessions in the same hall to ensure maximum traffic during peak hours.

Exhibit Hours Tuesday, October 7, 2014 0800-1300h ��������������������������������������������� Exhibitor Move-In 1300-1400h ���������������������������������������� Lunch in Exhibit Hall 1300-1600h �����������������������������������������������Technical Exhibit 1500-1530h �����������������Coffee & Snack Break in Exhibit Hall 1800-2000h �������������������������������� Technical Exhibit, General & Student Poster Session Wednesday, October 8, 2014 0900-1400h �����������������������������������������������Technical Exhibit 0930-1000h ��������������Coffee Break & Continental Breakfast in Exhibit Hall

0930-1030h ����������������������El Cell Workshop in Exhibit Hall 1100-1200h ������� Maccor/Ametek Workshop in Exhibit Hall 1200-1300h ���������������������������������������� Lunch in Exhibit Hall 1800-2000h �����Technical Exhibit & General Poster Session Thursday, October 9, 2014 0900-1200h �����������������������������������������������Technical Exhibit 0930-1000h ��������������Coffee Break & Continental Breakfast in Exhibit Hall 0930-1030h ��������������������������������������������ESL Electroscience Workshop in Exhibit Hall 1100-1200h ���������������������� Gamry Workshop in Exhibit Hall

ECS and SMEQ Thank Our Exhibitors ALS Co., LTD.

Bio-Logic

Booth 17

Booth 7

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

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

ALS Co., Ltd. provides researchers with a wide range of products including Bipotentiostats, Electrochemical Quartz Crystal Microbalances (EQCM), Ring-Disk Electrode apparatus (RRDE3A) and Spectrometry instruments (SEC2000). We are also dealing with various kinds of Spectroelectrochemical cells (SEC-C & SEC2F), 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.

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.

Biolin Scientific Booth 4 Nasira Latif us@biolinscientific.com 514 Progress Drive, Suite G Linthicum Heights, MD 21090 1.877.773.6730 USA www.biolinscientific.com

Biolin Scientific is a leading Nordic instrumentation company. Our customers include companies working with pharmaceuticals, energy, chemicals, advanced materials, and academic and governmental research institutes. Our precision instruments help discover better drugs faster, develop better solutions for energy and materials, and perform research at the frontiers of science and technology.

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EL-CELL GmbH Booth 22 Johannes Hinckeldeyn Johannes.Hinckeldeyn@el-cell.com Tempowerkring 8 Hamburg 21079 +49.40.790.12.733 Germany www.el-cell.com

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 5-9, 2014 l Cancun, Mexico


ESL ElectroScience

Hosokawa Micron Powder Systems

Booth 18

Booth 8

Lauren Timko ltimko@electroscience.com 416 E Church Road King of Prussia, PA 19406 1.610.272.8000 USA www.electroscience.com

C. C. Huang Chunag@hmps.hosokawa.com 10 Chatham Road Summit, NJ 07901 USA www.hmicronpowder.com

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. For more information visit us atwww. electroscience.com.

Hosokawa Micron Power develops and manufactures various particle processing systems for producing fine, ultra-fine powers and nanocomposites. For the LIB battery industry, Hosokawa offers a complete turn-key system including mixing, sintering, milling, particle coating, power densification and packaging of cathode and anode materials. Application examples are to be displayed.

Gamry Instruments Booth 3 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 190674 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, metal-organic 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.”

Horiba Scientific Booth 15 Christophe Morin info.sci@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. Meeting Program l October 5-9, 2014 l Cancun, Mexico

Ivium Technologies Booth 27 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 experiments. We will be demonstrating the pocketSTAT™ Potentiostat – a handheld potentiostat capable of all DC electrochemical techniques as well as EIS. We are exhibiting the Vertex™, the CompactStat™, and the IviumStat™ Potentiostats in Orlando. The Vertex is an entry-level 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.

Maccor, Inc. Booth 23 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. (continued on next page) 19


Technical Exhibit (continued from previous page)

Metrohm USA

Pine Research Instrumentation

Booth 19

Booth 5

info@metrohmusa.com 6555 Pelican Creek Circle Riverview, FL, 33578 1.813.316.4700 USA www.metrohmusa.com

Diane White pinewire@pineinst.com 2741 Campus Walk Ave., Bldg. 100 Durham, NC, 27705 1.919.782.8320 USA www.pineinst.com/echem

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.

NCERCAMP Booth 9 Annie Hanson ncercamp@uakron.edu The University of Akron Akron, OH 44325-9006 1.330.972.2968 USA www.uakron.edu/corrosion

Housed at The University of Akron, NCERCAMP addresses materials performance challenges by offering a comprehensive set of services in education, workforce training, research and applied technology development. The Center recognizes the importance of partnerships with international students, faculty, government researchers and industry representatives to maximize and complement our respective strengths.

Novonix Booth 29 Chris Burns Chris.burns@novonix.ca 15759 Highway #3 Hebbville, Nova Scotia B4V6X9 Canada www.novonix.ca

Novonix manufactures high precision coulometry (HPC) chargers for lithium-ion batteries. Our technology platform has evolved from more than 5 years of experience designing, building and operating HPC systems in Prof. Jeff Dahn›s group. Novonix also provides testing and consulting services for materials characterization, cell design optimization and evaluating cell performance.

Pine Research Instrumentation manufactures a full line of affordable, durable and reliable electrochemical research equipment. Pine offers benchtop bipotentiostat/galvanostat instruments as well as portable USB potentiostat systems, all of which are controlled using our powerful AfterMath software package. We offer unite quartz electrochemical cells for photoelectrochemistry and spectroelectrochemistry , and we are the world leader in rotating disk, ring-disk, and cylinder electrode instrumentation. Our line of compact voltammetry cells, featuring screen-printed patterned electrodes, provides a quick and easy way to perform routine electrochemical measurements.

Princeton Applied Research/Solartron Analytical Booths 24, 25, & 26 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.

PEC North America Inc. Booth 2 Peter Ulrix peter.ulrix@peccorp.com 2385 NW Executive Center Drive #100 Boca Raton, FL 33431 1.561.962.2824 USA www.peccorp.com

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).

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Meeting Program l October 5-9, 2014 l Cancun, Mexico


Ultratech / Cambridge NanoTech

Scribner Associates, Inc. Booth 6

Booth 1

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

Jim Mckibben jmckibben@ultratech.com 130 Turner St. Suite 110, Bldg. 2 Waltham, MA 02453 1.415.250.2713 USA www.cambridgenanotechALD.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.

As the leading provider of Atomic Layer Deposition (ALD) solutions, Ultratech/Cambridge Nanotech has over 350 systems installed worldwide. Ultratech/Cambridge NanoTech applies its expertise to solve unique coating challenges by collaborating on breakthrough research with customers and by offering nextgeneration thermal, plasma-enhanced and large-area ALD system. Key Products: ALD Systems; Savannah, Fiji for Plasma ALD.

Exhibitor Workshops The technical exhibit is always a highlight of ECS meetings; our partners will be sharing information about their equipment, services and programs that may be useful for your own work.

In Cancun, ECS is pleased to add exhibitor workshops into the schedule! Join us for informational sessions led by exhibitors, including hands-on equipment demonstrations, and the opportunity to ask technical questions directly.

All workshops will take place in the main lobby of the Expo Center. The schedule includes: Wednesday, October 8, 2014: 0930-1030 �������������������������������������������������El Cell Workshop

1100-1200 ����� Maccor/Princeton Applied Research Workshop

Thursday, October 9, 2014: 0930-1030 �����������������������������ESL Electroscience Workshop

1100-1200 �������������������������������������������������Gamry Workshop

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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2014 Electrochemical Energy & Water Summit Applying Electrochemistry to Complex Global Challenges 0800h - Monday, October 6, 2014 Universal Second Floor Expo, Moon Palace Resort, Cancun, Mexico Do you want to help solve some of the most challenging issues in the world today? Would you like to receive research funding to support your most innovative and creative problem solving ideas?

Please join us to lend your voice and expertise in helping to solve some of the world’s most challenging water and sanitation problems!

F

orty percent of the world’s population—2.5 billion people—practice open defecation or lack adequate sanitation facilities, and the consequences can be devastating for human health as well as the environment.

The workshop will kick-off on Monday morning before the start of the technical sessions with remarks from current awardees of the Bill & Melinda Gates Foundation and brief presentations of the issues and priorities, including program and landscape summaries. A questions and answers session will conclude the morning program.

ECS is holding a multi-day workshop during the meeting in Cancun to address critical technology gaps and water, sanitation and hygiene challenges in partnership with the Bill & Melinda Gates Foundation. The workshop is being designed to foster collaborative problem solving among participants and apply the collective brainpower of the joint ECS and SMEQ meeting attendees to complex technical challenges that require integrated thinking and out of the box solutions. More than 2,500 of the world’s leading scientists in electrochemistry and solid state science and technology will be in attendance at the Cancun meeting; representatives from the Gates Foundation and their funded programs will also participate in this event.

Later that day, 100 participants will be guided through facilitated brainstorming and working group sessions to take inventory and expand the collective knowledge around applications of electrochemical and solid state science and technology solutions to water, sanitation and beyond. Participants will consider priority topic areas including: interfaces, disinfection, energy generation, energy storage, chemical conversion, monitoring and measurement, and dewatering technologies, among others, including a “wild card” topic area to be decided by participants. The goal of the brainstorming sessions is to foster creativity and collaboration and surface new approaches to existing challenges within the WASH portfolio.

More than $200,000 will be available as seed funding for projects that address critical technical gaps. At least two grants will be distributed at this meeting, each in the range of $25,000-$100,000.

The first day will culminate with a summary of the brainstorm session and a solicitation for proposals, which will be emailed to all meeting attendees Tuesday morning.

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Meeting Program l October 5-9, 2014 l Cancun, Mexico


2014 Electrochemical Energy & Water Summit Grant Funding

At least three grants will be distributed from the more than $200,000 available, each in the range of $25,000-$100,000. Participants are encouraged to attend technical symposia, discuss ideas, and develop potential partnerships and collaborative proposals to be presented on Thursday afternoon, beginning at 1300h. The proposals will be one-page executive summaries, due Wednesday morning by 0900h. A maximum of 30 applicants will be invited to make 5-minute elevatorstyle pitches with 3-4 concept slides on Thursday afternoon to a panel of judges. This independent review committee will review the proposals and make award recommendations by Friday, October 10. More details on the application process will be available on Monday morning, and selected applicants will be given the opportunity to present their concepts and answer questions on Thursday afternoon. Selected grantees will be invited to publish their findings within one of ECS’ four scientific journals, each of which now offer Author Choice Open Access. Grantees will also be invited to present in a technical symposia at a future ECS meeting.

Resources

To inform both the workshop and proposal process, participants will be provided a summary of topics including a landscape of current technologies and information gaps developed in partnership with the Bill & Melinda Gates Foundation and their current awardees. Senior Technology Integration and Innovation Manager from RTI International, Dr. Brandy Salmon, will support development of workshop resources, as well as structure and guidance for the workshop. Dr. Salmon is among a team of Innovation Advisors at RTI who provide innovation management and strategy, technology commercialization, assessment, and partnership support for federal agencies, universities, foundations and companies. Dr. Salmon is an experienced facilitator and expert in innovation management and technology assessment.

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Steering Committee

Luis Gerardo Arriaga, Centro de Investigación y Desarrollo Tecnologico en Electroquimica Kathy Ayers, Proton OnSite Roque Calvo, ECS Executive Director Dan Fatton, ECS Director of Development Carl Hensman, Bill & Melinda Gates Foundation Paul Kohl, Georgia Tech and President of ECS Paul Natishan, Naval Research Laboratory and Past President of ECS Brandy Salmon, RTI International Brian Stoner, RTI International E. Jennings Taylor, Faraday Technology, Inc. and Treasurer of ECS Eric Wachsman, University of Maryland, Energy Research Center

RTI’s Senior Technology Integration and Innovation Advisor Brandy Salmon, PhD, MBA (RTI International) – Dr. Salmon is a Senior Technology Integration and Innovation Manager at RTI, supporting both federal and corporate clients in open innovation strategies and implementation, techno-market evaluations and technology management. Dr. Salmon helps companies explore best practices in innovation, assess and integrate current processes and activities, and through a disciplined approach, identify new sources of innovation, inside and outside of firms. During almost 20 years working with emerging technologies, Dr. Salmon has led a full spectrum of commercialization and transfer activities, including commercialization of RTI assets. Prior to RTI, Dr. Salmon worked across the innovation value chain, including for a Fortune 500 pharmaceutical company, a small angel/venture-backed agricultural biotechnology university start-up and a university technology transfer office. Dr. Salmon earned her MBA from the Fuqua School of Business at Duke University, completed post-doctoral studies at Washington University School of Medicine as a Howard Hughes Research Fellow, obtained a PhD in microbiology from Cornell University and received a BA in biology from University of Virginia. 23


Short Courses Four Short Courses will be offered on Sunday, October 5, from 0900 -1630h. The registration fee 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, 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.

Short Course #1

Short Course #3

Basic Impedance Spectroscopy Mark E. Orazem, Instructor

Fundamentals of Electrochemistry: Basic Theory and Kinetic Methods Jamie Noël, 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 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 graphical methods to interpret measurements in terms of meaningful physical properties.

Short Course #2

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

Polymer Electrolyte Fuel Cells Hubert Gasteiger and Thomas Schmidt, Instructors

Short Course #4

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.

Short Course Refund Policy: Written requests for Short Course refunds will be honored only if received at ECS headquarters by September 29, 2014. All refunds are subject to a 10% processing fee and requests for refunds must be made in writing and e-mailed to customerservice@electrochem.org.

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

Refunds will not be processed until AFTER the meeting. All courses are subject to cancellation pending an appropriate number of advance registrants. Please visit the ECS website (electrochem.org/cancun) for full course descriptions and instructor biographies.

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Career Development Series and Career Opportunities John R. Susko, Instructor Several career development workshops are being offered. These important workshops will provide attendees with up-todate information on enhancing career opportunities. The Career Development Workshops are open to all registered attendees at no additional cost. We also invite you to visit the ECS booth in the Exhibit Hall to discover the latest career opportunities in electrochemistry and solid state science and technology. Essential Elements for Employment Success Landing your next job requires selective and effective networking, developing and submitting specifically targeted résumés and cover letters, locating relevant job opportunities and preparing for and participating in the job interview. This workshop will provide the latest information and tips for employment success. Attendees are encouraged to bring their résumé to this workshop. Sunday, October 5 ���������������� 1400-1600h in Star Ballroom 8, Sunrise Conference Center Monday, October 6 ��������������� 0800-1000h in Star Ballroom 8, Sunrise Conference Center 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 6 ��������������� 1200-1600h in Jupiter 6, Sunrise Conference Center Tuesday, October 7 ��������������� 0800-1200h in Jupiter 6, Sunrise Conference Center Wednesday, October 8 ���������� 0800-1200h in Universal, 2nd Floor, Breakout, Expo Center Panel of Professionals—As part of the Career Development Series, ECS is pleased to present our Panel of Professionals on Monday 1700-1830h. Attendees will hear from three guest speakers, representing industry, academia, and government, each discussing the unique challenges and opportunities of pursuing a career in their chosen field. The session will be moderated by Jamie Noël, PhD, University of Western Ontario. There will be ample time for questions and answers. Students and early-career professionals are strongly encouraged to attend. Monday, October 6 ��������������� 1700-1830h in Universal 7, First Floor Expo Center

Information for Oral and Poster Presenters 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 flashdrive only. Speakers requiring special equipment must make written request to ECS headquarters (meetings@electrochem. org) no later than three weeks before the meeting, and appropriate arrangements will be made at the expense of the author. Poster Presentations Poster presentations must be in English. Two posters are presented on each side of the poster board with a line dividing the poster board in half. An 8.5 x 11 inch horizontal poster identification sign will be mounted at the top of the board. This poster identification sign may not be moved. Each poster must correspond to the abstract number and day of presentation as detailed in the final program. 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 and SMEQ will not assume any responsibility for lost, stolen, or broken articles. Additional information or special requirements should be addressed to the individual symposium organizers prior to the meeting. Commercial advertisements or publicity will NOT be permitted in poster presentations. Authors violating this regulation will be asked to remove their presentations immediately. New Hours You may mount your poster only on your assigned day from 0900 - 1600h. The poster hall will close at 1600h. The poster hall opens to all attendees at 1800h. Please remove your poster promptly at the end of the poster session. Unclaimed posters will be discarded. Please do not begin setting up your poster until all the poster boards have been numbered. Presenters will be provided double-sided sticky tape for mounting all posters. That means there are no push pins this year. The double-sided sticky tape will be available to you at the meeting. Student Poster Session The Student Poster Session will be held as part of the General Poster Session on Tuesday. All meeting registrants are invited to attend. Formal presentations will begin at 1800h. Students may mount their presentations from 0900-1600h in the Exhibit Hall (Expo Center: Center and Right Foyer, 1st Floor). The poster hall will close at 1600h and the judging of the posters will begin at 1700h. Winners and awards will be announced on Wednesday at 1800h in the Exhibit Hall. If you are interested in presenting a poster at future meetings, please contact ECS: abstracts@electrochem.org. Tech Table A Tech Table staffed by audio-visual technicians will be available Monday through Thursday, for any audio-visual assistance needed for oral presentations. No Photography or Recording Allowed Technical Session Co-Chair Information Please check the ECS website to find the most recent list of cancelled papers. ECS headquarters is located in the Sunrise Center: Saturn 1 if you have any questions.

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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Symposium Topics and Organizers A — Batteries and Energy Storage A1 — Batteries and Energy Technology Joint General Session (M-Tu) – A. Manivannan, J. Xiao, B. Y. Liaw, S. Mukerjee, M. M. Doeff, and D. Wang Battery / Energy Technology A2 — Batteries Beyond Lithium Ion (M-Th) – Y. Xing, C. Johnson, M. Yakovleva, V. Di Noto, and K. Zaghib Battery / Energy Technology A3 — Electrochemical Capacitors: Fundamentals to Applications (M-Th) – W. Sugimoto, D. Bélanger, T. Brousse, P. N. Kumta, J. W. Long, P. Simon, D. Qu, and O. Leonte Battery / Physical and Analytical Electrochemistry A4 — Electrochemical Interfaces in Energy Storage Systems (M-W) – K. Edstrom, R. Kostecki, P. Atanassov, J. St-Pierre, and D. Guyomard Battery / Energy Technology / Physical and Analytical Electrochemistry A5 — Lithium-Ion Batteries (M-Th) – S. Meng, K. Amine, and J. J. Wu Battery A6 — Nano-Architectures for Next-Generation Energy Storage Technologies (M-Tu) – J. Xiao, S. Meng, K. Edstrom, K.-Y. Chan, V. Kalra, and G. Yu Battery / Energy Technology A7 — Non-aqueous Electrolytes (Tu-Th) – B. Lucht, R. Jow, R. V. Bugga, M. C. Smart, and W. A. Henderson Battery A8 — Solar Fuels and Photocatalysts 4 (Su-W) – N. Wu, D. Chu, E. Miller, V. Subramanian, A. Manivannan, J. Lee, H. N. Dinh, P. J. Kulesza, and H. Wang Energy Technology / Physical and Analytical Electrochemistry / Sensor A9 — Stationary and Large-Scale Electrical Energy Storage Systems 4 (Tu- W) – T. Van Nguyen, S. Mukerjee, and J. Liu Industrial Electrochemistry and Electrochemical Engineering / Battery / Energy Technology B — Chemical and Biological Sensors B1 — Chemical Sensors 11. Chemical and Biological Sensors and Analytical Systems (Tu-W) – Z. P. Aguilar, M. T. Carter, R. Mukundan, J. Li, G. W. Hunter, B. A. Chin, P. K. Sekhar, L. A. Nagahara, and A. Simonian Sensor B2 — Microfabricated and Nanofabricated Systems for MEMS/NEMS 11 (Chemical and Biological Sensors) (M-Tu) – P. Hesketh, P. Vanýsek, N. Wu, B. A. Chin, S. Mitra, R. I. Stefan-van Staden, and A. Khosla Sensor / Physical and Analytical Electrochemistry C — Corrosion Science and Technology C1 — Corrosion General Session (M-W) – R. Buchheit and S. Fujimoto Corrosion C2 — Electrochemical Techniques and Corrosion Monitoring (Tu-W) – | C. G. Tiburcio, H. Castañeda, M. Pech-Canul, and M. Itagaki Corrosion / SMEQ C3 — High Resolution Characterization of Corrosion Process 4 (W) – H. N. McMurray, K. R. Zavadil, and N. Casillas Corrosion / SMEQ D —

Electrochemical/Electroless Deposition

D1 — Electrodeposition for Energy Applications 3 (Tu-Th) – S. Brankovic, L. Deligianni, N. Dimitrov, L. Magagnin, S. Calabrese Barton, M. Shao, M. Innocenti, and A. Lavacchi Electrodeposition / Energy Technology D2 — Electrochemical Science and Technology: Challenges and Opportunities in the Path from Invention to Product (M-W) – L. Romankiw, R. Alkire, J. N. Harb, G. G. Botte, E. J. Taylor, and P. Vanýsek Electrodeposition / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry D3 — Magnetic Materials, Processes, and Devices 13 (M-W) – C. Bonhôte, S. R. Brankovic, H. Gatzen, P. Hesketh, Y. Kitamoto, T. Osaka, and G. Zangari Electrodeposition

E — Electrochemical Engineering E2 — Electrochemical Treatments for Organic Pollutant Degradation in Water and Soils (W) – J. M. Peralta Hernandez, M. T. Oropeza-Guzman, and D. G. Peters Industrial Electrochemistry and Electrochemical Engineering / SMEQ E3

Symposium in Honor of Professor Ralph E. White (M-Tu) – J. W. Van Zee, T. V. Nguyen, G. G. Botte, and V. R. Subramanian Industrial Electrochemistry and Electrochemical Engineering / Energy Technology

F — Fuel Cells, Electrolyzers, and Energy Conversion F2 — Solid State Ionic Devices 10 (M-W) – E. Traversa, G. S. Jackson, A. M. Herring, E. D. Wachsman, R. Mukundan, P. Vanýsek, J. W. Fergus, and M. C. Williams High Temperature Materials / Energy Technology / Physical and Analytical Electrochemistry / Sensor F3 — Polymer Electrolyte Fuel Cells 14 (PEFC 14) (Su-Th) – H. A. Gasteiger, Y. Meas, F. N. Büchi, C. Coutanceau, M. Edmundson, J. M. Fenton, T. F. Fuller, D. C. Hansen, D. Jones, R. A. Mantz, S. Mitsushima, S. R. Narayanan, K. A. Perry, V. K. Ramani, T. J. Schmidt, K. Shinohara, P. Strasser, K. Swider-Lyons, H. Uchida, and A. Z. Weber Industrial Electrochemistry and Electrochemical Engineering / Battery / Corrosion / Energy Technology CD G — Organic and Bioelectrochemistry G1 — Bioelectroanalysis and Bioelectrocatalysis 2 (W) – S. D. Minteer, P. Atanassov, L. V. Gonzalez-Gutierrez, and D. M. Fox Physical and Analytical Electrochemistry / SMEQ H — Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry H1 — Physical and Analytical Electrochemistry General Session (M-Tu) – P. J. Kulesza Physical and Analytical Electrochemistry H2 — Chemically Modified Electrodes (M-Tu) – M. Anderson, A. Fitch, and J. L. Stickney Physical and Analytical Electrochemistry / Electrodeposition H6 — Molten Salts and Ionic Liquids 19 (Su-Th) – W. M. Reichert, P. C. Trulove, R. A. Mantz, S. Mukerjee, F. Endres, H. C. De Long, A. Bund, and A. Ispas Physical and Analytical Electrochemistry / Electrodeposition / Energy Technology H7 — Oxygen Reduction Reactions (M-W) – P. J. Kulesza, R. A. Mantz, V. Di Noto, W. E. Mustain, S. Mukerjee, P. E. Gannon, X. Zhou, H. Xu, Y. Shao-Horn, and M. Shao Physical and Analytical Electrochemistry / Battery / Energy Technology / High Temperature Materials H8 — Systems Electrochemistry (W) – I. Z. Kiss, S. Calabrese Barton, V. R. Subramanian, R. Hanke-Rauschenbach, H. Varela, and S. Nakanishi Physical and Analytical Electrochemistry / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering M — Carbon Nanostructures and Devices M1 — Nanocarbon Fundamentals and Applications - From Fullerenes to Graphene (W) – R. Weisman, M. E. Rincon-Gonzalez, D. Cliffel, and Y. S. Obeng Nanocarbons / Dielectric Science and Technology / Physical and Analytical Electrochemistry / SMEQ N — Dielectric Science and Materials N1 — Thermal and Plasma CVD of Nanostructures and Their Applications (Tu) – M. K. Sunkara, U. Cvelbar, M. Meyyappan, and B. A. Chin Dielectric Science and Technology / High Temperature Materials / Sensor P — Electronic Materials and Processing P1 — Atomic Layer Deposition Applications 10 (M-W) – F. Roozeboom, S. De Gendt, A. Delabie, J. W. Elam, O. van der Straten, and A. Londergan Dielectric Science and Technology / Electronics and Photonics P3 — High Purity and High Mobility Semiconductors 13 (M-W) – E. Simoen, O. Nakatsuka, C. Mazure, C. Claeys, and R. J. Falster Electronics and Photonics

26

Meeting Program l October 5-9, 2014 l Cancun, Mexico


P4 — Plasma Processing 20 (Tu) – S. Mathad, D. W. Hess, O. Leonte, and M. Engelhardt Dielectric Science and Technology / Electronics and Photonics P5 — Processing Materials of 3D Interconnects, Damascene, and Electronics Packaging 6 (M-W) – K. Kondo, R. Akolkar, D. Barkey, W. Dow, M. Hayase, M. Koyanagi, S. Mathad, P. Ramm, F. Roozeboom, and S. Shingubara Electronics and Photonics / Dielectric Science and Technology / Electrodeposition P6 — Semiconductor Wafer Bonding 13: Science, Technology, and Applications (M-W) – H. Moriceau, H. Baumgart, K. D. Hobart, R. Knechtel, T. Suga, M. Goorsky, and C. Tan Electronics and Photonics

Q6 — Photovoltaics for the 21st Century 10 (Tu) – M. Tao, C. Claeys, L. Deligianni, J. M. Fenton, J. Park, K. Rajeshwar, T. Druffel, and H. Hamada Dielectric Science and Technology / Electrodeposition / Electronics and Photonics / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering SC Q7 — Semiconductors, Dielectrics, and Metals for Nanoelectronics 12 (M- W) – S. Kar, M. Houssa, H. Jagannathan, K. Kita, D. Landheer, D. Misra, and S. Van Elshocht Dielectric Science and Technology / Electronics and Photonics Q8 — Solid-State Electronics and Photonics in Biology and Medicine (M-Tu) – Y. Wang, A. Hoff, M. J. Deen, Z. P. Aguilar, and L. F. Marsal Electronics and Photonics / Sensor SC

P7 — SiGe, Ge, and Related Compounds: Materials, Processing, and Devices 6 (M-Th) – D. L. Harame, J. Boquet, and J. Murota Electronics and Photonics P8 — Thermoelectric and Thermal Interface Materials (M-Tu) – C. O’Dwyer and J. He Electronics and Photonics P9 — Transparent Conducting Materials for Electronic and Photonics (Tu) – C. O’Dwyer, J. He, J. Kim, and O. Leonte Electronics and Photonics / Dielectric Science and Technology Q — Electronic and Photonic Devices and Systems Q1 — Emerging Nanomaterials and Devices (Tu) – Q. Li, H. Baumgart, J. He, C. A. Richter, H. Wang, and O. D. Jurchescu SC Electronics and Photonics / Dielectric Science and Technology Q2 — Fundamentals and Applications of Microfluidic and Nanofluidic Devices 2 (W) – H. Baumgart, A. Beskok, J. P. Hsu, S. W. Joo, A. Sharma, S. Qian, and P. Vanýsek Electronics and Photonics / Physical and Analytical Electrochemistry SC

Q3 — GaN and SiC Power Technologies 4 (M-W) – K. Shenai, M. Bakowski, M. Dudley, and N. Ohtani Electronics and Photonics / Dielectric Science and Technology Q4 — Low-dimensional Nanoscale Electronic and Photonic Devices 7 (M-W) – Y. Chueh, M. Suzuki, S. Jin, S. Kim, J. C. Ho, Z. Fan, and G. W. Hunter Electronics and Photonics / Dielectric Science and Technology / Sensor Q5 — Nonvolatile Memories (W-Th) – S. Shingubara, Z. Karim, B. MagyariKope, T. Ohyanagi, A. Sebastian, K. Kobayashi, K. Rhie, L. Goux, G. Bersuker, and H. Shima Dielectric Science and Technology / Electronics and Photonics SC

Q9 — State-of-the-Art Program on Compound Semiconductors 56 (SOTAPOCS 56) (M-Tu) – J. He, C. O’Dwyer, F. Ren, C. Jagadish, and Y. Chueh Electronics and Photonics

SC

Q10 — Thin Film Transistors 12 (TFT 12) (M-W) – Y. Kuo, O. Bonnaud, J. Jang, W. I. Milne, M. Shur, and H. Hamada Electronics and Photonics R — Luminescence and Display Materials, Devices, and Processing R1 — Luminescence and Display Materials: Fundamentals and Applications (in Honor of Hajime Yamamoto) (W) – U. Happek, A. A. Setlur, and J. Collins Luminescence and Display Materials Z — General Z1 — Student Poster Session (Tu) – V. R. Subramanian, C. S. Johnson, R. H. Lara-Castro, K. B. Sundaram, V. Chaitanya, P. Pharkya, M. P. Foley, and A. Khosla All Divisions / SMEQ Z2 — Energy Water Nexus (M-W) – E. D. Wachsman, C. Hensman, S. P. Nunes, R. Kostecki, G. G. Botte, P. M. Natishan, B. R. Stoner, S. D. Minteer, W. E. Mustain, and N. Wu All Divisions / Interdisciplinary Science and Technology Subcommittee Z3 — Nanotechnology General Session (W) – O. Leonte, W. E. Mustain, and P. Granitzer All Divisions / Interdisciplinary Science and Technology Subcommittee

ECS Transactions – Forthcoming Issues Symposia with ECS Transactions (ECST) issues available “at” the meeting are labeled with the following icons: Hardcover (HC) editions of ECS Transactions will be available for purchase and pick-up at the meeting; or you may pre-order your hardcover ECST issue using the meeting registration form in this brochure or when registering online. CD Compact Disc (CD) editions of ECS Transactions will be available for purchase and pick-up at the meeting; or you may pre-order your CD

ECST issue using the meeting registration form in this brochure or when registering online. The CD edition of F3 (PEFC 14) also includes a 1 gigabyte USB drive containing the complete issue.

SC Softcover (SC) editions of ECS Transactions will be available for purchase at the meeting but will be shipped to you after the meeting ends.

Please visit the ECS Exhibit Booth in Cancun to order your softcover ECST issue.

Electronic (PDF) editions of ECS Transactions will be available ONLY via the ECS Digital Library (ecsdl.org). Electronic editions of the Cancun “at” meeting issues will be available for purchase beginning September 26, 2014. Please visit the ECS website for all issue pricing and ordering information for the electronic editions. In addition to those symposia that have committed to publishing an issue of ECS Transactions, all other symposia potentially will be publishing an issue of ECST approximately 16 weeks after the Cancun meeting. If you would like to receive information on any of these issues when they become available, please e-mail ecst@electrochem.org. Please include your name, e-mail address, and all issues in which you are interested.

Meeting Program l October 5-9, 2014 l Cancun, Mexico

27


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2014 ECS and SMEQ Sunday, October 5 Code

Technical Symposia Special Lectures All Divisions

34

AM

Joint International Meeting Monday, October 6

PM

AM

PM

1630h ECS and SMEQ Plenary Lecture Expo Center, Universal Ballroom, 2nd Floor

1730h Charles W. Tobias Young Investigator Award Lecture Sunrise, Galactic Ballroom 2, 2nd Floor

A1

Batteries and Energy Technology Joint General Session A. Manivannan, J. Xiao, B. Y. Liaw, S. Mukerjee, M. Doeff, D. Wang Battery Division, Energy Technology Division

Abst 1-7 Sunrise, Galactic Ballroom 4, 2nd Floor

Abst 8-18 Sunrise, Galactic Ballroom 4, 2nd Floor

A2

Batteries Beyond Lithium Ion Y. Xing, C. S. Johnson, M. Yakovleva, V. Di Noto, K. Zaghib, Battery Division, Energy Technology Division

Abst 52-56 Sunrise, Galactic Ballroom 1, 2nd Floor

Abst 57-61; Abst 62-68 Sunrise, Galactic Ballroom 1, 2nd Floor

A3

Electrochemical Capacitors: Fundamentals to Applications W. Sugimoto, D. Belanger, T. Brousse, P. N. Kumta, J. W. Long, P. Simon, D. Qu, O. M. Leonte Battery Division, Physical and Analytical Electrochemistry Division; Dielectric Science and Technology Division

Abst 157-161 Sunrise, Star Ballroom 1, 2nd Floor

Abst 162-170 Sunrise, Star Ballroom 1, 2nd Floor

A4

Electrochemical Interfaces in Energy Storage Systems K. Edstrom, R. Kostecki, P. Atanassov Battery Division, Energy Technology Division, Physical and Analytical Electrochemistry Division

Abst 218-222 Sunrise, Star Ballroom 4, 2nd Floor

Abst 223-229 Sunrise, Star Ballroom 4, 2nd Floor

A5

Lithium-Ion Batteries S. Meng, K. Amine, J. Wu Battery Division

Abst 249-254 Sunrise, Galactic Ballroom 2, 2nd Floor

Abst 255-259; Abst 260-268 Sunrise, Galactic Ballroom 2, 2nd Floor

A6

Nano-Architectures for NextGeneration Energy Storage Technologies J. Xiao, S. Meng, K. Edstrom, K.-Y. Chan, V. Kalra, G. Yu Battery Division, Energy Technology Division

Abst 474-478 Sunrise, Star Ballroom 5, 2nd Floor

Abst 479-490 Sunrise, Star Ballroom 5, 2nd Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7 AM

Wednesday, October 8 PM

Thursday, October 9

AM

PM

AM

PM

1710h ECS Edward Goodrich Acheson Award Lecture Expo Center, Universal 1, 1st Floor Abst 19-29 Sunrise, Galactic Ballroom 4, 2nd Floor

Abst 30-33; Abst 34-39; Abst 40-42 Sunrise, Galactic Ballroom 4, 2nd Floor Post 43-51 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 69-78 Sunrise, Galactic Ballroom 1, 2nd Floor

Abst 79-88 Sunrise, Galactic Ballroom 1, 2nd Floor

Abst 89-98 Sunrise, Galactic Ballroom 1, 2nd Floor

Abst 99-109 Sunrise, Galactic Ballroom 1, 2nd Floor Post 110-146 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 147-156 Sunrise, Galactic Ballroom 1, 2nd Floor

Abst 171-174; Abst 175-179 Sunrise, Star Ballroom 1, 2nd Floor

Abst 180-185 Sunrise, Star Ballroom 1, 2nd Floor Post 186-193 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 194-203 Sunrise, Star Ballroom 1, 2nd Floor

Abst 204-210 Sunrise, Star Ballroom 1, 2nd Floor

Abst 211-217 Sunrise, Star Ballroom 1, 2nd Floor

Abst 230-237 Sunrise, Star Ballroom 4, 2nd Floor

Abst 238-245 Sunrise, Star Ballroom 4, 2nd Floor

Abst 269-278 Sunrise, Galactic Ballroom 2, 2nd Floor

Abst 279-291 Sunrise, Galactic Ballroom 2, 2nd Floor

Post 246-248 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 292-301 Sunrise, Galactic Ballroom 2, 2nd Floor

Abst 302-314 Sunrise, Galactic Ballroom 2, 2nd Floor Post 315-436 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 437-448 Sunrise, Galactic Ballroom 2, 2nd Floor Abst 449-459 Sunrise, Galactic Ballroom 7, 2nd Floor

Abst 460-473 Sunrise, Galactic Ballroom 2, 2nd Floor

Abst 491-498 Sunrise, Jupiter 3 & 5, 2nd Floor Post 499-508 Expo Center, Left, Center, and Right Foyers, 1st Floor Meeting Program l October 5-9, 2014 l Cancun, Mexico

35


2014 ECS and SMEQ

Joint International Meeting

Sunday, October 5 Code

Technical Symposia

A7

Nonaqueous Electrolytes B. L. Lucht, T. R. Jow, R. V. Bugga, M. C. Smart, W. A. Henderson Battery Division

A8

Solar Fuels and Photocatalysts 4 N. Wu, D. Chu, E. L. Miller, V. Subramanian, A. Manivannan, J. J. Lee, H. N. Dinh, P. J. Kulesza, H. Wang Energy Technology Division, Physical and Analytical Electrochemistry Division, Sensor Division

A9

Stationary and Large-Scale Electrical Energy Storage Systems 4 T. Nguyen, S. Mukerjee, J. Liu Industrial Electrochemistry and Electrochemical Engineering Division, Battery Division, Energy Technology Division

B1

Chemical Sensors 11. Chemical and Biological Sensors and Analytical Systems Z. P. Aguilar, M. T. Carter, R. Mukundan, J. Li, G. W. Hunter, B. A. Chin, P. K. Sekhar, L. A. Nagahara, A. Simonian Sensor Division

B2

Microfabricated and Nanofabricated Systems for MEMS/NEMS 11 (Chemical and Biological Sensors) P. Hesketh, P. Vanysek, N. Wu, B. A. Chin, S. Mitra, R. I. Stefan-van Staden, A. Khosla Sensor Division, Physical and Analytical Electrochemistry Division

C1

Corrosion General Session R. Buchheit, S. Fujimoto Corrosion Division

C2

Electrochemical Techniques and Corrosion Monitoring C. G. Tiburcio, H. Castaneda, M. Pech-Canul, M. Itagaki Corrosion Division, SMEQ

36

AM

Monday, October 6 PM

AM

PM

Abst 547-550; Abst 551-555 Sunrise, Mars 1-4, 2nd Floor

Abst 556-558 Sunrise, Mars 1-4, 2nd Floor

Abst 559-562 Sunrise, Mars 1-4, 2nd Floor

Abst 669-670 Sunrise, Galactic Ballroom 8, 2nd Floor

Abst 671-680 Sunrise, Galactic Ballroom 8, 2nd Floor

Abst 697-699 Expo Center, Universal 15, 1st Floor

Abst 700-701; Abst 702-705 Expo Center, Universal 15, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7

Wednesday, October 8

Thursday, October 9

AM

PM

AM

PM

AM

Abst 509-510; Abst 511-513 Sunrise, Star Ballroom 7, 2nd Floor

Abst 514-520 Sunrise, Star Ballroom 7, 2nd Floor Post 521-526 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 527-528; Abst 530-532 Sunrise, Star Ballroom 7, 2nd Floor

Abst 533-539; Sunrise, Star Ballroom 7, 2nd Floor

Abst 540-541; Abst 542-546 Sunrise, Star Ballroom 7, 2nd Floor

Abst 563-568 Sunrise, Mars 1-4, 2nd Floor

Abst 569-572; Abst 573-575 Sunrise, Mars 1-4, 2nd Floor Post 576-581 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 582-583; Abst 584-584; Abst 585-590 Sunrise, Mars 1-4, 2nd Floor

Abst 591-593; Abst 594-600 Sunrise, Mars 1-4, 2nd Floor

Abst 601-609 Sunrise, Star Ballroom 2, 2nd Floor

Abst 610-619 Sunrise, Star Ballroom 2, 2nd Floor Post 620-621 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 622-626; Abst 627-632 Sunrise, Star Ballroom 2, 2nd Floor

Abst 633-633; Abst 634-639 Sunrise, Galactic Ballroom 8, 2nd Floor Post 640-651 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 652-655; Abst 656-661 Sunrise, Galactic Ballroom 8, 2nd Floor

Abst 706-715 Expo Center, Universal 15, 1st Floor

Abst 716-727 Expo Center, Universal 15, 1st Floor Post 728-739 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 740-747 Expo Center, Universal 15, 1st Floor

Abst 748-753; Abst 754-757 Expo Center, Alfa Room, 2nd Floor

Abst 758-763 Expo Center, Alfa Room, 2nd Floor Post 764-777 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 778-788 Expo Center, Alfa Room, 2nd Floor

PM

Abst 662-668 Sunrise, Galactic Ballroom 8, 2nd Floor

Abst 681-690 Sunrise, Galactic Ballroom 8, 2nd Floor Post 691696 Expo Center, Left, Center, and Right Foyers, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico

37


2014 ECS and SMEQ Sunday, October 5 Code

Technical Symposia

C3

High Resolution Characterization of Corrosion Process 4 H. N. McMurray, K. R. Zavadil, N. Casillas Corrosion Division, SMEQ

D1

Electrodeposition for Energy Applications 3 S. Brankovic, L. Deligianni, N. Dimitrov, L. Magagnin, S. C. Barton, M. Shao, M. Innocenti, A. Lavacchi Electrodeposition Division, Energy Technology Division

D2

38

AM

Joint International Meeting Monday, October 6

PM

AM

PM

Electrochemical Science and Technology: Challenges and Opportunities in the Path from Invention to Product L. Romankiw, R. Alkire, J. N. Harb, G. G. Botte, E. J. Taylor, P. Vanysek Electrodeposition Division, Industrial Electrochemistry and Electrochemical Engineering Division, Physical and Analytical Electrochemistry Division

Abst 854-857 Expo Center, Universal 1, 1st Floor

Abst 858-864 Expo Center, Universal 1, 1st Floor

D3

Magnetic Materials, Processes, and Devices 13 C. Bonhote, S. R. Brankovic, H. H. Gatzen, P. Hesketh, Y. Kitamoto, T. Osaka, G. Zangari Electrodeposition Division

Abst 899-901 Expo Center, Universal 21 & 22, 1st Floor

Abst 902-906 Expo Center, Universal 21 & 22, 1st Floor

E2

Electrochemical Treatments for Organic Pollutant Degradation in Water and Soils J. M. P. Hernandez, M. T. OropezaGuzman, D. G. Peters Industrial Electrochemistry and Electrochemical Engineering Division, SMEQ

E3

Symposium in Honor of Professor Ralph E. White J. W. Van Zee, T. Van Nguyen, G. G. Botte, V.R. Subramanian Industrial Electrochemistry and Electrochemical Engineering Division, Energy Technology Division

Abst 950-956 Sunrise, Star Ballroom 7, 2nd Floor

Abst 957-965 Sunrise, Star Ballroom 7, 2nd Floor

F2

Solid State Ionic Devices 10 E. Traversa, G. S. Jackson, A. M. Herring, E. D. Wachsman, R. Mukundan, P. Vanysek, J. W. Fergus, M. C. Williams High Temperature Materials Division, Energy Technology Division, Physical and Analytical Electrochemistry Division, Sensor Division

Abst 968-972 Sunrise, Galactic Ballroom 5, 2nd Floor

Abst 973-978 Sunrise, Galactic Ballroom 5, 2nd Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7 AM

Wednesday, October 8 PM

AM

PM

Abst 789-796 Expo Center, Universal 11, 1st Floor

Abst 797-804 Expo Center, Universal 11, 1st Floor

Abst 805-808 Expo Center, Universal 12, 1st Floor

Abst 809-815 Expo Center, Universal 12, 1st Floor

Abst 816-825 Expo Center, Universal 12, 1st Floor

Post 826-837 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 865-866; Abst 867-871 Expo Center, Universal 1, 1st Floor

Abst 872-877; Abst 878-878 Expo Center, Universal 1, 1st Floor Post 879-884 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 885-886; Abst 887-892 Expo Center, Universal 1, 1st Floor

Abst 893-898 Expo Center, Universal 1, 1st Floor

Abst 907-911 Expo Center, Universal 21 & 22, 1st Floor

Abst 912-916 Expo Center, Universal 21 & 22, 1st Floor Post 917-918 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 919-925 Expo Center, Universal 21 & 22, 1st Floor

Abst 926-935 Sunrise, Galactic Ballroom 4, 2nd Floor

Thursday, October 9 AM

PM

Abst 838-848 Expo Center, Universal 12, 1st Floor

Abst 849-853 Expo Center, Universal 12, 1st Floor

Post 936-949 Expo Center, Left, Center, and Right Foyers, 1st Floor

Post 966-967 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 979-987 Sunrise, Galactic Ballroom 5, 2nd Floor

Abst 988-995 Sunrise, Galactic Ballroom 5, 2nd Floor Post 996-1005 Expo Center, Left, Center, and Right Foyers, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Abst 1006-1010; Abst 1011-1013 Sunrise, Galactic Ballroom 5, 2nd Floor

39


2014 ECS and SMEQ

Joint International Meeting

Sunday, October 5

Monday, October 6

Code

Technical Symposia

AM

PM

AM

PM

F3

Polymer Electrolyte Fuel Cells 14 (PEFC 14) H. A. Gasteiger, Y. Meas, F. N. Buchi, C. Coutanceau, M. Edmundson, J. M. Fenton, T. F. Fuller, D. C. Hansen, D. Jones, R. A. Mantz, S. Mitsushima, S. R. Narayanan, K. A. Perry, V. K. Ramani, T. J. Schmidt, K. Shinohara, P. Strasser, K. SwiderLyons, H. Uchida, A. Z. Weber Industrial Electrochemistry and Electrochemical Engineering Division, Battery Division, Corrosion Division, Energy Technology Division, Physical and Analytical Electrochemistry Division

Abst 1014-1022; Abst 1023-1026 Sunrise, Galactic Ballroom 7, 2nd Floor

Abst 1027-1034; Abst 1035-1041 Sunrise, Galactic Ballroom 7, 2nd Floor

Abst 1042-1044 Sunrise, Galactic Ballroom 7, 2nd Floor

Abst 1045-1051 Sunrise, Galactic Ballroom 7, 2nd Floor

G1

Bioelectroanalysis and Bioelectrocatalysis 2 S. D. Minteer, P. Atanassov, L. V. Gonzalez-Gutierrez, D. M. Fox Physical and Analytical Electrochemistry Division, SMEQ

H1

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

Abst 1332-1336 Expo Center, Delta Room, 2nd Floor

Abst 1337-1343 Expo Center, Delta Room, 2nd Floor

H2

Chemically Modified Electrodes M. Anderson, A. Fitch, J. L. Stickney Physical and Analytical Electrochemistry Division, Electrodeposition Division

Abst 1374-1377 Expo Center, Universal 11, 1st Floor

Abst 1378-1386 Expo Center, Universal 11, 1st Floor

H6

Molten Salts and Ionic Liquids 19 W. M. Reichert, P. C. Trulove, R. A. Mantz, S. Mukerejee, F. Endres, H. C. De Long, A. Bund, A. Ispas Physical and Analytical Electrochemistry Division, Electrodeposition Division, Energy Technology Division

Abst 1423-1426 Expo Center, Universal 3, 1st Floor

Abst 1427-1432 Expo Center, Universal 3, 1st Floor

40

Abst 1416-1422 Expo Center, Universal 3, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7

Wednesday, October 8

Thursday, October 9

AM

PM

AM

PM

AM

PM

Abst 1052-1058 Sunrise, Galactic Ballroom 7, 2nd Floor Abst 1059-1062; Abst 1089-1094 Sunrise, Jupiter 1 & 2, 2nd Floor Abst 1063-1072 Sunrise, Jupiter 3 & 5, 2nd Floor Abst 1073-1080 Sunrise, Star Ballroom 8, 2nd Floor Abst 1081-1088 Sunrise, Star Ballroom 5, 2nd Floor

Abst 1095-1101 Sunrise, Star Ballroom 5, 2nd Floor Abst 1102-1108 Sunrise, Jupiter 1 & 2, 2nd Floor Abst 1109-1118 Sunrise, Galactic Ballroom 7, 2nd Floor Abst 1119-1128 Sunrise, Star Ballroom 8, 2nd Floor Post 1129-1183 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1184-1191 Sunrise, Jupiter 3 & 5, 2nd Floor Abst 1192-1199 Sunrise, Jupiter 4 & 6, 2nd Floor Abst 1200-1210 Sunrise, Galactic Ballroom 7, 2nd Floor Abst 1211-1217 Sunrise, Jupiter 1 & 2, 2nd Floor Abst 1218-1224 Sunrise, Star Ballroom 8, 2nd Floor

Abst 1225-1232 Sunrise, Jupiter 1 & 2, 2nd Floor Abst 1233-1240 Sunrise, Jupiter 3 & 5, 2nd Floor Abst 1241-1248 Sunrise, Jupiter 4 & 6, 2nd Floor Abst 1249-1258 Sunrise, Galactic Ballroom 7, 2nd Floor Abst 1259-1267 Sunrise, Star Ballroom 8, 2nd Floor

Abst 1268-1277 Sunrise, Star Ballroom 8, 2nd Floor Abst 1278-1284 Sunrise, Galactic Ballroom 8, 2nd Floor Abst 1285-1290 Sunrise, Jupiter 1 & 2, 2nd Floor Abst 1291-1295 Sunrise, Galactic Ballroom 4, 2nd Floor

Abst 1296-1301 Sunrise, Jupiter 1 & 2, 2nd Floor Abst 1302-1312 Sunrise, Star Ballroom 8, 2nd Floor

Abst 1313-1324 Expo Center, Beta Room, 2nd Floor

Abst 1325-1327 Expo Center, Beta Room, 2nd Floor Post 1328-1331 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1469-1474 Expo Center, Universal 3, 1st Floor

Abst 1475-1483 Expo Center, Universal 3, 1st Floor

Abst 1484-1488 Expo Center, Universal 3, 1st Floor

Abst 1489-1497 Expo Center, Universal 3, 1st Floor Abst 1498-1498 Expo Center, Universal 1, 1st Floor

Abst 1344-1349; Abst 1350-1352 Expo Center, Delta Room, 2nd Floor

Abst 1353-1357; Abst 1358-1361 Expo Center, Delta Room, 2nd Floor Post 1362-1373 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1387-1395 Expo Center, Universal 11, 1st Floor

Abst 1396-1404 Expo Center, Universal 11, 1st Floor Post 1405-1415 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1433-1439 Expo Center, Universal 3, 1st Floor

Abst 1440-1446 Expo Center, Universal 3, 1st Floor Post 1447-1468 Expo Center, Left, Center, and Right Foyers, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico

41


2014 ECS and SMEQ Sunday, October 5 Code

Technical Symposia

H7

Oxygen Reduction Reactions P. J. Kulesza, R. A. Mantz, V. Di Noto, W. E. Mustain, S. Mukerjee, P. E. Gannon, X.-D. Zhou, H. Xu, Y. Shao-Horn, M. Shao Physical and Analytical Electrochemistry Division, Battery Division, Energy Technology Division, High Temperature Materials Division

H8

Systems Electrochemistry I. Z. Kiss, S. C. Barton, V. R. Subramanian, R.HankeRauschenbach, H. Varela, S. Nakanishi Physical and Analytical Electrochemistry Division, Energy Technology Division, Industrial Electrochemistry and Electrochemical Engineering Division

M1

Nanocarbon Fundamentals and Applications - from Fullerenes to Graphene R. B. Weisman, M. E. RinconGonzalez, D. Cliffel, Y. S. Obeng Nanocarbons Division, Dielectric Science and Technology Division, Physical and Analytical Electrochemistry Division, SMEQ

N1

Thermal and Plasma CVD of Nanostructures and Their Applications M. K. Sunkara, U. Cvelbar, M. Meyyappan, B. A. Chin Dielectric Science and Technology Division, High Temperature Materials Division, Sensor Division

P1

P3

42

AM

Joint International Meeting Monday, October 6

PM

AM

PM

Abst 1499-1501 Expo Center, Universal 14, 1st Floor

Abst 1502-1505 Expo Center, Universal 14, 1st Floor

Atomic Layer Deposition Applications 10 F. Roozeboom, S. De Gendt, A. Delabie, J. W. Elam, O. van der Straten, A. Londergan Dielectric Science and Technology Division, Electronic and Photonics Division

Abst 1597-1601 Expo Center, Universal 16, 1st Floor

Abst 1602-1605 Expo Center, Universal 16, 1st Floor

High Purity and High Mobility Semiconductors 13 E. Simeon, O. Nakatsuka, C. Mazure, C. Claeys, R. J. Falster Electronics and Photonics Division

Abst 1635-1638 Expo Center, Universal 17, 1st Floor

Abst 1639-1643; Abst 1644-1644 Expo Center, Universal 17, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7

Wednesday, October 8

AM

PM

AM

PM

Abst 1506-1508; Abst 1509-1512 Expo Center, Universal 14, 1st Floor

Abst 1513-1516; Abst 1517-1521 Expo Center, Universal 14, 1st Floor Post 1522-1524 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1525-1527; Abst 1528-1531 Expo Center, Universal 14, 1st Floor

Abst 1532-1538 Expo Center, Universal 14, 1st Floor

Abst 1539-1541; Abst 1542-1545 Expo Center, Universal 6, 1st Floor

Abst 1546-1554 Expo Center, Universal 6, 1st Floor Post 1555-1558 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1559-1566 Expo Center, Delta Room, 2nd Floor

Abst 1567-1574 Expo Center, Delta Room, 2nd Floor Post 1575-1579 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1630-1632; Abst 1633-1634 Expo Center, Universal 16, 1st Floor

Abst 1580-1587 Expo Center, Beta Room, 2nd Floor

Abst 1588-1593 Expo Center, Beta Room, 2nd Floor Post 1594-1596 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1606-1607; Abst 1608-1610 Expo Center, Universal 16, 1st Floor

Abst 1611-1613; Abst 1614-1616 Expo Center, Universal 16, 1st Floor Post 1617-1623 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1624-1626; Abst 1627-1629 Expo Center, Universal 16, 1st Floor

Abst 1645-1647; Abst 1648-1650 Expo Center, Universal 17, 1st Floor

Abst 1651-1654; Abst 1655-1658 Expo Center, Universal 17, 1st Floor Post 1659-1660 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1661-1662; Abst 1663-1666 Expo Center, Universal 17, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Thursday, October 9 AM

PM

43


2014 ECS and SMEQ Sunday, October 5

Monday, October 6

Code

Technical Symposia

P4

Plasma Processing 20 S. Mathad, D. W. Hess, O. M. Leonte, M. Engelhardt Dielectric Science and Technology Division, Electronics and Photonics Division

P5

Processing Materials of 3D Interconnects, Damascene, and Electronics Packaging 6 K. Kondo, R. Akolkar, D. Barkey, W.-P. Dow, M. Hayase, M. Koyanagi, S. Mathad, P. Ramm, F. Roozeboom, S. Shingubara Electronics and Photonics Division / Dielectric Science and Technology Division/ Electrodeposition Division

P6

Semiconductor Wafer Bonding 13: Science, Technology, and Applications H. Moriceau, H. Baumgart, K. D. Hobart, R. Knechtel, T. Suga, M. Goorsky, C. Tan Electronics and Photonics Division

Abst 1715-1718 Expo Center, Universal 9, 1st Floor

Abst 1719-1722; Abst 1723-1727 Expo Center, Universal 9, 1st Floor

P7

SiGe, Ge, and Related Compounds: Materials, Processing, and Devices 6 D. L. Harame, J. Boquet, J. Murota Electronics and Photonics Division

Abst 1760-1761 Expo Center, Universal 12, 1st Floor

Abst 1762-1764; Abst 1770-1775 Expo Center, Universal 8, 1st Floor Abst 1765-1769 Expo Center, Universal 7, 1st Floor

P8

Thermoelectric and Thermal Interface Materials C. O’Dwyer, J. He Electronics and Photonics Division

Abst 1859-1863 Expo Center, Universal 5, 1st Floor

Abst 1864-1871 Expo Center, Universal 5, 1st Floor

P9

Transparent Conducting Materials for Electronic and Photonics C. O’Dwyer, J. He, J. Kim, O. Leonte Electronics and Photonics Division / Dielectric Science and Technology Division

Q1

Emerging Nanomaterials and Devices Q. Li, H. Baumgart, J. He, C. A. Richter, H. Wang, O. D. Jurchescu Electronics and Photonics Division / Dielectric Science and Technology Division

44

AM

Joint International Meeting

PM

AM

PM

Abst 1678-1683 Expo Center, Universal 13, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7

Wednesday, October 8

AM

PM

AM

PM

Abst 1667-1671 Expo Center, Universal 5, 1st Floor

Abst 1672-1677 Expo Center, Universal 5, 1st Floor

Abst 1684-1693 Expo Center, Universal 13, 1st Floor

Abst 1694-1698 Expo Center, Universal 13, 1st Floor

Abst 1699-1704; Abst 1705-1709 Expo Center, Universal 13, 1st Floor

Abst 1710-1714 Expo Center, Universal 13, 1st Floor

Abst 1728-1730; Abst 1731-1733; Abst 1734-1736 Expo Center, Universal 9, 1st Floor

Abst 1737-1744 Expo Center, Universal 9, 1st Floor

Abst 1745-1747; Abst 1748-1753 Expo Center, Universal 9, 1st Floor

Abst 1754-1759 Expo Center, Universal 9, 1st Floor

Abst 1776-1780; Abst 1781-1784 Expo Center, Universal 8, 1st Floor Abst 1785-1788 Expo Center, Universal 7, 1st Floor

Abst 1789-1792; Abst 1794-1797 Expo Center, Universal 8, 1st Floor Post 1798-1806 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1807-1810; Abst 1815-1818 Expo Center, Universal 8, 1st Floor Abst 1811-1814 Expo Center, Universal 7, 1st Floor

Abst 1819-1821; Abst 1822-1825 Expo Center, Universal 8, 1st Floor

Thursday, October 9 AM

PM

Abst 1826-1830; Abst 1834-1837 Expo Center, Universal 8, 1st Floor Abst 1831-1833; Abst 1838-1841 Expo Center, Universal 11, 1st Floor

Abst 1842-1846; Abst 1852-1858 Expo Center, Universal 8, 1st Floor Abst 1847-1848 Expo Center, Universal 7, 1st Floor Abst 1849-1851 Expo Center, Universal 11, 1st Floor

Post 1872-1872 Expo Center, Left, Center, and Right Foyers, 1st Floor Abst 1873-1878; Abst 1879-1881 Expo Center, Universal 10, 1st Floor

Abst 1882-1885 Expo Center, Universal 10, 1st Floor Post 1886-1887 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1888-1891 Expo Center, Universal 7, 1st Floor

Abst 1892-1896; Abst 1897-1901 Expo Center, Universal 7, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico

45


2014 ECS and SMEQ Sunday, October 5 Code

46

Technical Symposia

AM

Joint International Meeting Monday, October 6

PM

AM

PM

Q2

Fundamentals and Applications of Microfluidic and Nanofluidic Devices 2 H. Baumgart, A. Beskok, J. P. Hsu, S. W. Joo, A. Sharma, S. Qian, P. Vanýsek Electronics and Photonics Division / Physical and Analytical Electrochemistry Division

Q3

GaN and SiC Power Technologies 4 K. Shenai, M. Bakowski, M. Dudley, N. Ohtani Electronics and Photonics Division / Dielectric Science and Technology Division

Abst 1956-1961 Expo Center, Universal 20, 1st Floor

Abst 1962-1964; Abst 1965-1968; Abst 1969-1971 Expo Center, Universal 20, 1st Floor

Q4

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Y. Chueh, M. Suzuki, S. Jin, S. Kim, J. C. Ho, Z. Fan, G. W. Hunter Electronics and Photonics Division / Dielectric Science and Technology Division / Sensor Division

Abst 1998-2001 Expo Center, Universal 19, 1st Floor

Abst 2002-2006 Expo Center, Universal 19, 1st Floor

Q5

Nonvolatile Memories S. Shingubara, Z. Karim, B. Magyari-Kope, T. Ohyanagi, A. Sebastian, K. Kobayashi, K. Rhie, L. Goux, G. Bersuker, H. Shima Dielectric Science and Technology Division / Electronics and Photonics Division

Q6

Photovoltaics for the 21st Century 10 M. Tao, C. Claeys, L. Deligianni, J. M. Fenton, J. Park, K. Rajeshwar, T. Druffel, H. Hamada Dielectric Science and Technology Division / Electrodeposition Division / Electronics and Photonics Division / Energy Technology Division / Industrial Electrochemistry and Electrochemical Engineering Division

Q7

Semiconductors, Dielectrics, and Metals for Nanoelectronics 12 S. Kar, M. Houssa, H. Jagannathan, K. Kita, D. Landheer, D. Misra, S. Van Elshocht Dielectric Science and Technology Division / Electronics and Photonics Division

Abst 2084-2089 Expo Center, Universal 18, 1st Floor

Abst 2090-2093 Expo Center, Universal 18, 1st Floor

Q8

Solid-state Electronics and Photonics in Biology and Medicine Y. Wang, A. Hoff, M. J. Deen, Z. P. Aguilar, L. F. Marsal Electronics and Photonics Division / Sensor Division

Abst 2123-2126 Expo Center, Universal 10, 1st Floor

Abst 2127-2134 Expo Center, Universal 10, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7 AM

Wednesday, October 8 PM

AM

PM

Abst 1936-1943 Expo Center, Universal 10, 1st Floor

Abst 1944-1948 Expo Center, Universal 10, 1st Floor Abst 1949-1955 Expo Center, Center and Right Foyers, 1st Floor

Abst 1972-1975; Abst 1976-1980 Expo Center, Universal 20, 1st Floor

Abst 1981-1987; Abst 1988-1990 Expo Center, Universal 20, 1st Floor

Abst 1991-1994; Abst 1995-1997 Expo Center, Universal 20, 1st Floor

Abst 2007-2012 Expo Center, Universal 19, 1st Floor

Abst 2013-2016; Abst 2017-2020 Expo Center, Universal 19, 1st Floor

Abst 2021-2026 Expo Center, Universal 19, 1st Floor

Abst 2027-2030; Abst 2031-2033 Expo Center, Universal 19, 1st Floor

Abst 2034-2037 Expo Center, Universal 5, 1st Floor

Abst 2038-2040; Abst 2041-2044 Expo Center, Universal 5, 1st Floor Post 2045-2049 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 2108-2110 Expo Center, Universal 18, 1st Floor

Abst 2111-2116 Expo Center, Universal 18, 1st Floor Post 2117-2122 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 2060-2067 Expo Center, Gama Room, 2nd Floor

Abst 2068-2075 Expo Center, Gama Room, 2nd Floor Post 2076-2083 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 2094-2100 Expo Center, Universal 18, 1st Floor

Abst 2101-2107 Expo Center, Universal 18, 1st Floor

Thursday, October 9 AM

PM

Abst 2050-2053 Expo Center, Universal 5, 1st Floor

Abst 2054-2056; Abst 2057-2059 Expo Center, Universal 5, 1st Floor

Post 2135-2135 Expo Center, Left, Center, and Right Foyers, 1st Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico

47


2014 ECS and SMEQ Sunday, October 5 Code

Technical Symposia

AM

Joint International Meeting Monday, October 6

PM

AM

PM

Q9

State-of-the-Art Program on Compound Semiconductors 56 (SOTAPOCS 56) J. He, C. O’Dwyer, F. Ren, C. Jagadish, Y. Chueh Electronics and Photonics Division

Abst 2136-2140 Expo Center, Universal 6, 1st Floor

Abst 2141-2146 Expo Center, Universal 6, 1st Floor

Q10

Thin Film Transistors 12 (TFT 12) Y. Kuo, O. Bonnaud, J. Jang, W. I. Milne, M. Shur, H. Hamada Electronics and Photonics Division

Abst 1902-1905 Expo Center, Universal 4, 1st Floor

Abst 1906-1909; Abst 1910-1912 Expo Center, Universal 4, 1st Floor

R1

Luminescence and Display Materials: Fundamentals and Applications (in Honor of Hajime Yamamoto) U. Happek, A. A. Setlur, J. Collins Luminescence and Display Materials Division

Z1

Student Poster Session V. R. Subramanian, C. S. Johnson, R. H. Lara-Castro, K. B. Sundaram, V. Chaitanya, P. Pharkya, M. P. Foley, A. Khosla All Divisions / SMEQ

Z2

Energy Water Nexus E. D. Wachsman, C. Hensman, S. P. Nunes, R. Kostecki, G. G. Botte, P. M. Natishan, B. R. Stoner, S. D. Minteer, W. E. Mustain, N. Wu All Divisions / Interdisciplinary Science and Technology Subcommittee

Z3

Nanotechnology General Session O. Leonte, W. E. Mustain, P. Granitzer All Divisions / Interdisciplinary Science and Technology Subcommittee

48

Abst 2273-2276 Expo Center, Universal Ballroom, 2nd Floorc

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Cancun, Mexico October 5-9, 2014 Tuesday, October 7 AM

Wednesday, October 8 PM

AM

PM

Abst 1918-1920; Abst 1921-1925 Expo Center, Universal 4, 1st Floor Post 1926-1928 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 1929-1933 Expo Center, Universal 4, 1st Floor

Abst 1934-1935 Expo Center, Universal 4, 1st Floor

Abst 2154-2161 Sunrise, Star Ballroom 4 & 5, 2nd Floor

Abst 2162-2168 Sunrise, Star Ballroom 4 & 5, 2nd Floor Post 2169-2174 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 2291-2293; Abst 2294-2297 Expo Center, Universal Ballroom, 2nd Floor

Abst 2298-2304 Expo Center, Universal Ballroom, 2nd Floor

Abst 2305-2309; Abst 2310-2316 Expo Center, Gama Room, 1st Floor

Post 2317-2321 Expo Center, Left, Center, and Right Foyers, 1st Floor

Thursday, October 9 AM

PM

Abst 2147-2153 Expo Center, Universal 6, 1st Floor

Abst 1913-1917 Expo Center, Universal 4, 1st Floor

Post 2175-2272 Expo Center, Left, Center, and Right Foyers, 1st Floor

Abst 2277-2283 Expo Center, Universal Ballroom, 2nd Floor

Abst 2284-2287; Abst 2288-2290 Expo Center, Universal Ballroom, 2nd Floor

Meeting Program l October 5-9, 2014 l Cancun, Mexico

49


Sunday, October 5

Technical Sessions Sunday, October 5

A8

Solar Fuels and Photocatalysts 4

Energy Technology / Physical and Analytical Electrochemistry / Sensor Sunrise, 2nd Floor, Mars 1-4, Moon Palace Resort

F3

Polymer Electrolyte Fuel Cells 14 (PEFC 14)

Industrial Electrochemistry and Electrochemical Engineering / Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Galactic Ballroom 7, Moon Palace Resort

D0-1. Activity and Durability of Pt-Based Catalysts I – 08:20 – 12:00 Co-Chairs: Hiroyuki Uchida and Sanjeev Mukerjee 08:20

1014

08:40

1015

09:00

1016

09:20

1017

Solar Water Splitting – 13:15 – 14:40 Co-Chair: Yun Hang Hu 13:15 13:20 547

13:40

548

14:00

549

14:20

550

Welcoming Remarks Single Crystal, Cuprous Oxide Nanowire Arrays for Highly Stable Photocathodic Water Splitting – S. Banerjee, F. Wu, Y. Myung, and P. Banerjee (Washington University in St. Louis) Behaviors and Energy States of Photogenerated Charge Carriers on Pt or CoOx Loaded LaTiO2n Photocatalysts Studied By Time-Resolved Absorption Spectroscopy – A. Yamakata (Toyota Technological Institute, Japan Science and Technology Agency), M. Kawaguchi (Toyota Technological Institute), J. Kubota, and K. Domen (University of Tokyo) Tuning Energy Band and Local Crystal Structure of Photocatalysts by Doping – J. Zhang, M. Li (Beihang University), and N. Wu (West Virginia University) Doped and Core/Shell Structured Hematite Nanorods for Improved Photoanodic Performance for Solar Water Splitting – S. Shen (Xi’an Jiaotong University)

Invited Presentations on Solar Energy Materials and Photocatalysts – 15:00 – 17:30 Co-Chairs: Dongling Ma and Ayyakkannu Manivannnan 15:00

551

15:30

552

16:00

553

16:30

554

17:00

50

555

Enhanced Performance of IrOx-Modified Copi Electrodes and the Characterization – K. B. Yoon (Sogang University) Advanced Materials and Processes for Solar Energy Conversion – Y. H. Hu (Michigan Technological University) Developing Quantum Dots and Plasmonic Nanostructures for Solar Cell Applications – D. Ma (Institut National de la Recherche Scientifique (INRS)) Observation and Alterations of Surface States on Hematite Photoelectrodes – D. Wang (Boston College) Nano Black Titania and Solar Applications – C. Yang, Z. Wang, T. Lin (Shanghai Institute of Ceramics, Chinese Academy of Sciences), and F. Huang (Peking University, Shanghai Institute of Ceramics, Chinese Academy of Sciences)

09:40 10:00 1018

10:20

1019

10:40

1020

11:00

1021

Potential Dependent Adsorption and Desorption of Nafion on a Gold and a Platinum Electrode Surface – T. Masuda and K. Uosaki (National Institute for Materials Science) Study on the Oxygen Bonding Energy to Pt by Valence Band DOS Measurement of Pt Nano-Particle Catalysts – S. Hidai (Toshiba Fuel Cell Power Systems Corporation), K. Ishii, D. Matsumura (Japan Atomic Energy Agency), H. Niwa and J. Miyawaki (University of Tokyo), T. Aoki (Toshiba Fuel Cell Power Systems Corporation), M. Oshima and Y. Harada (University of Tokyo) Benchmarking ORR Activity of Pt-Alloy/C Electrocatalysts Utilizing Improved TFRde Methods – K. Shinozaki (National Renewable Energy Laboratory, Colorado School of Mines), J. Zack (National Renewable Energy Laboratory), S. Pylypenko (Colorado School of Mines), B. S. Pivovar, and S. S. Kocha (National Renewable Energy Laboratory) Electrocatalysts with Tailored Properties – Y. Kang, J. D. Snyder, D. Li, N. M. Markovic, and V. R. Stamenkovic (Argonne National Laboratory) Break Understanding Compositional Segregations in Shaped Bimetallic Nanoparticles by Ex-Situ and In-Situ AberrationCorrected STEM – L. Gan and C. Cui (Technical University Berlin), M. Heggen (Forschungszentrum Juelich GmbH, Germany), S. Rudi and P. Strasser (Technical University Berlin) X-Ray Absorption Spectroscopy Investigation on High Activity De-Alloyed PtNi3 Cathodic Catalysts – S. Mukerjee, Q. Jia (Northeastern University), K. M. Caldwell, D. E. Ramaker (George Washington University), and J. M. Ziegelbauer (General Motors) Performance of Advanced Pt-Ni Alloy Catalysts in Polymer-Electrolyte Fuel Cells – M. L. Perry and Z. Yang (United Technologies Research Center) The Role of Transition Metals in the Catalytic Activity of Pt Alloys – M. Shao (The Hong Kong University of Science and Technology), A. Peles (UTRC), and D. Su (Center for Functional Nanomaterials, Brookhaven National Laboratory) Meeting Program l October 5-9, 2014 l Cancun, Mexico


1022

Invited: Electrochemical Properties for UHV-Prepared Pt/M Well-Defined Single Crystal Surfaces – N. Todoroki, Y. Iijima, Y. Takahashi, T. Kondo, Y. Asakimori, Y. Bando, and T. Wadayama (Graduate School of Environmental Studies, Tohoku University)

Sunrise, 2nd Floor, Galactic Ballroom 8, Moon Palace Resort

15:00

1032

15:20

1033

15:40

1034

A0-1. Modeling Water Management – 10:00 – 11:20 Co-Chair: Aimy Bazylak 10:00

1023

10:20

1024

10:40

1025

11:00

1026

Numerical Analysis Considering the Effects of Liquid Water on PEMFC Unsteady Performance – T. Fukuda and T. Araki (Yokohama National University) Analysis of Thermal and Water Management in PEMFC Using a SinglePhase, Non-Isothermal MEA Mathematical Model – M. Bhaiya (University of Alberta), A. Putz (Automotive Fuel Cell Corporation), and M. Secanell (University of Alberta) Investigating Inlet Condition Effects on PEMFC GDL Liquid Water Transport through Pore Network Modeling – M. Fazeli, J. Hinebaugh, and A. Bazylak (Thermofluids for Energy & Advanced Materials Lab, University of Toronto) Modelling and Measurements of Temperature Distributions inside MEA and Its Effects on Water Transport – T. Araki, T. Sugimoto, Y. Minegishi, and M. Higuchi (Yokohama National University)

Sunrise, 2nd Floor, Galactic Ballroom 7, Moon Palace Resort D0-2. Activity and Durability of Pt-Based Catalysts II – 13:40 – 16:00 Co-Chairs: Peter Strasser and Bryan S. Pivovar 13:40

1035

14:00

1036

14:20

1037

14:40

1038

15:00

1039

A0-2. Modeling – 13:00 – 16:00 Co-Chairs: Ugur Pasaogullari and Jeffrey S. Allen 13:00

1027

13:20

1028

13:40

1029

14:00

1030

14:20 14:40 1031

Combined Pore Network and Finite Volume Modelling of Water Movement in PEM Fuel Cell Porous Transport Layers – J. G. Pharoah (Queen’s University), J. Allen (Michigan Technological University), R. Nishida (Queen’s University), E. Medici, V. Konduru, and K. Tajiri (Michigan Technological University) Modeling Thermal Transport in Heterogeneous Porous Media of PEM Fuel Cells Using Pore Network Model – V. Konduru, E. Medici, and J. S. Allen (Michigan Technological University) Incorporation of the Stefan-Maxwell Multicomponent Diffusion Model into a Pore Network Model of the PEMFC Electrode – M. Aghighi and J. T. Gostick (McGill University) Analytical Modeling of Effective Diffusivity in Micro-Porous Layers – M. Andisheh-Tadbir, M. E. Hannach, E. Kjeang (Simon Fraser University), and M. Bahrami (Simon Fraser University) Break Multi-Scale Analysis for Automotive PEM Fuel Cell System – S. Shimpalee, V. Lilavivat (University of South Carolina), S. Hirano, B. Pence, D. Wikosz, and M. DeBolt (Ford Motor Company)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

OpenFCST: An Open-Source Mathematical Modelling Software for Polymer Electrolyte Fuel Cells – M. Secanell (University of Alberta), A. Putz (Automotive Fuel Cell Corporation), P. Wardlaw, M. Bhaiya, M. Moore, V. Zingan, J. Zhou, C. Balen, and K. Domican (University of Alberta) Computational Modelling of Cation Contamination in PEFCs – M. A. Uddin, U. Pasaogullari, and T. Molter (University of Connecticut) Full-Cell Simulation of Cathodic Degradation in Polymer Electrolyte Fuel Cell System at Start-up, with and without Control Method to Reduce Degradation – T. Takayama and M. Yoneda (Mizuho Information & Research Institute, Inc.)

Nickel Nanowire Oxidation and Its Effect on Platinum Galvanic Displacement and Methanol Oxidation – S. M. Alia (National Renewable Energy Laboratory), S. Pylypenko (Colorado School of Mines), K. C. Neyerlin, S. S. Kocha, and B. S. Pivovar (National Renewable Energy Laboratory) Structural Characterization and Enhanced Oxygen Reduction Activity of ChemicallyOrdered Intermetallic PtFeNi Catalysts – H. Kuroki, T. Tamaki (Tokyo Institute of Technology, Kanagawa Academy of Science and Technology), K. Kamiguchi, K. Kubobuchi, M. Arao, M. Matsumoto, H. Imai (NISSAN ARC Ltd.), and T. Yamaguchi (Kanagawa Academy of Science and Technology, Tokyo Institute of Technology) A Study of Pt and Pt-Alloy Fuel Cell Catalyst Degradation in Aqueous and Membrane Electrode Assembly Environments Using In Situ Anomalous Small-Angle X-Ray Scattering – J. Gilbert (University of Wisconsin), N. Kariuki, R. Subbaraman, J. Kropf, M. Smith (Argonne National Laboratory), E. F. Holby (Los Alamos National Laboratory), D. Morgan (University of Wisconsin), and D. Myers (Argonne National Laboratory) Engineering the Activity and Stability of Pt-Alloy Cathode Fuel-Cell Electrocatalysts by Tuning the Pt-Pt Distance – M. Escudero-Escribano, P. Malacrida, U. G. Vej-Hansen, V. Tripkovic, J. Rossmeisl, I. E. L. Stephens, and I. Chorkendorff (Technical University of Denmark) Rational Design of Nanocatalysts for Fuel Cell Reactions – S. Guo (Los Alamos National Laboratory)

51

Sunday, October 5

11:20


Sunday, October 5

15:20

1040

15:40

1041

H6

Improving the Activity and Stability of PdSn Catalyst for Oxygen Reduction by Heat Treatment – S. Salomé, M. C. Oliveira (University of Trás-os-Montes e Alto Douro), O. Savadogo (École Polytechnique de Montréal), and R. Rego (University of Trás-os-Montes e Alto Douro) Characteristics of Pd-Pt Nanoparticles with Core-Shell Structure on Polybenzimidazole-Wrapped Graphene for Fuel Cell Electrocatalyst – C. Kim, T. Fujigaya (Kyushu University), and N. Nakashima (Kyushu University, International Institute for Carbon-Neutral Energy Research (WPI-I2CNER))

Molten Salts and Ionic Liquids 19

Physical and Analytical Electrochemistry / Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 3, Moon Palace Resort

15:20

1421

15:40

1422

Binary Ionic Liquid Mixtures for Supercapacitor Applications – S. Lall-Ramnarine (Queensborough Community College, CUNY), S. Suarez (Brooklyn College, CUNY), N. Zmich (Queensborough Community College, CUNY, Brookhaven National Laboratory), D. Ewko (Queensborough Community College, CUNY), S. Ramati (Brookhaven National Laboratory), D. Cuffari, M. Sahin (Brooklyn College, CUNY), E. Rosario (Queensborough Community College, CUNY), Y. Adam (Brooklyn College, CUNY), D. Paterno (Brooklyn College, CUNY), and J. Wishart (Brookhaven National Laboratory) (3-Aminopropyl)triethoxysilane as a Model Silylamine Reversible Ionic Liquid Used as a Reversible Electrolyte – E. J. Biddinger and J. D. Jimenez (City College of New York)

New IL/MS and Mixtures – 12:40 – 16:00 Co-Chair : William Matthew Reichert 12:40

1416

13:20

1417

13:40

1418

14:00 14:20 1419

15:00

52

1420

Ionic Liquids, Quasi-­ionic Liquids, and Quasi-Liquid Ionics, All with High Conductivities but Some with Little Fluidity. Where Does the Paradigm End? – C. A. Angell (Arizona State University) Quest for Ether-Coordinated Superoxide Ionic Liquids – D. Ishikawa, A. Kitada, K. Fukami, and K. Murase (Kyoto University) Ionogels, Enhanced Intensive ILs Properties at Solid Interfaces : Lithium based Solid State Electrolyte, Dynamics Study – C. Cerclier, A. Guyomard-Lack, N. Buchtova, P. E. Delannoy (Institut des Materiaux Jean Rouxel (IMN) - Universite de Nantes), J. M. Zanotti (LLB - CEA Saclay), J. Embs (Paul Scherrer Institute), and J. Le Bideau (Institut des Materiaux Jean Rouxel (IMN) - Universite de Nantes) Break Double Salt Ionic Liquids: Expanding the Range and Tuneability of Separations Media – H. Wang, J. Pereira (The University of Alabama), A. Myerson (Massachusetts Institute of Technology), and R. D. Rogers (The University of Alabama) Interfacial Phenomena of Alkalimetal Carbonate on Sm-Doped Ceria for Composite Electrolytes – M. Mizuhata, K. Takeda, and H. Maki (Kobe University)

Electrochemical Energy & Water Summit

Applying Electrochemistry to Complex Global Challenges Universal Second Floor Expo, Moon Palace Resort 0800h - Monday, October 6, 2014 Please join us to lend your voice and expertise in helping to solve some of the world’s most challenging water and sanitation problems! ECS is holding a multi-day workshop during the meeting in Cancun to address critical technology gaps and water, sanitation and hygiene challenges in partnership with the Bill & Melinda Gates Foundation. The workshop will kickoff on Monday morning before the start of the technical sessions with remarks from current awardees of the Bill & Melinda Gates Foundation and brief presentations of the issues and priorities, including program and landscape summaries. A questions and answers session will conclude the morning program. Later that day, 100 participants will be guided through facilitated brainstorming and working group sessions to take inventory and expand the collective knowledge around applications of electrochemical and solid state science and technology solutions to water, sanitation and beyond. The first day will culminate with a summary of the brainstorm session and a solicitation for proposals, which will be emailed to all meeting attendees Tuesday morning. More details on pages 22-23!

Meeting Program l October 5-9, 2014 l Cancun, Mexico


9

14:40

10

15:10

11

15:30

12

15:50

13

Monday, October 6

A1

Batteries and Energy Technology Joint General Session

Battery / Energy Technology Sunrise, 2nd Floor, Galactic Ballroom 4, Moon Palace Resort

Batteries I – 10:00 – 12:50 Co-Chairs: A. Manivannan, S. R. Narayan, and Donghai Wang 10:00

1

10:30

2

10:50

3

11:10

4

11:30

5

11:50

6

12:10

7

Non-Graphitizable Carbons for Na-Ion Battery – S. Komaba (Tokyo University of Science, ESICB-Kyoto University), S. Shimadzu (Tokyo University of Science), M. Dahbi, N. Yabuuchi (Tokyo University of Science, ESICB-Kyoto University), K. Kubota (Tokyo University of Science, ESICB-Kyoto University), T. Nakano (Tokyo University of Science), K. Gotoh (Okayama University), S. Shiraishi (Gunma University), F. Beck, and A. Manivannnan (Department of Energy) In Situ Characterization of Li Transport in LiSn Anodes with Neutrons – D. X. Liu, J. Wang, P. Ke, J. Qiu, M. Canova, L. R. Cao, and A. C. Co (The Ohio State University) P2-Type Na2/3Fe1/3Mn1/3Co1/3O2 As a New Positive Electrode for Na-Ion Batteries – J. S. Thorne, R. A. Dunlap, and M. N. Obrovac (Dalhousie University) Effect of Al and Mg Doping on the Electrochemical Performance of Pure Li2MnO3 – L. Torres-Castro, J. Shojan, R. S. Katiyar (University of Puerto RicoRio Piedras), and A. Manivannan (U.S. Department of Energy) Characterizing Discharge in Non-Aqueous Magnesium-Oxygen Batteries – G. Vardar, A. Sleightholme, D. Siegel, and C. W. Monroe (University of Michigan) Mechanistic and Structural Investigation of LixMnO2 Cathodes during Cycling in LiIon Batteries – S. W. Donne, W. M. Dose (University of Newcastle), and N. Sharma (School of Chemistry, The University of New South Wales, Sydney) (Technology Award of the Battery Division) An Overview of New Technologies and Related Materials Research and Development for Rechargeable Batteries in China – F. Wu, L. Li, and C. Wu (Beijing Institute of Technology)

Batteries II – 14:00 – 18:10 Co-Chairs: A. Manivannan, S. R. Narayan, and Donghai Wang 14:00

8

In-Situ TEM Observation of Li-Air Battery Charge/Discharge Reaction – A. Kushima (Massachusetts Institute of Technology), N. Kuriyama, N. Kusumi, Y. Fujiwara, and T. Koido (Honda R&D Co., Ltd.), and J. Li (Massachusetts Institute of Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

16:10 16:30 14

16:50

15

17:10

16

17:30

17

17:50

18

Electrochemical Studies of Lanthanum Ruthenates Towards the Oxygen Evolution Reaction in Alkaline Media – M. A. Abreu Sepulveda (University of Rochester), A. Manivannan (U.S. Department of Energy), S. R. Narayan, P. Trinh, S. Malkhandi (University of Southern California), and D. J. Quesnel (University of Rochester) Porous Silicon-Carbon Composite Liion Anode Materials toward Practical Applications – D. Wang (The Pennsylvania State University) Electrochemical Characterization of Glassy Carbon/CNT/Chit Scaffold-Attached Biofilms Under Linear Flow Conditions – M. Galicia (Autonomous University of Ciudad Juarez) and H. Castaneda (The University of Akron) Lithium Extraction in Aqueous Solutions through the Use of Heterosite FePO4 – N. Intaranont, N. Garcia-Araez, A. L. Hector, J. A. Milton, and J. R. Owen (University of Southampton) An Investigation of the Discharge Rate Capabilities of Electrodes for Printed Nickel Based Batteries – I. Mabbett, C. Glover, J. Marinaccio, D. A. Worsley, and G. Williams (Swansea University) Break Oxygen Involvement in the Charge Compensation of LiMO2 Compounds and the Consequences for Battery Safety and Unprecedented Electrical Magnetic Properties – K. Bogaert, C. Petersburg, P. Buntin, J. Greenlee, W. A. Doolittle (Georgia Institute of Technology), C. Jaye, D. Fischer (National Institute of Standards and Technology), and F. M. Alamgir (Georgia Institute of Technology) Thermal Analysis of High-Power Prismatic LiFePO4 batteries: Modeling and Experiment – M. Yazdanpour, P. Taheri, and M. Bahrami (Simon Fraser University) Alginic Acid As a New Aqueous SlurryBased Binder for Cathode Materials of Lib – M. Ishikawa, K. Soeda, and M. Yamagata (Kansai University) In Situ X-Ray Absorption Spectroscopy of Lithium-Sulfur Battery Discharge/ Charge Reaction Mechanisms – K. Wujcik (University of California, Berkeley), T. Pascal, D. Prendergast (Lawrence Berkeley National Laboratory), and N. P. Balsara (University of California, Berkeley) Two and Three Electrode Electrochemical Cells for Ambient and High Temperature Battery Materials Research – K. Periyapperuma, T. Tran (Dalhousie University), S. Trussler (DPM Solutions), D. Iaboni and M. N. Obrovac (Dalhousie University)

53

Monday, October 6

14:20


A2

Batteries Beyond Lithium Ion

14:20

61

Battery / Energy Technology Sunrise, 2nd Floor, Galactic Ballroom 1, Moon Palace Resort

Li-Air (O2) Battery I – 10:00 – 12:00 Co-Chairs: Vito Di Noto and Yangchuan Xing

Monday, October 6

10:00

10:30

52

53

10:50

54

11:10

55

11:30

56

Invited: the Aprotic Li-O2 Battery: O2 Reduction Mechanisms – L. Johnson (University of St Andrews), C. Li (University of St Andrews and Institute for Chemistry and Technology of Materials), Z. Liu, Y. Chen (University of St Andrews), S. A. Freunberger (Christian Doppler Laboratory for Lithium Batteries, Institute for Chemistry and Technology of Materials, TU Graz), and P. G. Bruce (University of St. Andrews) Dependence of Discharge Product Morphology on Discharge Rate in Li-O­2 Batteries – L. D. Griffith, A. Sleightholme, D. Siegel, and C. W. Monroe (University of Michigan) In Situ Gas Analysis - Method Development and Application to Study Cathode Performance in Li-O2 Cells – E. J. Berg and P. Novák (Paul Scherrer Institute, Electrochemistry Laboratory) The Chemical Stability of Polymers in Lithium-Air Batteries – C. V. Amanchukwu, J. R. Harding, Y. ShaoHorn, and P. T. Hammond (Massachusetts Institute of Technology) Invited: Lithiated Fluorinated TiO2 Nps Doped with Imidazolium ILs As Electrolytes for Lithium Batteries – F. Bertasi and E. Negro (University of Padova, Consorzio Interuniversitario Nazionale per la Scienza e la Tecnologia dei Materiali), G. Pagot (University of Padova), K. Vezzù (Veneto Nanotech S.C.p.a.), S. Lavina (University of Padova), and V. Di Noto (University of Padova, Consorzio Interuniversitario Nazionale per la Scienza e la Tecnologia dei Materiali)

Li-Air (02) Battery II – 13:00 – 14:40 Co-Chairs: Vito Di Noto and Yangchuan Xing 13:00

13:20

57

58

13:40

59

14:00

60

54

Pore-Scale Transport Resolved Model Incorporating Cathode Microstructure and Peroxide Growth in Lithium-Air Batteries – L. Zhang, C. Andersen, G. Qiu, V. Kalra, and Y. Sun (Drexel University) A New Approach to the Lithium-Oxygen Cell Via the Utilization of Redox Shuttles – J. T. Frith, N. Garcia-Araez, and J. R. Owen (University of Southampton) Water Effect on the Specific Capacity of Aprotic Li-O2 Cells in a Sealed TwoCompartment Cell – K. U. Schwenke, M. Metzger, T. Restle, and H. A. Gasteiger (Technische Universität München) High Rechargeable and Efficient Li-O2 Battery Using a Novel Organic Catalyst – J. Liu, S. Renault, D. Brandell, T. Gustafsson, K. Edström, and J. Zhu (Uppsala University)

Electrochemical Properties of RuO2 Catalyst for Air Electrode of Lithium Air Battery – M. Hayashi, M. Nohara, H. Minowa, K. Asakura, K. Hayashi, and H. Kitabayashi (NTT Energy and Environment Systems Laboratories)

Mg-Ion Battery – 15:00 – 17:30 Co-Chairs: Vito Di Noto and Yangchuan Xing 15:00

62

15:20

63

15:40

64

16:00

65

16:20 16:30 66

16:50

67

17:10

68

A3

Is There Room for Ionic Liquids in the Development of Mg Batteries? – T. S. Watkins and D. A. Buttry (Arizona State University) Development of Nonaqueous Electrolyte for Multivalent Batteries – C. Liao and B. Key (Argonne National Laboratory), N. Sa (Indiana University), A. K. Burrell, Z. Zhang, and J. T. Vaughey (Argonne National Laboratory) Alternative Synthesis Pathways of Electrolytes for Magnesium-Ion Batteries – J. T. Herb, C. Nist-Lund, and C. B. Arnold (Princeton University) Amide-Based Ionic Liquid and Glyme Mixtures As Halogen-Free Electrolytes for Mg-Secondary Battery – Y. Kang, A. Kitada, Y. Uchimoto, K. Fukami, and K. Murase (Kyoto University) Break Novel Transmetalation Reaction for Electrolyte Synthesis for Rechargeable Magnesium Batteries – Z. Zhao-Karger (Institute of Nanotechnology, Karlsruhe Institute of Technology), J. E. Mueller (Ulm University,), O. Fuhr (Karlsruhe Institute of Technology, Institute of Nanotechnology), and M. Fichtner (Helmholtz Institute Ulm) Sulfone-Based Electrolytes for Magnesium Rechargeable Batteries – R. Matsumoto, Y. Nakayama (Sony Corporation), H. Kawasaki (KRI, Inc.), N. Koshitani, S. Hosoi, Y. Kudo, H. Morioka, and M. Nagamine (Sony Corporation) Redox Behavior of Prussian Blue in Mg Salt Electrolytes – S. Yagi, M. Fukuda (Osaka Prefecture University), T. Ichitsubo, and E. Matsubara (Kyoto University)

Electrochemical Capacitors: Fundamentals to Applications

Battery / Physical and Analytical Electrochemistry / Dielectric Science and Technology Sunrise, 2nd Floor, Star Ballroom 1, Moon Palace Resort

Carbon and Related Material I – 10:00 – 12:10 Co-Chairs: Thierry Brousse and Stephen M Lipka 10:00 10:10 157

Welcoming Remarks Invited: To be or Not to be Pseudocapacitive – T. Brousse (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France, Institut des Matériaux Jean Rouxel, CNRS), A. Le Comte (Institut des Matériaux Jean Rouxel (IMN) - CNRS/University of Nantes, Département Chimie, Université du Québec à Montréal), and D. Bélanger (Université du Québec à Montréal) Meeting Program l October 5-9, 2014 l Cancun, Mexico


158

11:10

159

11:30

160

11:50

161

Hydrothermal Carbonization to Produce Materials for Electrochemical Capacitors – S. W. Donne, K. Latham, and A. Ferguson (University of Newcastle) Bio-Polymer Derived Activated Carbons for Electrochemical Double Layer Capacitors – R. Chen, S. M. Lipka, C. R. Swartz, and F. Rogers III (University of Kentucky) Carbon Aerogels Synthesized via Ambient Drying as Supercapacitor Electrode Materials with High Specific Capacitance – P. Kolla and M. Schrandt (South Dakota School of Mines and Technology), R. Cook (Zyvex Technologies), and A. Smirnova (South Dakota School of Mines and Technology) Electrochemical Behavior of Carbon Nanostructured Electrode Material for Supercapacitor Application – R. Prakash and S. Shanmugam (DGIST)

Carbon and Related Material II – 14:00 – 17:40 Co-Chairs: Jeffrey W. Long and Andrea Balducci 14:00

162

14:40

163

15:00

164

15:20

165

15:40 16:00 166

16:20

167

Invited: Probing Pseudocapacitance Mechanisms in Metal-Oxide– Functionalized Carbon Nanoarchitectures with an Electrochemical Quartz Microbalance – J. W. Long, M. B. Sassin, D. R. Rolison (U.S. Naval Research Laboratory), and C. A. Beasley (Gamtry Instruments, Inc.) Synthesis of a New Class of Porous Carbon Materials from Polyacrylonitrile and Their Battery Applications – H. Uyama (Osaka University), J. Maruyama (Osaka Municipal Technical Research Institute), and S. Kuwabata (Osaka University) Application of Anodizing Method Templates for Electrochemical Capacitors – S. G. Park, J. K. Choi, and H. S. Yi (Chungbuk National University), H. Kim and H. J. Kim (PureEchem) Improving the Power Performance of C/C Supercapacitors By Incorporating Reduced Graphene Oxide – S. Zhang and N. Pan (University of California, Davis) Break Electrochemical and Thermal Characterization of a Graphene-Based Electrochemical Double-Layer Capacitor (EDLC) – J. H. Kang (University of Waterloo) The Role of Carbon Functionalities in the Incorporation of Pseudocapacitive Inorganic Phases for Improved Capacitance – A. K. Cuentas-Gallegos (Instituto de Energías Renovables-UNAM), M. Adan (Instituto de Energías Renovables-UNAM, Instituto Tecnológico de Zacatepec), T. Brousse (Institut des Matériaux Jean Rouxel, CNRS), D. C. Martinez-Casillas (Instituto de Energías Renovables-UNAM), and H. A. Mosqueda (Universidad Autónoma de Nuevo Leon)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

16:40

168

17:00

169

17:20

170

A4

An Investigation of Multi-Walled Carbon Nanotubes Containing Oxygen Functional Groups As Electrodes for Electrochemical Capacitors – M. A. McArthur, N. Hordy, S. Coulombe, and S. Omanovic (McGill University) Innovative Active Materials for Hybrid and High Power Devices – A. Balducci, M. Schroeder, X. Zhang, and R. S. Kühnel (University of Muenster) Supercapacitor Electrodes of MnO2 and MnO2/Graphene Nanosheets Synthesized by Liquid Phase Exfoliation – J. Coelho, B. Mendoza Sanchez, H. Pettersson, and V. Nicolosi (Trinity College Dublin)

Electrochemical Interfaces in Energy Storage Systems

Battery / Energy Technology / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Star Ballroom 4, Moon Palace Resort

Electrochemical Interfaces in Energy Storage Systems I – 10:00 – 12:00 Co-Chairs: Plamen Atanassov and Kristina Edstrom 10:00

218

10:40

219

11:00

220

11:20

221

Invited: Critical Role of Si Nanoparticles Surface on Lithium Cell Electrochemical Performance – B. Lestriez, N. Delpuech, N. Dupré, P. Moreau, M. Cerbelaud (University of Nantes), J. S. Bridel (Umicore Group Research & Development, Olen, Belgium), J. C. Badot (Institut de Recherche de Chimie Paris, Chimie ParisTech, CNRS), E. De Vito (CEA, LITEN, Nanocharacterization Center, Minatec Campus, Grenoble, France), B. Humbert and D. Guyomard (Nantes University) GC/MS As a Practical Tool for Monitoring the Evolution of the Negative Electrode/ Electrolyte Interface in Lithium-Ion Battery – H. KIM (Renault, DE-TC, LRCS - CNRS UMR 7314), S. Grugeon, G. Gachot, M. Armand, S. Laruelle (LRCS CNRS UMR 7314, Université de Picardie Jules Verne), and L. Sannier (Renault, DETC, Technocentre) Electrochemical Energy Storage in Cs2Zn3[Fe(CN)6] and Their Use As Cathode at Na-Ion Batteries in Aqueous Media – M. A. Oliver-Tolentino (Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada-IPN, Unidad Profesional Interdisciplinaria de Biotecnología), A. Guzmán-Vargas, A. Manzo-Robledo (Escuela Superior De Ingeniería Química e Industrias Extractivas), and E. Reguera (Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada) Molecular Structure and Ion Transport Near Electrode-Electrolyte Interfaces in Lithium-Ion Batteries – V. Lordi, M. T. Ong (Lawrence Livermore National Laboratory), O. Verners, A. C. T. van Duin (The Pennsylvania State University), E. W. Draeger, and J. E. Pask (Lawrence Livermore National Laboratory) 55

Monday, October 6

10:50


11:40

222

Interfacial Studies of the SEI Layer on a Tin Electrode – M. Ayache, J. Syzdek (Lawrence Berkeley National Laboratory), I. Lucas (Universite Pierre et Marie Curie), N. Norberg and R. Kostecki (Lawrence Berkeley National Laboratory)

Monday, October 6

Electrochemical Interfaces in Energy Storage Systems II – 14:00 – 16:40 Co-Chairs: Dominique Guyomard and Kristina Edstrom 14:00

14:40

223

224

15:00

225

15:20

226

15:40

16:00

16:20

56

227

228

229

Invited: Investigation of the Solid Electrolyte Interface (SEI) on Silicon Nano-Particle Anodes – B. L. Lucht, M. Nie, and C. C. Nguyen (University of Rhode Island) Interface Investigations and Bulk Behaviors of an All-Solid-State Lithium Microbattery By Means of Electrochemical Impedance Spectroscopy – S. Larfaillou (Institut de Chimie Moléculaire et des Matériaux d’Orsay (ICMMO), UMR CNRS-UPS 8182, Université Paris Sud, STMicroelectronics), D. Guy-Bouyssou (ST Microelectronics), F. Le Cras (CEA LETI), and S. Franger (Institut de Chimie Moléculaire et des Matériaux d’Orsay (ICMMO), UMR CNRS-UPS 8182, Université Paris Sud) Live-Formation of Interphases in Li Ion Batteries – S. M. Russell, A. V. Cresce, and K. Xu (U.S. Army Research Laboratory) Influence of Electrolytes on the Electronic Transfer in Electrode Materials: Ex- and In-Situ Dielectric Spectroscopy Study between 103 and 1010 Hz – J. C. Badot, K. A. Seid (Institut de Recherche de Chimie Paris), C. Perca, O. Dubrunfaut (Laboratoire de Génie Electrique de Paris), P. Soudan, D. Guyomard (University of Nantes), and B. Lestriez (Réseau sur le Stockage Electrochimique de l’Energie) Interphase Chemistry and Li-Ion Transport in Negative Electrode Materials Studied by XPS and ToF-SIMS – J. Swiatowska, C. Pereira-Nabais, B. Tian, V. Maurice, A. Seyeux, S. Zanna (Institut de Recherche de Chimie Paris), F. Ozanam, M. Rosso (Laboratoire de Physique de la Matière Condensée), P. Tran-Van (Renault, Electric Storage System Division), M. Cassir, and P. Marcus (Institut de Recherche de Chimie Paris) Bouncing Alkaline Batteries: A Basic Solution – S. Bhadra, B. J. Hertzberg (Princeton University), B. Van Tassell, J. W. Gallaway (CUNY), M. Chamoun, C. Erdonmez (Brookhaven National Laboratory), and D. A. Steingart (Princeton University) In-Operando X-ray Tomography Studies of Dendrite Formation in Zinc-Air Batteries – V. Yufit, F. Tariq, B. Wu, M. Biton, Y. Merla (Imperial College), D. Eastwood, P. Lee (University of Manchester), and N. P. Brandon (Imperial College)

A5

Lithium-Ion Batteries

Battery Sunrise, 2nd Floor, Galactic Ballroom 2, Moon Palace Resort

Novel Materials Design and Development I – 10:00 – 12:10 Co-Chairs: Kisuk Kang and Gerbrand Ceder 10:00

10:30

10:50

11:10

11:30

11:50

249

A Theory of Li Percolation in Rocksalts and Demonstration as Capacity Cathode Materials with Substantial Cation Disorder – G. Ceder, A. Urban, X. Li, and J. Lee (MIT) 250 A Novel Intercalation Cathode Material with 1.7 Li per Transition Metal – R. Chen, S. Ren (Karlsruhe Institute of Technology), M. A. Cambaz (Helmholtz Institute Ulm for Electrochemical Storage), H. Hahn (Institute of Nanotechnology, Karlsruhe Institute of Technology, Helmholtz Institute Ulm for Electrochemical Storage), and M. Fichtner (Helmholtz Institute Ulm, Institute of Nanotechnology, Karlsruhe Institute of Technology) 251 Redox Nanocomposite Cathode Materials for Lithium Rechargeable Batteries – S. K. Jung (Seoul National University), H. Kim (Sungkyunkwan University), K. Y. Park, H. Kim, B. Lee, Y. U. Park (Seoul National University), H. Kim (Institute for Basic Science), W. S. Yoon (Sungkyunkwan University), and K. Kang (Seoul National University) 252 Structural and Electrochemical Performance of Ternary Type-I Clathrate As Anode Materials for Lithium-Ion Batteries – Y. Li, R. Raghavan, N. Wagner, and C. Chan (Arizona State University) 253 Li2-XFeTiO4 As a High Capacity Cathode Material for Lithium Ion Battery – T. Masese, K. Yamamoto, T. Mori, Z. D. Huang, Y. Orikasa, and Y. Uchimoto (Kyoto University) 254 Electrochemical Activity and LiDisordering of Li2MnO3 by Coexisting with CuO – Y. Arachi, Y. Taura, S. Akiyama (Kansai University), and Y. Nakata (Iwakimeisei University)

Novel Materials Design and Development II – 13:10 – 15:10 Co-Chairs: Bor Yann Liaw and Liangbing Hu 13:10

255

13:50

256

Battery Division Research Award: From Insertion-compound Electrodes to Conversion-reaction Electrodes for Energy Storage – A. Manthiram (University of Texas) In-Situ Synthesis of High Voltage Cathode Li2FeMn3O8 in Garnet Scaffold for Solid State Battery Application – J. Dai, G. Hitz, X. Han (University of Maryland), Y. Gong (Department of Mechanical Engineering, University of South Carolina), V. Thangadurai (University of Calgary), E. D. Wachsman (University of Maryland), and L. Hu (University of Maryland)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


257

14:30

258

14:50

259

Elastic-Carbon Encapsulation: A Strategy Toward High-Performance Iron Pyrite (FeS2) Cathodes in Lithium Ion Battery Cathodes – T. S. Yoder, M. Tussing, J. E. Cloud, and Y. Yang (Colorado School of Mines) Enhanced Electrochemical Performance of Monoclinic LiMnBO3-Based Li Storage Material Via Partial Substitution – J. C. Kim, D. H. Seo, X. Li, and G. Ceder (Massachusetts Institute of Technology) Novel Vanadium Oxide Polycrystalline Nanorods for Enhanced Lithium Intercalation – D. McNulty, D. N. Buckley (University of Limerick), and C. O’Dwyer (University College Cork)

Advanced Characterization I – 15:20 – 19:00 Co-Chairs: Xiaoqing Yang and Won-Sub Yoon 15:20

260

15:50

261

16:10

262

16:30

263

16:50 17:00 264

17:20

265

17:40

266

Structural Changes of Li2MoO3 As Cathode Material for Li-Ion Batteries during Initial Charge-Discharge Studied By SynchrotronBased X-Ray Diffraction and Absorption – Y. N. Zhou (Brookhaven National Laboratory), J. Ma (Chinese Academy of Sciences), E. Hu, X. Yu, K. W. Nam (Brookhaven National Laboratory), L. Gu, Z. Wang (Chinese Academy of Sciences), X. Q. Yang (Brookhaven National Laboratory), and L. Chen (Chinese Academy of Sciences) Lithium-Ion Transport at Electrolyte/ Electrode Interface Visualized By Nanoscale Meniscus Cell Microscope – A. Kumatani, Y. Takahashi, H. Inomata, H. Munakata, K. Ino, H. Shiku, K. Kanamura, and T. Matsue (Tohoku University) Isotopically Labeled Carbon and Water to Deconvolute CO2 Evolution in LiBatteries by on-Line Electrochemical Mass Spectrometry – M. Metzger and H. A. Gasteiger (Technische Universität München) Quantitative Characterization of SEIs and Lithiation/Delithiation Processes in Electrolytes with Additives Using In Situ Electrochemical Quartz Crystal Microbalance-Dissipation (EQCM-D) – Z. Yang, L. Trahey, and M. M. Thackeray (Argonne National Laboratory) Break Electrochemical Characterization of LiCoO­2 Composite Particles by Single Particle Measurement – H. Munakata, K. Annaka, Y. Yamada, and K. Kanamura (Tokyo Metropolitan University) Why Neutrons for Li Ion Battery Research? – R. Gilles, V. Zinth, S. Seidlmayer, N. P. M. Hofmann, J. Hattendorff, I. Buchberger, H. A. Gasteiger, C. von Lüders, A. Jossen, J. Kunze, J. Brumbarov, and P. Kudejova (Technische Universität München), and J. F. Moulin (Helmholtz-Zentrum Geesthacht) First-Principles Study of Stoichiometric and Nonstoichiometric LiCoO2 (104) Surfaces – Y. Koyama, H. Arai, I. Tanaka, Y. Uchimoto, and Z. Ogumi (Kyoto University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

18:00

267

18:20

268

A6

Exploring Overcharge Behavior of LiIon Batteries By Synchrotron X-Ray Diffraction and Absorption Fine Structure – T. Sasaki, C. Okuda, T. Nonaka, Y. F. Nishimura, Y. Makimura, Y. Kondo, T. Kobayashi, and Y. Takeuchi (Toyota Central R&D Labs., Inc.) (Student Research Award of the Battery Division) The Importance of Microstructure in Lithium Ion Batteries – M. Ebner and V. Wood (ETH Zurich)

Nano-Architectures for Next-Generation Energy Storage Technologies Battery / Energy Technology Sunrise, 2nd Floor, Star Ballroom 5, Moon Palace Resort

Li-ion Battery Anodes – 10:00 – 12:05 Co-Chairs: Vibha Kalra and Wei Wang 10:00 10:05 474

10:45

475

11:05

476

11:25

477

11:45

478

Welcoming Remarks Invited Talk: In Situ Formed Si Nanoparticle Network with Micron-Sized Si Particles for Lithium-Ion Battery Anodes – M. Wu, X. Song, A. Minor, V. Battaglia, and G. Liu (Lawrence Berkeley National Laboratory) Development of Bicontinuous Carbon Foam/ Metal Sulfide Composites As Free-Standing Electrodes for Lithium Ion Storage – Y. Ma, H. D. Asfaw, and K. Edstrom (Uppsala University) Electrochemical Lithiation of Two Dimensional Materials By Nano Battery--an in Situ Study – J. Wan, L. Hu, W. Bao (University of Maryland), M. Fuhrer (Monash University), and Y. Liu (North Carolina State University) Understanding the Relationship of Nanostructure to Performance in Additive Free TiO2 Anodes for Lithium-Ion Batteries – T. S. Chadha (Washington University in St. Louis), A. M. Tripathi, S. Mitra (Indian Institute of Technology, Bombay), V. R. Subramanian, and P. Biswas (Washington University in St. Louis) The Kinetics of Nanometer Sized TiO2 Films as a Lithium-Ion Insertion Electrode – S. Moitzheim and P. M. Vereecken (IMEC, Leuven, Belgium)

Li-ion Battery Electrodes – 14:00 – 18:30 Co-Chairs: Shirley Meng and Guihua Yu 14:00

479

Invited Talk: React-in-Place Battery Electrodes for Large Scale Energy Storage – D. A. Steingart, T. Gupta, B. Van Tassell (Princeton University), and A. Zamarayeva (CCNY)

57

Monday, October 6

14:10


Monday, October 6

14:30

14:50

15:10

15:30

480

481

482

483

15:50 16:10 484

16:30

485

16:50

486

17:10

487

17:30

488

58

Oxidation State and Local Structure of a High-Capacity LiF/Fe(V2O5) Conversion Cathode for Li-Ion Batteries – A. Pohl (Karlsruhe Institute of Technology), A. Guda, V. Shapovalov (Southern Federal University), R. Witte (Karlsruhe Institute of Technology), B. Das (Helmholtz Institute Ulm), F. Scheiba (Helmholtz-Institute Ulm, Karlsruhe Institute of Technology), J. Rothe (Karlsruhe Institute of Technology), A. Soldatov (Southern Federal University), and M. Fichtner (Karlsruhe Institute of Technology), Helmholtz Institute Ulm (HIU) Study of High Performance LiMn2O4 Thin Films for Nanoscale Batteries – B. Put (KULeuven, IMEC), N. Labyedh, I. P. Radu, C. Huyghebaert, P. M. Vereecken (IMEC), and A. Stesmans (University of Leuven) Coaxial Nanotube Battery Inside Single Nanopore – C. Liu, E. Gillette (University of Maryland), X. Chen (University of Maryland, Lam Research Corp.), A. J. Pearse, A. C. Kozen, M. A. Schroeder (University of Maryland), K. Gregorczyk (University of Maryland, CIC nanoGUNE), S. B. Lee, and G. W. Rubloff (University of Maryland) Molecular and Electrode Architectures for Multivalent Conversion Electrodes – J. Nanda, H. Zhou (Oak Ridge National Laboratory), S. K. Martha (Indian Institute of Technology Hyderabad), J. Li (Oak Ridge National Laboratory), S. Dai (University of Tennessee), S. Pannala (Oak Ridge National Laboratory), J. Wang, P. V. Braun (University of Illinois), N. J. Dudney (Oak Ridge National Laboratory), and J. Adcock (University of Tennessee) Break Vanadium Oxide 3-D Nanostructures for Lithium Ion Battery Cathodes – E. Gillette, C. Liu, G. W. Rubloff, and S. B. Lee (University of Maryland) Operando Electron Magnetic Measurements in Li-Ion Batteries – G. Gershinsky (Bar Ilan University), L. Monconduit (ALISTORE-ERI European Research Institute), and D. Zitoun (Bar Ilan University) Lithium Alloying Nanoparticles Deposited 3D Carbon Architectures as Anodes for Li-Ion Batteries – V. G. Pol, S. Fronczak, A. Dysart, J. Kubal, V. Etacheri (Purdue University), L. K. Shrestha and A. Katsuhiko (NIMS) In-Situ Nanomechanical Measurement of High-Capacity Battery Materials Using MEMS Cantilevers – M. M. C. Cheng (Wayne State University) Single-Crystalline LiFePO4 Nanosheets for High-Rate Lithium Batteries – G. Yu, Y. Zhao, and L. Peng (University of Texas)

17:50

489

18:10

490

A8

Dependence of the Lithiation/Delithiation Potentials of Silicon Microwire Anodes on Their State of Charge and Sizes – S. Nöhren (University of Kiel), E. QuirogaGonzález (Meritorious Autonomous University of Puebla), and H. Föll (University of Kiel) High-Capacity Si Microwire Anode with Enhanced Conductivity – E. QuirogaGonzález (Meritorious Autonomous University of Puebla) and H. Föll (University of Kiel)

Solar Fuels and Photocatalysts 4

Energy Technology / Physical and Analytical Electrochemistry / Sensor Sunrise, 2nd Floor, Mars 1-4, Moon Palace Resort

Keynote Presentations on Solar Fuels and Energy Materials – 10:00 – 12:10 Co-Chair: Nick Wu 10:00 10:10 556

10:50

557

11:30

558

Introductory Remarks Solar Photoconversion to Photovoltaic Electricity and Solar Fuels: Forty Years of History, Progress, New Concepts, and Prognosis – A. J. Nozik (National Renewable Energy Laboratory, University of Colorado) The Past and Present Quest for Storing Solar Energy as Fuel – B. A. Parkinson (University of Wyoming) A Comprehensive Electrochemical Solution to Climate Change: STEP, the Solar Thermal Electrochemical Pressure Process for the Production of Societal Staples – S. Licht (George Washington University)

Invited Presentations on Plasmonic Photocatalysts and Photoelectrochemical Cells I – 14:00 – 16:30 Co-Chair: Alexander Govorov 14:00

559

14:40

560

15:20

561

16:00

562

Plasmon-Enhanced Photocatalysis on TiO2-Passivated Gallium Phosphide – S. B. Cronin (University of Southern California) Underlying Mechanisms of PlasmonEnhanced Photocatalysis and Photoelectrochemical Performance – N. Wu, S. K. Cushing, and J. Li (West Virginia University) Photo-Chemical Reactions on Plasmonic Metal Nanostructures – S. Linic (University of Michigan) Plasmon Induced Resonant Energy Transfer and Hot Electron Injection in Plasmon Enhanced Photocatalysis – S. K. Cushing, J. Li, A. D. Bristow, and N. Wu (West Virginia University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


17:50

679

Sensor / Physical and Analytical Electrochemistry Sunrise, Galactic Ballroom 8, 2nd Floor, Universal 2, Moon Palace Resort MEMS-NEMS – 10:00 – 11:40 Co-Chairs: Peter Hesketh and Ajit Khosla 10:00 10:10 669

11:00

670

Welcoming Remarks Carbon-MEMS (CMEMS) and CarbonNEMS (CNEMS): Multi-Length Scale Manufacturing in Carbon – M. J. Madou (University of California, Irvine) Advances in Dielectrophoresis As a Biotechnology Tool – R. Pethig (University of Edinburgh)

MEMS NEMS Sensors – 13:30 – 18:30 Co-Chairs: Ronald Pethig and Petr Vanýsek 13:30

671

14:10

672

14:50

673

15:30 15:50 674

16:20

675

16:50

676

17:10

17:30

677

678

Optical, Nanomechanical and Electrochemical Sensing on a DVD Disc – A. Boisen (DTU Nanotech, Technical University of Denmark) Fabrication, Characterization, and Modeling of Field-Effect-Transistor Nanoribbon Biosensors – E. M. Vogel (Georgia Institute of Technology) 3D Gel Printers for Soft-Matter Innovation – H. Furukawa, M. Kawakami, J. Gong, M. Makino, M. H. Kabir, and A. Saito (Soft & Wet Matter Engineering Lab, Life-3D Printing Innovation Center, Yamagata University) Break Picosensor-Optical Microarray Technology for Clinical Diagnosis of Type of Diabetes – S. Krishnan, V. Singh, S. Kariate, and C. I. Rodenbaugh (Oklahoma State University) Use of Personal Glucose Meters for Detection of E. coli in Water – R. Chavali, N. S. Gunda, S. Naicker, and S. Mitra (University of Alberta) Development of Minimally Invasive Biosensor for Continuous Glucose Monitoring – M. Yasuzawa, J. Li, K. Hiura, K. Edagawa (University of Tokushima), and Y. Fuchiwaki (Health Research Institute, National Institute of Advanced Industrial Science and Technology) Microfabricated Si Chips Containing Human Ether-a-Go-GoRelated Gene Channels As a Platform for Drug Safety Screenings – A. Hirano-Iwata, Y. Ishinari, Y. Kimura, and M. Niwano (Tohoku University) The Electrochemical Capacitive LaborFree Detection of DNA Modification and Hybridization Process Using Interdigitated Gold Microelectrodes – N. E. SolisMarcano, B. Pinto, M. Lopez-Nieves, C. R. Cabrera, and D. C. Diaz-Cartagena (University of Puerto Rico)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

18:10

C1

680

Pattern Recognition of Dopamine, Epinephrine, Norepinephrine, Serotonin, Acethylcholine, GABA, and Glutamate in Biological Samples Using Stochastic Sensing – R. I. Stefan-van Staden, I. Moldoveanu, and J. F. VAN Staden (National Institute of Research for Electrochemistry and Condensed Matter) Diagnostic Criteria for Mass Lesions Differentiating in Electrical Impedance Mammography – H. Uddin (Mobecomm Inc.) and A. Khosla (BI-Nanotechnology Inc.)

Monday, October 6

B2

Microfabricated and Nanofabricated Systems for MEMS/NEMS 11 (Chemical and Biological Sensors)

Corrosion General Session

Corrosion Expo Center, 1st Floor, Universal 15, Moon Palace Resort

Steels: Corrosion and Inhibition I – 11:00 – 12:00 Co-Chair: Michael Rohwerder 11:00

697

11:20

698

11:40

699

Electrochemical Behavior of Carbon and Thermo-Treated Steel Rebars Embedded in Concrete Exposed to Chlorides – R. A. Martínez-García, J. O. Rivera-Corral, and G. Fajardo (Universidad Autónoma de Nuevo León) Electrochemical Behaviour of Thick Rust Layers on Steel: Strategies for Protection of Cultural Heritage Artefacts – E. Rocca, H. Faiz (Université de Lorraine), F. Mirambet (C2RMF), and P. Dillmann (CEA (IRAMIS/LAPA) Analysis of the Loss of Steel-Concrete Bond Due to the Migration of Ions – J. P. Garcia, E. D. C. Vazquez, and A. I. Cardenas (Universidad Autónoma de San Luis Potosí), C. P. Barrios, and R. E. Nuñez (Universidad Autónoma de Sinaloa)

Steels: Corrosion and Inhibition II – 14:00 – 14:40 Co-Chair: Michael Rohwerder 14:00

700

14:20

701

Corrosion Inhibition of C38 Steel in 1M HCl Media By Amazonian Tree Alkaloidic Extract: Electrochemical and Phytochemical Study of Xylopia Frutescens Aubl – M. Chevalier (Université Antilles Guyane), S. Sutour (University of Corsica), C. Roos, and M. Lebrini (Université Antilles Guyane) High Temperature Oxidation of 22wt.% Cr Austenitic Alloys upon Exposure to Hot Corrosion Environment with Na2so4 – J. Y. Law (Chalmers University of Technology), D. Gohil, A. T. Fry (National Physical Laboratory), and M. Halvarsson (Chalmers University of Technology)

Light Metals: Al, Mg and Ti – 15:00 – 16:20 Co-Chair: R. Buchheit 15:00

702

15:20

703

Achieving Superior Corrosion Resistance in Friction Stir Processed AA6061-T6 Aluminum Alloy Joints – M. Esmaily, M. Shahabi-Navid, J. E. Svensson, M. Halvarsson, and L. G. Johansson (Chalmers University of Technology) Pitting Corrosion Restraint Mechanism of Aluminum with the Silane Coupling Agent – K. Mabuchi (Hitachi, Ltd.) 59


Monday, October 6

15:40

704

16:00

705

D2

Increased Corrosion Resistance of Zinc Magnesium Aluminum Galvanized Coating through Germanium Additions – S. Mehraban (Swansea University) Influence of Microstructure and CO2 on the NaCl-Induced Atmospheric Corrosion of Semi-Solid Cast and High Pressure Diecast Mgal Alloys – M. Shahabi-Navid, M. Esmaily, L. G. Johansson, Y. Cao, J. E. Svensson, and M. Halvarsson (Chalmers University of Technology)

Electrochemical Science and Technology: Challenges and Opportunities in the Path from Invention to Product Electrodeposition / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Expo Center, 1st Floor, Universal 1, Moon Palace Resort

The Path from Invention to Product: Electrochemical Technologies I – 09:55 – 12:00 Co-Chairs: Richard Alkire and Gerardine G. Botte 09:55 10:00 854 10:40

855

11:20

856

11:40

857

Welcoming Remarks Keynote: Product Development Based on Electrochemical Science and Engineering – R. Spotnitz (Battery Design LLC) Keynote: Electropolishing of Niobium Superconducting Radio Frequency Cavities in a Low-Viscosity, Water-Based, HF-Free Electrolyte: From Coupons to Cavities – E. J. Taylor, T. D. Hall, S. Snyder, and M. E. Inman (Faraday Technology Inc.) Challenges in Electrolyzer Development and Translation from Lab to Product – K. E. Ayers (Proton OnSite) Electrodeposition from Ionic Liquids: Which Processes Have the Potential for Commercialization? – F. Endres (Clausthal University of Technology)

The Path from Invention to Product: Electrochemical Technologies II – 14:00 – 16:40 Co-Chairs: John N. Harb and Vijay K. Ramani 14:00

858

14:40

859

15:00

860

15:20

861

60

Keynote: Successful Electrochemical Energy Storage: A Battery Is More Than the Sum of Its Parts – E. S. Takeuchi (Brookhaven National Laboratory), K. J. Takeuchi, and A. C. Marschilok (Stony Brook University) The 14 Year Path of Lithium-Ion Stacking Power Battery at Amita Technologies – J. Y. Cherng (Amita Technologies Inc.) Electrode Structures to Improve the Performance of Redox Flow Batteries – N. C. Hoyt, J. S. Wainright, R. F. Savinell (Case Western Reserve University), H. McCrabb, and E. J. Taylor (Faraday Technology, Inc.) Enhancing Fuel Cell Vehicle Lifetime: A Case Study on the Development and Use of a Corrosion-Resistant Electrocatalyst Support – V. K. Ramani (Illinois Institute of Technology)

15:40

862

16:00

863

16:20

864

D3

A Portable Oxygen Concentrator for Wound Healing Applications – D. Scherson (Case Western Reserve University), L. Cali, and S. Sarangapani (Ogenix Corp) Development of Electrokinetic Dewatering for Phosphate Mine Tailings – M. E. Orazem, Y. Huang, R. Kong, D. A. Horner, S. Moghaddam, D. Bloomquist, C. Cleveland, and H. Lai (University of Florida) Electrolyte Circulation in Copper Refinery – Y. Fukunaka (Waseda University, CREST, JST and JAXA)

Magnetic Materials, Processes, and Devices 13

Electrodeposition Expo Center, 1st Floor, Universal 21 & 22, Moon Palace Resort

Magnetic Recording and MEMS I – 10:00 – 12:00 Co-Chairs: Christian Bonhote and Stanko Brankovic 10:00

899

10:40

900

11:20

901

Magnetic Bit Patterned Media Fabrication Using Block Copolymer Directed Assembly – R. Ruiz (HGST) Switching Behaviors of Co/Pt Nanodots and Its Dynamics under the Assistance of Rf Field – S. Okamoto, N. Kikuchi, M. Furuta, O. Kitakami, and T. Shimatsu (Tohoku University) Fabrication of FePt and CoPt Magnetic Nanodot Arrays by Electrodeposition Process – T. Homma, S. Wodarz, D. Nishiie, T. Otani (Waseda University), S. Ge, and G. Zangari (University of Virginia)

Magnetic Recording and MEMS II – 14:00 – 17:00 Co-Chairs: Giovanni Zangari and Peter Hesketh 14:00

902

14:40

903

15:20 15:40 904

16:00

905

16:40

906

Advancements in Electroplated Co-Pt Thick Film Micromagnets – O. D. Oniku, A. Garraud, and D. P. Arnold (University of Florida) Magnetic Inductors and Their Increasing Importance in the Development of on-Chip Power Conversion – E. J. O’Sullivan, N. Wang, P. Herget, L. Romankiw, L. Deligianni, B. C. Webb, and W. J. Gallagher (IBM) Break Investigation of Electrodeposited Nifemo for Application as Flux Concentrator in Magnetic Field Sensors – A. Wienecke, K. Müller-Weihrich (Leibniz Universität Hannover, Institute for Micro Production Technology), and L. Rissing (Leibniz Universität Hannover) Research Activities in the Field of Electromagnetic Energy Harvesting Micro Systems – M. C. Wurz (Institute for Microproduction Technology) Influence of Morphology and Domain Structure on Mechanical Stress in High, Electroplated Co-Fe Flux Guides – R. M. Kruppe (Leibniz Universitaet Hannover, Institute for Micro Production Technology) and L. Rissing (Leibniz Universität Hannover)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Industrial Electrochemistry and Electrochemical Engineering / Energy Technology Sunrise, 2nd Floor, Star Ballroom 7, Moon Palace Resort

Modeling and Characterization of Electrochemical Reactors – 10:00 – 12:20 Co-Chairs: Gerardine G. Botte and Venkat R. Subramanian 10:00

10:20

10:40

11:00

11:20

950

951

952

953

954

11:40

955

12:00

956

A Computational Study of Nickel Migration in SOFCs Anode Due to Phosphine Induced Degradation and Applied Electrical Current – H. Sezer (West Virginia University) and I. B. Celik (U.S. Department of Energy, National Energy Technology Laboratory) Comparison of Rectangular and Cylindrical-Flux Reactors in Electrochemical Remediation of Mercury Polluted Soil – I. Robles and E. Bustos (Centro de Investigación y Desarrollo Tecnológico en Electroquímica S. C.) Comparison of the Behavior of the FM01LC Reactor with and without Turbulence Promoter Using CFD – L. F. Castañeda Ulloa, R. antaño Lopez (Centro de Investigacion y Desarrollo Tecnologico en Electroquimica), and J. L. Nava (Universidad de Guanajuato) Performance of Two Reactors Used to Remove Silica from Water with Electrogenerated Al(OH)3 – S. Gelover, S. Pérez-Castrejón, A. Montes, I. Villegas, and A. Martín (IMTA) Simulation of Current Distribution Under Turbulent Flow Conditions in a Laboratory Filter-Press Flow Cell – J. L. Nava, T. Pérez (Universidad de Guanajuato), C. Ponce de León, and F. C. Walsh (University of Southampton) Numerical Simulation of the Primary, Secondary and Tertiary Potential Distribution on Porous Cathode in a Flow-through Packed Bed Reactor. Influence of Thickness, Concentration and Hydrodynamics in Porous Media – F. F. Rivera and J. L. Nava (Universidad de Guanajuato) Removal of Sulfates Containing in Water, by an Electro-Coagulation Process – G. Carreño, V. A. HernÁndez, R. Fuentes, J. C. Baltazar, J. Ortiz, J. J. Carreon, and L. A. Arias (Universidad de Guanajuato)

Symposium in Honor of Professor Ralph E. White – 14:00 – 17:30 Co-Chairs: Trung Van Nguyen, John William Van Zee, and Venkat R. Subramanian 14:00

957

14:20

958

14:40

959

Steady State Modeling of the Influence of Galvanic Coupling on the Structural Degradation of Airframe Components – C. Liu and R. G. Kelly (University of Virginia) Simulation of the Ammonia Electrolysis Process – L. A. Diaz, A. Estejab, and G. G. Botte (Ohio University) Physics-Based CFD Simulation of Lithium-Ion Battery Under a Real Driving Cycle – G. Li and S. Li (Ansys Inc.)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

15:00 15:30 960

15:50

961

16:10

962

16:30

963

16:50

964

17:10

965

F2

Break Model Based Battery Management System (BMS) for Electric Transportation and Renewable Microgrids – V. R. Subramanian (Washington University in St. Louis) A Time Dependent Model of Electroless Deposition of Co-Mn Alloy – J. Gomez (University of New Mexico) and E. E. Kalu (Florida A&M University - Florida State University) Electrochemical Oxygen Separation from Aircraft Fuel Tank Ullage – D. Carr and M. C. Kimble (Reactive Innovations, LLC) An Electrochemical Probe for Characterizing Fatigue Damaged Metal Components – D. Carr and M. C. Kimble (Reactive Innovations, LLC) Synthesis and Evaluation of High Surface Area Carbon Porous Media for HydrogenBromine Fuel Cell – V. Yarlagadda and T. V. Nguyen (University of Kansas) Electrolyte Influence on Iron-Ion/ Hydrogen-Ion Redox Flow Battery – V. G. Watson (Florida A&M University) and E. E. Kalu (Florida A&M University - Florida State University)

Solid State Ionic Devices 10

High Temperature Materials / Energy Technology / Physical and Analytical Electrochemistry / Sensor Sunrise, 2nd Floor, Galactic Ballroom 5, Moon Palace Resort

Electrochemical Energy Harvesting – 10:00 – 11:40 Co-Chairs: J. W. Fergus and Mark C. Williams 10:00

968

10:20

969

10:40

970

11:00

971

11:20

972

Solid-State Electrochemical Heat Engine – M. C. Williams (URS), G. Richards (DOE NETL), and R. Gemmen (U.S. Department of Energy, NETL) Future Electrochemical Energy Harvesting Developments Initiated by Different Energy Storage and Supply Scenarios – W. Winkler (HAW), M. C. Williams (URS), A. Miyamoto (New Industry Creation Hatchery Center(NICHe), Tohoku University), and A. Suzuki (New Industry Creation Hatchery Center(NICHe), Tohoku University) High-Efficiency Electrochemical System for Harvesting Low-Grade Heat Energy – S. W. Lee (Stanford University), Y. Yang (Massachusetts Institute of Technology), H. W. Lee (Stanford University), G. Chen (Massachusetts Institute of Technology), and Y. Cui (Stanford University) Improving Thermo-Electrochemical Cells Using Carbon Nanotubes – B. Cola (Georgia Institute of Technology) Selection of Materials for Cascaded Thermoelectric Generators under Transient Thermal Loading – J. W. Fergus (Auburn University)

61

Monday, October 6

E3

Symposium in Honor of Professor Ralph E. White


Solid Oxide Fuel Cells I – 14:00 – 16:00 Co-Chairs: Laura Cecilia Baqué and Gregory S. Jackson

Monday, October 6

14:00

973

14:20

974

14:40

975

15:00

976

15:20

977

15:40

978

F3

Effect of Cation Demixing on the Electrochemical Performance of LSCFO Cathodes for SOFCs – L. C. Baqué, A. Soldati (CONICET-Centro Atómico Bariloche, CNEA, Argentina), H. Troiani (Centro Atómico Bariloche, CNEA), and A. Serquis (CONICET-Centro Atómico Bariloche, CNEA, Argentina) Effect of Atmospheric Carbon Dioxide and Strontium Content on Surface Segregation in Strontium Doped Lanthanum Cobalt Iron Oxide Thin Films – Y. Yu, D. Cetin, H. Luo, K. F. Ludwig, U. B. Pal, S. Gopalan, X. Lin, and S. N. Basu (Boston University) A Study of SOFC Cathode Degradation in H2O Environments – C. Pellegrinelli, Y. L. Huang, J. A. Taillon, L. G. SalamancaRiba, and E. D. Wachsman (University of Maryland) Enhancement of La0.6Sr0.4Co0.2Fe0.8O3-δ Performance by Ion Implantation for Low-Temperature SOFC Cathodes – Y. L. Huang, C. Pellegrinelli (University of Maryland), K. T. Lee (Daegu Gyeongbuk Institute of Science and Technology, Republic of Korea), A. Perel (Applied Materials), and E. D. Wachsman (University of Maryland) High performance infiltrated backbones for cathode-Supported SOFC’s – V. Gil (Technical University of Denmark, RISØ campus) and K. K. Hansen (Technical University of Denmark) Fibrous Mixed Conducting Cathode with Embedded Ionic Conducting Particles: Facile Synthesis and Their Electrochemical Properties for Solid Oxide Fuel Cells – J. Choi (Department of Fuel Cells and Hydrogen Technology, Hanyang University), H. Lee (Division of Materials Science and Engineering, Hanyang University), S. Lee (Division of Materials Science & Engineering, Hanyang University), and D. Shin (Division of Materials Science and Engineering, Hanyang University)

Polymer Electrolyte Fuel Cells 14 (PEFC 14)

10:00 10:10 1042

62

1043

Welcoming Remarks Invited: Remaining Technical Challenges in R&D for Automotive PEM Fuel Cell System – S. Hirano and J. Waldecker (Ford Motor Company) Invited: FCEV Development at Nissan – A. Iiyama, Y. Tabuchi, A. Ohma, S. Sugawara, and K. Shinohara (Nissan Motor CO., LTD.)

1044

Invited: Modeling the Full PEMFC Membrane-Electrode Assembly with a Pore Network Model – M. Aghighi and J. T. Gostick (McGill University)

PEFC-14 Plenary Session II – 13:00 – 18:10 Co-Chairs: Karen Swider-Lyons and Hubert A. Gasteiger 13:00

1045

13:40

1046

14:20

1047

15:00 15:20 1048

16:00

1049

16:40

1050

17:20 17:30

Industrial Electrochemistry and Electrochemical Engineering / Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Galactic Ballroom 7, Moon Palace Resort

PEFC-14 Plenary Session I – 10:00 – 12:10 Co-Chairs: Hiroyuki Uchida and Deborah J Jones

10:50

11:30

H1

1051

Invited: Advanced Visualization Tools to Investigate PEM Fuel Cell Materials – R. Yip, J. Lee, J. Hinebaugh, Z. Fishman, J. S. Ellis, S. J. Botelho (Thermofluids for Energy & Advanced Materials Lab, University of Toronto), T. Kotaka, Y. Tabuchi (Nissan Motor CO., LTD.), and A. Bazylak (Thermofluids for Energy & Advanced Materials Lab, University of Toronto) Invited: Alkaline Anion Exchange Membrane Fuel Cell – H. Yu (Dalian Institute of Chemical Physics, Chinese Academy of Sciences) Invited: Bipolar Membrane Fuel Cells Using Anion Conductive Multiblock Copolymers – P. A. Kohl, J. M. Ahlfield, and L. Liu (Georgia Institute of Technology) Break Invited: Substrate Effects on the Activity and Stability of Nanoparticulated Electrocatalysts for the H2/O2 Fuel Cell Reactions – O. L. S. Ferreira, P. F. B. D. Martins, A. L. G. Biancolli, A. Hassan (Universidade de São Paulo - IQSC), A. G. Sato (Universidade Federal de Viçosa), and E. A. Ticianelli (Universidade de São Paulo, IQSC) Invited: Non-Precious Metal Electrocatalysts: Accomplishments and Challenges – P. Zelenay (Los Alamos National Laboratory) Invited: Applications of DFT Calculations to Platinum Surface Electrochemistry – R. Jinnouchi, K. Kodama, E. Toyoda, T. Suzuki, T. Hatanaka, and Y. Morimoto (Toyota Central R&D Labs., Inc.) Introduction of Charles W.Tobias Young Investigator Award Recipient Charles W.Tobias Young Investigator Award: Understanding Transport Phenomena in Polymer-Electrolyte Fuel Cells – A. Z. Weber (Lawrence Berkeley National Laboratory)

Physical and Analytical Electrochemistry General Session

Physical and Analytical Electrochemistry Expo Center, 2nd Floor, Delta Room, Moon Palace Resort

Electrochemistry in Nanospace 2 – 10:00 – 12:00 Co-Chairs: Takashi Ito and Lane A Baker 10:00

1332

Preparation of Self-Organized Nanoporous Anodic Gallium Oxide and Its Potentiometric Behavior – T. Ito, B. Pandey, C. Cox (Kansas State University), and P. S. Thapa (University of Kansas)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


11:00

11:20

11:40

1333

1334

1335

1336

A Combined Microstructure Characterization of Moisture Permeation Barriers Layers by Means of Electrochemical Impedance Spectroscopy and Ellipsometric Porosimetry – A. Perrotta (Eindhoven University of Technology, Eindhoven, The Netherlands, Dutch Polymer Institute (DPI), Eindhoven, The Netherlands), J. J. Michels (Holst Centre/ TNO, Eindhoven, The Netherlands), S. J. García (Delft University of Technology, Novel Aerospace Materials, Delft, The Netherlands), and M. Creatore (Eindhoven University of Technology, Eindhoven, The Netherlands) Ångstrom Resolved Monitoring of Noble Metal Oxide Growth in Nano-Confined Spaces – B. R. Shrestha, T. Baimpos, S. Raman, and M. Valtiner (Max-PlanckInstitut für Eisenforschung GmbH) Fabrication of Metal Nanowires Containing Highly Controllable Nanospaces – T. Sada, T. Fujigaya, and N. Nakashima (Kyushu University, Department of Applied Chemistry) Synthesis and Characterization of Controllably Branched Anodized Aluminum Oxide Pores – E. Gillette, S. S. Wittenberg (University of Maryland), P. Banerjee (Washington University in St. Louis), and S. B. Lee (University of Maryland)

General Session I – 14:00 – 16:40 Co-Chairs: Pawel J. Kulesza, Kazuhiro Takanabe, and Ian Godwin 14:00

1337

14:40

1338

15:00

1339

15:20

1340

15:40

1341

Enhancement of Electron Transfer Rates in Iodine/Iodide Ionic Liquid through Catalyzing the Chemical Step of I-I Bond Splitting: Development of Semi-Solid Redox Electrolyte Capable of Fast Charge Propagation – I. A. Rutkowska (University of Warsaw), J. M. Orlowska, D. Marks (University of Warsaw, Department of Chemistry), and P. J. Kulesza (University of Warsaw) First Principle Based Simulation of Cyclic Voltammogram: Bromide Adsorption on Pt(111) Surface – Y. Kawamura (Toyota Motor Corporation) and T. Baba (Toyota Technical Development Corporation) Hydrogen Evolution and Oxidation over Pt Electrode under Neutral Condition – T. Shinagawa (King Abdullah University of Science and Techonology) and K. Takanabe (King Abdullah University of Science and Technology) Water Oxidation Catalysis at RuO2/NiO Mixed Oxide Electrodes – I. Godwin and M. E. G. Lyons (Trinity College Dublin) Analytical Application of Intercalation Processes – S. M. Lipkin, M. S. Lipkin (South Russian State Polytechnical University), A. V. Sedov (Southern Scientific Center of Russian Academy of Sciences), and D. A. Onyshko (South Russian State technical university)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

16:00

1342

16:20

1343

H2

In-Situ Raman Spectroscopy Probing of Solid Oxide Electrolysis Cells – J. Manerova, D. J. Cumming, D. C. Sinclair, and R. H. Elder (University of Sheffield) New Trends in Chemistry at Steps Due to Mechanical Stress and Relevance to Design of Catalytic Interfaces – M. F. Francis and W. A. Curtin (École Polytechnique Fédérale de Lausanne)

Chemically Modified Electrodes

Physical and Analytical Electrochemistry / Electrodeposition Expo Center, 1st Floor, Universal 11, Moon Palace Resort

Chemically Modified Electrodes I – 10:00 – 11:50 Co-Chairs: Iris Nandhakumar and Massimo Innocenti 10:00

1374

10:30

1375

11:00

1376

11:30

1377

Modified Surfaces by Electrodeposition for Energy Devices – M. Innocenti, A. Lavacchi, F. Vizza (ICCOM-CNR), F. Di Benedetto (Dipartimento di Scienze della Terra, Università di Firenze), C. Zafferoni, and M. L. Foresti (Dipartimento di Chimica, Università di Firenze) Studies of Metal Dichalcogenide Formation Using Electrochemical ALD – J. L. Stickney and C. Tsang (The University of Georgia) Ultrafast Anodic Growth of TiO2Nanotubes with Semi-Metallic Properties – R. Hahn (FAU), P. Schmuki, and R. Kirchgeorg (University of ErlangenNuremberg (FAU)) CVD-Grown Graphene Modified with Aryl Groups by Electroreduction of Corresponding Diazonium Salts – E. Kibena, M. Mooste (Institute of Chemistry, University of Tartu), J. Kozlova, M. Marandi, L. Matisen (Institute of Physics, University of Tartu), V. Sammelselg (Institute of Chemistry, University of Tartu, Institute of Physics, University of Tartu), and K. Tammeveski (Institute of Chemistry, University of Tartu)

Chemically Modified Electrodes II – 13:30 – 18:00 Co-Chairs: Faisal M. Alamgir and David B. Robinson 13:30

1378

14:00

1379

14:20

1380

Orientation-Controlled Single MoleculeElectrode Junctions – E. Borguet (Temple University) Chemical Modification of Semiconductor Interfaces for Mechanically Robust Solar Fuel Generating Devices – B. M. Gallant, X. W. Gu, J. R. Greer, and N. S. Lewis (California Institute of Technology) Enhancement of the Performance of Dye-Sensitized Solar Cells Containing Nanotubular TiO2 Photoanodes Prepared by Anodizing of Technical Grade Ti Foils and Chemical Modification with Dendrimers – C. M. Díaz-Acosta, S. Murcio-Hernández (Centro de Investigación y Desarrollo Tecnológico en Electroquímica SC), S. Sepúlveda (Universidad Autónoma de Nuevo León), L. A. Godínez, and J. Manríquez (Centro de Investigación y Desarrollo Tecnológico en Electroquímica SC) 63

Monday, October 6

10:40


14:40

1381

Monday, October 6

15:10 15:30 1382

16:00

1383

16:30

1384

17:00

1385

17:30

H6

1386

Electrodeposition of Highly Efficient Nanostructured Thermoelectric Materials – I. Nandhakumar, M. Burton, and N. White (University of Southampton) Break Monolayer Catalyst Design Using Slrr of UPD Monolayers – Fundamental Aspects and Interplay of UPD, Reaction Kinetics, and Nucleation Kinetics – S. Brankovic (University of Houston) Atomic-Layer Electroless Deposition on Noble Metal Powders – D. B. Robinson, P. J. Cappillino, G. M. Buffleben, M. Salloum (Sandia National Laboratories), D. M. Benson, and J. L. Stickney (The University of Georgia) Role of the Adatoms in the Oxidation of Formic Acid on Platinum Electrodes – E. Herrero (Instituto de Electroquímica, Universidad de Alicante) Enhanced­Adhesion of Nanoporous Metal Layers on Modified Glassy Carbon Surfaces – N. Dimitrov, L. Bromberg, S. J. Ambrozik, R. Rooney, and J. Xia (Department of Chemistry, SUNY at Binghamton) Structure and Architecture Driven Metallic Bonding and Ligand Effects in Low-Dimensional Platinum Group Metal Catalyst – F. M. Alamgir (School of Materials Science and Engineering, Georgia Institute of Technology)

Molten Salts and Ionic Liquids 19

Physical and Analytical Electrochemistry / Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 3, Moon Palace Resort

Structure and Properties I – 10:00 – 11:40 Co-Chair: Paul C. Trulove 10:00

1423

10:40

1424

11:00

1425

11:20

1426

64

Absorption of Flue-Gas Components by Ionic Liquids – H. Kolding (Centre for Catalysis and Sustainable Chemistry), P. Thomassen, S. Mossin, S. Kegnæs, A. Riisager (Centre for Catalysis and Sustaiable Chemistry), J. Rogez, G. Mikaelian (CNRS-Université Paul Cezanne), and R. Fehrmann (Centre of Catalysis and Sustainable Chemistry) Electrochemical Reaction of Tris(1,10phenanthroline)Iron Complexes in Some Amide-Type Ionic Liquids – Y. Katayama (Keio University), M. Yoshihara (Department of Applied Chemistry, Faculty of Science and Technology, Keio University), and T. Miura (Keio University) Electrochemical Characterization of the PG | EMImBF4 + x% EMImI Interface – L. Siinor, J. Poom, K. Lust, and E. Lust (Institute of Chemistry, University of Tartu) Computational Study of Structure, Dynamics and Spectroscopy of Ionic Liquids – H. J. Kim, H. Kim, N. Dhumal (Carnegie Mellon University), and Y. Shim (Samsung Advanced Institute of Technology)

Structure and Properties II – 14:00 – 16:00 Co-Chair: William Matthew Reichert 14:00

1427

14:20

1428

14:40

1429

15:00

1430

15:20

1431

15:40

1432

H7

Physical-Chemical Properties of Potassium Cryolite-Based Melts Containing KBF4 – O. Tkacheva, A. Kataev, A. Redkin, A. Rudenko, A. Dedyukhin, and Y. Zaikov (Institute of High Temperature Electrochemistry) Ionic Liquid Structure in Thin Films – R. S. Anaredy, A. J. Lucio, and S. K. Shaw (University of Iowa) Electrochemical Investigation of Benzil in Nonaqueous Media – G. T. Cheek (United States Naval Academy) Density and Molar Volume of KF-NaFAlF3 Melts with Al2O3 and CaF2 Additions – A. Dedyukhin, A. Kataev, A. Redkin, and Y. Zaikov (Institute of High Temperature Electrochemistry) Energy Efficient Capture and Release of Carbon Dioxide in Tetraalkyl Phosphonium and Tetraalkyl Ammonium Ionic Liquids – J. Rheinhardt and D. A. Buttry (Arizona State University) Electrochemical Studies of Imidazolium Carboxylate Adducts in a RoomTemperature Ionic Liquid – G. T. Cheek (United States Naval Academy), D. F. Roeper (Excet, Inc.), W. Pearson (United States Naval Academy), and W. E. O’Grady (Excet, Inc.)

Oxygen Reduction Reactions

Physical and Analytical Electrochemistry / Battery / Energy Technology / High Temperature Materials Expo Center, 1st Floor, Universal 14, Moon Palace Resort

Oxygen Reduction Reactions I – 10:00 – 12:00 Co-Chairs: Pawel J. Kulesza and Robert A. Mantz 10:00

1499

10:40

1500

11:20

1501

“Core-Shell” ORR Nano-Electrocatalysts Based on a PtNi Carbon Nitride “Shell” and Cu NP “Core” – V. Di Noto, E. Negro (Department of Chemical Sciences - University of Padova, Consorzio Interuniversitario Nazionale per la Scienza e la Tecnologia dei Materiali, INSTM), K. Vezzù (Veneto Nanotech S.C.p.a.), and F. Bertasi (Consorzio Interuniversitario Nazionale per la Scienza e la Tecnologia dei Materiali, Department of Chemical Sciences - University of Padova) Enhanced Oxygen Reduction Using Triode Fuel Cells – C. G. Vayenas, E. Martino, and A. Katsaounis (University of Patras) Importance of Specific Interactions between Support, Metal Oxide Nanostructures and Noble Metal or Organometallic Sites in Efficient Electrocatalytic and Bioelectrocatalytic Reduction of Oxygen – P. J. Kulesza (University of Warsaw)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


14:00

1502

14:40

1503

15:20

16:00

P1

1504

1505

ORR on Platinum Single Crystal Electrodes. pH Effects – E. Herrero (Instituto de Electroquímica, Universidad de Alicante) Electroreduction of Oxygen on Electrochemically Deposited PalladiumGold Alloys on Glassy Carbon – H. Erikson, A. Sarapuu (Institute of Chemistry, University of Tartu), J. Kozlova, L. Matisen (Institute of Physics, University of Tartu), V. Sammelselg (Institute of Chemistry, University of Tartu, Institute of Physics, University of Tartu), and K. Tammeveski (Institute of Chemistry, University of Tartu) Carbide Derived Carbon as a Possible Catalyst Support for PEMFC – E. Lust, E. Härk (Institute of Chemistry, University of Tartu), R. Jäger (University of Tartu), P. E. Kasatkin, V. Steinberg, H. Kurig, and I. Tallo (Institute of Chemistry, University of Tartu) Oxygen Reduction by Enzyme-Carbon Nanotube Composites for the Development of Biofuel Cells – S. Cosnier (Grenoble university)

Atomic Layer Deposition Applications 10

10:40

11:00

11:40

1600 BiFeO3 Thin Films Prepared by ALD – A. R. Akbashev (Department of Materials Science and Engineering, Drexel University, Philadelphia, Pennsylvania, USA) and J. E. Spanier (A J Drexel Institute for Energy and the Environment, Drexel University, Philadelphia, Pennsylvania, USA) 1601 ALD Synthesis of Ternary PbSeTe Layers Alternating with the Binary PbTe in Nanolaminate Structures for High Zt Thermoelectric Materials – X. Chen (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), K. Zhang (Applied Research Center at Thomas Jefferson National Accelerator Laboratories, Old Dominion University), A. D. Ramalingom Pillai (Old Dominion University), H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), and V. Kochergin (MicroXact Inc.)

ALD Reactor Design – 14:00 – 16:20 Co-Chairs: O. van der Straten and Anil U. Mane 14:00

1602

14:40

1603

15:20

1604

15:40

1605

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 16, Moon Palace Resort

General ALD Session – 10:00 – 12:00 Co-Chairs: O. van der Straten and Gijs Dingemans 10:00

11:20

1597

1598

1599

Atomic Layer Deposition of Nanostructured Tunable Resistance Coatings: Growth, Characterization, and Electrical Properties – A. U. Mane, J. W. Elam (Argonne National Laboratory), W. M. Tong, A. D. Brodie, and M. A. McCord (KLA-Tencor) Study of Y2O3 Thin Film Prepared by Plasma Enhanced Atomic Layer Deposition – G. Y. Cho, S. Noh (School of mechanical and aerospace engineering, Seoul national university), Y. H. Lee (Seoul National University, School of mechanical and aerospace engineering), S. Ji (Graduate School of Convergence Science and Technology (GSCST), Seoul National University), and S. W. Cha (Mechanical and Aerospace Engineering, Seoul National University) ALD Applied to Conformal RareEarth Coating of ZnO Nanoparticles for Low Temperature Thermal Imaging Applications – E. Rauwel (University of Oslo, Dept. of Chemistry and SMN), A. Galeckas (University of Oslo, Dept. of Physics and SMN), P. Rauwel (University of Oslo, Dept. of Physics and SMN, University of Tartu, Dept. of Physics), P. A. Hansen, D. Wragg, O. Nilsen, and H. Fjellvåg (University of Oslo, Dept. of Chemistry and SMN)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

P3

Merits of Batch ALD – G. Dingemans, B. Jongbloed, W. Knaepen, D. Pierreux, L. Jdira, and H. Terhorst (ASM) Plasma Enhanced Atomic Layer Deposition on Powders – G. Rampelberg, D. Longrie, D. Deduytsche, and C. Detavernier (Ghent University) Multiscale Simulations of ALD in CrossFlow Reactors – A. Yanguas-Gil, J. A. Libera, and J. W. Elam (Argonne National Laboratory) Design Considerations for ZnO Transistors Made using Spatial ALD – S. F. Nelson, C. R. Ellinger, and L. W. Tutt (Eastman Kodak Company)

High Purity and High Mobility Semiconductors 13 Electronics and Photonics Expo Center, 1st Floor, Universal 17, Moon Palace Resort

Crystal Growth and Point Defects – 10:00 – 12:00 Co-Chairs: Jan Vanhellemont 10:00

1635

10:40

1636

Invited; Growth of Czochralski Silicon Crystals with Ultralow Carbon Concentrations for High-Power InsulatedGate Bipolar Transistor Devices – Y. Nagai, S. Nakagawa, M. Higasa, and K. Kashima (GlobalWafers Japan Co., Ltd.) Invited; Stress and Doping Impact on Intrinsic Point Defect Behavior in Growing Single Crystal Silicon – K. Sueoka, E. Kamiyama (Okayama Prefectural University), and J. Vanhellemont (Ghent University)

65

Monday, October 6

Oxygen Reduction Reactions II – 14:00 – 16:40 Co-Chairs: Enn Lust, Kaido Tammeveski, and Enrique Herrero


1637

Monday, October 6

11:20

11:40

1638

Absolute Value Determination of Vacancy Concentration in Silicon Crystals Using Low-Temperature Ultrasonic Measurements – H. Yamada-Kaneta (Department of Electrical Engineering and Electronics, Kyushu Institute of Technology), K. Okabe (Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan, GlobalWafers Japan Co., Ltd., Seirou, Niigata 957-0197, Japan), M. Akatsu (Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan, Dresden High Magnetic Field Laboratory, Helmholtz-Zentrum Dresden-Rossendorf, D-01328 Dresden, Germany), S. Baba (Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan), K. Mitsumoto (Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan, Max Plank Institute for Chemical Physics of Solids, D-01187 Dresden, Germany), Y. Nemoto, T. Goto (Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan), H. Saito (GlobalWafers Japan Co., Ltd., Seirou, Niigata 9570197, Japan), K. Kashima (GlobalWafers Japan Co., Ltd.), and Y. Saito (Toshiba Corporation, Yokohama 225-8522, Japan) Highly Sensitive and Accurate Infrared Absorption Measurement of Carbon Concentration in Si Crystal – N. Inoue (Faculty of Engineering,Tokyo University of Agriculture and Technology), K. Watanabe (Systems Engineering Inc.), H. Seki (Toray Research Center Inc.), H. Uno (S.H.I.Examination & Inspection, Ltd.), H. Oyama (Kumamoto National College of Technology), and Y. Kawamura (Osaka Prefecture University)

Oxygen in Silicon – 14:00 – 16:20 Co-Chair: Robert J. Falster 14:00

1639

14:40

1640

15:20

1641

15:40

66

1642

Invited; Oxygen Precipitation and Defect Generation in Cz Silicon during Second and Millisecond Annealing – G. H. Kissinger, D. Kot, M. A. Schubert (IHP), and A. Sattler (Siltronic AG) Invited; Modeling of Oxygen Precipitation in Silicon – S. T. Dunham and B. C. Trzynadlowski (University of Washington) Precipitation Behaviors of Rapid Thermal Annealing Treated Silicon Wafers under Various Thermal Cycles – D. Lee (SunEdison Semiconductor), T. Kim, S. Park, T. Kim, Y. Lee, E. Park, H. Yeo (MEMC Korea), and R. Falster (MEMC Electronic Materials, Spa) Morphology of Oxygen Precipitates in RTA Pre-Treated Czochralski Silicon Wafers Investigated by FTIR Spectroscopy and STEM – D. Kot, G. Kissinger, M. A. Schubert (IHP), and A. Sattler (Siltronic AG)

16:00

1643

Proximity Gettering of Copper via Oxygen Precipitates for Silicon-on-Insulator Wafer – J. S. Park, I. H. Kim, G. S. Lee, and J. G. Park (Hanyang University)

Epitaxy for Strain Engineering – 16:30 – 17:30 Co-Chair: Eddy Simoen 16:30 16:50 1644

P5

Introductory Remarks Keynote; Epitaxy-Based StrainEngineering Methods for Advanced Devices – D. Grützmacher (Forschungszentrum Juelich), S. Wirths, T. Rieger (Peter Grünberg Institute 9 and JARA-FIT, Forschungszentrum Juelich), D. Buca, T. Stoica (Forschungszentrum Juelich), M. I. Lepsa, Q. T. Zhao (Peter Grünberg Institute 9 and JARA-FIT, Forschungszentrum Juelich), and S. Mantl (Forschungszentrum Juelich)

Processing Materials of 3D Interconnects, Damascene, and Electronics Packaging 6

Electronics and Photonics / Dielectric Science and Technology / Electrodeposition Expo Center, 1st Floor, Universal 13, Moon Palace Resort

Through Silicon Via I – 13:00 – 16:00 Co-Chairs: Kazuo Kondo, S. Mathad, Rohan Akolkar, and Wei-Ping Dow 13:00

1678

13:40

1679

14:00

1680

14:20 14:40 1681

15:20

1682

15:40

1683

P6

R&D Overview of 3D Integration Technology Using TSV in Japan – M. Kada (Osaka Prefecture University) 5minutes TSV Filling – C. Funaahashi, K. Kondo, M. Yokoi, N. Okamoto, and T. Saito (Osaka Prefecture University) Low Cost, Scalable and Selective Electrochemical TSV Fill Technology for 3D IC Interconnects – V. M. Dubin (Nano3d Systems LLC) Break 3D Wafer Level Heterogeneous Integration – M. J. Wolf and K. D. Lang (Fraunhofer Institute for Reliability and Microintegration IZM) A Stable Cu Nanoparticles Used for Seed Layer Deposition of through Silicon Via – Y. L. Tsai and W. P. Dow (National Chung Hsing University) Effect of Cupric Methanesulfonate on through-Hole Filling by Copper Electroplating – J. X. Ye and W. P. Dow (National Chung Hsing University)

Semiconductor Wafer Bonding 13: Science, Technology, and Applications

Electronics and Photonics Expo Center, 1st Floor, Universal 9, Moon Palace Resort

Fundamentals of Wafer Bonding – 10:00 – 11:50 Co-Chair: Hubert Moriceau 10:00 10:10 1715

Welcoming Remarks Invited: Glass-Glass Direct Bonding – G. Kalkowski, S. Risse, U. Zeitner, F. Fuchs, R. Eberhardt, and A. Tünnermann (Fraunhofer IOF)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


11:10

11:30

1716

1717

1718

Study of the Fracture Dynamics during the Silicon Layer Transfer of the Smart Cut™ Process – D. Massy (CEA, INAC France), F. Mazen (CEA, LETI, MINATEC Campus), J. Ragani (CEA, INAC), F. Madeira (CEA, LETI), D. Landru (SOITEC, France), and F. Rieutord (CEA, INAC) Contacts Behaviors among Vertical Aligned Carbon Nanotube Bumps under compression for Flexible Multilayer Substrates – M. Fujino, H. Terasaka, and T. Suga (The University of Tokyo) Nanomechanical Properties of Standard and Strained SOI Films Fabricated by Wafer Bonding and Layer Splitting – M. A. Mamun (Old Dominion University), K. Zhang, H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), and A. A. Elmustafa (Old Dominion University)

Layer Transfer Techniques – 13:00 – 15:00 Co-Chairs: Frank Fournel and Gerhard Kalkowski 13:00

1719

13:40

1720

14:20

14:40

1721

1722

Invited: Heterointegration of Semiconductors: Challenges and Opportunities – O. Moutanabbir (Department of Engineering Physics, École Polytechnique de Montréal) Invited: SOI-Type Bonded Structures for Advanced Technology Nodes – J. Widiez (CEA, LETI, MINATEC Campus), J. M. Hartmann (University of Grenoble - Alpes), F. Mazen, S. Sollier (CEA, LETI, MINATEC Campus), C. Veytizou (SOITEC), Y. Bogumilowicz, E. Augendre (CEA, LETI, MINATEC Campus), M. Martin (LTM, CNRS), F. Gonzatti, M. C. Roure, J. Duvernay, V. Loup, C. Euvrard-Colnat, A. Seignard (CEA, LETI, MINATEC Campus), T. Baron, R. Cipro, F. Bassani (LTM, CNRS), A. M. Papon, C. Guedj (CEA, LETI, MINATEC Campus), I. Huyet (SOITEC), M. Rivoire (CEA, LETI, MINATEC Campus), C. Figuet (SOITEC), P. Besson (CEA, LETI, MINATEC Campus), W. Schwarzenbach, D. Delprat (SOITEC), and T. Signamarcheix (CEA, LETI, MINATEC Campus) Epitaxial Growth and Layer Transfer of InP through Electrochemically Etched and Annealed Porous Buried Layers – D. Chen, X. Kuo, S. Sareminaeini (UCLA), and M. S. Goorsky (University of California, Los Angeles) Direct Bonding Mechanism of ALD-Al2O3 Thin Films – E. Beche, F. Fournel, V. Larrey (CEA, Leti, Minatec Campus), F. Rieutord (CEA, INAC), C. Morales (CEA, Leti, Minatec Campus), A. M. Charvet (CEA, LETI, Minatec Campus), F. Madeira (CEA, LETI), G. Audoit, and J. M. Fabbri (CEA, LETI, Minatec Campus)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

III-V Wafer Bonding Applications – 15:20 – 17:50 Co-Chairs: Maik Wiemer and Oussama Moutanabbir 15:20

1723

16:00

1724

16:40

1725

17:00

1726

17:20

1727

17:40

P7

Invited: Wafer Bonding: An Integration Route for Hybrid III-V/Sige CMOS on 300mm – L. Czornomaz, N. Daix, E. Uccelli, V. Djara, D. Caimi, C. Rossel, M. Sousa, H. Siegwart, C. Marchiori (IBM Zurich Research Laboratory), J. M. Hartmann (University of Grenoble Alpes), and J. Fompeyrine (IBM Zurich Research Laboratory) Invited: Heterogeneously Integrated III-V on Silicon Lasers – B. Ben Bakir, C. Sciancalepore, A. Descos, H. Duprez, D. Bordel, L. Sanchez, C. Jany, K. Hassan, P. Brianceau, V. Carron, and S. Menezo (CEA, Leti, Minatec Campus) Effects of Miscut Substrates on Electrical Conductivity Across InP and GaAs WaferBonded Structures – J. McKay, M. Seal (UCLA), M. S. Goorsky (University of California, Los Angeles), K. Yeung, and M. Jackson (UCLA) Type-II Band Profile of GaAs/Si Hetero Junctions by Surface Activated Bonding for Hybrid Tandem Cells – N. Shigekawa, J. Liang, M. Morimoto, and S. Nishida (Graduate School of Engineering, Osaka City University) Chemical Mechanical Polishing of III-V Materials for Wafer Bonding Applications – J. McKay (UCLA), M. S. Goorsky (University of California, Los Angeles), D. Chen, and S. Sareminaeini (UCLA) Concluding Remarks

SiGe, Ge, and Related Compounds: Materials, Processing, and Devices 6 Electronics and Photonics Expo Center, 1st Floor, Universal 12, Moon Palace Resort

Plenary Session – 10:15 – 12:25 Co-Chair: D. L. Harame 10:15 10:35 1760

11:30

1761

Introductory Remarks Extending the FETs: Challenges and Opportunities for New Materials and Structures – K. Uchida and T. Takahashi (Keio University) High-Performance Photonic BiCMOS – Next Generation More-than-Moore Technology for the Large Bandwidth Era – L. Zimmermann (IHP)

Expo Center, 1st Floor, Universal 8, Moon Palace Resort HBT I: Advanced SiGe HBT Technology – 13:40 – 15:00 Co-Chairs: G. Niu and M. Ostling 13:40

1762

14:10

1763

Towards 0.7 Terahertz Silicon Germanium Heterojunction Bipolar Technology – The DOTSEVEN Project – R. Lachner (Infineon Technologies AG) Reliability of SiGe HBTs in Long-Term Operation – G. G. Fischer (IHP)

67

Monday, October 6

10:50


Monday, October 6

14:40

1764

A Novel Approach to Isolating the Edge of the Shallow Trench Isolation in SiGe HBTs for Improved Device Performance – R. A. Camillo-Castillo, Q. Z. Liu, V. Jain, J. W. Adkisson (IBM Microelectronics Division), M. H. Khater (IBM T.J. Watson Research Center), P. Gray, J. J. Pekarik, R. Malladi, and D. L. Harame (IBM Microelectronics Division)

16:25

1771

16:45

1772

17:15

1773

17:35

1774

17:55

1775

Expo Center, 1st Floor, Universal 7, Moon Palace Resort Surfaces & Interfaces 1: Characterization and Process Control – 13:40 – 15:40 Co-Chairs: Seiichi Miyazaki and Shigeaki Zaima 13:40

14:10

14:30

15:00

15:20

1765

1766

1767

1768

1769

Anisotropoic Strain Evaluation in the Finite Si Area by Surface Plasmon Enhanced Raman Spectroscopy – A. Ogura and D. Kosemura (Meiji University) Detection of Ge and Si Intermixing in Ge/Si Using Multiwavelength MicroRaman Spectroscopy – W. S. Yoo, K. Kang, T. Ueda, T. Ishigaki (WaferMasters, Inc.), H. Nishigaki, N. Hasuike, H. Harima, M. Yoshimoto (Kyoto Institute of Technology), and C. S. Tan (Nanyang Technological University) Si Ultrathin Films on Silver Surfaces: An Intriguing Epitaxial System – T. Leoni (Aix Marseille Université), R. Bernard (Institut des Nanosciences de Paris), A. Ranguis (Aix Marseille Université), Y. Borensztein, G. Prévot (Institut des Nanosciences de Paris), and L. Masson (Aix Marseille Université) Surface Reaction in Thin Film Formation of Si1-xGex Alloys on Si(100) by ElectronCyclotron-Resonance Ar Plasma Chemical Vapor Deposition without Substrate Heating – N. Ueno, M. Sakuraba, and S. Sato (Tohoku University) Ni(SiGeSn) Metal Contact Formation on Low Bandgap Strained (Si) Ge(Sn) Semiconductors – S. Wirths (Forschungszentrum Juelich), R. Troitsch (Peter Grünberg Institute 9 and JARAFIT), G. Mussler (Forschungszentrum Juelich), P. Zaumseil (IHP), J. M. Hartmann (Université Grenoble Alpes), T. Schroeder (IHP), S. Mantl, and D. Buca (Forschungszentrum Juelich)

P8

Thermoelectric and Thermal Interface Materials Electronics and Photonics Expo Center, 1st Floor, Universal 5, Moon Palace Resort

Thermoelectric Materials I – 10:00 – 12:10 Co-Chairs: Colm O’Dwyer, Jr-Hau He, and Kafil M. Razeeb 10:00

1859

10:30

1860

11:00

1861

Expo Center, 1st Floor, Universal 8, Moon Palace Resort Processing 1 – 15:55 – 18:15 Co-Chairs: Marco Lisker and Didier Dutartre 15:55

68

1770

UV Excimer Laser Assisted Heteroepitaxy of (Si)GeSn on Si(100) – S. Chiussi, S. Stefanov, A. Benedetti, C. Serra (Universidade de Vigo), D. Buca (Forschungszentrum Juelich), J. Schulze (Institut für Halbleitertechnik), and P. González (Universidade de Vigo)

Liquid Phase Epitaxy (LPE) Formation of Localized High Quality and Mobility Ge & SiGe by High Dose Ge-Implantation with Laser Melt Annealing for 10nm and 7nm Node CMOS Technology – J. O. Borland (J.O.B. Technologies, AIP), M. Sugitani (SEN Corporation), P. Oesterlin (Innovavent), W. Johnson (KLA-Tencor), T. Buyuklimanli, R. Hengstebeck (EAG), E. Kennon, K. S. Jones (University of Florida), and A. Joshi (Active Layer Parametrics) Challenges and Developments in GeSn Process Technology for Si Nanoelectronics – S. Zaima, O. Nakatsuka, N. Taoka, K. Kato, W. Takeuchi, and M. Sakashita (Nagoya University) Silicon Diffusion Engineering in Rapid Melt Growth of Silicon-Germaniumon-Insulator – C. G. Littlejohns, F. Y. Gardes (Optoelectronics Research Centre, University of Southampton), M. Nedeljkovic (University of Southampton), G. Z. Mashanovich, and G. T. Reed (Optoelectronics Research Centre, University of Southampton) Electrical and Microstructural Characterization of Cu-Germanide Contacts Formed on p-Type Ge Substrate – Y. R. Lim, Y. J. Lee, M. S. Kang, C. H. Leem, I. Jyothi, K. H. Shim, and C. J. Choi (Chonbuk National University) Fabrications of Size- Controlled SiGe Nanowires Using I-Line Lithography and Focused Ion Beam Technique – M. Noroozi, A. Ergül, A. Abedin, M. Toprak, and H. H. Radamson (KTH Royal Institute of Technology)

Electrochemical Control of Thermal Conduction in Thin Films – D. G. Cahill, J. Cho, and P. V. Braun (University of Illinois at Urbana-Champaign) Thermoelectric Properties of Small Bandgap Semiconductor Nanowires: The Effects of 1D Electron Subband Formation and Phonon Boundary Scattering – X. Gao (Case Western Reserve University) Enhanced Thermoelectric Efficiency of Si-Ni Nanocomposite Films Grown on SOI and SOQ Substrates – N. Uchida (National Institute for Advanced Industrial Science and Technology (AIST)), Y. Ohishi, Y. Miyazaki, K. Kurosaki, S. Yamanaka (Division of Sustainable Energy and Environmental Engineering, Graduate School of Engineering, Osaka University), and T. Tada (Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


11:50

1862

1863

Metallic Nanowire-Polymer Composite as Thermal Interface Material – K. M. Razeeb, M. Hasan, D. Gautam (Tyndall National Institute, University College Cork), and E. Dalton (Stokes Institute, University of Limerick) Phonon Transport and Scattering in Rough and Porous Silicon Nanowires – C. Glynn (University College Cork), K. Jones (University of Limerick), W. McSweeney, O. Lotty (University College Cork), H. Geaney (Micro- and Nanoelectronics Centre, Tyndall National Institute, Lee Maltings, Cork, Ireland), C. M. Sotomayor Torres (ICREA and Catalan Institute of Nanoscience and Nanotechnology ICN2), J. D. Holmes, and C. O’Dwyer (University College Cork)

10:20

1957

10:40

1958

11:00

1959

11:20

1960

11:40

1961

Thermoelectric Materials II – 13:50 – 17:40 Co-Chair: Kafil M. Razeeb 13:50

1864

14:20

1865

14:40

1866

15:10

1867

15:40

1868

16:10

1869

16:40

1870

17:10

1871

Q3

Electrical and Thermoelectric Performance of 2D Layered Materials: Atomic Simulation Study – G. Liang (National University of Singapore) Paintable Thermoelectric Materials from Polymer Blends of Exfoliated 2D Nanosheets – E. Carroll, D. Buckley, G. Collins, and C. O’Dwyer (University College Cork) Ge-Si based Nanowire Thermoelectric Materials in the Phonon Confinement Regime – J. Xiang (Univ. of California San Diego) Nanoengineering Pure Polymers with High Thermal Conductivity – B. Cola (Georgia Institute of Technology) Thermal and Thermoelectric Transport in Semiconductor Nanostructures – R. Chen (University of California, San Diego) Advanced Nanostructured Thermoelectric Materials for Energy Conversion – Y. Wu (Purdue University) Atomic-Monolayer Thermoelectric Conversion in Two-Dimensional Chalcogenides – M. H. Jo (University of Science and Technology (POSTECH)) Thermoelectric Performance of Nanostructured Bismuth-Tellurium and Bismuth-Antimony-Tellurium Powders Fabricated by Galvanic Displacement Reaction Process – C. Y. An, J. Y. Park, and C. H. Chung (Sungkyunkwan university)

Plenary Session I – 10:00 – 12:00 Co-Chairs: Michael Dudley and Mietek Bakowski 10:00

Plenary Session II – 13:00 – 14:00 Co-Chairs: Krishna Shenai and N. Ohtani 13:00

1962

13:20

1963

GaN and SiC Power Technologies 4

Electronics and Photonics / Dielectric Science and Technology Expo Center, 1st Floor, Universal 20, Moon Palace Resort

1956

Medium Voltage Hybrid Si IGBT/SiC JBS Diode Module Development – K. D. Hobart, E. A. Imhoff (Naval Research Laboratory), and B. Ray (Bloomsburg University of Pennsylvania)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

A Critique of Wide Bandgap (WBG) Power Semiconductor Datasheets – K. Shenai (Argonne National Laboratory) GaN Based Optoelectronic Devices: From Ultraviolet Detectors and Visible Emitters Towards THz Intersubband Devices – R. McClintock and M. Razeghi (Northwestern University) Fabrication and Performance of 16-kV Ultrahigh-Voltage SiC Power Devices – Y. Yonezawa, T. Mizushima, K. Takenaka, H. Fujisawa, T. Kato, D. Okamoto, M. Sometani, T. Deguchi, S. Harada, Y. Tanaka, S. Matsunaga, T. Hatakeyama, M. Okamoto, M. Yoshikawa, N. Oose, M. Ryo, H. Kimura, M. Miyajima (Advanced Power Electronics Research Center, National Institute of Advanced Industrial Science and Technology, AIST), N. Kumagai, M. Takei (Advanced Power Electronics Research Center, National Institute of Advanced Industrial Science and Technology, AIST, Corporate R&D Headquarters, Fuji Electric Co. Ltd.), M. Arai (New Japan Radio Co. Ltd.), K. Takao (Toshiba Corporation Corporate Research & Development Center), T. Izumi, T. Hayashi, K. Nakayama, K. Asano (Power Engineering R&D Center, Kansai Electric Power Co., Inc.), A. Otsuki (Corporate R&D Headquarters, Fuji Electric Co. Ltd.), K. Fukuda, H. Okumura (Advanced Power Electronics Research Center, National Institute of Advanced Industrial Science and Technology, AIST), and T. Kimoto (Department of Electronic Science & Engineering, Kyoto University) Progress on Large Diameter Single Crystal Growth of SiC – G. Ruland, P. Wu, X. Xu, V. Rengarajan, I. Zwieback, A. Gupta, and M. Ramm (II-VI, WBG) Multi-Cycle High Temperature Rapid Thermal Annealing for Dislocation Elimination in 4H-SiC Epitaxy – N. A. Mahadik, M. J. Tadjer, R. E. Stahlbush (U. S. Naval Research Laboratory), E. A. Imhoff (U.S. Naval Research Laboratory), and B. Feigelson (U. S. Naval Research Laboratory)

An Ultra Compact GaN 3x3 Matrix Converter – S. Nagai, Y. Yamada, Y. Kawai, N. Negoro, H. Handa, M. Ishida, T. Ueda, K. Mizutani, Y. Kudoh, N. Otsuka (Panasonic Corporation), and D. Ueda (Kyoto Institute of Technology) SiC Power Devices in a Soft Switching Converter, Including Aspects on Packaging – P. Ranstad (Alstom Power), M. Bakowski (Acreo Swedish ICT), G. Tolstoy (Royal Institute of Technology), J. K. Lim (Acreo Swedish ICT), F. Giezendanner (Alstom Power), and A. Ranstad (Student)

69

Monday, October 6

11:20


Monday, October 6

13:40

1964

Design and Performance of Compact Air-Cooled SiC Mosfet Inverters for LowPower Variable Speed Drive Applications – D. M. Bellur, S. Kunin, E. Ayana, B. Palmer (Cummins Power Generation), J. Leonarski, S. Varigonda (Cummins Corporate Research and Technology), and K. Shenai (Argonne National Laboratory)

SiC Power MOSFETs - Reliability and Modeling – 14:30 – 15:50 Co-Chairs: Aris Christou and Karl D. Hobart 14:30

14:50

1965

1966

15:10

1967

15:30

1968

Reliability of Commercially Available SiC Power Mosfets – A. Lelis, R. Green, M. El, and D. Habersat (U.S. Army Research Laboratory) Characterization of Reliability in SiC Power Devices – J. D. Flicker, D. R. Hughart, S. Atcitty, R. J. Kaplar, and M. Marinella (Sandia National Laboratories) A Simple and Accurate Circuit Simulation Model for High-Voltage SiC Power MOSFETs – A. Pozo Arribas, M. Krishnamurthy (Illinois Institute of Technology), and K. Shenai (Argonne National Laboratory) High, Low, and Zero Field Spin Dependent Recombination in 4H SiC Mosfets – P. M. Lenahan (Pennsylvania State University), C. Cochrane (JPL/California Instituter of Technology), and A. Lelis (U.S. Army Research Laboratory)

Special Session - WBG Workforce Development (University Perspective) – 16:00 – 17:30 Co-Chairs: Krishna Shenai and Tanya Gachovska 16:00

1969

16:20

1970

16:40

1971

Q4

Invited: Solidstate Engineering at Northwestern University – M. Razeghi and R. McClintock (Northwestern University) The Materials and Reliability of Power Electronics Devices – A. Christou and P. McCluskey (University of Maryland) Workforce Development for Electric Power Engineers – L. Guo (Northern Illinois University)

Low-dimensional Nanoscale Electronic and Photonic Devices 7

Electronics and Photonics / Dielectric Science and Technology / Sensor Expo Center, 1st Floor, Universal 19, Moon Palace Resort

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part I – 10:00 – 12:20 Co-Chairs: Yu-Lun Chueh and Motofumi Suzuki 10:00

1998

10:30

1999

11:00

2000

70

Exploring the Flatlands: Synthesis, Characterization and Engineering of TwoDimensional Materials – J. Lou (Rice University) Vertical Heterostructures of Layered Metal Chalcogenides by Van Der Waals Epitaxy for Solar Energy Conversion and Catalysis – S. Jin (University of Wisconsin-Madison) Growth of Transition Metal Dichalcogenide Monolayers with Chemical Vapor Deposition – L. J. Li (Academia Sinica)

11:30

2001

Generalized Self-Assembly of TwoDimensional Transition Metal Oxide Nanosheets on Flexible Graphene – J. H. Kim (University of Wollongong)

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part II – 14:00 – 16:30 Co-Chairs: Song Jin and Jung Ho Kim 14:00

2002

14:30

2003

15:00

2004

15:30

2005

16:00

2006

Q7

Nanomaterial-Based Macroscale Printable Flexible Sensors – K. Takei, S. Harada, W. Honda, T. Arie, and S. Akita (Osaka Prefecture University) Carbon Nanotube Flexible Electronics – C. Wang (Michigan State University) Fast Responsive of Ultraviolet-Light VO2 Flexible Photodetector – J. M. Wu (National Tsing Hua University) Control of Metal-Insulator Transition of Vanadium Dioxide Thin Film Grown by Excimer Laser Assisted Metal Organic Deposition – T. Tsuchiya, T. Nakajima, K. Shinoda, and N. Takako (National Institute of Advanced Industrial Science and Technology (AIST)) Fast Sensitive Ultra-Low Power Micro Thermal Conductivity Gas Sensor – A. Mahdavifar, P. Hesketh (Georgia Institute of Technology), M. W. Findlay, and J. R. Stetter (KWJ Engineering, Inc.)

Semiconductors, Dielectrics, and Metals for Nanoelectronics 12 Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 18, Moon Palace Resort

Defects, Traps, and Reliability – 10:00 – 13:00 Co-Chairs: Valeri V. Afanas’ev and Kenji Shiraishi 10:00 10:10 2084

10:40 11:00 2085

11:30

2086

12:00

2087

Welcoming Remarks Molecular Dynamics Simulation of Dipole Layer Formation at High-k/SiO2 Interfaces – T. Watanabe, R. Kuriyama, M. Hashiguchi, R. Takahashi, K. Shimura (Waseda University), A. Ogura (Meiji University), and S. Satoh (University of Hyogo) Break Spectroscopy of Deep Gap States in High-k Insulators – V. V. Afanas’ev, W. C. Wang, F. Cerbu, O. Madia, M. Houssa, and A. Stesmans (University of Leuven) The First Principles Investigation of SiC/ SiO2 Interfaces Obtained by Thermal Oxidation – K. Shiraishi (Nagoya University), K. Chokawa (University of Tsukuba), K. Kamiya (Kanagawa Institute of Technology), S. Kato (University of Tsukuba), K. Endo, and M. Araidai (Nagoya University) Control of 4H-SiC (0001) Thermal Oxidation Process for Reduction of Interface State Density – K. Kita (The University of Tokyo, JST-PRESTO), R. H. Kikuchi, H. Hirai, and Y. Fujino (The University of Tokyo)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


2088

12:40

2089

Effect of Al Doping on the Reliability of ALD HfO2 – M. Bhuyian, D. Misra (New Jersey Institute of Technology), K. Tapily, R. Clark, S. Consiglio, C. Wajda, G. Nakamura, and G. Leusink (TEL Technology Center, America) High-Temperature Reverse-Bias Stressing of Thin Gate Oxides in Power Transistors – S. A. Suliman, O. O. Awadelkarim (The Pennsylvania State University), J. Hao, and M. Rioux (Fairchild Semiconductor, Inc.)

Ge and Si/Ge Channels – 14:00 – 15:40 Co-Chairs: Akira Toriumi and Samares Kar 14:00

14:30

15:00

15:20

Q8

2090

2091

2092

2093

High Electron Mobility n-Channel Ge MOSFETs with Sub-Nm EOT – A. Toriumi, C. Lee, C. Lu, and T. Nishimura (The University of Tokyo, JST-CREST) In Depth Study of Ge Impact on Advanced SiGe PMOS Transistors – A. Soussou (STMicroelectronics, CEA-LETI), M. Cassé, G. Reimbold, C. Leroux, F. Andrieu (CEA-LETI), D. Rideau (STMicroelectronics), V. Delaye (CEALETI), M. Juhel (STMicroelectronics), R. Berthelon (CEA-LETI), G. Ghibaudo (IMEP-LAHC, INP Minatec), and C. Tavernier (STMicroelectronics) ALD Grown Rare-Earth High-k Oxides on Ge: Lowering of the Interface Trap Density and Scalability of the Equivalent Oxide Thickness – O. Bethge, C. Zimmermann, B. Lutzer, S. Simsek (Vienna University of Technology), S. Abermann (Austrian Institute of Technology), and E. Bertagnolli (Vienna University of Technology) Ambient-Pressure XPS Study of GeO2/ Ge(100) and SiO2/Si(100) at Controlled Relative Humidity – K. Arima, Y. Kawai, Y. Minoura, Y. Saito, D. Mori, H. Oka, K. Kawai, T. Hosoi (Osaka University), Z. Liu (Advanced Light Source, Lawrence Berkeley National Laboratory), H. Watanabe, and M. Morita (Osaka University)

Solid State Electronics and Photonics in Biology and Medicine

10:30

2124

11:00

2125

11:30

2126

Solid State Materials and Devices for Bio-sensing – 13:30 – 17:00 Co-Chair: Yu-Lin Wang 13:30

2127

14:00

2128

14:30

2129

14:50 15:20 2130

Electronics and Photonics / Sensor Expo Center, 1st Floor, Universal 10, Moon Palace Resort

Solid-state Electronics and Photonics for Cell Biology – 10:00 – 11:50 Co-Chair: Yu-Lin Wang 10:00

2123

Invited: Dual-Faced Nano-Mushrooms for Multi-Functional Cell Diagnosis – F. G. Tseng (Applied Science Research Center, Academia Sinica, Engineering and System Science Dept., National Tsing Hua Univerity) and H. Y. Hsieh (NEMS Institute, National Tsing Hua Univerity)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Invited: Finite Element Model Simulations to Assist the Design of Microdevices Dedicated to the Localized Electroporation of Mouse Embryos – X. Zhao, E. Mazari (CNRS), D. Suárez-Boomgaard, I. Migeotte (Université Libre de Bruxelles), A. Perea-Gomez (Université Paris Diderot), and C. Gosse (CNRS) Invited: Detection of the Secretome and Transfection of a Single Cell Using a Nanopore – V. Kurz, E. Nelson, T. Tanaka, and G. Timp (University of Notre Dame) Plasmonically Targeted Laser Treatment of Human Endothelial Cells – O. L. Muskens (University of Southampton)

15:40

2131

16:00

2132

Invited: Nanowire Field-Effect TransistorBased Biosensors as a Tool for Life Science – Y. T. Chen (National Taiwan University, Academia Sinica) Invited: Metal-Semiconductor-Metal Photocurrent Chip for Hydrogen Peroxide and Biomolecular Sensing with Chemiluminescence – F. H. Ko (National Chiao Tung University), C. C. Lin (Graduate Program for Nanotechnology Department of Materials Science and Engineering, National Chiao Tung University), D. S. Sun (National Chiao Tung University), and T. M. Pan (Chang Gung University) A Novel Ultra-Low Detection Limit Hydrogen Peroxide Sensor Based on Horseradish Peroxidase Immobilized Polyaniline Film – K. C. Fang, C. H. Chu, C. P. Hsu, Y. W. Kang, J. Y. Fang (National Tsing Hua University), C. H. Hsu (Institute of Biomedical Engineering and Nanomedicine, National Health Research Institutes), Y. F. Huang, C. C. Chen, S. S. Li, J. A. Yeh, D. J. Yao, and Y. L. Wang (National Tsing Hua University) Break Measurement and Modeling of the M13 Bacteriophages Transport in the Conical-Shaped Nanopore – C. Y. Lee (National Tsing Hua University), Y. H. Hsiao (National Tsing Hua University, Institute of Biomedical Engineering and Nanomedicine, National Health Research Institutes), J. C. Yu, C. W. Hsu (National Tsing Hua University), C. H. Hsu (Institute of Biomedical Engineering and Nanomedicine, National Health Research Institutes), and C. Chen (National Tsing Hua University) Capacitive Current Induced by dsDNA for Biosensor Applications – C. P. Hsu, Y. F. Huang, and Y. L. Wang (National Tsing Hua University) Investigation of the Hydroxyl Radical Sensor with Conductance Change of Polyaniline – J. Y. Fang, K. C. Fang, C. P. Hsu, C. H. Chu, J. Liu, and Y. L. Wang (National Tsing Hua University) 71

Monday, October 6

12:20


Monday, October 6

16:20

16:40

Q9

2133

2134

Novel Cholesterol Sensor Based on Ultra-Low Detection Limit Hydrogen Peroxide Sensor – C. H. Chu, K. C. Fang, C. P. Hsu, Y. W. Kang, J. Y. Fang (National Tsing Hua University), C. H. Hsu (Institute of Biomedical Engineering and Nanomedicine, National Health Research Institutes), Y. F. Huang, C. C. Chen, S. S. Li, J. A. Yeh, D. J. Yao, and Y. L. Wang (National Tsing Hua University) Fabrication of Low Cost Conducting Papers for Miniaturized Electronic Biomedical Sensors – Y. T. Chen (Institute of NanoEngineering and MicroSystems), C. H. Chu, K. C. Fang, C. P. Hsu, Y. W. Kang, J. Y. Fang, and Y. L. Wang (National Tsing Hua University)

15:30

2144

16:00

2145

16:30

2146

State-of-the-Art Program on Compound Semiconductors 56 (SOTAPOCS 56)

Electronics and Photonics Expo Center, 1st Floor, Universal 6, Moon Palace Resort

Session I – 10:00 – 12:00 Co-Chairs: Jr-Hau He and Lars-Erik Wernersson 10:00

2136

10:30

2137

11:00

2138

11:30

2139

11:45

2140

CMOS Inverters and P-N Junction Diodes Based on Transition Metal Dichalcogenide Monolayers – T. Takenobu (Waseda University) Crafting Semiconductor Organic-inorganic Nanocomposites Via Placing Conjugated Polymers in Intimate Contact with Nanocrystals for Hybrid Solar Cells – Z. Lin, J. Jung, Y. Yoon, and X. Pang (Georgia Institute of Technology) Recent Advances in Semiconductor Nanowire Heterostructures – H. E. Jackson, L. M. Smith (University of Cincinnati), and C. Jagadish (Australia National University) Integration of Photodefinable Polybenzoxazole as Intermetal Dielectric for GaAs HBT Technology – J. Yota and B. Do (Skyworks Solutions, Inc.) Behaviors of Carbon Atoms during Plasma Oxidation of 4H-SiC(0001) Surfaces near Room Temperature – N. Saito, D. Mori, A. Imafuku, K. Kawai, Y. Sano, M. Morita, and K. Arima (Osaka University)

Session II – 14:00 – 17:00 Co-Chairs: Taishi Takenobu and Howard E Jackson 14:00

2141

14:30

2142

15:00

2143

72

New Approaches to Realizing High Power Nitride Based Field Effect Transistors – M. Shur (Rensselaer Polytechnic Institute), G. Simin (University of South Carolina), and R. Gaska (Sensor Electronic Technology, Inc.) Simulation of Radiation Damage in GaN HEMT Structures – M. E. Law, E. Patrick, and M. Choudhury (University of Florida) Low Power Zinc-Oxide Based Charge Trapping Memory with Embedded Silicon Nanoparticles – A. Nayfeh (Masdar Institue of Science and Technology), A. Okyay (Bilkent University, UNAM), N. El-Atab (Masdar Institute of Science and Technology), A. Ozcan, and S. Alkis (Bilkent University, UNAM)

InAs/InP Quantum Dash Nanostructure Based Broadband Emitters: A Step Towards Energy Efficient Optical Communication – M. Z. M. Khan, T. K. Ng, and B. S. Ooi (King Abdullah University of Science & Technology) Topological Insulator Bi2Se3 Nanowire Field Effect Transistors – H. Zhu (Semiconductor and Dimensional Metrology Division, National Institute of Standards and Technology), E. Zhao (George Mason University), C. A. Richter (Semiconductor and Dimensional Metrology Division, National Institute of Standards and Technology), and Q. Li (George Mason University) Optical Properties and Defect Formation in Gallium Phosphide/Gallium Nitrogen Phosphide Core/Shell Nanowires – A. Dobrovolsky, J. E. Stehr (Linkoping University), Y. J. Kuang, S. Sukrittanon, C. W. Tu (University of California, La Jolla), W. M. Chen, and I. A. Buyanova (Linkoping University)

Thin Film Transistors 12 (TFT 12)

and Photonics Q10 Electronics Expo Center, 1st Floor, Universal 4, Moon Palace Resort Silicon-based TFTs I – 10:00 – 12:00 Co-Chairs: Yue Kuo and Olivier Bonnaud 10:00 10:10 1902 10:40

1903

11:10

1904

11:30

1905

Introductory Remarks Unipolar CMOS Logic for Thin-Film Transistor Technology – T. P. Ma (Yale University) A Bottom-up SiNW AMOSFET Fabrication Approach Giving SOI Level Performance – W. J. Nam, S. Pan, P. Garg, and S. J. Fonash (The Pennsylvania State University) Thinning the Active Layer of TFTs – M. L. Samb, H. Dong, E. Jacques (University Rennes 1), G. Sissoko (University Cheikh Anta Diop Dakar), A. Seidou Maiga Sr. (University Gaston Berger), and T. Mohammed-Brahim (University Rennes 1) Extraction of Trap Densities in TFTs using C-V Characteristics – M. Kimura and T. Matsuda (Ryukoku University)

Silicon-based TFTs II – 13:00 – 14:30 Co-Chair: Stephen J. Fonash 13:00

1906

Characteristics of Poly-Si Thin Film Transistors with Highly Biaxially Oriented Linearly Arranged Poly-Si Thin Films Using Double Line Beam ContinuousWave Laser Lateral Crystallization – M. Yamano, S. I. Kuroki, T. Hirata, T. Sato (Research Institute for Nanodevice and Bio Systems (RNBS)), K. Kotani (Graduate School of Engineering, Tohoku University), and T. Kikkawa (Research Institute for Nanodevice and Bio Systems (RNBS))

Meeting Program l October 5-9, 2014 l Cancun, Mexico


13:50

1907

1908

Single-Grain Si Tfts Fabricated on a Precursor from Doctor-Blade Coated Liquid-Si – J. Zhang, M. Trifunovic, M. van der Zwan (Delft University of Technology), H. Takagishi (Japan Science and Technology Agency), T. Shimoda (Japan Science and Technology Agency, Japan Advanced Institute of Science and Technology), and R. Ishihara (Delft University of Technology, Japan Advanced Institute of Science and Technology) Effect of Grain Growth Control by Atmospheric Micro-Thermal- Plasma-Jet Crystallization of Amorphous Silicon Strips on TFT Characteristics – S. Morisaki, S. Hayashi, S. Yamamoto, T. Nakatani, and S. Higashi (Hiroshima University)

Organic and New Material Based TFTs – 15:00 – 16:20 Co-Chair: T. P. Ma 15:00

1910

15:30

1911

15:50

1912

Contact Effects in Organic Thin Film Transistors with Different Device Structures – L. Mariucci, M. Rapisarda, A. Valletta, S. Calvi (IMM-CNR), M. Benwadih, R. Coppard (CEA - Liten), and G. Fortunato (IMM-CNR) Improvement of Electrical Characteristic of P3HT Organic Electrochemical Transistors with Ionic Liquid by Slow Cooling in Annealing Process – D. Tadaki, S. Iino, T. Ma, J. Zhang (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University), Y. Kimura (Tokyo University of Technology), and M. Niwano (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University) High Temperature Performance of MoS2 Thin Film Transistors – M. Shur, S. Rumyantsev (Rensselaer Polytechnic Institute), R. Samnakay, C. Jiang (University of California – Riverside, Riverside, California), P. Goli, and A. Balandin (University of California – Riverside, Riverside, California 92521 USA)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Z2

Energy Water Nexus

All Divisions / Interdisciplinary Science and Technology Subcommittee Expo Center, 2nd Floor, Universal Ballroom, Moon Palace Resort

Plenary – 14:00 – 15:40 Co-Chairs: Eric D. Wachsman and Carl Hensman 14:00 14:10 2273 14:40

2274

15:10

2275

Introductory Remarks Addressing Energy-Water Challenges Through Transformative Research – J. Klausner (U.S. Department of Energy) Electrochemistry and Co-Generation in Arid Regions – A. D. Aljaberi (Mechanical and Materials Engineering Department, Institute Center for Energy - iEnergy, Masdar Institute, Abu Dhabi, United Arab Emirates) SPUDS: Self Powered Useful Devices – What We Need to Know to Make Them Useful, and Why Should We Care? – K. Nealson (University of Southern California)

73

Monday, October 6

13:20


10:40

26

11:00

27

11:20

28

11:40

29

Tuesday, October 7

A1

Batteries and Energy Technology Joint General Session

Battery / Energy Technology Sunrise, 2nd Floor, Galactic Ballroom 4, Moon Palace Resort

Tuesday, October 7

Redox Flow Batteries – 07:40 – 12:00 Co-Chairs: Robert F. Savinell and Jesse S. Wainright 07:40

19

08:10

20

08:30

21

08:50

22

09:10

23

09:30 10:00 24

10:20

74

25

Recent Advances in Inexpensive Aqueous Batteries for Large Scale Electrical Energy Storage – S. R. Narayanan, A. K. Manohar, S. Malkhandi, B. Yang, C. Yang, P. Trinh, L. Hoober-Burkhardt, K. M. Kim, and G. K. S. Prakash (University of Southern California) Porous Conducting Membranes and Their Application in Vanadium Flow Battery – X. Li and H. Zhang (Dalian Institute of Chemical Physics, Chinese Academy of Sciences) A Three-Dimensional Model for Thermal Analysis in a Vanadium Flow Battery – Q. Zheng (Dalian Institute of Chemical Physics,Chinese Academy of Sciences), H. Zhang, X. Li (Dalian Institute of Chemical Physics, Chinese Academy of Sciences), X. Ma (Rongke Power), G. Ning (School of Chemical Engineering, Dalian University of Technology), and F. Xing (Dalian Institute of Chemical Physics, Chinese Academy of Sciences) Factors Affecting Spectroscopic Stateof-Charge Measurement – N. Quill, M. O’Mahony, R. P. Lynch (Department of Physics & Energy, and Materials & Surface Science Institute, University of Limerick, Ireland), X. Gao (Department of Physics & Energy, and Materials & Surface Science Institute, University of Limerick, Ireland, Center for Applied Energy Research, University of Kentucky, Lexington, Kentucky, USA), D. Oboroceanu, C. Lenihan, C. Petchsingh, D. Ní Eidhin, and D. N. Buckley (Department of Physics & Energy, and Materials & Surface Science Institute, University of Limerick, Ireland) Study of Loss Mechanisms in a Regenerative Hydrogen Vanadium Fuel Cell – H. Hewa Dewage, V. Yufit, B. Wu, F. Tariq, S. J. Cooper, and N. P. Brandon (Imperial College London) Break Recent Advances in Electrode Design for an All-Iron Redox Flow Battery – K. L. Hawthorne, T. J. Petek, N. C. Hoyt, J. S. Wainright, and R. F. Savinell (Case Western Reserve University) Influence of Surface Treatments on the Electrochemical Reactivity of VO2+/ VO2+ Redox Couple Using Carbon Fiber Ultramicroelectrodes – M. A. Miller, R. F. Savinell, and J. S. Wainright (Case Western Reserve University)

Performance Evaluation of the NonAqueous Vanadium Redox Flow Battery with Different Separators – I. L. Escalante-Garcia, J. S. Wainright (Case Western Reserve University), L. T. Thompson (University of Michigan), and R. F. Savinell (Case Western Reserve University) Microfluidic Redox Battery with Symmetric, Dual-Pass Architecture – O. Ibrahim (School of Mechatronic Systems Engineering, Simon Fraser University), M. A. Goulet, and E. Kjeang (Simon Fraser University) Low-Temperature, High Energy Density Non-Aqueous Redox Flow Battery – T. Herr, P. Fischer, J. Tübke, K. Pinkwart, and P. Elsner (Fraunhofer Institute for Chemical Technology ICT) Surfactant for Enhanced Rheological, Electrical and Electrochemical Performance of Suspensions for Semi-Solid Redox Flow Batteries and Supercapacitors – L. Madec (Institut des Matériaux Jean Rouxel (IMN), Nantes University, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), M. Youssry (Materials Science and Technology Program, College of Arts and Sciences, Qatar University), M. Cerbelaud (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), P. Soudan, D. Guyomard (Institut des Matériaux Jean Rouxel (IMN), Nantes University, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), and B. Lestriez (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France)

Aqueous Batteries – 13:40 – 15:00 Co-Chairs: A. Manivannan and S. R. Narayan 13:40

30

14:00

Local Cell Reaction Study for Lead Acid Battery – T. Iwai (Graduate School of Energy Science), D. Kitajima (Graduate school of energy science, Kyoto University), S. Takai, and T. Yao (Graduate School of Energy Science, Kyoto University) Distribution of Zinc Oxide and Zinc Metal in ‘Shape Change’ Electrodes – A. Nakata, T. Yamane, H. Murayama, K. Fukuda, H. Arai, T. Hirai (Office of SocietyAcademia Collaboration for Innovation, Kyoto University), Y. Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University), J. Yamaki, and Z. Ogumi (Office of Society-Academia Collaboration for Innovation, Kyoto University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


14:40

32

33

Modeling of Triple-Phase Boundary in Air Electrodes for Metal-Air Secondary Batteries Using Partially Immersed Electrodes – A. Ikezawa (Graduate School of Engineering, Kyoto University), K. Miyazaki (JST PREST, Graduate School of Engineering, Kyoto University), T. Fukutsuka, and T. Abe (Graduate School of Engineering, Kyoto University) Preparation of Layered Double Hydroxides with Various Ratios of Cations and Their Anion Conductivities – X. Zhang, K. Miyazaki, T. Fukutsuka, and T. Abe (Graduate School of Engineering, Kyoto University)

High Temperature Fuel Cells – 17:00 – 18:00 Co-Chair: A. Manivannan 17:00

40

17:20

41

17:40

42

Li-batteries Modeling – 15:00 – 17:00 Co-Chairs: Venkat R. Subramanian and Jagjit Nanda 15:00

34

15:20

35

15:40

36

16:00

37

16:20

38

16:40

39

A Generalized 3D Multiphysics Model for Li-Ion Intercalation Batteries – S. Allu, S. Pannala, J. Nanda, S. Simunovic, and J. A. Turner (Oak Ridge National Laboratory) Optimal Charging Profile for Lithium-Ion Batteries at Subzero Temperatures – B. Suthar, P. W. C. Northrop (Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis), R. D. Braatz (Department of Chemical Engineering, Massachusetts Institute of Technology), and V. R. Subramanian (Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis) Model Reformulation and Efficient Simulation of Two Dimensional Electrochemical Thermal Models – D. Rife, M. Pathak, P. W. C. Northrop, and V. R. Subramanian (Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis) Analytical Study of Health Conscious Charging in Li-Ion Batteries Using the Pontryagin Minimum Principle – M. Ghanaatpishe, A. A. Mamun, and J. Safi (The Pennsylvania State University) Mesoscale Models for Mechanics of Active Materials in Li-Ion Batteries – S. Simunovic (Oak Ridge National Laboratory), A. Stershic (Duke University), S. Kalnaus, S. Allu, S. Pannala, and J. A. Turner (Oak Ridge National Laboratory) Moving Battery Models to Low-Cost Microcontrollers for Enabling Electric Transportation – M. Pathak (Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis), D. Sonawane (Washington University in St Louis), B. Suthar (Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis), D. Rife (Washington University in St Louis), and V. R. Subramanian (Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Kinetic Studies on State of the Art Solid Oxide Cells – J. C. Njodzefon, C. Graves, J. Hjelm, M. B. Mogensen (Department of Energy Conversion and Storage, Technical University of Denmark), and A. Weber (Karlsruhe Institute of Technology) The Effect of Coal Type and Thermal PreTreatment on Oxidative Activity in the Direct Carbon Fuel Cell – S. W. Donne, J. A. Allen, and M. Glenn (University of Newcastle) Material and Energy Balance of Methanol Feed 1 kW SOFC Power System – K. L. Hsueh (National United University, Industrial Technology Research Institute), F. P. Ting (Hephase Energy Co. Ltd., Industrial Technology Research Institute), Y. C. Chang, J. L. Huang (Industrial Technology Research Institute), Y. T. Cheng (Taiwan Power Company), and W. S. Chang (Industrial Technology Research Institute)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort A1 Poster Session – 18:00 – 20:00 •

43

44

45

46

47

Strategies to Optimize Performance of Lithium-Ion Supercapacitors: Screening of Cathode Configuration, Anode PreLithiation Loading and Separator Type – W. Cao (Department of Electrical and Computer Engineering, Florida A&M University-Florida State University), Y. Li, B. Fitch (FMC), J. Shih, and J. P. Zheng (Florida State University) Electrochemical Characterization of Attached Marine Biofilms for Application in MFC on Glassy Carbon/Carbon Nanotubes Scaffold – M. Galicia, J. M. de Leon, J. V. Rios (Autonomous University of Ciudad Juarez), and H. Castaneda (Chemical and Biomolecular Engineering) Step-Voltage Testing of Ni-Cd Batteries – M. S. Lipkin, S. M. Lipkin (South Russian State Polytechnical University), A. V. Sedov (Southern Scientific Center of Russian Academy of Sciences), and D. A. Onyshko (South Russian State technical university) Atomic Layer Deposited Platinum Electrocatalysts on Chemically Functionalized Graphene – J. An (Stanford University), G. Diankov (Stanford university), J. Park (Stanford University), P. Ercius (Lawrence Berkeley National Laboratory), D. Goldhaber-Gordon (Stanford university), and F. B. Prinz (Stanford University) Comparison of Oxidation Behaviors Between Ash Free Coal and Carbon in a Coin Type Direct Carbon Fuel Cell – C. G. Lee (Hanbat National University)

75

Tuesday, October 7

14:20


48

49

Tuesday, October 7

A2

50

51

Investigation of the Effect of the Flow Rate Control on Capacity Decay in Vanadium Redox Flow Battery – D. S. Ko, J. Y. Kim, T. M. Jung, J. H. Kong, and E. J. Choi (Hyundai Heavy Industries) Assessment of Applicability of Potentiometric Method to Determine Thermodynamic Properties of Electrochemical Processes in Lithium Sulphur Batteries – V. Kolosnitsyn, E. Kuzmina (Institution of the Russian Academy of Sciences Institute of Organic Chemistry of Ufa Scientific Centre of the Russian Academy of Sciences), O. Nadezhkina, and Y. Zimin (Bashkir State University) Effect of Lithium Salts on the Cycle Life of Lithium Sulphur Cells – V. Kolosnitsyn, E. Karaseva, E. Kuzmina, and L. Sheina (Institution of the Russian Academy of Sciences Institute of Organic Chemistry of Ufa Scientific Centre of the Russian Academy of Sciences) A Carbon-Free, Precious-Metal-Free, HighPerformance O2 Electrode for Regenerative Fuel Cells and Metal-Air Batteries – D. Ng, M. H. M. Tang (Stanford University), Y. Gorlin (TUM), T. Hatsukade, and T. F. Jaramillo (Stanford University)

08:30

Battery / Energy Technology Sunrise, 2nd Floor, Galactic Ballroom 1, Moon Palace Resort

69

70

09:00

71

09:20

72

09:40 10:00 73

76

10:40

11:00

11:20

11:40

Batteries Beyond Lithium Ion

Li-Air (O2) Battery III – 08:00 – 12:00 Co-Chairs: Yangchuan Xing and Vito Di Noto 08:00

10:20

Invited: Novel Cell Design and Inexpensive Electrocatalysts for Hybrid Lithium-Air Batteries – A. Manthiram and L. Li (The University of Texas at Austin) Invited: Li-Air Flow Batteries – J. P. Zheng, X. J. Chen (Florida State University), A. Shellikeri (Department of Electrical and Computer Engineering, Florida A&M University-Florida State University Tallahassee), Q. Wu (Florida State University), M. A. Hendrickson, and E. J. Plichta (Army Power Division, RDER-CCA) Highly Reversible Redox of OxygenPeroxide Couple on Carbon-Based Electrode in Aqueous Media – M. Matsui (Mie University, JST, PRESTO), A. Wada, O. Yamamoto, and N. Imanishi (Mie University) Modified Li-Ion Conducting Ceramic Membrane for Improved Performance in Hybrid Li-Air Battery – Y. Li (University of Missouri) and Y. Xing (Department of Chemical Engineering, The University of Missouri-Columbia) Break Electrochemical Performance of LithiumAir Cells with Conductive Polymer-Coated Lithium Anode – J. H. Kim and D. W. Kim (Department of Chemical Engineering, Hanyang University)

74

Reaction and Mass Transport Simulations By LBM in Electrolyte of Aqueous Lithium-Air Battery – K. Shibata, S. Uemura, S. Tsushima, and S. Hirai (Tokyo Institute of Technology) 75 Visualization of Precipitation Behavior in an Aqueous Lithium-Air Battery Electrode By a Soft X-Ray CT – T. Masuda, S. Uemura, S. Tsushima (Tokyo Institute of Technology), N. Imanishi (Mie University), and S. Hirai (Tokyo Institute of Technology) 76 Highly Active Nonplatinum Electrodes for Rechargeable Metal-Air Battery – I. Nitta, S. Nakanishi, H. Nishikoori, and H. Iba (Battery Research Division, Toyota Motor Corporation) 77 MnO2-Based Bifunctional Oxygen Catalyst for Rechargeable Metal/Air Batteries: The Effect of K+­­ Intercalation – P. Hosseini Benhangi (UBC), E. Gyenge (Department of Chemical and Biological Engineering, The University of British Columbia), and A. Alfantazi (Department of Materials Engineering, The University of British Columbia,) 78 The Promise of Aqueous Chemistry SemiSolid Flow Cells (SSFCs) – G. Davies and D. A. Steingart (MAE/ACEE Princeton University)

Li-S Battery – 14:00 – 17:50 Co-Chairs: Marina Yakovleva, Karim Zaghib, and Yangchuan Xing 14:00

79

14:30

80

14:50

81

15:10

82

Invited: Tethered Molecular Sorbents: Enabling Lithium-Sulfur Battery Cathodes – L. Ma and L. A. Archer (Cornell University) Understanding the Performance of Sulfur Electrode Based on Polymer Binders, Sulfur Types and Electrolytes – Z. Wang, Y. Chen, V. Battaglia, and G. Liu (Lawrence Berkeley National Laboratory) Preparation of Li2s-FeSx-C Composite Positive Electrode Materials and Their Electrochemical Properties with Pre-Cycling Treatment – T. Takeuchi, H. Kageyama (National Institute of Advanced Industrial Science and Technology (AIST)), K. Nakanishi (Kyoto University), C. Yogi, M. Ogawa, T. Ohta (Ritsumeikan University), A. Sakuda, H. Sakaebe, H. Kobayashi, K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST)), and Z. Ogumi (Kyoto University) Adsorbing/Absorbing Effect of Nanosized Metal Oxide and Zeolite Nanocrystals in Lithium Sulphur Batteries – V. Lapornik (National Institute of Chemistry, CONOT), D. Maucec, M. U. M. Patel (National Institute of Chemistry), N. N. Tusar (CO-NOT, National Institute of Chemistry), M. Gaberscek (National Institute of Chemistry, CO-NOT), and R. Dominko (National Institute of Chemistry)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


83

15:50

84

16:10

85

16:30

86

16:50

17:10

A3

87

88

Kinetics of Lithium-Polysulfide Flow Batteries – F. Fan, W. Woodford, M. Pan, Z. Li, K. C. Smith, W. C. Carter, and Y. M. Chiang (Massachusetts Institute of Technology) Characterization of Polymerized Sulfur Cathodes upon Cycling – J. L. Schaefer, J. Kim, V. P. Oleshko (National Institute of Standards and Technology), K. Char (Seoul National University), J. Pyun (University of Arizona), and C. L. Soles (National Institute of Standards and Technology) An Aqueous Electrolyte Rechargeable Li-Ion/Polysulfide Battery – R. DemirCakan (Gebze Institute of Technology), M. Morcrette (Laboratoire de Réactivité et de Chimie des Solides (UMR 7314), Université de Picardie Jules Verne), and J. M. Tarascon (ALISTOREEuropeanResearch Institute) Engineering of Flow Batteries Utilizing Mixed-Conducting Suspensions – K. C. Smith, V. E. Brunini, Y. Dong, F. Fan, W. Woodford, A. Helal, G. McKinley, W. C. Carter, and Y. M. Chiang (Massachusetts Institute of Technology) Enhanced Properties of Sulfur-Infiltrated Carbon Sphere with Conductive Polymer Coating for Lithium-Sulfur Batteries – D. K. Kim, S. Moon, Y. H. Jung, and J. H. Kim (Korea Advanced Institute of Science and Technology) Polysulfide Rejection Layer for High Performance Lithium Sulfur Batteries – H. T. Kim, J. K. Park, J. Song, H. Noh, L. H. Lee, and D. J. Lee (KAIST)

Electrochemical Capacitors: Fundamentals to Applications

Battery / Physical and Analytical Electrochemistry / Dielectric Science and Technology Sunrise, 2nd Floor, Star Ballroom 1, Moon Palace Resort

Invited Young Investigator Session – 08:10 – 09:30 Co-Chairs: Scott W. Donne and Frederic Favier 08:10

171

Hybrids of 2D-Nanomaterials for Supercapacitor/Battery Applications – B. Mendoza Sanchez (Chemistry School, CRANN, Trinity College Dublin), J. Coelho (, CRANN, Trinity College Dublin), S. O’Brien (Physics school, CRANN,Trinity College Dublin), H. Pettersson (Physics School, Trinity College Dublin), and V. Nicolosi (Chemistry school, Physics School, CRANN & AMBER,Trinity College Dublin)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

08:30

172

08:50

173

09:10

174

3D Micro-Supercapacitor Based on MnO2 Electrodes on Silicon Substrate – E. Eustache (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), C. Douard (Institut des Matériaux Jean Rouxel, CNRS UMR 6502, 2 rue de la Houssinière, BP 32229, 44322 Nantes Cedex 3, France), P. Tilmant (Institut d’Electronique, de Microélectronique et de Nanotechnologie, CNRS UMR 8520 – Université de Lille 1 Sciences et Technologies, BP 60069, 59652 Villeneuve d’Ascq cedex, France), D. Yarekha (IEMN), L. Morgenroth (Institut d’Electronique, de Microélectronique et de Nanotechnologie, CNRS UMR 8520 – Université de Lille 1 Sciences et Technologies, BP 60069, 59652 Villeneuve d’Ascq cedex, France), C. Lethien (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), and T. Brousse (Institut des Matériaux Jean Rouxel, CNRS) Supercapacitors Based on Mixture of Room Temperature Ionic Liquids Containing Specifically Adsorbed Iodide Anions – T. Thomberg, T. Tooming, K. Tõnurist, L. Siinor, A. Jänes, and E. Lust (Institute of Chemistry, University of Tartu) Ultrafast Nano-Crystalline and HighlyDispersed-TiO2 (B) /CNF Composites for Negative Electrode of ‘Nanohybrid Capacitor’ – E. Iwama, M. Abe, T. Furuhashi, Y. Abe, J. Miyamoto, W. Naoi, and K. Naoi (Tokyo University of Agriculture and Technology)

Modeling and Oxide I – 10:00 – 12:00 Co-Chairs: Frederic Favier and Scott W. Donne 10:00

175

10:40

176

11:00

177

Invited: Continuum Modeling of Interfacial and Transport Phenomena in Electrochemical Capacitors – L. Pilon, A. d’Entremont, and H. L. Girard (UCLA) Examining the Charge Storage Mechanisms of Materials Used in Electrochemical Capacitors Using Electrochemical Impedance Spectroscopy – S. W. Donne and M. F. Dupont (University of Newcastle) Electrodeposited Manganese Oxide for Electrochemical Capacitor: Effect of Substrates on the Capacitive Behavior of Electrodes – P. M. L. Le (Applied Physical Laboratory, University of Science, Vietnam National University, Department of Physical Chemistry, University of Science, Vietnam National University), T. A. Ha (Applied Physical Laboratory, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam), T. A. N. Nguyen (Department of Thinfilm Materials, University of Science, VNUHCM), and M. V. Tran (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam, Applied Physical Chemistry Laboratory, University of Science, Viet Nam National University – Ho Chi Minh City) 77

Tuesday, October 7

15:30


11:20

11:40

178 MnO2 Inks for the Fabrication of Supercapacitor Electrodes – L. Coustan, S. Ould Amara, and F. 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) 179 Cycle Stability of Manganese Dioxide Polymorph Supercapacitors at Elevated Temperature – N. L. Wu, H. A. Pan (Department of Chemical Engineering, National Taiwan University), O. Ghodbane (Institut National de Recherche et d’Analyse Physico-chimique, Laboratoire des Matériaux Utiles, Tunis, Tunisia), and F. Favier (Institut Charles Gerhardt Montpellier UMR 5235 CNRS,Université Montpellier 2, Montpellier, France)

Tuesday, October 7

Modeling and Oxide II – 14:00 – 16:00 Co-Chairs: Daniel Bélanger and P. Schmuki 14:00

14:20

14:40

180

181

182

15:00

183

15:20

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Effect of the Components of the Electrode on the Pore Texture and Electrochemical Performance of Manganese DioxideBased Electrode for Application in Hybrid Electrochemical Capacitor 1 – A. GambouBosca (Département de Chimie, Université du Québec à Montréal) and D. Bélanger (Département Chimie, Université du Québec à Montréal) Nanostructured Multilayer Manganese Dioxide/Nickel/Copper Sulfite (MnO2/Ni/ CuS) Composite Films for Electrochemical Applications – S. C. Pang, A. N. S. Awangku Metosen, and S. F. Chin (Universiti Malaysia Sarawak) Synthesis of Ni-Co Oxides/Sulfides Nanowire Arrays for Ultrahigh Electrochemical Capacitors – P. Xiao, Y. H. Li (College of Physics, Chongqing University), Y. Zhang (College of Chemistry and Chemical Engineering , Chongqing University), and Y. Yang (College of Chemistry and Chemical Engineering, Chongqing University) Formation of Aligned Nanoporous/ Nanotubular Layers of Vanadium OxyNitrides – R. Kirchgeorg, Y. Yang, R. Hahn, and P. Schmuki (University of Erlangen-Nuremberg (FAU)) Giant Magnetocapacitance in Magnetic Polypyrrole/Magnetite Nanocomposites under Low Magnetic Field – Z. Guo, H. Wei, H. Gu, J. Guo, X. Yan (Integrated Composites Laboratory (ICL), Dan F. Smith Department of Chemical Engineering, Lamar University, Beaumont, TX 77710 USA), and S. Wei (Department of Chemistry and Biochemistry, Lamar University, Beaumont, TX 77710 USA)

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One-Step Synthesis of Carbon Supported Nb2O5 Particles for Electrochemical Capacitor Applications by Oxidation of Layered Nb2C – M. Beidaghi (Drexel Nanomaterials institute, Department of Materials Science and Engineerring, Drexel University), C. Zhang, M. Lukatskaya (Drexel Nanomaterials Institute, Department of Materials Science and Engineerring, Drexel University), R. Maloney (2. Department of Materials Science and Engineering, University of California, Los Angeles, Los Angeles, CA, USA), B. Dunn (University of California Los Angeles), and Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University)

Discussions – 16:20 – 17:20 Co-Chairs: Daniel Bélanger, Thierry Brousse, Prashant N. Kumta, Jeffrey W. Long, and Patrice Simon 16:20 Panel Discussion Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort A3 Electrochemical Capacitors Poster Session – 18:00 – 20:00 •

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Effect of Electrode Density on Electrochemical Performances of CarbonElectrode for Hybrid Capacitor – I. J. Kim, S. Yun, I. S. Choi, S. Yang, and J. W. Park (Korea Electrotechnology Research Institute (KERI), Battery Research Center) Development of High Energy Density Hybrid Capacitor Using Silicon Anode – M. Saito, K. Takahashi (Tokyo University of Agriculture and Technology), and S. Seki (Central Research Institute of Electric Power Industry) Development of Li2FeSiO4/Activated Carbon Composited Cathodes for Li-Ion Capacitors – C. L. Li, C. H. Chao, Y. H. Lee, Y. W. Lin, J. Y. Hwang, L. D. Tsai, and J. Fang (Industrial Technology Research Institute) Electrochemical Performances of Carbon Electrode Materials Depending on Electrode Density for Hybrid Capacitors – S. Yang, I. J. Kim, J. W. Park, and S. Yun (Korea Electrotechnology Research Institute (KERI), Battery Research Center) Electrochemical Characteristics of Cyclic Structure Additives in EDLCs – S. G. Park (Chungbuk National University), H. S. Yi (Dep. Engineering Chemistry, Chungbuk National University), J. K. Choi (Dep. Engineering Chemistry, Chungbuk national university), Y. J. Yuk, and H. J. Kim (PureEchem co. ltd) Graphitic Layer Coated Porous Carbon for Energy Storage Applications – H. Yoon, S. H. Yeon, J. J. Yoo, and A. Wook (Korea Institute of Energy Research) Supercapacitors Based on Propylene Carbonate with Addition of Sulfur Containing Organic Solvents – J. Eskusson, A. Jänes, T. Thomberg, and E. Lust (Institute of Chemistry, University of Tartu) Meeting Program l October 5-9, 2014 l Cancun, Mexico


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Double Templates Synthesis of Mesoporous Materials – T. Xue and J. M. Lee (Nanyang Technological University)

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Electrochemical Interfaces in Energy Storage Systems Battery / Energy Technology / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Star Ballroom 4, Moon Palace Resort

Electrochemical Interfaces in Energy Storage Systems III – 08:10 – 11:50 Co-Chair: Kristina Edstrom 230 Invited: In Situ Analytical Electron Microscopy for Probing Electrochemistry at Interfaces – S. Meng (University of California San Diego) 08:50 231 Interface Engineering of Lithium Metal Anodes Using Atomic Layer Deposition – A. C. Kozen, M. A. Schroeder, A. J. Pearse (Institute for Systems Research, University of Maryland), M. Noked (University of Maryland), C. F. Lin, and G. W. Rubloff (Institute for Systems Research, University of Maryland) 09:10 232 State-of-Charge Mapping with Spatially Resolved XPS in Patterned Thin Film Battery Electrodes – A. J. Pearse (Institute for Systems Research), E. Gillette, and G. W. Rubloff (University of Maryland) 09:30 Break 09:50 233 Bis(fluorosulfonyl)Amide Anion Transfer at Graphite Electrode – T. Abe (Graduate School of Engineering, Kyoto University), K. Miyazaki (JST PREST), and T. Fukutsuka (Graduate School of Engineering, Kyoto University) 10:10 234 In-Situ Observation of Li-O2 Electrochemical Reactions Using Electrochemical AFM – H. R. Byon (Byon Initiative Research Unit, RIKEN, Japan), R. Wen (Byon Initiative Research Unit, RIKEN, Japan, Institute of Experimental and Applied Physics, University of Kiel, Germany), and M. Hong (Department of Chemistry, POSTECH, South Korea, Byon Initiative Research Unit, RIKEN, Japan) 10:30 235 XPS Study of the Porous Carbonaceous Positive Electrode Interface in Li-O2 Batteries upon Cycling – A. Guéguen, E. J. Berg, and P. Novák (Paul Scherrer Institute, Electrochemistry Laboratory) 10:50 236 Mesoscopic Li Distribution Analysis on an All Solid Battery – T. Saito (Battery Research Div., Toyota Motor Corp.), A. Yamazaki (Research Facility Center for Science and Technology, Univ. of Tsukuba), T. Kamiya (Takasaki Advanced Radiation Research Institute, Japan Atomic Energy Agency), K. Fujita, K. Mima, Y. Kato (The Graduate School for the Creation of New Photonics Industries), and H. Iba (Battery Research Division, Toyota Motor Corporation) 08:10

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Invited: Surface Modification of Positive Electrode and its Effect to Bulk – H. Sakaebe, N. Taguchi, T. Akita, K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST)), and Z. Ogumi (Office of Society-Academia Collaboration for Innovation, Kyoto University)

Electrochemical Interfaces in Energy Storage Systems IV – 14:00 – 17:20 Co-Chairs: Robert Kostecki and Jean St-Pierre 14:00

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Invited: Interfacial Lithiation of Layered Heterostructures Measured by Real-Time X-ray Reflectivity – T. Fister, P. Fenter, B. Shi (Argonne National Laboratory), J. Esbenshade, A. Gewirth (University of Illinois, Urbana-Champaign), X. Chen, G. Evmenenko, X. Hu, and M. Bezyk (Northwestern University) Invited: Ab Initio Molecular Dynamics Study of Electrochemical Reaction at EC-Li2O2 Interfaces – Y. Ando (National Institute of Advanced Industrial Science and Technology), M. Chiba, T. Koido (Fundamental Technology Research Center, Research Division 1, Honda R&D Co., Ltd.), T. Ikeshoji, and M. Otani (National Institute of Advanced Industrial Science and Technology) Current State of Understanding of the Solid-Electrolyte Interphase (SEI) in Lithium-Ion Cells and Its Relationship to Formation Cycling – D. L. Wood III, J. Li, C. Daniel, D. Mohanty, and S. C. Nagpure (Oak Ridge National Laboratory) Electrochemical Performance and Electrodes Surface Analysis of HeNCM¦LTO Cells – Ionic Liquid vs.Carbonate Based Electrolytes – M. El Kazzi (Paul Scherrer Institut), E. J. Berg (Paul Scherrer Institute, Electrochemistry Laboratory), C. Villevieille (Electrochemistry Laboratory Paul Scherrer Institute), and P. Novák (Paul Scherrer Institute, Electrochemistry Laboratory) Investigating Surface and Interface Phenomena in LiFeBO3 Electrodes Using Photoelectron Spectroscopy Depth Profiling – J. Maibach (Uppsala University), R. Younesi (Uppsala University - Department of Chemsitry - Ångström, Danmarks Tekniske Universitet - DTU), N. Schwarzburger (Helmholtz Institute Ulm (HIU)), M. Gorgoi (Helmholtz-Zentrum Berlin für Materialien und Energie GmbH), M. Fichtner (Helmholtz Institute Ulm (HIU), Germany), and K. Edström (Department of Chemistry - Ångström Laboratory, Uppsala University) Effect of Polarization Pretreatment of Glassy Carbon on the Kinetics of the Redox Reactions in Vanadium Redox Flow Batteries – A. Bourke, N. Quill, R. P. Lynch, and D. N. Buckley (Department of Physics & Energy, and Materials & Surface Science Institute, University of Limerick, Ireland) 79

Tuesday, October 7


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A5

Effect of Different Kind of Binder in a MWCNT/Sulfur Composite Cathodes for Li/S Batteries – R. Hernandez-Maya and H. Castaneda (Chemical and Biomolecular Engineering) Effect of Asymmetric Performance of Ionic Liquid Electrolyte Ions on Maximum Operation Potential of Symmetric Supercapacitors – K. L. Van Aken (Drexel University), M. Beidaghi (Drexel Nanomaterials institute, Department of Materials Science and Engineerring, Drexel University), and Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University)

10:00

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Lithium-Ion Batteries

Battery Sunrise, 2nd Floor, Galactic Ballroom 2, Moon Palace Resort

Progress in Anodes I – 08:10 – 12:00 Co-Chairs: Nae-Lih Wu and Mark N. Obrovac

Tuesday, October 7

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Improving Performance of Li-Ion Battery Anodes with Polymeric Coating – N. L. Wu, F. S. Li (Department of Chemical Engineering, National Taiwan University), Y. S. Wu (Department of Mechanical Engineering, China University of Science and Technology), and J. Chou (Long Time Technology Corp.) Fabrication of Well-Aligned, MultiLayered Cu/Si Nanorods Array and Its Use As Anode for Lithium Ion Batteries – D. B. Polat and O. Keles (Istanbul Technical University) Formulation of Industry-Relevant Silicon Negative Composite Electrodes for Lithium Ion-Cells – B. P. N. Nguyen, M. Cerbelaud, J. Gaubicher (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), W. Porcher, N. Mariage (CEA/ LITEN, Grenoble, France), and B. Lestriez (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France) In-Situ Polymerization of an Internal, Conductive, and Conformal Polymer Coating for Mesoporous Si – T. A. Yersak, D. Estrada, J. W. Shin (University of California - San Diego), M. J. Sailor (University of California at San Diego), and S. Meng (Department of NanoEngineering, University of California San Diego) Break

Compression of Si Alloy Electrodes to Increase Li-Ion Battery Energy Density – Z. Du (Dept. of Physics and Atmospheric Science, Dalhousie University), R. Dunlap (Dept. of Physics and Atmospheric Science, Dalhousie University, Halifax, N.S. B3H 4R2 Canada, Institute for Research in Materials, Dalhousie University, Halifax, N.S. B3H 4R2 Canada), and M. N. Obrovac (Dept. of Chemistry, Dalhousie University) Silicon Nanoparticles - Polymer - Carbon Composite As Anode for Lithium Ion Battery – L. Zhong, J. Hernandez, and L. Mangolini (University of California, Riverside) Evaluating Si-Based Materials for Commercially Relevant Li-Ion Batteries – V. L. Chevrier, L. Liu, D. B. Le (3M Electronics Markets Materials Division), L. J. Krause, L. Jensen (3M Corporate Research Materials Laboratory), E. Figgemeier (3M Electronics Markets Materials Division), and K. W. Eberman (3M Company) Atomistic Mechanisms of Phase Boundary Evolution during Initial Lithiation of Crystalline Silicon – S. P. Kim (Samsung SDI R&D Center), D. Datta (Brown University), and V. B. Shenoy (Depts of Mat. Sci. and Eng. & Mech. Eng. and App. Mech., University of Pennsylvania) Ex-Situ TEM Analysis on Electrochemical Reactions of Tin Based Anode Materials in Lithium Ion Batteries – S. Y. Lee, K. Y. Park, K. Kang, and M. Kim (Seoul National University) Synthesis of SnO2/Transition Metal Oxide Hollow Nanospheres and Their Electrochemical Properties As Anode for Li-Ion Battery – J. Choi (Seoul National University Department of Materials Science and Engineering), W. S. Kim, and S. H. Hong (Department of Materials Science and Engineering, Seoul National University)

Progress in Cathodes I – 13:30 – 18:10 Co-Chairs: Kristin Aslaug Persson and Li Lu 13:30

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Enabling the Next Generation of High Energy Lithium-Ion Battery Cathodes – J. R. Croy, B. R. Long, J. S. Park (Argonne National Laboratory), K. G. Gallagher (Joint Center for Energy Storage Research), M. Balasubramanian (Advanced Photon Source, Argonne National Laboratory), D. Miller (Argonne National Laboratory, Electron Microscopy Center), and M. M. Thackeray (Argonne National Laboratory) Structural and Chemical Transformations in Li2MnO3 – K. A. Persson and E. Lee (Lawrence Berkeley National Laboratory)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


281

The Effect of Al and Fe Substitution on the Structure and the Electrochemical Properties of NMC Type Positive Electrode Materials for Lithium Ion Batteries – W. El Mofid (Technische Universitaet Ilmenau), S. Ivanov, and A. Bund (Technische Universität Ilmenau, Department of Electrochemistry and Electroplating) 14:30 282 Thermal and Structural Behavior of Surface-Modified Li[Ni0.7Co0.2Mn0.1]O2 As a Positive Electrode for Rechargeable Lithium Batteries – C. H. Jo and S. T. Myung (Sejong University) 14:50 283 NH4F Surface Modification of the LiRich Layered Li1.2Mn0.54Ni0.13Co0.13O2 Cathode Material with Improved Rate Performance and Cycling Stability – L. Li (National University of Singapore), Y. L. Zhang (National Taiwan University), H. Xia (Nanjing University of Science and Technology), B. H. Song (University of Oxford), J. R. Yang (National Taiwan University), K. S. Lee, and L. Lu (National University of Singapore) 15:10 284 A High Rate Lithium-Rich Layered MNC Cathode with Low Capacity Fade for LiIon Batteries – M. N. Ates, S. Mukerjee, and K. M. Abraham (Northeastern University) 15:30 Break 15:50 285 Characteristics and Performance of LiMn0.3Co0.3Ni0.3Ti0.1O2 Cathode Materials – K. Elong (Universiti Teknologi MARA (UiTM)), N. Kamarulzaman, and R. Rusdi (Universiti Teknologi MARA, Shah Alam, Malaysia) 16:10 286 In-Depth Investigation on Electrochemical Behaviors of Next Generation Cathode Materials for Lithium-Ion Batteries – Y. J. Kim, Z. Shi, and S. Sheargold (BASF Corporation) 16:30 287 Reversible Nature of Impedance on LiCoO2/Graphite and Li[Ni0.42Mn0.42Co0.16] O2/Graphite Pouch Cells Cycled to High Voltages – D. Y. Wang (Dalhousie University - Department of Chemistry), G. Y. Kim (Department of Physics and Atmospheric Science, Dalhousie University), and J. Dahn (Dalhousie University) 16:50 288 Imaging and Spectroscopy of Pristine and Cycled Li2MnO3 – P. J. Phillips (University of Illinois at Chicago), H. Iddir, D. P. Abraham (Argonne National Laboratory), and R. F. Klie (University of Illinois at Chicago) 17:10 289 Effect of Metal Composition on the Electrochemical Properties of LithiumRich Positive Electrode Materials – R. Shunmugasundaram (Dalhousie University) and J. Dahn (Dalhousie University - Dept. of Physics and Atmospheric Science)

17:30

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A6

Nano-Architectures for Next-Generation Energy Storage Technologies Battery / Energy Technology Sunrise, 2nd Floor, Jupiter 3 & 5, Moon Palace Resort

Beyond Li-ion Batteries (Li-S, Li-air, Mg-ion, Flow Batteries etc.) – 14:00 – 17:40 Co-Chairs: Vibha Kalra and Kristina Edstrom 14:00

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15:40 Meeting Program l October 5-9, 2014 l Cancun, Mexico

On the Oxidation State of Manganese in Li-Ion Cells: A New Perspective – I. C. Halalay (General Motors Global Research & Development), J. M. Ziegelbauer (General Motors Global Powertrain Engineering), and Z. Li (Optimal CAE) Influence of Local Structure on the Structural and Electronic Mechanisms Occurring in Li-Rich Layered Oxides Li1+XM1-XO2 during Cycling – A. Pradon (Institut des Matériaux Jean Rouxel - UMR 6502, 44300 nantes, France), C. La fontaine (Synchrotron SOLEIL, Saint Aubin 91190, France, Institut des Matériaux Jean Rouxel - UMR 6502, 44300 nantes, France), S. Belin, E. Elkaïm (Synchrotron SOLEIL, Saint Aubin 91190, France), P. E. Petit, L. Lajaunie, P. Moreau (Institut des Matériaux Jean Rouxel - UMR 6502, 44300 nantes, France), R. Dedryvere (University of Pau, IPREM-ECP, 64000 Pau, France), E. Dumont, C. Tessier (Saft), G. Ouvrard, and M. T. Caldes (Institut des Matériaux Jean Rouxel - UMR 6502, 44300 nantes, France)

Invited Talk: Development of Nonaqueous Redox Flow Battery Technologies – W. Wang, M. Vijayakumar, X. Wei, L. Cosimbescu (Pacific Northwest National Laboratory), W. Xu (Energy and Environment Directorate, Pacific Northwest National Laboratory), T. Liu, and V. Sprenkle (Pacific Northwest National Laboratory) Nanostructured V2O5 Cathode for Rechargeable Mg-Ion Batteries – S. Tepavcevic (Material Science Division, Argonne National Laboratory), Y. Liu (Center for Nanoscale Materials, Argonne National Laboratory), B. Lai (Advanced Photone Source, Argonne National Laboratory), C. S. Johnson (Chemical Sciences and Engineering Division, Argonne National Laboratory), and T. Rajh (Center for Nanoscale Materials, Argonne National Laboratory) Hierarchically Structured N-Doped Carbon/Sulfur Composite Electrodes with a High Sulfur Loading for Application in Li/S Batteries – T. Brezesinski, A. Schneider, H. Sommer, and J. Janek (Institute of Nanotechnology, Battery and Electrochemistry Laboratory (BELLA), Karlsruhe Institute of Technology) Ordered Distribution of S in a Multi Walled Carbon Nanotubes/Sulfur Composite Cathodes for Li/S Batteries – R. Hernandez-Maya and H. Castaneda (Chemical and Biomolecular Engineering) Break 81

Tuesday, October 7

14:10


Tuesday, October 7

16:00

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Invited Talk: Carbon Substrates Tuning and Improvement for Rechargeable Lithium-Oxygen Batteries – J. Yin (Cornell University), B. Patel (AZ Electronic Materials Corp.), S. Chakrapani (AZ Electronic Materials Corp), S. Lee (AZ Electronic Materials Corp.), and Y. L. Joo (School of Chemical Biomolecular Engineering, Cornell Univeristy) Catalytic Polymer Membranes for Improved Oxygen Evolution Reaction in Lithium-Oxygen Batteries – W. H. Ryu, F. S. Gittleson, and A. D. Taylor (Department of Chemical & Environmental Engineering, Yale University) Applications of Dendrimer-Based NanoArchitectures in Li-Air and Li-Sulfur Batteries – P. Bhattacharya (Energy and Environment Directorate, Pacific Northwest National Laboratory), L. Cosimbescu (Pacific Northwest National Laboratory), E. Nasybulin (Energy and Environment Directorate, Pacific Northwest National Laboratory), D. Lu, J. Zheng (Pacific Northwest National Laboratory), W. Xu, and J. G. Zhang (Energy and Environment Directorate, Pacific Northwest National Laboratory) Binder-Free, Vertically Aligned Carbon Nanotubes on Nickel Foam as a Freestanding 3D Li-O2 Battery Cathode – M. A. Schroeder (Institute for Systems Research, University of Maryland), M. Noked, S. B. Lee (University of Maryland), and G. W. Rubloff (Institute for Systems Research)

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Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Nano-architectures for Next-generation Energy Storage Technologies Poster Session – 18:00 – 20:00 Co-Chairs: Kristina Edstrom and Vibha Kalra •

82

499

Nanocomposites of TiO2 NanoparticlesGraphene with High-Rate Performance for Li-Ion Battery – X. Sun (Department of Electrical and Computer Engineering, Univeristy of Waterloo), E. Hu (Department of Electrical and Computer Engineering, University of Waterloo), Y. Zhang (Institute of Microstructure and Property of Advanced Materials, Beijing University of Technology), M. He (Institute of Physics, Chinese Academy of Sciences), L. Gu (Institute of Physics, Chinese Academy of Sciences), and B. Cui (Department of Electrical and Computer Engineering, University of Waterloo) 500 Sulfur-TiO2 Yolk-Shell Nanoarchitecture for Long-Cycle Lithium-Sulfur Batteries – Z. W. Seh, W. Li, and Y. Cui (Stanford University)

Nanocomposite of Iron OxideReduced Graphene Oxide Applied as High-Performance Anode Materials for Lithium Ion Batteries – E. Hu, X. Sun (Department of Electrical and Computer Engineering, Univeristy of Waterloo), and Y. Zhang (Institute of Microstructure and Property of Advanced Materials, Beijing University of Technology,) In-Situ Growth of LiMn2O4 Nanocrystals Embedded in Three-Dimension SingleWalled Carbon Nanotube Macrofilms as Stretchable Composite Cathode for Lithium-Ion Batteries – Z. Cao and B. Wei (University of Delaware) 3D-Nanostructures-Path to High Capacity Lithium Batteries – J. Prochazka (HE3DA s.r.o.) Modulating Effect of Core Composition in AuxCuy@Pt/C Core-Shell Nanoparticles for the Methanol Oxidation Reaction – G. Vázquez-Huerta, J. Aldana-González (Universidad Autónoma Metropolitana Azcapotzalco), M. G. Montes de Oca (Universidad Autónoma MetropolitanaAzcapotzalco), E. Garfias-García, M. A. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), and M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco) Electrocatalytic Activity of Copper– Palladium Nanopaticles for Formic Acid Oxidation – M. G. Montes de OcaYemha, M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco), M. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), T. D. J. Licona-Sánchez (Universidad Autónoma Metropolitana-Azcapotzalco), M. TorresRodríguez, V. A. Medina-Rojano, and E. Gónzalez Martínez (Universidad Autónoma Metropolitana, Azcapotzalco) Electrochemical Properties of GoldPalladium Core-Shell Nanostructures for Ethanol Oxidation – M. Palomar-Pardavé (Universidad Autónoma MetropolitanaAzcapotzalco), M. A. Romero-Romo (Universidad Autónoma Metropolitana, Campus Azcapotzalco), M. G. Montes de Oca-Yemha, T. D. J. Licona-Sánchez (Universidad Autónoma MetropolitanaAzcapotzalco), M. Torres-Rodríguez (Universidad Autónoma Metropolitana, Azcapotzalco), J. Aldana-González (Universidad Autónoma Metropolitana Azcapotzalco), and R. D. Herrera-Toribio (Universidad Autónoma Metropolitana, Azcapotzalco) Pseudocapacitance of Copper-Nickel Nanowires for Transparent Electrochemical Capacitor Electrodes – I. A. Cordova (Duke University), I. E. Stewart (Duke University - Department of Chemistry), J. O. Thostenson (Duke University - Department of Electrical & Computer Engineering), J. J. Amsden, C. B. Parker (Duke University), J. Liu, B. J. Wiley (Duke University Department of Chemistry), and J. T. Glass (Duke University) Meeting Program l October 5-9, 2014 l Cancun, Mexico


A7

508

N/B Co-Doping Ultrathin NanotubeConstructed Urchin Shaped Titania Enabling Superior Rate Capability for Advanced Lithium Ion Batteries – C. Chen, X. Hu, P. Hu, and Y. Huang (School of Materials Science and Engineering, Huazhong University of Science and Technology)

Non-aqueous Electrolytes III – 14:00 – 16:40 Co-Chairs: Daniel Lemordant and Brett L. Lucht 14:00

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Nonaqueous Electrolytes

Battery Sunrise, 2nd Floor, Star Ballroom 7, Moon Palace Resort

Non-aqueous Electrolytes I – 08:10 – 09:30 Co-Chairs: Kang Xu and Brett L. Lucht 08:10

509

08:50

510

Investigation of the Performance Improvement of Silicon Electrodes Cycled with Electrolyte Containing FEC or VC – B. L. Lucht and C. C. Nguyen (University of Rhode Island) Electrolytes and Interphases for Beyond Li-Ion Chemistries – K. Xu (U.S. Army Research Laboratory)

Non-aqueous Electrolytes II – 10:00 – 12:00 Co-Chairs: Wesley Henderson and Bugga V. Ratnakumar 10:00

511

10:40

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Optimizing Electrolyte Formulations for Better Lithium-Ion Batteries – Y. AbuLebdeh (National Research Council Of Canada) Digging into Electrolyte Interactions— Challenging the Conventional Wisdom – W. Henderson (Pacific Northwest National Laboratory (PNNL)), D. M. Seo, S. D. Han (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), J. L. Allen (U.S. Army Research Laboratory), S. H. Yun (Gwangju Institute of Science and Technology (GIST)), J. S. Daubert (Ionic Liquids & Electrolytes for Energy Technologies (ILEET) Laboratory, Department of Chemical & Biomolecular Engineering, North Carolina State University), and O. Borodin (U.S. Army Research Laboratory) Lithium-Rich NMC Cathodes and Si-C Anodes in Low Flammability Li-Ion Battery Electrolytes – B. V. Ratnakumar (Calfornia Institute of Technology), M. C. Smart (California Institute of Technology), C. Krause, C. Seu (California Institute of Technology, Jet Propulsion Laboratory), J. Wu, and T. Miller (NASA Glenn Research Center)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Effect of Adsorption or Electro-Adsorption of Electrolyte Components at Interfaces on the Electrochemical Performances of Li-Ion Batteries and Supercapacitors – D. Lemordant (PCM2E (EA6299) Université François Rabelais de Tours), W. Zhang, F. Ghamouss (PCM2E E.A. 6299), M. Dahbi (Tokyo University of Science, ESICBKyoto University), E. Raymondo-Pinero (CRMD, University of Orléans, France), and M. Anouti (PCM2E (EA6299) Université François Rabelais de Tours) EC-Free Superconcentrated Electrolytes for Advanced Lithium-Ion Batteries – Y. Yamada (The University of Tokyo, Kyoto University), K. Sodeyama (Kyoto University & National Institute for Materials Science (NIMS)), J. Wang (Department of Chemical System Engineering, The University of Tokyo), K. Furukawa (The University of Tokyo), Y. Tateyama (National Institute for Materials Science (NIMS) & Japan Science and Technology Agency (JST) & Kyoto University), and A. Yamada (The University of Tokyo, ESICB, Kyoto University) 3M HQ-115 (LiTFSI) Electrolyte Additive Dramatically Improves Battery Performance in Electrolytes Containing Trace Amounts of Water – A. Xiao, K. W. Eberman, B. Lamanna (3M Company), G. Jain, H. Ye (Medtronic Inc), J. C. Burns, N. N. Sinha, and J. Dahn (Dalhousie University - Dept. of Physics and Atmospheric Science) Study on Fluorine Content in Phosphates Used as Flame Retardant Additives / Co-Solvents in Electrolytes for LithiumIon Batteries – P. Murmann (University of Münster MEET), N. Kalinovich, M. Shevchuk (Jacobs University Bremen), I. Cekic-Laskovic (MEET Battery Research Center/ Institute of Physical Chemistry, University of Münster, Corrensstrasse 46, 48149 Münster, Germany), M. Winter (MEET Battery Research Center, University of Muenster), and G. V. Roeschenthaler (Jacobs University Bremen) A New Family of Anion-Binding-Agent (ABA) Based Stable Salts for Li and LiIon Batteries – G. Nagasubramanian, C. J. Orendorff, and K. R. Fenton (Sandia National Laboratories) Sacrificial Anion Reduction Mechanism for Electrochemical Stability Improvement in Highly Concentrated Li-Salt Electrolyte – K. Sodeyama (Kyoto University & National Institute for Materials Science (NIMS)), Y. Yamada, A. Yamada (The University of Tokyo), and Y. Tateyama (National Institute for Materials Science (NIMS) & Japan Science and Technology Agency (JST) & Kyoto University)

83

Tuesday, October 7


16:20

520

Charge Transport Regulating Films on Mg Anodes and Implications for Mg-Battery Electrolyte Evaluation – N. T. Hahn and K. R. Zavadil (Sandia National Laboratories)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Non-aqueous Electrolytes IV Poster Session – 18:00 – 20:00 Co-Chair: Brett L. Lucht •

Tuesday, October 7

521

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526

Development of Organic-Inorganic Hybrid Electrolytes Based on Ionic Liquid-Nanoparticles-Composite – Y. Sun, T. Matsuo, Y. Gambe, and I. Honma (Institute of Multidisciplinary Research for Advanced Materials, Tohoku University) Sulfone-Based Electrolyte Solutions for Rechargeable Magnesium Batteries Using 2,5-Dimethoxy-1,4-Benzoquinone Positive Electrode – H. Senoh, H. Sakaebe, H. Sano, M. Yao (National Institute of Advanced Industrial Science and Technology (AIST), JST-CREST), K. Kuratani, N. Takeichi, and T. Kiyobayashi (National Institute of Advanced Industrial Science and Technology (AIST)) Slice-Selective NMR Diffusion Measurements - a Tool for the Characterization of Ion Transport Properties in Lithium Ion Battery Electrolytes – I. C. Halalay (General Motors Global Research & Development), S. Krachkovskiy, A. D. Pauric, and G. R. Goward (McMaster University) Experimental Study on Performance Improvement of Laminar Flow-Based Fuel Cell – E. Ejiri and S. Kubota (Chiba Institute of Technology) Physicochemical and Electrochemical Properties of the Organic Solvent Electrolyte with Lithium Bis(fluorosulfonyl)Imide (LiFSI) As Lithium-Ion Conducting Salt for LithiumIon Batteries – T. Takekawa (Nissan Motor Co., Ltd.), K. Kamiguchi, H. Imai (NISSAN ARC Ltd.), and M. Hatano (Nissan Motor Co.,ltd.) Effect of Ionic Liquid Anion Type in the Performance of Solid Polymer Electrolytes Based on Poly(vinylidene fluoridetrifluoroethylene) – C. M. Costa (Centro/ Departamento de Física, Universidade do Minho, 4710-057 Braga, Portugal), R. Leones (University of Minho), A. V. Machado (IPC - Institute for Polymers and Composites, Universidade do Minho Campus de Azurém, 4800-058 Guimarães), J. M. S. S. Esperança (Instituto de Tecnologia Química e Biológica, Universidade Nova de Lisboa), M. M. Silva (University of Minho), and S. Lanceros-Méndez (Centro/Departamento de Física, Universidade do Minho, 4710057 Braga, Portugal)

A8

Energy Technology / Physical and Analytical Electrochemistry / Sensor Sunrise, 2nd Floor, Mars 1-4, Moon Palace Resort

Invited Presentations on Plasmonic Photocatalysts and Photoelectrochemical Cells II – 08:00 – 12:00 Co-Chairs: Scott Kevin Cushing and Nick Wu 08:00

563

08:20

564

09:00

565

09:40 10:00 566

10:40

567

11:20

568

Plasmonic Solar Fuels Based on Nanostructured Oxide Photocatalysts – D. H. KIM, Y. H. Jang, S. T. Kochuveedu, and L. N. Quan (Ewha Womans University) Light Management in Extremely Thin Photoelectrode Architectures – C. Doiron, S. M. Bahauddin, H. Robatjazi, and I. Thomann (Rice University) Efficient Plasmon-Induced Hot Electron Transfer and Photochemistry in Semiconductor-Au Nanorod Nanoheterostructures – T. Lian (Emory University) Break Generation and Injection of Hot Plasmonic Electrons from Optically-Excited Metal Nanocrystals for Photocatalysis and Solar Energy Applications – A. Govorov, H. Zhang (Ohio University), and I. Gun’ko (University of Dublin, Trinity College) Plasmon-Induced Water Splitting System – H. Misawa (Research Institute for Electronic Science, Hokkaido University) Plasmon-Enhanced Nanoparticles in Photoelectrochemical Water Splitting – R. S. Liu (Department of Chemistry, National Taiwan University) and S. F. Hu (Department of Physics, National Taiwan Normal University)

Invited Presentations on Solar Water Splitting I – 14:00 – 16:00 Co-Chairs: Nicolas Gaillard and Ranjit T. Koodali 14:00

569

14:30

570

15:00

571

15:30

572

Periodic Mesoporous Materials for Overall Water Splitting: Design of an Artificial Leaf – R. T. Koodali and R. Peng (University of South Dakota) Interfacial Engineering for Efficient Solar Water Splitting – L. Vayssieres (International Research Center for Renewable Energy-Xian Jiaotong University) Nanostructured Water Splitting Photocatalysts – F. E. Osterloh (Department of Chemistry, University of California, Davis) Photoelectrochemical Solar Energy Conversion and Hydrogen Evolution Catalysis Using Earth-Abundant Iron Pyrite and Cobalt Pyrite Nanostructures – S. Jin, M. Caban, and M. S. Faber (University of Wisconsin-Madison)

Invited Presentations on Solar Water Splitting II – 16:20 – 17:50 Co-Chairs: Ranjit T. Koodali and Nicolas Gaillard 16:20

84

Solar Fuels and Photocatalysts 4

573

Toward Efficient Photocatalytic Materials – P. Feng (University of California at Riverside)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


17:20

574

575

Wide Bandgap Copper Chalcopyrite Materials for Photoelectrochemical Hydrogen Production – N. Gaillard (University of Hawaii) New Visible Semiconductors for Photoelectrochemical Water Splitting – M. K. Sunkara (University of Louisville, Conn Center for Renewable Energy Research)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort

A9

Stationary and Large-Scale Electrical Energy Storage Systems 4

Industrial Electrochemistry and Electrochemical Engineering / Battery / Energy Technology Sunrise, 2nd Floor, Star Ballroom 2, Moon Palace Resort

Vanadium Systems – 08:00 – 11:30 Co-Chairs: Jun Liu and Shohji Tsushima 08:00

601

08:30

602

08:50

603

09:10

604

Photocatalysts and Solar Fuels Poster Session – 18:00 – 20:00 Co-Chairs: Heli Wang and Nick Wu • •

576

Blueprints for Photocatalytic Solar Fuel Applications – E. Redel (Karlsruhe Institute of Technology) 577 Cold Gas Sprayed Semiconductor-Based Electrodes for the Photooxidation of Water – I. Herrmann-Geppert (HelmholtzZentrum Geesthacht), P. Bogdanoff (Helmholtz Zentrum Berlin, Institute for Solar Fuels), T. Emmler (HelmholtzZentrum Geesthacht), H. Gutzmann, F. Gärtner (Helmut-Schmidt-University), T. Dittrich (Helmholtz-Center Berlin, Institute for Heterogeneous Materials), and T. Klassen (Helmholtz-Zentrum Geesthacht) 578 Enhanced Photoelectrochemical Water Oxidation via TiO2-Coated Fluorine-Doped Tin Oxide Nanoparticle – I. A. Cordova, Q. Peng (Duke University), I. L. Ferrall (Duke University - Department of Mechanical Engineering & Materials Science), A. Rieth, P. G. Hoertz (Research Triangle Institute International), and J. T. Glass (Duke University) 579 Synthesis of Pd-Based Nanoparticles and Its Photocatalytic Activity for Organic Compounds Decomposition – A. J. Jeevagan, T. Gunji, M. Hashimoto (Kanagawa University), S. Kaneko (Research Institute for Engineering, Kanagawa University), and F. Matsumoto (Kanagawa University) 580 CO2 Electroreduction to Hydrocarbon Fuels on Carbon-Supported Copper Nanoparticles: Particle Size Effect – O. A. Baturina, Q. Lu (Naval Research Laboratory), L. Xin (Michigan Technological University), W. Li (Michigan technological University), T. Brintlinger, and A. Epshteyn (Naval Research Laboratory) 581 Solar Fuel Production By Plasmonic Photocatalysts – J. Bright, J. Li (Dept. Mech. and Aero. Engineering, West Virginia University), S. K. Cushing (Dept. of Physics, West Virginia University), and N. Wu (Dept. Mech. and Aero. Engineering, West Virginia University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

09:30 09:50 605

10:10

606

10:30

607

10:50

608

Invited: High Efficiency V/V Redox Flow Battery Stack Utilizing Mixed Acid Electrolyte Chemistry – V. Sprenkle, D. Reed, E. Thomsen, W. Wang, B. Li, X. Wei, Z. Nie, B. Kirby, V. Murugesan, and B. J. Koeppel (Pacific Northwest National Laboratory) Advanced Redox Flow Battery Technology – W. Wang, Z. Nie, M. Vijayakumar, X. Wei, B. Li, E. Thomsen, L. Cosimbescu (Pacific Northwest National Laboratory), W. Xu (Energy and Environment Directorate, Pacific Northwest National Laboratory), T. Liu, D. Reed, and V. Sprenkle (Pacific Northwest National Laboratory) In Situ Localized Current Distribution in a Vanadium Redox Flow Battery – J. T. Clement (Department of Mechanical, Aerospace, and Biomedical Engineering, University of Tennessee, Knoxville, TN), T. A. Zawodzinski (Oak Ridge National Laboratory, Chemical and Biomolecular Engineering Department, University of Tennessee - Knoxville), and M. M. Mench (Department of Mechanical, Aerospace and Biomedical Engineering, University of Tennessee, Knoxville, TN) Commercializing the Chloride-Containing All Vanadium Redox Flow Battery – L. Li (UniEnergy Technologies, LLC) Coffee Break Cell Performance Improvement By Surface Modification of Porous Carbon Electrodes in Vanadium Redox Flow Battery – S. Tsushima (Tokyo Institute of Technology, PRESTO, Japan Science and Technology Agency), F. Kondo, and S. Hirai (Tokyo Institute of Technology) High Power Density Vanadium Flow Batteries with Laser-Cut Flow Field Patterns on Carbon Paper Electrodes – E. Agar, C. R. Dennison, and E. C. Kumbur (Drexel University) The Influence of Electrode and Channel Configurations on Flow-Battery Performance – R. M. Darling and M. L. Perry (United Technologies Research Center) A Novel in-Situ Synchrotron XANES Technique to Study All Vanadium Redox Flow Battery – Q. Liu (Indiana University Purdue University Indianapolis), C. Sun (X-ray Science Division, Argonne National Laboratory), F. Yang (Indiana University Purdue University Indianapolis), Y. Ren (X-ray Science Division, Argonne National Laboratory), S. M. Heald (Argonne National lab), and J. Xie (Indiana University-Purdue University (IUPUI)) 85

Tuesday, October 7

16:50


11:10

609

Research and Development of Vanadium Flow Battery – H. Zhang (Dalian Institute of Chemical Physics, Chinese Academy of Sciences)

17:00

Other Flow Battery Systems – 14:00 – 17:40 Co-Chairs: Trung Van Nguyen and E. Caglan Kumbur

Tuesday, October 7

14:00

610

Quinone-Based Flow Battery with Increased Open Circuit Voltage – M. R. Gerhardt, M. P. Marshak, B. Huskinson (Harvard School of Engineering and Applied Sciences), R. G. Gordon (Department of Chemistry and Chemical Biology, Harvard University), and M. J. Aziz (Harvard School of Engineering and Applied Sciences) 14:20 611 Electrochemical Analysis of Chromium Acetylacetonate for Nonaqueous Flow Batteries – J. D. Saraidaridis (Department of Chemical Engineering, University of Michigan) and C. W. Monroe (University of Michigan) 14:40 612 Na3V2(PO4)3-Graphene Nanocomposite As Stable Cathodes for Na-Ion Batteries – X. Li, J. Liu (Pacific Northwest National Laboratory), C. Wang (Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory), D. Choi, W. Wang, and V. Sprenkle (Pacific Northwest National Laboratory) 15:00 613 Membrane and Electrode Effects in the Br2 – H2 Redox Flow Cell – M. C. Tucker, V. Srinivasan, V. Battaglia, K. T. Cho, A. Z. Weber (Lawrence Berkeley National Laboratory), G. Lin, P. Y. Chong (TVN Systems, Inc.), and T. V. Nguyen (The University of Kansas) 15:20 614 Advanced Hydrogen-Bromine Flow Battery for Energy Storage – G. Lin, P. Y. Chong (TVN Systems, Inc.), T. V. Nguyen, J. Masud (The University of Kansas), R. Wycisk, and P. N. Pintauro (Vanderbilt University) 15:40 Break 16:00 615 New Development in the Alkaline-Based Hydrogen-Bromine Fuel Cell – T. V. Nguyen, V. Yarlagadda (The University of Kansas), D. Konwar (University of Kansas), and K. Y. Chan (The University of Hong Kong) 16:20 616 Aqueous Manganese-Based Electrolytes for Redox Flow Batteries – C. R. Swartz, S. M. Lipka, F. Rogers III, R. Chen (University of Kentucky), and T. Kodenkandath (ITN Energy Systems) 16:40 617 Effect of Morphology and Size of Nickel Particles on Electrochemical Performance of Sodium Metal Chloride Rechargeable Battery – J. H. Choi (Korea Institue of Materials Sciences) and M. J. Park (Korea Institute of Materials Science)

17:20

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Stationary and Large-scale Electrical Energy Storage Systems 4 Poster Session – 18:00 – 20:00 •

620

621

B1

A Metal-Free Organic Aqueous Capacitor Using Quinonic Compounds Couple – D. Komatsu, T. Tomai (Tohoku University), and I. Honma (Institute of Multidisciplinary Research for Advanced Materials, Tohoku University) Optimization of Energy Storage System Considering Battery Degradation – S. KIM, K. Kwon, and H. PARK (HYUNDAI HEAVY INDUSTRIES CO., LTD.)

Chemical Sensors 11. Chemical and Biological Sensors and Analytical Systems Sensor

Sensor Division Outstanding Achievement Award – 14:00 – 14:40 Co-Chairs: Michael T. Carter and Zoraida Pascual Aguilar 14:00

633

(Outstanding Achievement Award of the Sensor Division) From Antibody to X-ray 25 Years in MEMS Sensors – P. Hesketh (Georgia Institute of Technology)

Chemical and Physical Sensors – 14:50 – 17:50 Co-Chairs: Zoraida Pascual Aguilar and Nick Wu 14:50 15:00 634

15:20 15:50 635

16:30

86

618 Further In Situ EDXRD Studies of the MnO2 Cathode – D. A. Steingart (MAE/ ACEE Princeton University), J. W. Gallaway (CUNY Energy Institute at the City College of New York), B. J. Hertzberg (Department of Mechanical & Aerospace Engineering, Princeton University), and C. Erdonmez (Brookhaven National Laboratory) 619 Electrolyzer for Hydrogenation of Organic Hydride with Oxygen Evolution Reaction from Water – S. Mitsushima (Yokohama National University), Y. Takakuwa (Green Hydrogen Research Center, Yokohama National University), Y. Kohno, K. Matsuzawa (Yokohama National University), A. Kato, and Y. Nishiki (Permelec Electrode Ltd.)

636

Welcoming Remarks Study of the Chemical and Morphological Characteristics of Al2O3 and HfO2 Surfaces after Immersion in Time-Dependent pH Solutions – J. Molina Reyes and B. M. Perez Ramos (National Institute for Astrophysics, Optics and Electronics) Break Invited: Wireless Mechatronic Sensing Device for Long Tube Internal Deformation Inspection – L. Tang and M. Fukuoka (Massey University) Miniaturization of Photothermal Cantilever Deflection Spectroscopy with an Electrical Readout – S. Kim (University of Calgary), D. Lee, and T. Thundat (University of Alberta)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


637

17:10

638

17:30

639

Development of CD Based Micro-Fluidics Device for High Throughput Particle Capture and Sampling – P. Hesketh, D. Owen, M. Ballard, Z. Mills, A. Alexeev, and S. Hanasage (Georgia Institute of Technology) Detection of Organic Molecules Using Conducting Materials – M. Chahma and S. Enagala (Laurentian University) Hybrid Porous Silicon- Rhodamine B Derivative Nanostructures as Chemical Sensor for Hg(II) Detection – P. M. De la Cruz Guzman (Universidad Autónoma de San Luis Potosi), A. Aguilar-Aguilar (Universidad Autonoma de San Luis Potosi), A. Bañuelos (Universidad Autónoma de San Luis Potosi), L. F. Chazaro-Ruiz (Instituto Potosino de Investigación Cientifica y Tecnológica), and G. Palestino (Universidad Autónoma de San Luis Potosi)

644

645

646

647

648

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort B1 - Poster Session – 18:00 – 20:00 Co-Chairs: Michael T. Carter and Zoraida Pascual Aguilar •

640

641

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Sensor for Quantitative Analytical Determination of Sulphite in Wine Using a System of Modified Electrode and a Membrane Absorption System – R. Arce, M. J. Aguirre, and J. Romero (Universidad de Santiago de Chile) Electrochemical Determination of Serotonin, in the Presence of Dopamine at a Carbon Paste Electrode Modified with Aunps-Bcd – Y. Gil-Orozco, S. Corona-Avendaño, M. G. Montes de Oca (Universidad Autónoma MetropolitanaAzcapotzalco), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. A. Romero-Romo, and M. Palomar (Universidad Autónoma Metropolitana-Azcapotzalco) Electrochemical Immunoassay Strategies for Detection of Bovine Serum Albumin17beta-Estradiol – J. Liu (Donghua university) Influence of Alkyl Chain on a NeutralCarrier for Use in Selective Membranes Mercury Ions – J. Juarez-Gomez (Universidad Autónoma Metropolitana Iztapalapa), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. Palomar-Pardavé (Universidad Autónoma MetropolitanaAzcapotzalco), M. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), F. Perez-Garcia (Universidad Autónoma Metropolitana), and A. Rojas-Hernández (Universidad Autonoma Metropolitana Iztapalapa)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

A Novel Tyrosinase-Base Biosensor for Quantification of the Antioxidant Capacity: Evaluation of Medicinal Plants Infusions – E. Rodríguez-Sevilla, M. T. RamirezSilva, A. Rojas-Hernández (Universidad Autonoma Metropolitana Iztapalapa), M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco), M. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), and P. Ibarra-Escutia (SEP-Instituto Tecnológico de Toluca. Departamento de Ingeniería Química y Bioquímica) Determination of the Antioxidant Capacity in Medicinal Plants, Using a Laccase Biosensor Type Screen-Printed – E. Rodríguez-Sevilla, M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. Palomar-Pardavé, M. A. Romero-Romo (Universidad Autónoma Metropolitana-Azcapotzalco), A. Hernández-Arana (Universidad Autonoma Metropolitana Iztapalapa), and P. IbarraEscutia (SEP-Instituto Tecnológico de Toluca. Departamento de Ingeniería Química y Bioquímica) Ion-Selective Electrode Solid Contact Base on Neutral-Carrier Ditiophosphate for Mercury Determination at Nanomolar Levels – J. Juarez-Gomez (Universidad Autónoma Metropolitana Iztapalapa), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco), M. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), F. Perez-Garcia (Universidad Autónoma Metropolitana), and A. Rojas-Hernández (Universidad Autonoma Metropolitana Iztapalapa) Determination of the Antioxidant Capacity of Herbal Extracts Using a Biosensor Based on Laccase Trametes Versicolor – J. Juarez-Gomez (Universidad Autónoma Metropolitana Iztapalapa), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco), M. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), and M. Bernabé-Pineda (Universidad de la Cañada) Determination of the Antioxidant Capacity of “Pistache Amargo” Using a Biosensor based on Laccase Trametes Versicolor – J. Juarez-Gomez (Universidad Autónoma Metropolitana Iztapalapa), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco), M. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), P. SalinasHernández, and F. Morales-Anzures (Universidad del Itsmo)

87

Tuesday, October 7

16:50


649

650

Tuesday, October 7

B2

651

A Study on DNA Loop Formation Dynamics Using Surface Plasmon Resonance (SPR) – M. Arugula, F. Yang, S. Somasundaram, C. J. Easley, C. Shannon, and A. Simonian (Auburn University) Simultaneous Recording of Chronoamperometric L-Glutamate Current and Field Excitatory Postsynaptic Potentials in Mouse Hippocampal Slice – R. Matsumura (Tohoku University), A. Hirano-Iwata (Graduate School of Biomedical Engineering, Tohoku University), M. Niwano (Laboratory for Nanoelectronics and Spintronics, Research Institute of Electrical Communication, Tohoku University), T. V. P. Bliss (National Institute for Medical Research), and M. Sugawara (Nihon University) Sensitive Electrochemical NO Sensors: Towards Measurement of Nitric Oxide on Primary Epithelial Cell Models – T. Bose, T. Bomberger (Cleveland Sate University), and M. Bayachou (Cleveland State University)

Microfabricated and Nanofabricated Systems for MEMS/NEMS 11 (Chemical and Biological Sensors) Sensor / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Galactic Ballroom 8, Moon Palace Resort

MEMS NEMS Fabrication – 08:00 – 11:50 Co-Chairs: Eric M. Vogel and Nick Wu 08:00

681

08:30

682

08:50

683

09:10

684

09:30 09:50 685

88

A Printed Carbon Nanotube Sensor on a Flexible Substrate – R. P. Tortorich, T. H. da Costa, E. Song, and J. W. Choi (Louisiana State University) Graphene Synthesis on Electrodeposited Substrates and Its Integration in MEMS for Sensor Applications – M. Tocchio, L. Magagnin, L. Nobili (Politecnico di Milano), C. Carraro, and R. Maboudian (University of California at Berkeley) The Effects of Morphology on the Dielectric and Mechanical Properties of Parylene-C Microfibrous Thin Films – I. H. Khawaji, C. Chindam (The Pennsylvania State University), W. Orfali (Taibah University, Kingdom of Saudi Arabia), A. Lakhtakia, and O. O. Awadelkarim (The Pennsylvania State University) Novel Non-Polarizable Dry Screenprinatable Polymeric Nanocomposite Micro-Sensors for Wearable Devices – A. Khosla (BINanotechnology Inc.) Break Integration of PVDF (Polyvinylidene Fluoride) in MEMS Production – S. Holz, S. Kiricenko, and L. Rissing (Leibniz Universität Hannover)

10:10

686

10:30

687

10:50

688

11:10

689

11:30

690

Porous Silicon MEMS Infrared Filters for Micromechanical Photothermal Spectroscopy – D. A. Kozak (Post-doctoral Fellow, National Research Council), T. H. Stievater, M. W. Pruessner (Naval Research Laboratory), K. Nierenberg (University of Tulsa), and W. S. Rabinovich (Naval Research Laboratory) Shape Anisotropy in Magneto-Impedance Nife-Based Microsensors – M. Cortés, T. Peng, M. Woytasik, and J. Moulin (Université Paris Sud) Unique Applications of Megasonic Energy to MEMS Single Substrate Wet Processes – D. Dussault (Product Systems, Inc.) and V. Dragoi (EV Group) Wafer Bonding for MEMS Vacuum Packaging – V. Dragoi (EV Group) and E. Pabo (EV Group Inc.) MEMS Based Eit Technology for NonInvasive Breast Cancer Diagsnostics – A. Khosla (BI-Nanotechnology Inc.)

Expo Center, 1st Floor, Center and Right Foyers, Moon Palace Resort MEMS NEMS Posters – 18:00 – 20:00 Co-Chairs: Anja Boisen and Peter Hesketh •

691

692

693

694

695

Etch Rate Characterization of PMMA Via CO2 Laser for Hybrid Micromolding Process – A. Khosla (BI-Nanotechnology Inc.) On-Line Preconcentrator on a Glass Capillary with Electrokinetic Trapping Technique – J. H. Lee, Y. K. Yoo, S. I. Han, J. Lee (Kwangwoon University), M. S. Chae, and K. S. Hwang (Korea Institute of Science and Technology) Preparation of Glucose Oxidase Immobilized Electrode Using Electrodeposition Procedure and Its Glucose Sensor Properties – K. Hiura, J. Li, S. Furukawa (Department of Chemical Science and Technology, The University of Tokushima), Y. Fuchiwaki (Health Research Institute, National Institute of Advanced Industrial Science and Technology), and M. Yasuzawa (Department of Chemical Science and Technology, The University of Tokushima) A Facile Microfabrication Process of Self-Doping SiGe/Si Multi-Quantum Well Arrays for Thermo Electrical Characterization – Z. Fang (Nanjing University of Science and Technology), T. Dong (Buskerud-Vestfold University College-HBV), Y. He (Nanjing University of Science and Technology), Z. Yang (Buskerud and Vestfold University College), Y. Su (Nanjing University of Science and Technology), and K. Wang (Buskerud and Vestfold University College) Electrochemical Characterization of IonSensitive Capacitors with ALD Al2O3 as the Sensitive Dielectric – B. M. Perez Ramos and J. Molina Reyes (National Institute for Astrophysics, Optics and Electronics) Meeting Program l October 5-9, 2014 l Cancun, Mexico


C1

696

Post-CMOS Integration of MEMS Inertial Sensors Using Oxidized Porous Silicon Technique – D. Ge and N. Ren (School of Mechanical Engineering, Jiangsu University)

11:00

714

11:20

715

Corrosion General Session

Corrosion Expo Center, 1st Floor, Universal 15, Moon Palace Resort

Coatings, Surfaces and Passive Films – 08:00 – 11:40 Co-Chair: John N. Harb 08:00

08:20

706

707

08:40

708

09:00

709

09:20

710

09:40 10:00 711 10:20

712

10:40

713

New Superhydrophobic Coatings for Protection Against Corrosion – A. M. Abdullah (Center for Advanced Materials, Qatar University, Doha 2713, Qatar, Chemistry Department, Faculty of Science, Cairo University, Giza 12613, Egypt), A. M. A. Mohamed, A. Bahgat, and M. Almaadeed (Center for Advanced Materials, Qatar University, Doha 2713, Qatar) The Use of 3D-Svet for the Examination of Plasticised PVC Coatings: The Effect of Deformation and UV Irradiation on Barrier Properties – J. R. Searle (SPECIFIC, Swansea University), B. P. Wilson, K. Yliniemi (Aalto University), D. A. Worsley, and H. N. McMurray (Swansea University) Effect of Nano-Encapsulated Corrosion Inhibitors on Self-Healing Corrosion Protection of Steel Sheets – H. N. Choi, J. S. Kim (POSCO), and J. M. Park (POSTECH) Epoxy/Magnetite/Carbon Nanofibers Nanohybrid Coatings for Anticorrosion – Z. Guo, H. Wei, H. Gu, J. Guo, Y. Wang (Integrated Composites Laboratory (ICL), Dan F. Smith Department of Chemical Engineering, Lamar University, Beaumont, TX 77710 USA), and S. Wei (Department of Chemistry and Biochemistry, Lamar University, Beaumont, TX 77710 USA) Storage and Release of Corrosion Inhibitors from Commercial Primers – P. Klomjit (The Ohio State University) and R. Buchheit (Fontana Corrosion Center, Department of Materials Science and Engineering, The Ohio State University) Break Hybride Sol-Gel Coatings for Protection of Aluminium Alloys – P. Rodic and I. Milosev (Jozef Stefan Institute) New Trends in Chemistry at Steps Due to Mechanical Stress and Relevance to Corrosion – M. F. Francis (Brown University, École Polytechnique Fédérale de Lausanne) and W. A. Curtin (École Polytechnique Fédérale de Lausanne) Ångstrom Resolved Real-Time Monitoring of Oxide Growth and Reduction on Noble and Engineering Metals – M. Valtiner, H. W. Cheng, B. R. Shrestha, T. Baimpos, and S. Raman (Max-Planck-Institut f. Eisenforschung GmbH)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Application of a Methodology Combining Predictive and Descriptive Models to Describe the Influence of the Temperature on the Passive Film Steady State – C. Boissy, B. Ter-Ovanessian, and B. Normand (INSA-Lyon, MATEIS, UMR CNRS 5510, F-69621, France) Electrical Characterization of a Cement Paste with Carbon Fiber by Electrochemical Impedance Spectroscopy – C. P. Barrios (Universidad Autonoma de Sinaloa), R. E. Nuñez (Facultad de Ingeniería Mochis, Universidad Autónoma de Sinaloa (UAS)), M. J. Pellegrini (Centro de Investigación en Materiales Avanzados, Física de Materiales), J. H. Castorena (Facultad de Ingeniería Mochis, Universidad Autónoma de Sinaloa), and J. P. Garcia (Facultad de Ingeniería, Universidad Autónoma de San Luis Potosí)

Applications – 14:15 – 18:55 Co-Chair: Shinji Fujimoto 14:15

716

14:45

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15:15

718

(Corrosion Division H.H. Uhlig Award) Perspectives on Passivity and Its Breakdown – P. M. Natishan (Naval Research Laboratory) (Morris Cohen Graduate Student Award of the Corrosion Division) Stainless Steel in Biological Environments – Relation Between Material, Surface Chemistry and Toxicity – Y. Hedberg (KTH, Royal Institute of Technology) Evaluation of the Electrochemical Behavior in Acid Media of HVOF-Spray Alloy Coatings – J. A. Cabral Miramontes Sr., J. Y. Achem Calahorra, A. Trujillo Estrada (Universidad Autónoma de Nuevo León (UANL), Facultad de Ingeniería Mecánica y Eléctrica (FIME),), G. Pedraza Basulto (Centro de Investigación en Materiales Avanzados, Departamento de Integridad Estructural y Materiales Compuestos, Miguel de Cervantes 120, Complejo Industrial Chihuahua, Chihuahua, Chih., México.), C. Poblano Salas (Centro de Tecnología Avanzada (CIATEQ, A.C.), Procesos de Manufactura), and F. Almeraya Calderon (Universidad Autónoma de Nuevo León (UANL), Facultad de Ingeniería Mecánica y Eléctrica (FIME),)

89

Tuesday, October 7


Tuesday, October 7

15:35

719

15:55

720

16:15

721

16:35

722

16:55 17:15 723

17:35

17:55

90

724

725

Corrosion Mechanism of Nicrwmo Coating Deposited by HVOF – J. Y. Achem Calahorra (Universidad Autónoma de Nuevo León (UANL), Facultad de Ingeniería Mecánica y Eléctrica (FIME), Centro de Investigación e Innovación en Ingeniería Aeronáutica (CIIIA).), C. G. Tiburcio (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.), F. Estupiñan (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA), A. T. Estrada (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.), C. Poblano Salas (Centro de Tecnología Avanzada (CIATEQ, A.C.), Procesos de Manufactura), F. A. Calderón (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.), and J. A. Cabral Miramontes Sr. (Universidad Autónoma de Nuevo León (UANL), Facultad de Ingeniería Mecánica y Eléctrica (FIME),) Electrochemical Behavior of Steel Covered with Corrosion Products of Zinc – E. Tada, S. Katakami, and A. Nishikata (Tokyo Institute of Technology) Considerations in the Internal Corrosion Mitigation – G. K. Pedraza Basulto, D. Ortega (Corrosion y Proteccion S. A de C. V), I. Carrillo (corrosion y proteccion S. A. de C. V.), J. Cantó, and L. Martinez (Corrosion y Proteccion S. A de C. V) A 3D Mathematical Model of Cathodic Protection for Buried Pipelines with Non-Uniform Soil Properties – J. N. Harb, U. Teki (Department of Chemical Engineering, Brigham Young University), and C. Lueth (CD-adapco) Break Evaluation at Pipeline Corrosion at Oil Field – G. K. Pedraza Basulto, D. Ortega (Corrosion y Proteccion S. A de C. V), I. Carrillo (corrosion y proteccion S. A. de C. V.), J. Cantó, and L. Martinez (Corrosion y Proteccion S. A de C. V) Current Distribution in Reinforcing Steel Cathodically Protected by Cement Paste Anode – C. P. Barrios (Universidad Autonoma de Sinaloa), R. E. Nuñez (Facultad de Ingeniería Mochis, Universidad Autónoma de Sinaloa (UAS)), J. H. Castorena (Facultad de Ingeniería Mochis, Universidad Autónoma de Sinaloa), M. J. Pellegrini (Centro de Investigación en Materiales Avanzados, Física de Materiales), E. E. Maldonado (Universidad Veracruzana, Facultad de Ingeniería Civil-Xalapa), and J. P. Garcia (Facultad de Ingeniería, Universidad Autónoma de San Luis Potosí) Corrosivity Measurements of Singapore and the Effect of Tropical Atmosphere on Corrosion of Different Metals – S. L. Wijesinghe (National University of Singapore) and Z. Tan (Singapore Institute of Manufacturing Technology,)

18:15

726

18:35

727

Influence of Environment and Applied Stresses on the Susceptibility to Corrosion and Anodic Dissolution of α,β’-Brass in NaNO3 Solutions – C. Berne (Université de Toulouse, CIRIMAT, UPS / INPT / CNRS, Equipe MEMO, CETIM, « Matériaux Métalliques et Surfaces »), E. Andrieu (Université de Toulouse, CIRIMAT, UPS / INPT / CNRS, Equipe MEMO), J. Reby (CETIM, « Matériaux Métalliques et Surfaces »), J. M. Sobrino (CETIM, « Matériaux Métalliques et Surfaces »), and C. Blanc (Université de Toulouse, CIRIMAT, UPS / INPT / CNRS, Equipe MEMO) Effect of Sulfide-Containing Solutions on the Corrosion of Cu-Ni Alloys; Electrochemical and Surface Studies – F. M. Al-Kharafi, A. Abdel Nazeer, R. M. Abdullah, and A. Galal (Kuwait University)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort C1 Corrosion Poster Session – 18:00 – 20:00 Co-Chair: R. Buchheit •

728

729

730

731

732

Corrosion Behavior of Novel Ti-15Ta-5Zr Alloy in Simulated Physiological Solution – C. Vasilescu Jr., S. I. Drob Jr., M. Popa Sr., J. M. Calderon Moreno Sr. (Institute of Physical Chemistry “Ilie Murgulescu”, Romania), and J. C. Mirza Rosca Sr. (Las Palmas de Gran Canaria University, Spain) Inhibition of Corrosion and Hydrogen Permeation into Carbon Steel in the Chloride Media Containing H2s and CO2 – L. Tsygankova, V. Vigdorovich (Derzhavin State University), N. Shel (Tambov State Technical University), and M. Esina (Derzhavin State University) Protective Efficiency of the Oil Composition Coatings Against Carbon Steel Atmospheric Corrosion in the SO2 Presence – N. Shel (Tambov State Technical University), V. Vigdorovich, L. Tsygankova, and A. Uryadnikov (Derzhavin State University) Characterization of Kaolinite (Al2Si2O5 (OH)4) and Lansoprazole (C16H14N3F3O2S) for Developing a Structured Coating – E. Sarmiento Bustos (Universidad Tecnologica Emiliano Zapata del Estado de Morelos), L. Concha Guzman (Universidad Autonoma del Estado de Morelos CIICAp), J. Uruchurtu (CIICAp), C. Menchaca (Universidad Autonoma del Estado de Morelos), and O. Dominguez Perez (Universidad Tecnologica Emiliano Zapata del Estado de Morelos) Salvia Hispanica as Eco-Friendly Inhibitor for Mild Steel in Sulfuric Acid – I. A. Hermoso Díaz, J. G. Gonzalez Rodriguez, and A. M. Ramírez Arteaga (CIICAp)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


733

734

735

736

737

738

739

Electrochemical Corrosion of 409 and 439 Ferritic Stainless Steels Employees in the Automotive Industry in NaCl and H2SO4 Solutions – F. Estupiñan (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA), P. Z. Robledo, F. A. Calderón, C. G. Tiburcio, J. A. C. Miramontes (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.), U. Garcia, and P. Correa (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA) Inhibition of Carbon Steel in Cooling Water Systems by Nicotinamide – F. Branzoi (Institute of Physical Chemistry), V. Branzoi (University Politehnica of Bucharest), and M. Iordoc (University of Politehnica Bucharest) Study of the Hydrodynamic Conditions of the 2-Mercaptoimidazole Inhibitor Derivatives for Mild STEEL Immersed in NaCl at Neutral pH – A. Espinoza (Universidad Mexiquense del Bicentenario), M. Palomar, M. A. Romero, and E. Buendia (Universidad Autonoma Metropolitana- Azcapotzalco) Efficient Corrosion Inhibition of API 5L X52 STEEL in HCl By NN-Functionalized 1,2,3-Triazoles – A. Espinoza (Universidad Mexiquense del Bicentenario), M. Palomar (Universidad Autónoma MetropolitanaAzcapotzalco), M. A. Romero, G. Negrón, and D. Mendoza (Universidad Autonoma Metropolitana- Azcapotzalco) Evaluation of Atmospheric Corrosivity Indexes in the City of Tuxpan Veracruz – M. Rosas Pérez, E. Gallardo Castán, G. Lugo Islas, A. Galicia Badillo, J. L. Ramírez Reyes, N. García Navarro, J. Pérez Téllez, and I. G. Mercado Bahena (Universidad Veracruzana) Corrosion Inhibitors in the Development of Hybrid-Smart-Nanostructured Coatings – G. E. Zambrano-Rengel (Centro de Investigación en Ingeniería y Ciencia Aplicadas, CIICAp-UAEM), J. Uruchurtu (Centro de Investigación en Ingeniería y Ciencias Aplicadas, CIICAp-UAEM), C. Menchaca (Centro de Inventigación en Ingeniería y Ciencias Aplicadas, CIICApUAEM), and R. Guardián Tapia (Centro de Investigación en Ingeniería y Ciencias Aplicadas, CIICAp-UAEM) Influence of an Artificial Ageing on the Corrosion Behavior of AA2024 – J. Bourdie, L. Oger, N. Correge, T. LoustaletLacourette, P. Manenq, C. Larignon, C. Berne, and C. Blanc (Université de Toulouse, CIRIMAT, UPS / INPT / CNRS)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

C2

Electrochemical Techniques and Corrosion Monitoring

Corrosion / SMEQ Expo Center, 2nd Floor, Alfa Room, Moon Palace Resort

Electrochemical Techniques and Corrosion Monitoring – 08:00 – 10:00 Co-Chair: Citlalli Gaona Tiburcio 08:00

748

08:20

749

08:40

750

09:00

751

09:20

752

09:40

753

Electrochemical Analysis of Temperature, Concentration and Velocity Effects in Naphthenic Acid Corrosion of 5%Cr1%Mo Steel – K. M. Escorcia Rojas and D. A. Laverde Cataño (Universidad Industrial de Santander) Stress Corrosion Cracking of API 5lX52 in Ethanolic Environment – G. K. Pedraza Basulto (Corrosion y Proteccion S. A de C. V), J. A. C. Miramontes (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.), J. Chacon (Centro de Investigación en Materiales Avanzados S. C.), and J. Y. Achem Calahorra (Universidad Autónoma de Nuevo León (UANL), Facultad de Ingeniería Mecánica y Eléctrica (FIME), Centro de Investigación e Innovación en Ingeniería Aeronáutica (CIIIA).) Electrochemical Impedance Study on Dissolution of Cu-Zn Alloy in Fresh Water – Y. Hoshi, K. Tabei, I. Shitanda, and M. Itagaki (Tokyo University of Science) The Artificial Pit Electrode as a Technique to Evaluate Critical Mass Transport and Electrochemical Parameters in Stainless Steel Pitting and Repassivation – J. Srinivasan, M. J. McGrath, and R. G. Kelly (University of Virginia) Use of the Scanning Vibrating Probe for in-Situ Monitoring of SCC Via the Coupling Current in 5000 Series Al Alloys – K. Williams, R. Bayles (Naval Research Laboratory), and D. Macdonald (University of California, Berkely) Potential Scanning Impedance Spectroscopy to Investigate Dissolution Mechanisms of Iron – M. Itagaki (Tokyo University of Science), K. Isobe (Tokyo University of Tokyo), Y. Hoshi, and I. Shitanda (Tokyo University of Science)

Corrosion Processes 1 – 10:40 – 12:00 Co-Chair: Masayuki Itagaki 10:40

754

11:00

755

The Attenuation of Galvanic Corrosion Between Mechanically-Coupled Aluminum and Polymer Matrix Composites (PMCs) Using Hydrophobic, Insulative Skirt Materials – R. Srinivasan, L. H. Hihara, and J. Nelson (University of Hawaii at Manoa) On the Galvanic Coupling of Bulk-AlCu Intermetallic Phases (Al2Cu, Al7Cu2Fe) and Pure Aluminium in NaCl Solution – E. Rocca, J. Tardelli, and S. Mathieu (Institut Jean Lamour - Université de Lorraine CNRS)

91

Tuesday, October 7


11:20

11:40

756

757

Experimental Considerations in in Predicting Damage during Galvanic Corrosion – R. S. Lillard (University of Akron) and Z. Haque (Dept of Chemical Engineering, University of Akron) X-Ray Tomography of Intergranular Corrosion Penetration in Sensitized AA5083-H131 – M. L. C. Lim, R. G. Kelly, and J. R. Scully (University of Virginia)

Corrosion Processes 2 – 15:20 – 17:20 Co-Chair: M. Itagaki

Tuesday, October 7

15:20

15:40

16:00

16:20

758

759

760

761

16:40

762

17:00

763

92

Development of Representative Tests to Quantify the Susceptibility to Stress Corrosion Cracking of α,β’-Brass Used for Gas Transfer Devices – C. Berne (Université de Toulouse, CIRIMAT, UPS / INPT / CNRS, Equipe MEMO, CETIM, « Matériaux Métalliques et Surfaces »), E. Andrieu (Université de Toulouse, CIRIMAT, UPS / INPT / CNRS, Equipe MEMO), J. Reby (CETIM, « Matériaux Métalliques et Surfaces »), J. M. Sobrino (CETIM, « Matériaux Métalliques et Surfaces »), and C. Blanc (Université de Toulouse, CIRIMAT, UPS / INPT / CNRS, Equipe MEMO) Electrochemical Impedance Response of Zn Under Anodic Polarization in Simulated Concrete Solution – A. Garnica-Rodríguez and F. J. Rodriguez-Gomez (Departamento de Ingeniería Metalúrgica. Facultad Química. UNAM) Electrochemical Study of the Corrosion of Steel Embedded in Concrete Added with Composite Substituting Cement – L. Vásquez-Zacarias, M. Poisot, M. Velazquez-Manzanares (Universidad del Papaloapan), and T. Pérez-López (Centro de Investigación en Corrosión, Universidad Autónoma de Campeche.) Study of the Oxygen Reduction Reaction on the Coupled Galvanic Carbon Steel - Stainless Steel – J. T. Pérez-Quiroz (Instituto Mexicano del Transporte), J. Genescá Llongueras (bUniversidad Nacional Autónoma de México), T. Pérez-López (Universidad Autónoma de Campeche), M. Rendón-Belmonte, J. Terán-Guillen, and M. Martínez-Madrid (Instituto Mexicano del Transporte) Determination of the Corrosion Probability in Reinforced Concrete Structures by Design in Situ Monitoring System – G. Roa Rodriguez, W. A. Aperador Chaparro, and A. E. Delgado Tobon (Universidad Militar Nueva Granada) Distributed-Type Equivalent Circuit to Determine Charge Transfer Resistance of Metals Under a Thin Solution Film – Y. Shi, E. Tada, and A. Nishikata (Tokyo Institute of Technology)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort C2 Poster Session – 18:00 – 20:00 Co-Chair: Facundo Almeraya Calderón •

764

765

766

767

768

769

770

Electrochmical Corrosion Behavior of Alloy 600 and SA508Cl.3 in Solutions with Various Sodium-to-Chloride Ratios – K. S. Im and D. H. Hur (Korea Atomic Energy Research Institute) Synthesis and Characterization of PANI/ SBR Composites as Corrosion Protection Coating for Carbon Steel Substrates – C. M. De León Almazán, J. L. Rivera Armenta, M. Y. Chávez Cinco, A. M. Mendoza Martínez, and U. Páramo García (Instituto Tecnológico de Ciudad Madero) Benzodimidazole and Imidazole as Corrosion Inhibitors of AISI 316L Stainless Steel in Sulphuric Acid Medium – C. Cardona (Facultad del Hábitat, Universidad Autónoma de San Luis Potosí, Universidad Tecnológica de Querétaro (UTEQ)), L. Narváez (Facultad del Habitat, Universidad Autónoma de San Luis Potosí), J. M. Miranda (Instituto de Metalurgia, Universidad Autónoma de San Luis Potosí), and A. Acosta (Instituto Mexicano del Transporte) Study of the Stability of the Steel Embedded in Mortars Added with Pozzolans – R. I. Martínez-Rosales, J. M. Miranda (Instituto de Metalurgia, Universidad Autónoma de San Luis Potosí), L. Narváez (Facultad del Habitat, Universidad Autónoma de San Luis Potosí), and M. A. Lomeli (Instituto de Metalugia, Universidad Autónoma de San Luis Potosí) Electrochemical Evaluation of TiO2, Cerium and Iron TiO2 Based Nanofibers Coatings in Copper and Copper Alloys Substrates – F. Rodriguez-Acuña, E. Aguilar-Campuzano (CIICAp, UAEM), M. Hernandez-Escampa, M. HernandezGallegos (Facultad de Ingenieria, UNAM), C. Menchaca (Universidad Autonoma del Estado de Morelos), and J. Uruchurtu (CIICAp) Electrochemical Studies on Zero VOC Coated Steel through Atmospheric Exposure and REAP Test in the Laboratory – J. L. Ramirez-Reryes, G. Galicia-Aguilar (Instituto de Ingenieria-Universidad Veracruzana), J. M. Malo-Tamayo (Instituto de Investigaciones Electricas), and J. Uruchurtu-Chavarin (CIICAPUniversidad Autonoma del estado de Morelos) Effect of the Coating Deposition Technique on the Protective Properties of Hybrid Sol-Gel on AA2024-T3 – M. Hernandez (National University of Mexico, UNAM), C. Zamora (National University of Mexico, (UNAM)), J. Uruchurtu (CIICAp), C. Menchaca (Universidad Autonoma del Estado de Morelos), and A. Covelo (National University of Mexico, (UNAM)) Meeting Program l October 5-9, 2014 l Cancun, Mexico


771

772

773

774

775

776

777

Epoxy Polyaniline–SBA15/Fluconazole Hybrid Nanocomposite Coatings: As a Self-Healing Corrosion Protection of Mild Steel – V. B. Terrones (Universidad Autónoma del Estado de Morelos, CIICAp), J. Uruchurtu (CIICAp), M. A. R. Romo (Universidad Autónoma Metropolitana, Campus Azcapotzalco), C. Menchaca (Universidad Autonoma del Estado de Morelos), and M. J. Esparsa (Universidad Autónoma Metropolitana, Campus Iztapalapa) Evaluation of Atmospheric Corrosion in the City of Tuxpan Veracruz – E. Gallardo Castán, G. Lugo Islas, A. Galicia Badillo, J. L. Ramírez Reyes, I. G. Mercado Bahena (Universidad Veracruzana), L. A. Alarcón Molina (Universidad Veracruza), N. García Navarro, and J. Pérez Téllez (Universidad Veracruzana) Micro-Arc Oxidation Treatments on Zn – D. Veys-Renaux (Institut Jean Lamour - Université de Lorraine-CNRS), K. Guessoum (Université de Béjaia), and E. Rocca (Institut Jean Lamour - Université de Lorraine - CNRS) Development of a Thin and Flexible Sensor for Assessing Corrosion Damage of Hardto-Access Painted Surfaces – M. Kuentzler, D. Cook, E. Sikora, and B. A. Shaw (The Pennsylvania State University) Electrochemical and Microstructural Study of 18th Century Cannon Ball – J. Mortera-Merino (Facultad de Ingeniería. Universidad Veracruzana), R. GalvanMartínez, and R. Orozco-Cruz (Instituto de Ingeniería. Universidad Veracruzana) EIS Evaluation of Cefalotine as Corrosion Inhibitor for API 5L X52 Steel Immersed in Acid Medium. Effect of [Cefalotine], Hydrodynamic Conditions, Temperature and Immersion Times – J. AldanaGonzález (Universidad Autónoma Metropolitana Azcapotzalco), A. EspinozaVázquez (Universidad Mexiquense del Bicentenario), M. A. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), and M. Palomar-Pardavé (Universidad Autónoma MetropolitanaAzcapotzalco) Behavior Electrochemical of Carbon Steel in a Synthetic Medium and Hydrocarbon on a System with Continuous Flow Rate – L. D. Lopez, F. J. Olguin, M. A. veloz Rodriguez (Universidad Autonoma del Estado de Hidalgo), F. M. Almeraya (Universidad Autonoma de Nuevo Leon), and M. Marquez Casasola (Universidad Autonoma del Estado de Hidalgo)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

D1

Electrodeposition for Energy Applications 3

Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 12, Moon Palace Resort

Plenary Session – 09:00 – 12:00 Co-Chairs: Stanko Brankovic and Nikolay Dimitrov 09:00 09:05 805

09:45 10:00 806

10:40

807

11:20

808

Introductory Remarks Formation, Segregation, and Degradation of Nanostructured Catalysts for Electrochemical Conversion and Storage – P. Strasser (Technical University Berlin) Break Conformal Electrodeposition for AllSolid-State 3D Thin-Film Batteries – P. M. Vereecken (imec, Leuven, Belgium and Centre of Surface Chemistry and Catalysis, K.U.Leuven), Y. Zargouni (KACSTCENA, Riyadh, Saudi Arabia, imec Belgium), S. Deheryan (imec, Kapeldreef 75, Leuven, Belgium, Centre for Surface Chemistry and Catalysis, KU Leuven, 3001 Leuven, Belgium), and M. Timmermans (K.U.Leuven, imec, Leuven) Pulsed Potential based E-ALD of PV Materials – J. L. Stickney, J. Czerniawski, and B. Perdue (The University of Georgia) Development and STM Study of Hydrogen based Deposition of Pt on Pd Thin Films – N. Vasiljevic (School of Physics, University of Bristol) and B. C. Rawlings (University of Bristol)

Electronics/MEMS/Termoelectric Materials – 14:00 – 17:10 Co-Chairs: Miomir Vukmirovic, Luca Magagnin, and Andreas Bund 14:00

809

14:40

810

15:00

811

15:20 15:30 812

Template-Assisted Electrochemical LiquidLiquid-Solid Deposition of Crystalline Ge Nanowires – L. Ma, J. Gu, E. Fahrenkrug, and S. Maldonado (University of Michigan) Electroplating of Aluminum with Nickel Particle Codeposition – J. J. Coleman (Sandia National Laboratories, University of New Mexico), C. A. Apblett (Sandia National Laboratories), P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies), and W. G. Yelton (Sandia National Laboratories) Organometallic Deposition of Nickel: An Electroless Route to Nanoscale Films – M. Shviro (Bar Ilan University), A. Paszternak (Institute of Materials and Environmental Chemistry, Research Centre for Natural Sciences, Hungarian Academy of Sciences, Budapest, Hungary), and D. Zitoun (Bar Ilan University, Israel) Break Copper-Nanolaminate Composites – a New and Promising Material for Electrical Contacts in High Voltage and High Current Applications – R. Grieseler (Technische Universität Ilmenau), M. K. Camargo (Technische Universität Ilmenau), M. Hopfeld (Technische Universität Ilmenau,), A. Bund (Technische Universität Ilmenau), and P. Schaaf (Technische Universität Ilmenau,) 93

Tuesday, October 7


16:10

16:30

Tuesday, October 7

16:50

D2

813

814

815

Surface Modification and Electrochemical Metallization of Advanced Polymers for Energy Application – A. V. Oriani, M. A. Spreafico (Politecnico di Milano), P. Cojocaru, F. Triulzi (Solvay Specialty Polymers), L. Magagnin (Politecnico di Milano), and M. Apostolo (Solvay Specialty Polymers) Electroforming Nanostructured-Based Thermoelectrics – C. L. Arrington, P. A. Sharma (Sandia National Laboratories), T. D. Burleigh (New Mexico Institute of Mining and Technology), D. Banga, W. G. Yelton, and E. D. Baca (Sandia National Laboratories) Electrodeposition of Selective Absorber Coatings Based on Black Nickel for Solar - Thermal Energy Conversion – M. A. Estrella-Gutierrez, F. I. Lizama-Tzec, O. Arés-Muzio (Cinvestav), and G. Oskam (Cinvestav-Mérida)

Electrochemical Science and Technology: Challenges and Opportunities in the Path from Invention to Product

The Path from Invention to Product: Processing for Semiconductor Devices I – 14:00 – 16:20 Co-Chairs: Richard Alkire and Alan West 14:00

872

14:40

873

15:00

874

15:20

875

15:40

876

16:00

877

Electrodeposition / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Expo Center, 1st Floor, Universal 1, Moon Palace Resort The Path from Invention to Product: Educational Innovation – 09:00 – 09:40 Co-Chairs: John N. Harb and Gerardine G. Botte 09:00

09:20

865

866

Keynote: Corrosion-Electrochemistry Based Undergraduate Curricula: Finding a Balance Between Chemistry, Materials and Engineering – S. Lillard, G. Haritos, J. Payer, E. Evans, H. Castaneda, and H. Cong (University of Akron) Graduate Education for the Leaders of 2035 – D. T. Schwartz (University of Washington)

The Path from Invention to Product: From Academia to Industry – 10:00 – 12:00 Co-Chairs: E. J. Taylor and Peter N. Pintauro 10:00

867

10:40

868

11:00

869

11:20

11:40

94

870

871

Keynote: From Science to Product: A Difficult Way – M. J. Rost (Leiden University) Commercializing University Research: Pathways, Pitfalls, and Personal Observations – P. N. Pintauro (Vanderbilt University) Innovation Process from Academic Activities to Industrial Products – T. Osaka (Institute for Nanoscience & Nanotechnology, Waseda University, Faculty of Science and Engineering, Waseda University) NSF Industry University Cooperative Research Center for Electrochemical Processes and Technology a Model for Open Innovation – G. G. Botte (Ohio University) Ironic Chemicals – A. West and S. Banta (Columbia University)

Keynote: Thin Film Magnetic Heads: Break-through of Electroplating into Electronics, Quantum Jump in Magnetic Storage – L. Romankiw (IBM TJ Watson Research Center) and S. Krongelb (Emeritus, IBM T.J. Watson Research Center) The First Thin Film Electronic Package: From Invention to Manufacturing – S. Krongelb (Emeritus, IBM T.J. Watson Research Center) and L. Romankiw (IBM TJ Watson Research Center) Electrochemical Flip-Chip Interconnect Technology – H. Deligianni (IBM Thomas J. Watson Research Center), C. L. Arvin (IBM), and L. Romankiw (IBM TJ Watson Research Center) The Development of a Chemistry and Process for Cu Damascene Plating – from Research to Development to Manufacturing – Q. Huang (IBM, T. J. Watson Research Center), S. Ahmed (IBM Semiconductor Research & Development Center), S. Kitayaporn (IBM T.J. Watson Research Center), A. Avekians (IBM T. J. Watson Research Center), J. Kelly (IBM Albany Nanotechnology Center), A. Sahin (IBM, T. J. Watson Research Center), J. Liu, Y. Sun (IBM T. J. Watson Research Center), T. Cheng (IBM Semiconductor Research & Development Center), and B. Baker-O’Neal (IBM, T. J. Watson Research Center) Chemical Mechanical Planarization Processes in Cu Interconnects: Invention to Implementation – M. Krishnan (IBM T.J. Watson Research Center) Electrodeposited Thin Film Solar Cells – H. Deligianni (IBM Thomas J. Watson Research Center), S. Ahmed (University of Limerick), Q. Huang (IBM, T. J. Watson Research Center), and L. Romankiw (IBM TJ Watson Research Center)

Edward Goodrich Acheson Award – 17:00 – 19:00 Co-Chairs: Paul A. Kohl and John N. Harb 17:00 17:10 878

17:50

Introductory Remarks Maintaining the Momentum in Electrochemical Energy and Power Conversion – R. Brodd (Broddarp of Nevada, Inc.) Reception

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort The Path from Invention to Product: Poster Session – 18:00 – 20:00 Co-Chairs: John N. Harb and Gerardine G. Botte •

879

Acceleration of Electroless Silver Deposition from Solutions Containing Cobalt(II) as Reducing Agent – A. Jagminiene, L. TamasauskaiteTamasiunaite, and E. Norkus (Center for Physical Sciences and Technology) Meeting Program l October 5-9, 2014 l Cancun, Mexico


880

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883

884

D3

Voltammetric and Electrochemical Impedance Study of Sm3+ Effect onto the Nickel Electrodeposition Process – Y. Meas, J. R. López, P. F. Méndez, J. J. Perez, G. Trejo, R. Ortega (Centro de Investigación y DesarrolloTecnológico en Electroquímica (CIDETEQ)), and G. Stremsdoerfer (Ecole Centrale of Lyon, Tribological & Dynamical Systems Laboratory) Electroless Co-B Deposition Using Dimethylamine Borane as Reducing Agent in the Presence of Different Amines – I. Stankevičienė, A. Jagminiene, L. Tamasauskaite-Tamasiunaite, and E. Norkus (Center for Physical Sciences and Technology) Influence of Temperature on Electroless Copper Deposition from FormaldehydeContaining Solutions Using 2-Hydroxy1,2,3-Propanetricarboxylic Acid As Cu(II) Ligand – V. Kepeniene (Center for Physical Sciences and Technology), R. Stagniunaite (Lithuanian University of Educational Sciences), I. Stalnioniene, and E. Norkus (Center for Physical Sciences and Technology) Via Superfill with Time Pulse Plating in a Dual Couple Redox System – S. Nad, Y. Sun (Substrate Packaging Technology Development, Intel Corporation), R. Chalupa (Design and Technology Services, Intel Corporation), C. Pendyala, and K. Ganesan (Substrate Packaging Technology Development, Intel Corporation) Toward Industrialization on Semiconductor-Based Biosensors in Health and Medical Fields – S. Hideshima, S. Kuroiwa, T. Nakanishi, M. Hashimoto, Y. Mori (Institute for Nanoscience & Nanotechnology, Waseda University), and T. Osaka (Institute for Nanoscience & Nanotechnology, Waseda University, Faculty of Science and Engineering, Waseda University)

10:40

910

11:20

911

Novel Nanostructures and Spintronics II – 14:00 – 17:20 Co-Chair: Tetsuya Osaka 14:00

912

14:40

913

15:20 15:40 914 16:20

915

17:00

916

Magnetic Materials, Processes, and Devices 13

Electrodeposition Expo Center, 1st Floor, Universal 21 & 22, Moon Palace Resort

Novel Nanostructures and Spintronics I – 08:20 – 11:40 Co-Chairs: Stanko Brankovic and Giovanni Zangari 08:20

09:00

907

908

09:40 10:00 909

Magnetic Domain Control of Exchange Biased Magneto-Electric Thin Film Composites – E. Quandt, E. Lage, N. Urs, V. Röbisch, I. Teliban, R. Knöchel, D. Meyners, and J. McCord (University of Kiel) On-Wafer Microwave Devices based on Magnetic Materials – Z. Celinski, R. Camley, and I. Harward (University of Colorado Colorado Springs) Break Magnetic Properties of Cobalt Nanowires and Nanotubes – J. G. Lu, G. Bergmann, and R. Thompson (University of Southern California)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Magnetic Properties of Anti-Perovskite Type Transition Metal Ferromagnetic Nitrides – K. Ito (Japan Society for the Promotion of Science, Institute of Applied Physics, University of Tsukuba) and T. Suemasu (Institute of Applied Physics, University of Tsukuba) Investigation of the Electroless Deposition Process of Magnetic Nanostructures – D. Richardson and F. M. F. Rhen (Department of Physics and Energy, Materials and Surface Science Institute, University of Limerick, Ireland)

From High Density Nanoparticle Deposits to Nanometer Thin Continuous Films By Growth-Inhibited Nucleation Enhancement – P. M. Vereecken (imec, Leuven, Belgium and Centre of Surface Chemistry and Catalysis, K.U.Leuven), J. Vanpaemel (imec, Leuven, Belgium and Centre of Surface Chemistry and Catalysis, KU.Leuven), M. Nagar (imec, Leuven, Belgium), and A. Radisic (imec Leuven, Belgium) Electrochemical Approach to Synthesis of Magnetic Nanoparticles – S. Yagi (Nanoscience and Nanotechnology Research Center, Osaka Prefecture University), T. Ichitsubo, and E. Matsubara (Department of Materials Science and Engineering, Kyoto University) Break Magnetic Beads - Basics and Application – C. Ruffert (Leibniz Universitaet Hannover) Biocompatibility and Biofunctionality of Magnetic Nanoparticles – Y. Takemura (Yokohama National University) Morphology Controlled 1-D Iron Oxide Nanochains with Tunable Magnetic Properties – Q. He (Dan F. Smith Department of Chemical Engineering, Lamar University,), S. Wei (Department of Chemistry and Biochemistry, Lamar University, Beaumont, TX 77710 USA), and Z. Guo (Integrated Composites Laboratory (ICL), Dan F. Smith Department of Chemical Engineering, Lamar University, Beaumont, TX 77710 USA)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort D3 Poster Session – 18:00 – 20:00 Co-Chair: Christian Bonhote •

917

Studies on Magnetic, Transport and Dielectric Properties of Ni0.65Zn0.35Fe2O4 Thin Films Grown by Pulsed Laser Deposition – D. K. Pradhan, P. Misra (University of Puerto Rico), V. S. Puli (Tulane University, New Orleans), and R. S. Katiyar (Department of Physics, University of Puerto Rico-Rio Piedras)

95

Tuesday, October 7


E3

918

X-Ray, Dielectric, and Ferroelectric Properties of La0.67Sr0.33MnO3/ Pb(Zr 0.53Ti0.47)0.60(Fe0.5Ta0.5)0.40O3 Artificial Multilayers and Superlattices structures – S. Kumari, N. P. Ortega (University of Puerto Rico), A. Kumar (National Physical Laboratory(CSIR), Delhi, India.), and R. S. Katiyar (Department of Physics, University of Puerto Rico-Rio Piedras)

09:20

982

09:40 10:00 983

Symposium in Honor of Professor Ralph E. White Industrial Electrochemistry and Electrochemical Engineering / Energy Technology

10:20

984

10:40

985

11:00

986

11:20

987

E3 Poster Session – 18:00 – 20:00

Tuesday, October 7

F2

966

967

Analysis of Tertiary Current Distribution Modeling in a Turbulent Flow inside Parallel-Plate Electrochemical Reactor Used for Copper Recovery – E. P. Rivero, M. R. Cruz-Díaz (Universidad Nacional Autónoma de México, Facultad de Estudios Superiores Cuautitlán), F. J. Almazán-Ruiz (Universidad Autónoma Metropolitana-Iztapalapa), and I. González (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Química) Improvement of the Performance of the Hydrodynamics in the Diluted Compartment of an Electrodeionization Reactor – R. Enciso-Pérez and I. Rodríguez-Torres (Instituto de Metalurgia UASLP)

Solid State Ionic Devices 10

High Temperature Materials / Energy Technology / Physical and Analytical Electrochemistry / Sensor Sunrise, 2nd Floor, Galactic Ballroom 5, Moon Palace Resort

Solid Oxide Fuel Cells II – 08:20 – 11:40 Co-Chairs: Gyeong Man Choi and Koichi Eguchi 08:20

979

08:40

980

09:00

981

96

Performance Comparison between Ni–SDC and Ni–YSZ Cermet Electrodes for Carbon Dioxide Electrolysis on Solid Oxide Electrolysis Cell – V. Singh, H. Muroyama, T. Matsui, and K. Eguchi (Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University Nishikyo-ku, Kyoto 615-8510, Japan) Mechanical and Electrical Properties of Ceramic Anode Supports for Solid Oxide Fuel Cells – C. M. Gore, A. M. Hussain, H. S. Yoon (University of Maryland), B. M. Blackburn (Redox Power Systems), and E. D. Wachsman (University of Maryland) NiO/YSZ Reduction for SOFC/SOEC Studied In Situ by Environmental Transmission Electron Microscopy – S. B. Simonsen, K. Agersted (DTU Energy Conversion), K. V. Hansen (Technical University of Denmark), T. Jacobsen (DTU Energy Conversion), J. B. Wagner, T. W. Hansen (Center for Electron Nanoscopy, DTU), and L. T. Kuhn (Technical University of Denmark)

Advanced 3D Imaging and Analysis of SOFC Electrodes – F. Tariq, V. Yufit, M. Kishimoto, G. Cui (Imperial College London), M. Somalu (National University of Malaysia), and N. P. Brandon (Imperial College London) Break Thermally robust thin-film SOFCs for mobile application – K. J. Kim, B. H. Park, and G. M. Choi (Pohang University of Science and Technology (POSTECH)) Towards the Microstructural Optimization of SOFC Electrodes Using Nano Particle Infiltration – M. Kishimoto, M. Lomberg, E. Ruiz-Trejo, and N. P. Brandon (Imperial College London) Coking Study in Anode Materials for SOFCs: Physicochemical Properties and Behavior of Mo-containing Perovskites in CO and CH4 Fuels – K. Zheng and K. Świerczek (AGH University of Science and Technology, Faculty of Energy and Fuels) Reaction Characteristics around Triple Phase Boundary in Anode including Proton Conductor for Solid Oxide Fuel Cell – T. Nagasawa and K. Hanamura (Tokyo Institute of Technology) Effect of Heat Treatment on Thermal Sprayed Protective Oxides for SOFC Metallic Interconnects – K. Z. Fung (Research Center for Energy Technology and Strategy, Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), S. Y. Tsai (Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), C. T. Ni (Dept. of Materials Science and Engineering, National Cheng Kung University), and H. C. Ho (National Cheng Kung University)

Solid Oxide Fuel Cells III – 14:00 – 17:00 Co-Chairs: Cortney R. Kreller and Eric D. Wachsman 14:00

988

14:20

989

14:40

990

Short Stack Performance Using Lower Temperature GDC-Based SOFC – H. S. Yoon (University of Maryland), B. M. Blackburn (Redox Power Systems), and E. D. Wachsman (University of Maryland) Testing of Large Format Lower Temperature SOFCs and Stacks with Hydrocarbon Fuels – B. M. Blackburn (Redox Power Systems), H. S. Yoon, C. M. Gore, and E. D. Wachsman (University of Maryland) Impact of Leakage Current on Performance of Solid Oxide Fuel Cell Stacks with Gadolinia-Doped Ceria Electrolytes – L. Wang (University of Maryland), G. S. Jackson (Colorado School of Mines), and B. M. Blackburn (Redox Power Systems)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


991

15:20 15:40 992

16:00

993

16:20

994

16:40

995

Synthesis and Characterization of DoubleDoped Bismuth Oxide Electrolytes for Lower Temperature SOFC Application – A. L. Ruth (University of Maryland Energy Research Center), K. T. Lee (Daegu Gyeongbuk Institute of Science and Technology, Republic of Korea, University of Maryland Energy Research Center), M. Clites, and E. D. Wachsman (University of Maryland) Break Effects of Current Collector Positions on Temperature and Reactive Current Distributions in a Micro-Tubular Solid Oxide Electrolysis Cell – T. Mizusawa and T. Araki (Yokohama National University) 3D Multiphysics Modelling and Design Optimisation of a Complete SOFC System Operating in Jülich – M. Peksen (Forschungszentrum Jülich GmbH) Numerical Study of SOFCs with Transport Properties of Gas and Charged Particles in Composite Electrodes – T. Yang (Mechanical and Aerospace Engineering Department, West Virginia University, Morgantown, WV) and I. B. Celik (Mechanical and Aerospace Engineering Department, West Virginia University, Morgantown, WV, U.S. Department of Energy, National Energy Technology Laboratory) Influence of Reactions of Carbon Black and Fuel Diffusion Process on Power Generation Characteristics of Rechargeable Solid Carbon Fuel Cells(RSCFCs) – Y. Chen, S. Sugiyama, S. Hattori, T. Izumi, and M. Ihara (Tokyo Institute of Technology)

999

1000

1001

1002

1003

1004

1005

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Sold State Ionic Devices I Poster Session – 18:00 – 20:00 •

996

997

998

Electronic Structure Measurements of Heteroepitaxial Solid Oxide Fuel Cell Cathode Thin Films – Y. Yu, K. F. Ludwig, U. B. Pal, S. Gopalan, and S. N. Basu (Boston University) Poisoning Effect of Sulfur Compounds in Pulse Jet-Rechargeable Direct Carbon Fuel Cells – S. Hattori, S. Sugiyama, H. Tanaka, Y. Chen, and M. Ihara (Tokyo Institute of Technology) Development of Anode Materials for SOFCs Having Enhanced Durability by Employing Sintering Inhibitors – S. B. Lee (Korea Institute of Energy Research), M. S. Khan, W. Wahyudi (KIER, UST), R. H. Song (Departement of Advanced Energy Technology, University of Science and Technology), J. W. Lee, T. H. Lim, and S. J. Park (Korea Institute of Energy Research)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Characterization of Ion Exchange Membrane Based on Hydrocarbon Based Polymer and Functional Additives – S. Y. Nam (Department of Materials Engineering and Convergence Technology, Gyeongsang National University) and D. Kim (404-422 functional nano polymer lab. 501 jinjudaero, gyeongsang national university) Effect of Operating Conditions on the Electrochemical Performance of Ni-YSZ Cermet Anode for Solid Oxide Fuel Cells Using Octane Fuel – D. Yamamoto (Tokai University), K. Tomomichi (The University of Tokyo), S. Yamagami, Y. Yamada, M. Kinoshita, M. Yoshinaga, and K. Sasaki (Tokai University) Molecular Dynamics Simulation on Oxide Ion Conduction of La-Based Perovskite Oxides for SOFCs Electrolyte – M. Y. Yoon (Inha University), S. M. Jeong (KICET), and H. J. Hwang (Inha University) Electrochemical Performance of Cu-GDC Cermet Anode for Solid Oxide Fuel Cells Using Octane Fuel – K. Tomomichi (The University of Tokyo), D. Yamamoto, S. Yamagami, M. Kinoshita, Y. Yamada (Tokai University), A. Suzuki, T. Terai (The University of Tokyo), and K. Sasaki (Tokai University) Ionic Conductivity of Eusz Thin Films – I. Paredes, E. B. Ramírez (Universidad Autónoma de la Ciudad de México), and J. C. Alonso (Instituto de Investigaciones en Materiales - Universidad Nacional Autónoma de México) Electronic and Morphological Characterization of Nanostructured NiDoped (Ce,Gd)O2-d Anodes for IT-SOFCs – A. Fernandez Zuvich (Centro Atómico Bariloche, CNEA, Argentina), A. Soldati, L. C. Baqué (CONICET-Centro Atómico Bariloche, CNEA, Argentina), D. G. Lamas (Laboratorio de Caracterización de Materiales, Facultad de Ingeniería, Universidad Nacional Del Comahue, Neuquén, Argentina), S. Larrondo (Centro de Investigaciones en Sólidos CINSO-CONICET-CITEDEF, Argentina, Laboratorio de Procesos Catalíticos, Depto. de Ing. Química, FIUBA, Argentina), A. Serquis (CONICET-Centro Atómico Bariloche, CNEA, Argentina), M. Saleta (Brazilian Synchrotron Light Laboratory (LNLS), Campinas, Brazil), and A. Caneiro (Centro Atómico Bariloche, CNEA) Low-Polarization Composite Cathodes Based on Nanocatalysts and Oxygen Ion Conductor for Solid Oxide Fuel Cell (SOFC) Applications – K. Z. Fung (Research Center for Energy Technology and Strategy, Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), S. Y. Tsai (Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), M. H. Lai, and C. T. Ni (Dept. of Materials Science and Engineering, National Cheng Kung University) 97

Tuesday, October 7

15:00


F3

Polymer Electrolyte Fuel Cells 14 (PEFC 14)

10:20

1077

10:40

1078

11:00

1079

11:20

1080

Industrial Electrochemistry and Electrochemical Engineering / Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Jupiter 1 & 2, Moon Palace Resort

C1-1. Hydrocarbon Membranes – 08:00 – 09:40 Co-Chairs: Deborah Jones and Thomas A. Zawodzinski

Tuesday, October 7

08:00

1059

08:20

1060

08:40

1061

09:00

1062

Potentiality of Hydrocarbon Membrane for Durability Improvement of Pt and PtCo Alloy Catalyst and Pt Loading Reduction – D. Izuhara, H. Umeda, Y. Ito, Y. Shintaku, and S. Adachi (TORAY Industries, Inc.) PVA/Polyelectrolyte Bipolar Membranes for Fuel Cell Applications – J. A. Staser, O. Movil-Cabrera, and L. Frank (Ohio University) Quantum Chemical Analysis about Deprotonation Reaction of Sulfonic Group of Modeled Hydrocarbon Membrane in Low Hydration Level – H. Sakai (Institute of Fluid Science, Tohoku University) and T. Tokumasu (Tohoku University) Invited: Development of Highly Phosphonated Polymers for Fuel Cell Membranes – P. Jannasch (Lund University)

Sunrise, 2nd Floor, Star Ballroom 8, Moon Palace Resort E1-1. Electrocatalysis in Alkaline Media I – 08:00 – 11:40 Co-Chair: Emiliana Fabbri 08:00

08:40

09:20

1073

1074

1075

09:40 10:00 1076

98

Invited: Unraveling the Oxygen Reduction Reaction Mechanism and Activity of d-Band Perovskite Electrocatalysts for Low Temperature Alkaline Fuel Cells – E. Fabbri (Paul Scherrer Institut), R. Mohamed, P. Levecque, O. Conrad (HySA/Catalysis Centre of Competence, University of Cape Town), R. Kötz, and T. J. Schmidt (Paul Scherrer Institut) Invited: Hydrogen Oxidation and Evolution Reaction (HOR/HER) on Pt Electrodes in Acid vs. Alkaline Electrolytes: Mechanism, Activity and Particle Size Effects – J. Durst (Technical Electrochemistry, Technische Universität München), C. Simon, A. Siebel, P. J. Rheinländer, T. Schuler, M. Hanzlik, J. Herranz (Technische Universität München), F. Hasché (Technical Electrochemistry, Technische Universität München), and H. A. Gasteiger (Technische Universität München) HOR in Alkaline Membrane Fuel Cells: Hollow Octahedral Electrocatalysts – M. Shviro, S. Polani (Bar Ilan University), and D. Zitoun (Bar Ilan University, Israel) Intermission Defective Nitrogen-Doped Graphene Foam: A Highly Durable Electrocatalyst for Alkaline Medium – J. Liu (Faculty of Engineering, Kyushu University), K. Sasaki (Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University), and S. M. Lyth (Kyushu University)

Palladium Nanoparticles Supported on Nitrogen-Doped Graphene Nanosheets as a Highly Active Electrocatalyst for Oxygen Reduction Reaction – K. Jukk, N. Kongi (Institute of Chemistry, University of Tartu), L. Matisen (Institute of Physics, University of Tartu), T. Kallio, K. Kontturi (School of Chemical Technology, Aalto University), and K. Tammeveski (Institute of Chemistry, University of Tartu) Development of Carbon Nanofiber Based Non-Precious Metal Catalysts for Oxygen Reduction Reaction – M. J. Kim (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)), D. H. Nam (Korea Advanced Institute of Science and Technology), S. J. Yoo, J. Y. Kim, J. H. Jang, H. J. Kim, and E. A. Cho (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)) Cathode Design of Non PGM Catalysts for Anion Exchange Membrane Fuel Cells – K. Asazawa, E. Nishino (Daihatsu Motor Co., Ltd., Japan Science and Technology Agency, CREST), H. Kishi (Daihatsu Motor Co.,LTD, Japan Science and Technology Agency, CREST), J. Miyake, M. Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi, Japan Science and Technology Agency, CREST), K. Miyatake (Fuel Cell Nanomaterials Center, University of Yamanashi, Japan, Japan Science and Technology Agency, CREST), and M. Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Analysis of the Electrochemical Performance of Ptni/MWCNT in Alkaline Media – A. M. Valenzuela-Muñiz, I. Alonso-Lemus, B. Escobar, and Y. Verde Gomez (Instituto Tecnologico de Cancun)

Sunrise, 2nd Floor, Jupiter 3 & 5, Moon Palace Resort D1-1. Activity and Durability of Pt-Based Catalysts III (Core-Shell Structure) – 08:00 – 12:00 Co-Chairs: Kotaro Sasaki and Hideo Daimon 08:00

1063

Change in ORR Activity of PtPd/C Alloy and Pt/Pd/C Core-Shell Catalysts with Accelerated Durability Test – H. Daimon (Faculty of Science and Engineering, Doshisha University), K. Okuno, A. Shirai (Faculty of Science and Engineering, Doshisha University,), N. Aoki, H. Inoue (Ishifuku Metal Industry), T. Doi, and M. Inaba (Department of Molecular Chemistry and Biochemistry, Doshisha University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1064

Investigations on Pt-Pd Aerogels for Oxygen Reduction Reaction – M. Oezaslan (Electrochemistry Laboratory, Paul Scherrer Institut), M. Nachtegaal (In situ X-Ray Spectroscopy, Paul Scherrer Institut), C. Yilmaz (Electrochemistry Laboratory, Paul Scherrer Institut), C. Bonnaud (Engineering School Phelma Grenoble INP), W. Liu, A. K. Herrmann, M. Werheid, N. Gaponik, A. Eychmüller (TU Dresden; Physical Chemistry), and T. J. Schmidt (Electrochemistry Laboratory, Paul Scherrer Institut) 08:40 1065 Invited: Enhanced Activities for the Oxygen Reduction Reaction at PtSkin Layers on Pt-Co Alloy SingleCrystal Electrodes – M. Wakisaka (Fuel Cell Nanomaterials Center, University of Yamanashi), S. Morishima (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), D. A. Tryk (Fuel Cell Nanomaterials Center, University of Yamanashi), H. Uchida (Clean Energy Research Center, University of Yamanashi), and M. Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) 09:20 1066 Synchrotron-Based In Situ Characterization of Accelerated Degradation for Pt and Pt Monolayer Electrocatalysts – K. Sasaki, H. Isaacs (Chemistry Department, Brookhaven National Laboratory), N. Marinkovic (University of Delaware), and R. Adzic (Chemistry Department, Brookhaven National Laboratory) 09:40 Intermission 10:00 1067 MEA Pt/C Cathode Catalyst Degradation during Repeated Anode Gas Exchange Cycles: In-Situ XAFS, STEM-EDS and Electrochemical Analysis – G. Samjeské, K. Higashi, S. Takao, K. Nagamatsu, K. Nagasawa, O. Sekizawa, T. Kaneko (Innovation Research Center for Fuel Cells, The University of ElectroCommunications), T. Uruga (JASRI/ SPring-8), and Y. Iwasawa (Innovation Research Center for Fuel Cells, The University of Electro-Communications) 10:20 1068 In-Situ Analysis of Scan Rate Effect on Pt Dissolution Under Potential Cycling – Z. Wang, E. Tada, and A. Nishikata (Tokyo Institute of Technology) 10:40 1069 Dissolution of Platinum Single Crystal Surfaces under Potential Cycling in Sulfuric Acid Solution – Y. Sugawara, M. Sasaki, I. Muto, and N. Hara (Department of Materials Science, Tohoku University) 11:00 1070 Investigation of Impact of Carbon Surface Oxidation on Wettability of PEMFC Cathode Electrode – N. Takeuchi (Toyota Motor Corporation) 11:20 1071 RuO2 Nanosheet as a Durability Enhancing Additive to Pt/C Catalyst: Model Electrode Studies – W. Sugimoto, Q. Liu, and C. Chauvin (Shinshu University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

11:40

1072

Application of Oxygen Evolution Reaction Catalyst to Polymer Electrolyte Membrane Fuel Cells for Protection of Carbon Corrosion during Transient Conditions in Fuel Cell Vehicle – M. Min, N. W. Kong, E. You, T. Y. Kim, and C. Pak (Fuel Cell Group, Battery Research & Development Center, Samsung SDI Co., Ltd)

Sunrise, 2nd Floor, Galactic Ballroom 7, Moon Palace Resort B1-1. Cell and Electrode Structures and Performance – 08:00 – 12:05 Co-Chairs: Benjamin D. Gould and Neus Sabate 08:00 08:05 1052 08:45

1053

09:25

1054

09:45 10:05 1055

10:45

1056

11:25

1057

11:45

1058

Welcoming Remarks Invited: Corrugated Cell Structures in Membrane Electrode Assemblies – S. Grot (Ion Power) Invited: Coatings for Robust Metal Bipolar Plates – C. Wang and Y. Tao (TreadStone Technologies, Inc.) Performance Variation of Flexible Polymer Electrolyte Fuel Cell with Ag Nanowire Current Collector under Torsion – T. Park (Mechanical and Aerospace Engineering, Seoul National University), I. Chang (Graduate School of Convergence Science and Technology, Seoul National University), J. Lee (Mechanical Engineering, Korea Advanced Institute of Science and Technology), S. H. Ko, and S. W. Cha (Mechanical and Aerospace Engineering, Seoul National University) Intermission Invited: From PEM Fuel Cell Design to Biological Fuel Cells: Status of Systems Development for Biological Fuel Cells – M. Rasmussen (The University of Utah), R. D. Milton, D. P. Hickey, R. C. Reid (University of Utah), and S. D. Minteer (The University of Utah) Invited: Micro Fuel Cells: Can We Apply Them to a Successful Market? – J. P. Esquivel (Department of Bioengineering, University of Washington, Instituto Microelectrónica de Barcelona (IMBCNM-CSIC)), F. J. Del Campo (Instituto Microelectrónica de Barcelona (IMBCNM-CSIC)), J. L. Gomez de la Fuente, S. Rojas (Instituto de Catálisis y Petroleoquímica (ICP-CSIC)), and N. Sabate (Instituto Microelectrónica de Barcelona (IMB-CNM-CSIC)) Novel Dead-Ended Anode Design for Self-Regulating Humidification in an AirBreathing H2-PEM Fuel Cell – P. FerreiraAparicio and A. M. Chaparro (CIEMAT) The Effect of Common Airborne Impurities and Mixtures on PEMFC Performance and Durability – M. Angelo and J. StPierre (Hawaii Natural Energy Institute, University of Hawaii - Manoa)

99

Tuesday, October 7

08:20


Sunrise, 2nd Floor, Star Ballroom 5, Moon Palace Resort

10:20

1090

10:40

1091

11:00

1092

11:20

1093

11:40

1094

A1-1. Catalyst Layer – 08:20 – 11:20 Co-Chairs: Marc Secanell and Ugur Pasaogullari 08:20

Tuesday, October 7

08:40

1081

1082

09:00

1083

09:20

1084

09:40 10:00 1085

10:20

1086

10:40

1087

11:00

1088

Invited: Characterization of Polymer Electrolyte Fuel Cells with Ultra-Low Catalyst Loadings – M. L. Perry (United Technologies Research Center) Microstructure Characterization of a PEMFC Catalyst Layer: Effect on Performance – N. M. Cantillo (Chemical and Biomolecular Engineering Department, University of Tennessee - Knoxville), L. Li (University of Tennessee - Knoxville), D. C. Orozco (The University of Tennessee), G. A. Goenaga (Chemical and Biomolecular Engineering Department, University of Tennessee - Knoxville), K. L. More, and T. A. Zawodzinski (Oak Ridge National Laboratory) The Impacts of Cathode Catalyst Layer Morphology on PEMFC Design – A. P. Young, V. Colbow, D. Cheng, S. Ye, and S. Wessel (Ballard Power Systems) Effect of Patterning of PEM Fuel Cell Electrodes Fabricated Using Inkjet Printing Technology – S. Shukla, K. Domican, and M. Secanell (University of Alberta) Break A New CCM/MPL Structure for High Power Density Polymer Electrolyte Fuel Cells – J. Park, U. Pasaogullari (Department of Mechanical Engineering, University of Connecticut, Center for Clean Energy Engineering, University of Connecticut), and L. J. Bonville (Center for Clean Energy Engineering, University of Connecticut) Improved Cathode Catalyst Layers for Proton Exchange Membrane Fuel Cells – K. Jayasayee (SINTEF), A. Zlotorowicz (Norwegian University of Science and Technology), D. P. Clos, O. Dahl, M. S. Thomassen, P. I. Dahl (SINTEF), and S. Kjelstrup (Norwegian University of Science and Technology) Modulated Ionomer Distribution for High Performance PEMFC – H. T. Kim, J. K. Park, M. J. Choo, and K. H. Oh (KAIST) Interlocking Membrane/Catalyst Layer interface for High Mechanical Robustness of Hydrocarbon Membrane Based PEMFC – H. T. Kim, J. K. Park, M. J. Choo, and K. H. Oh (KAIST)

Sunrise, 2nd Floor, Jupiter 1 & 2, Moon Palace Resort C1-2. Membrane Durability and Degradation – 10:00 – 12:00 Co-Chairs: Erik Kjeang and Frank D. Coms 10:00

100

1089

Kinetic Modeling of Chemical Degradation Phenomena in Fuel Cell Ionomers – M. Ghelichi, P. A. Melchy (Simon Fraser University, Department of Chemistry), and M. Eikerling (Simon Fraser University)

Study on Protocols for Evaluating Durability of PEFC Electrolyte Membranes – Y. Oono (Fuel Cell Research Center, Daido University), K. Kobayashi (DAIDO UNIVERSITY), and M. Hori (Fuel Cell Research Center, Daido University) An Experimental Study on Local Thinning and Pinhole Formation Phenomena in PEM Fuel Cell Membranes – A. Tavassoli, C. Lim (Simon Fraser University), J. Kolodziej, M. Lauritzen, S. Knights (Ballard Power Systems), G. Wang, and E. Kjeang (Simon Fraser University) Ceria and Doped Ceria Nanoparticle Additives for Polymer Fuel Cell Lifetime Improvement – S. M. Stewart (Stanford University), R. L. Borup, M. S. Wilson (Los Alamos National Laboratory), A. Datye (University of New Mexico), and F. H. Garzon (Los Alamos National Laboratory) Mechanism of Perfluorosulfonic Acid Membrane Chemical Degradation under Low RH Conditions – F. D. Coms (General Motors Company), H. Xu, T. McCallum, and C. Mittelsteadt (Giner, Inc.) The Effect of Platinum in the Membrane on Fuel Cell Membrane Durability – N. Macauley (Simon Fraser University), M. Watson (Ballard Power Systems), E. Kjeang (Simon Fraser University), M. Lauritzen (Ballard Power Systems), A. S. Alavijeh (Simon Fraser University), and S. Knights (Ballard Power Systems)

Sunrise, 2nd Floor, Star Ballroom 5, Moon Palace Resort A1-2. Membrane and Cell Characterization – 14:00 – 17:00 Co-Chairs: Guido Bender and Walter Mérida 14:00

1095

14:40

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15:00

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Invited: Confinement Effects on the Structure and Transport of Nafion Ultrathin Films – C. M. Stafford (National Institute of Standards and Technology), K. Page (Materials Science and Engineering Division, NIST), E. M. Davis (National Institute of Standards and Technology), S. Kim (Materials Science and Engineering Division, NIST), J. Dura (Center for Neutron Research, NIST), K. Yager (Center for Functional Nanomaterials, Brookhaven National Laboratory), A. Kusoglu (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory), and C. L. Soles (National Institute of Standards and Technology) Vibrational Spectroscopy and 2D Correlation Analysis as a Probe of Structure in Ionomer Membrane Materials – C. Korzeniewski and C. K. Byun (Texas Tech University) Study of the Constrained Expansion of Nafion within the Hardware of a PEMFC – M. A. Folgado, P. Ferreira-Aparicio, and A. M. Chaparro (CIEMAT)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


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15:40 16:00 1099

16:20

1100

16:40

1101

The Effect of Cathode Pressure Perturbations on the Voltage Stability of a Simulated Fuel Cell Stack – M. Burkholder (Carnegie Mellon University) and S. Litster (Mechanical Engineering, Carnegie Mellon University) Break Quality Control Diagnostics for Mass Produced Fuel Cell Gas Diffusion Electrodes – G. Bender and M. Ulsh (National Renewable Energy Laboratory) PEMFC characterization and diagnostics – S. Dhanushkodi, M. Schwager, and W. Mérida (Clean Energy Research Centre, University of British Columbia) Effect of Oxygen Concentration on Current Density Distribution in the Land-Channel Direction – U. N. Shrivastava and K. Tajiri (Michigan Technological University)

Sunrise, 2nd Floor, Jupiter 1 & 2, Moon Palace Resort

16:25

1107

16:45

1108

Sunrise, 2nd Floor, Galactic Ballroom 7, Moon Palace Resort D1-2. Pt-Based Catalysts with Durable Supports I – 14:00 – 18:00 Co-Chairs: Ifan Erfyl Lester Stephens and Karren L. More 14:00

1109

14:40

1110

15:00

1111

15:20

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15:40

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B1-2 Advanced Stacks and Systems – 14:00 – 17:05 Co-Chairs: Gregory S. Jackson and Y. Meas 14:00 14:05 1102

14:45

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15:05

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15:45

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16:05

Introductory Remarks Invited: Recent Advances on Energy Conversion Using Microfluidic Fuel Cells Technology, Case: Glucose Membraneless Micro Fuel Cell Stack – F. M. CuevasMuñiz (Centro de Investigación y Desarrollo en Tecnología Electroquímica), A. U. Chavez (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), M. Guerra-Balcázar (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), L. A. Godínez Mora-Tovar (Centro de investigacion y desarrollo tecnologico en electroquimica), J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Performance of 3D-Printed Fuel Cells and Stacks – B. D. Gould, C. J. Netwall, J. A. Rodgers, R. Ramamurti (Naval Research Laboratory), M. Schuette (Sotera Defense), K. Bethune, R. Rocheleau (Hawaii Natural Energy Institute, University of Hawaii Manoa), and K. Swider-Lyons (U.S. Naval Research Laboratory) Recent Progress in Commercial PEM Fuel Cell Stacks – W. Kerkhof, J. Coolegem (Nedstack fuel cell technology BV), and M. Smit (Nedstack fuel cell technology BV, Centro de Investigacion Cientifica de Yucatan AC) Optimization of Component Material Properties and Flow Channel Geometric Parameters in a PEM Fuel Cell Cathode – K. Lange, C. Lueth, A. Godfrey, and S. Hartridge (CD-adapco) Intermission

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Understanding Direct Borohydride – Hydrogen Peroxide Fuel Cell Performance with a Calibrated Numerical Model – R. O. Stroman (Naval Research Laboratory) and G. S. Jackson (Colorado School of Mines) Development of Numerical Simulation and Visualization System for the Designing of Polymer Electrolyte Fuel Cell Stack – M. Yoneda, H. Motegi, T. Takayama, R. Takayama, H. Yoshimura (Mizuho Information & Research Institute, Inc.), J. Inukai (University of Yamanashi), H. Nishide (Waseda University), and M. Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi)

16:00 16:20 1114

Invited: Tailoring Platinum Group Metals Towards Optimal Activity for Oxygen Electroreduction to H2o and H2O2: From Extended Surfaces to Nanoparticles – I. E. L. Stephens (Technical University of Denmark) The Effect of Carbon Support Structure on Ionomer Distributions in PEM Fuel Cell Catalyst Layers – K. L. More, D. A. Cullen, and K. S. Reeves (Oak Ridge National Laboratory) Design of Highly Durable Electrocatalyst for High-Temperature Polymer Electrolyte Fuel Cell – T. Fujigaya, M. R. Berber (Kyushu University, Department of Applied Chemistry), and N. Nakashima (International Institute for Carbon-Neutral Energy Research (WPI-I2CNER), Kyushu University, Department of Applied Chemistry) Structure Formation and Characterization of PEMFC Catalyst Layers Blended with Multi-Walled Carbon Nanotubes – T. Suzuki, R. Hashizume, and M. Hayase (Tokyo University of Science) Analysis of Material and Charge Transfer in the Fiber Catalyst Layer for Polymer Electrode Fuel Cells – H. Ishitobi, T. Yoshida, and N. Nakagawa (Division of Environmental Engineering Science, Faculty of Science and Technology, Gunma University) Intermission Pt-Decorated Non-Covalently Functionalized Carbon Graphitic Structures as Durable Catalyst for ORR – E. Negro (Delft University of Technology), G. Koper (TU Delft), V. Baglio (CNR-Institute of Advanced Energy Technologies (ITAE)), A. Stassi (cnr-itae), and A. S. Aricò (CNRITAE Institute)

101

Tuesday, October 7

15:20


Tuesday, October 7

16:40

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17:00

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17:20

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17:40

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Stability of Pt/MWCNT Electrocatalyst during Startup and Shutdown Cycles: Voltage Degradation in PEM Fuel Cells – F. Hasché (Technical Electrochemistry, Technische Universität München), N. Aoun (Institute of Chemical Process Engineering, Clausthal University of Technology), P. Weber, J. Durst (Technical Electrochemistry, Technische Universität München), U. Kunz, T. Turek (Institute of Chemical Process Engineering, Clausthal University of Technology), and H. A. Gasteiger (Technische Universität München) Synthesis of Reduced Graphene OxidesSupported Binary Catalysts and Its Electrocatalytic Activity – A. J. Jeevagan, T. Gunji, M. Hashimoto (Kanagawa University), S. Kaneko (Research Institute for Engineering, Kanagawa University), M. Tanaka (Department of Applied Chemistry, Tokyo Metropolitan University), and F. Matsumoto (Kanagawa University) Nitrogen-Doped Nanocarbon Supported Pt Electrocatalysts: Oxygen Reduction and Methanol Oxidation – G. Wu (Los Alamos National Laboratory) 2D Platinum Network ORR Catalyst on Carbon and Metal Oxide Hybrid Support – C. Xu, J. Yang, B. Pence, K. Gath, M. Sulek, P. Pietrasz (Ford Motor Company), K. Sun (University of Michigan), E. Sohm (ULVAC Technologies, Inc), and G. Meng (Ulvac-Riko, Inc)

15:20

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15:40

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16:00 16:20 1124

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Sunrise, 2nd Floor, Star Ballroom 8, Moon Palace Resort E1-2. Electrocatalysis in Alkaline Media II – 14:00 – 18:00 Co-Chair: Su Ha 14:00

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Invited: Comparative Study of the Electrocatalytic Oxidation of Glycerol on Pd-Au/CMO and Pd-Au/MWCNT Nanocatalysts Prepared By the Polyol Method in Alkaline Media – R. ArenasCarmona, A. Martinez-Luevanos (Universidad Autónoma de Coahuila), D. Morales-Acosta, and F. J. Rodriguez-Varela (Cinvestav) Glycerol Electrooxidation on Well-Shaped Pd Nanoparticles Modified By Bi-Adatoms – C. Coutanceau, A. Zalineeva, and S. Baranton (Université de Poitiers, IC2MP, UMR CNRS 7285) Self-Supported PdSnx Catalysts for the Electrooxidation of Alcohols – C. Coutanceau, A. Zalineeva (Université de Poitiers, IC2MP, UMR CNRS 7285), M. Padilla, A. Serov (University of New Mexico, Center for Emerging Energy Technologies), S. Baranton (Université de Poitiers, IC2MP, UMR CNRS 7285), and P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies)

Generation of Value-Added Products from Glycerol Oxidation by Pd Based Catalysts in Alkaline Medium – L. M. Palma, T. S. Almeida (Departamento de Química da Faculdade de Filosofia Ciências e Letras de Ribeirão Preto, Universidade de São Paulo), V. L. Oliveira (Instituto de Química de São Carlos, Universidade de São Paulo), C. Morais, T. W. Napporn (Université de Poitiers), G. Tremiliosi-Filho (university of São Paulo), K. B. Kokoh (Université de Poitiers), and A. R. De Andrade (Universidade de São Paulo) Investigation of Nb2O5/Graphene Supported Platinum-Cobalt Nanocomposite As Electrocatalyst for the Alkaline Alcohols Fuel Cells – V. Kepeniene, J. Vaiciuniene, R. Kondrotas, V. Pakstas, L. Tamasauskaite-Tamasiunaite, and E. Norkus (Center for Physical Sciences and Technology) Intermission Operand XAFS Study of Hydrazine Oxidation Catalysts for Use in Anion Exchange Membrane Fuel Cells – T. Sakamoto (Daihatsu Motor Co., Ltd., Japan Science and Technology Agency, CREST), K. Asazawa (Japan Science and Technology Agency, CREST, Daihatsu Motor Co., Ltd.), and H. Tanaka (Daihatsu Motor Co., Ltd.) Pd-Based Bimetallic and Trimetallic Catalyst for Direct Formic Acid Fuel Cells – S. Hu (Washington State University), J. Noborikawa, J. Haan (California State University), L. Scudiero (Washington State University), and S. Ha (Washington State University, Kyung Hee University) Effect of Au and Ru in Au@Pd and Ru@ Pd Core@Shell Nanoparticles for Direct Formic Acid Fuel Cells – S. Hu, L. Scudiero (Washington State University), and S. Ha (Washington State University, Kyung Hee University) Gold-Metal (Ni, Cu) Deposited on the Titania Nanotubes as Electrocatalysts for Borohydride Oxidation – A. Balciunaite, I. Stankevičienė, A. Zabielaite, J. Vaiciuniene, A. Selskis, R. Juskenas, L. Tamasauskaite-Tamasiunaite, and E. Norkus (Center for Physical Sciences and Technology) Investigation of Nickel-Rare Earth Electrodes for Sodium Borohydride Electrooxidation – D. M. F. Santos, B. Sljukic, L. Amaral, C. A. C. Sequeira (Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, Universidade de Lisboa, 1049-001 Lisboa, Portugal), D. Macciò, and A. Saccone (Università di Genova, Dipartimento di Chimica e Chimica Industriale, Genova I-16146, Italy)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


PEFC-14 Poster Session – 18:00 – 20:00 Co-Chairs: Vijay K. Ramani and Thomas J. Schmidt •

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Enhancement of Electrocatalytic Activity for Oxygen Reduction Reaction on TiO2-Supported Pt-Based Intermetallic Compound Catalysts – T. Tanabe, T. Gunji, K. Sasaki, A. J. Jeevagan, T. Tsuda (Kanagawa University), S. Kaneko (Research Institute for Engineering, Kanagawa University), G. Saravanan (CSIR-National Environmental Engineering Research Institute (CSIRNEERI)), H. Abe (National Institute for Materials Science (NIMS)), M. Tanaka (Department of Applied Chemistry, Tokyo Metropolitan University), and F. Matsumoto (Kanagawa University) PEFC Cathode Catalysts Using Doped and Non-Doped Titanium Oxide Support – T. Ioroi, T. Nagai, M. Asahi, S. I. Yamazaki, Z. Siroma, N. Fujiwara, and K. Yasuda (National Institute of Advanced Industrial Science and Technology (AIST)) Designing Partially Coated Ultrathin Hydrophobic Silica Layer for Highly Conductive and Durable Carbon Nanofiber as Cathode Carbon Support in Polymer Electrolyte Fuel Cells – J. H. Park, S. M. Hwang, A. Kim, S. Lim (Korea Institute of Energy Research (KIER)), H. Guim, J. Won (Korea Basic Science Institute (KBSI)), H. B. Bae (KAIST), G. G. Park, Y. G. Yoon (Korea Institute of Energy Research (KIER)), S. D. Yim (Korea Insititue of Energy Research (KIER)), and T. Y. Kim (Korea Institute of Energy Research (KIER)) Development of Pt-Co-Mn Ternary Alloy Catalyst for PEFCs – M. Ishida (Tanaka Kikinzoku Kogyo K.K.) and K. Matsutani (Tanaka Kikinzoku Kogyo K. K.) Sonochemical Synthesis of Platinum Catalysts Supported on Carbonized Polyaniline for Proton Exchange Membrane Fuel Cell – H. Lee, K. Kim (Department of Energy and Chemical Engineering, Incheon National University), J. J. Kim (School of Chemical and Biological Engineering, Seoul National University), and O. J. Kwon (Department of Energy and Chemical Enginnering, Incheon National University) Improvement of ORR Activity of Agpt Alloy Catalyst after Accelerated Durability Test – K. Nakamura (Doshisha University), N. Aoki, H. Inoue (Ishifuku Metal Industry), H. Daimon (Faculty of Science and Engineering, Doshisha University), T. Doi, and M. Inaba (Department of Molecular Chemistry and Biochemistry, Doshisha University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

1135

Changes in ORR Activity and Surface Structure of Pt/Pd/C Catalyst with Accelerated Durability Test – A. Shirai (Faculty of Science and Engineering, Doshisha University,), N. Aoki, H. Inoue (Ishifuku Metal Industry), T. Doi (Department of Molecular Chemistry and Biochemistry, Doshisha University), H. Daimon (Faculty of Science and Engineering, Doshisha University), and M. Inaba (Department of Molecular Chemistry and Biochemistry, Doshisha University) 1136 Selective Dissolution Behavior of Fe from Pt-Fe Binary Alloy in Sulfuric Acid by CFDE – A. Ooi (Mater. & Sci., Tokyo Institute of Techonology), E. Tada, and A. Nishikata (Tokyo Institute of Technology) 1137 Correlation Between Preparation Condition and Performance of Pt/SnO2/ KB for Cathode Catalyst of PEMFC – S. Kitayama, T. Kinumoto, N. Eguchi, M. Matsuoka, T. Tsumura, and M. Toyoda (Oita University) 1138 Electrochemical Characterization of SbDoped SnO2 as Electrocatalyst Support for Electrochemical Energy Conversion Systems – R. D. J. Hernández Cortés, M. P. Gurrola (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), S. Rivas Gandara (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), A. U. Chavez (Centro de Investigación y Desarrollo Tecnológico en Electroquimica), J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) 1139 Shell Thickness Effect on ORR Activity of Au Core - Pt Shell Electro-Catalyst – J. Ishihara, H. Aoki, X. Wang, Y. Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), K. Okazaki (Office of Society-Academia Collaboration for Innovation, Kyoto University), and Y. Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University) 1140 Pt/SnO2 Electrocatalysts on Conductive Fillers – D. Horiguchi, T. Tsukatsune, Z. Noda, A. Hayashi, and K. Sasaki (Kyushu University) 1141 Synthesis of Pt@Ni Core-Shell Nanoparticles Using Mwcnt’s Supported for Oxygen Reduction Reaction – G. Rosado, B. Escobar, A. M. ValenzuelaMuñiz (Instituto Tecnologico de Cancun), R. Barbosa (Universidad de Quintana Roo), and Y. Verde Gomez (Instituto Tecnologico de Cancun) 1142 Nanostructured Platinum and Carbon Supported Pt-Ni Catalyst for Polymer Electrolyte Fuel Cell – V. T. Hong Phuong (University of Baria-Vungtau), T. V. Man, and L. M. L. Phung (Vietnam National University) 103

Tuesday, October 7

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort


Tuesday, October 7

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Enhancement in ORR Activity of Pt/ Pd/C Catalyst by Removal of Small Size Pd Core Particles – N. Aoki (Ishifuku Metal Industry), T. NIshikawa, Y. Ikehata, H. Daimon (Faculty of Science and Engineering, Doshisha University), M. Inaba (Department of Molecular Chemistry and Biochemistry, Doshisha University), and H. Inoue (Ishifuku Metal Industry) A Carbon-Based Non-Precious Metal Catalyst Mnhmta/C for Oxygen Reduction Reaction – Y. Si, Z. Xiong, and M. Li (College of Chemistry and Pharmaceutical Engineering, Sichuan University of Science and Engineering) Preparation of a Carbon-Based NonPrecious Metal Catalyst Fehmta/C for Oxygen Reduction Reaction – Z. Xiong and Y. Si (College of Chemistry and Pharmaceutical Engineering, Sichuan University of Science and Engineering) Oxide-Based Electrocatalysts as Precious Metal and Carbon Free Cathodes for PEFC – M. Hamazaki, A. Ishihara (Yokohama National University), M. Arao, M. Matsumoto, H. Imai (NISSAN ARC Ltd.), Y. Kohno, K. Matsuzawa, S. Mitsushima, and K. I. Ota (Yokohama National University) Enhancement of Oxygen Reduction Activity of Titanium Nano-Oxide-Based Electrocatalysts for PEFC Cathode – T. Hayashi (Green Hydrogen Research Center, Yokohama National University), A. Ishihara (Yokohama National University), M. Matsumoto, H. Imai (NISSAN ARC Ltd.), Y. Kohno, K. Matsuzawa, S. Mitsushima, and K. I. Ota (Yokohama National University) Porphyrinic Carbon Electrocatalysts Decorated with Ultralow Active Metal for Oxygen Reduction Reaction (ORR) – S. M. Hwang, S. Y. Jeon (Korea Institute of Energy Research (KIER)), J. Y. Cheon, S. H. Joo (Ulsan National Institute of Science and Technology (UNIST)), Y. Choi (SABIC Technology Center (STC)), Y. J. Sohn, T. H. Yang, and G. G. Park (Korea Institute of Energy Research (KIER)) Performance Degradation of Polymer Electrolyte Membrane Fuel Cell through Fuel Starvation Induced by Anode Flooding – N. Jung, M. Kim (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)), K. Eom (School of Chemical & Biomolecular Engineering, Center for Innovative Fuel Cell and Battery Technologies, Georgia Institute of Technology), S. J. Yoo, J. Y. Kim, J. H. Jang, H. J. Kim, and E. Cho (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)) Numerical Analysis of Proton Conductivity in Hydrated Nafion Membrane Contaminated with Iron Ion – K. Kawai (Graduate School of Engineering, Tohoku University), T. Mabuchi, and T. Tokumasu (Tohoku University)

1151

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Degradation of Polymer Electrolyte Membrane Fuel Cell Under Pressure Cycle – J. H. Jung, S. J. Yoo, H. J. Kim, J. H. Jang, S. W. Nam, and E. A. Cho (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)) Development of Ir Nanocatalysts As CO2-Tolerant Anodes in Electrochemical Hydrogen Pumps for H2/CO2 Separation – S. J. Kim (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST), School of Chemical and Biological Engineering, Korea University), B. S. Lee (School of Chemical and Biological Engineering, Korea University, Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)), H. Y. Park, Y. H. Jung, I. Choi, E. A. Cho, H. J. Kim, D. Henkensmeier, S. W. Nam (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)), S. H. Kim (School of Chemical and Biological Engineering, Korea University), S. J. Yoo, and J. H. Jang (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)) Durability of Pt/Graphitized Carbon Black Catalysts Under Gas Exchange Startup Operating Conditions for Fuel Cell Vehicles – Y. Yamashita (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), S. Itami, J. Takano (Honda R&D Co., Ltd., Automobile R&D Center), M. Kodama, K. Kakinuma, M. Hara (Fuel Cell Nanomaterials Center, University of Yamanashi), H. Uchida (Clean Energy Research Center, University of Yamanashi), M. Watanabe, and M. Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi) Investigation of Performance and Durability of MEAs at Higher Temperature – M. Kitamura, Y. Minamida, Z. Noda (Faculty of Engineering, Kyushu University), A. Hayashi (International Research Center for Hydrogen Energy, Kyushu University), and K. Sasaki (Department of Mechanical Engineering, Kyushu University) Development of MEAs with Pt/ Mesoporous Carbon as a Cathode Catalyst – Y. Minamida, Z. Noda (Faculty of Engineering, Kyushu University), A. Hayashi (International Research Center for Hydrogen Energy, Kyushu University), and K. Sasaki (Department of Mechanical Engineering, Kyushu University) The Application of Ultrasound to the Coating of Platinum Catalyst on Membrane for Proton Exchange Membrane Fuel Cell – Y. Kim, K. Kim (Department of Energy and Chemical Engineering, Incheon National University), I. Choi (Department of Chemical Engineering, University of Michigan), J. J. Kim (School of Chemical and Biological Engineering, Seoul National University), and O. J. Kwon (Department of Energy and Chemical Enginnering, Incheon National University) Meeting Program l October 5-9, 2014 l Cancun, Mexico


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Molecular Simulation of Oxygen Permeation through Ionomer in Catalyst Layer – Y. Kurihara (Graduate School of Engineering, Tohoku University), T. Mabuchi, and T. Tokumasu (Tohoku University) Oxygen Partial Pressure inside Gas Diffusion Layer of PEFC during Power Generation Using Micro Probe – T. Kobayashi (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), M. Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), J. Inukai (University of Yamanashi), Y. Nakama, T. Ohno, Y. Nagumo (Shimadzu Co Ltd.), M. Teranishi (Panasonic Corporation), M. Yoneda (Mizuho Information & Research Institute, Inc.), J. Takano (Honda R&D Co., Ltd., Automobile R&D Center), T. Saiki (Keio University), T. Suga, H. Nishide (Waseda University), and M. Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Effect of Wettability of Micro-Porous Layer on Microscopic Water Transport Phenomena in PEFC – Y. Aoyama, K. Suzuki, Y. Tabe, T. Chikahisa (Hokkaido University), and T. Tanuma (Asahi Glass Co., Ltd.) Durability Analysis and Improvement of Modified Cathode Electrocatalyst to Operate PEFC Cell under Low Relative Humidity – H. Nakajima and K. Matsutani (Tanaka Kikinzoku Kogyo K. K.) Electrochemical Performance of MEAs with Pt/SnO2 Mixed with Conductive Fillers – Y. Nagamatsu, K. Kanda (Kyushu University), Z. Noda (Faculty of Engineering, Kyushu University), A. Hayashi (International Institute for CarbonNeutral Energy Research (WPI-I2CNER), Kyushu Univeristy), and K. Sasaki (NextGeneration Fuel Cell Research Center (NEXT-FC), Kyushu University) Analysis of Cathode Catalyst Layer Structure and Cell Performance in PEFC – S. Akabori, K. Suzuki, Y. Tabe, and T. Chikahisa (Hokkaido University) Inverse Opal Structure Platinum Electrode for Improving a Membrane-Electrode Assembly Performance of Polymer Electrolyte Membrane Fuel Cell – Y. H. Cho (Kookmin Univrsity), O. H. Kim (Seoul National University), Y. E. Sung (Center for Nanoparticle Research, Institute for Basic Science, and School of Chemical and Biological Engineering, Seoul National University), and H. Choe (Kookmin University) 2h Solid State NMR Studies of Proton Dynamics in Sulfonate Ionic Salt-Speek Composites – N. De Almeida, K. J. Harris, and G. Goward (McMaster University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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Oxygen Diffusion and Dissolution Rates in Sulfonated Polyetheretherketone Copolymer Thin Film Electrolyte Formed on Pt Microelectrode – K. Ino, A. Oda (Doshisha University), H. Daimon (Faculty of Science and Engineering, Doshisha University), T. Doi, and M. Inaba (Department of Molecular Chemistry and Biochemistry, Doshisha University) A Nonhumidified Fuel Cell Using Fluorohydrogenate Ionic Liquid - Polymer Composite Membrane: Advantages of the Use of Polyimide Membrane Supporting Material – P. Kiatkittikul, T. Nohira, and R. Hagiwara (Graduate School of Energy Science, Kyoto University) Fuel Cell Performance of Graft Type Poly (Ether Ether Ketone) Electrolyte Membranes – S. Hasegawa, J. Chen, H. Koshikawa, and Y. Maekawa (Quantum Beam Science Directorate, Japan Atomic Energy Agency) Effect of Nanostructure of the Electrocatalyst Based on Carbon Nanotube for the Activation Overpotential for PEFC – A. Nagashima (Kyushu University), T. Fujigaya, and N. Nakashima (JST-CREST) Polydimethylsiloxane-Based Block Copolymer for Anion Exchange Membrane Fuel Cells (AEMFC) – L. J. Ghil, M. S. Jun, and J. D. KIM (National Institute for Materials Science (NIMS)) Optimization of Operation Conditions for Alkaline Membrane Fuel Cells – S. Watanabe, T. Isomura, M. Yamaguchi, T. Negishi, K. Sadasue, Y. Hironaka, K. Oda, Y. Matsumura, Y. Kikkawa, T. Okamura, H. Furuya, and H. Yanagi (Tokuyama Corporation) Investigation the Conductivity of a Bulky Phosphonium Cation Functionalized Aems – Y. Liu (Department of Chemical & Biological Engineering, Colorado school of mines), B. Zhang, Y. Yan (Department of Chemical & Biomolecular Engineering, University of Delaware), M. W. Liberatore, and A. M. Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) Statistical and Block Copolymers for Anion-Exchange Membranes with High Local Concentrations of Quaternary Ammonium Groups – E. A. Weiber and P. Jannasch (Lund University) Gold-Zinc-Cobalt Deposited on Titanium as Electrocatalysts for Borohydride Oxidation – A. Balčiūnaitė, S. Lichušina, D. Šimkūnaitė, A. Zabielaitė, A. Selskis, L. Tamašauskaitė-Tamašiūnaitė, and E. Norkus (Center for Physical Sciences and Technology)

105

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Tuesday, October 7

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Kinetics of Sodium Borohydride Hydrolysis at the Cobalt with a Fiber Structure Modified with Gold Nanoparticles – E. Norkus, A. Balciunaite, S. Lichusina, D. Simkunaite, I. Stalnioniene, A. Zieliene, J. Vaiciuniene, A. Selskis, and L. TamasauskaiteTamasiunaite (Center for Physical Sciences and Technology) Microwave-Assisted Synthesis of Graphene Supported Silver and PlatinumSilver Nanoparticles for Application in Fuel Cells – A. Jagminiene (Center for Physical Sciences and Technology), A. Matuseviciute (Vilnius University), A. Balciunaite, J. Vaiciuniene, R. Kondrotas, L. Tamasauskaite-Tamasiunaite, and E. Norkus (Center for Physical Sciences and Technology) Comparison of Borohydride Oxidation on the Gold Crystallites Deposited on the Smooth and Fiber Cobalt Coatings – L. Tamasauskaite-Tamasiunaite, S. Lichusina, A. Balciunaite, D. Simkunaite, A. Zabielaite, A. Selskis, R. Juskenas, and E. Norkus (Center for Physical Sciences and Technology) Methanol and Ethanol Electro-Oxidation on the Platinum-Cobalt Catalyst Deposited on the Titanium Surface – I. Stankevičienė (Center for Physical Sciences and Technology), Z. Cinciene (Lithuanian University of Educational Sciences), A. Balciunaite, A. Zabielaite, J. Vaiciuniene, R. Verbickas, A. Selskis, L. TamasauskaiteTamasiunaite, and E. Norkus (Center for Physical Sciences and Technology) Investigation of Passive DEFC Mini-Stacks at Ambient Temperature – A. VélezDenhez (Universidad del Valle, Escuela de Ingeniería Química, A. A. 25360, Cali, Colombia), M. O. Córdoba-Moreno, and W. H. Lizcano-Valbuena (Universidad del Valle, Departamento de Química, A. A. 25360, Cali, Colombia) Tolerance of Impurities in Bio-Ethanol on Pd/C Catalyst Toward the Ethanol Oxidation Reaction in Alkaline Media – R. Chen (Indiana University Purdue University Indianapolis) and J. Qi (IUPUI) Electrocatalytic Oxidation of Formic Acid on Pd-Co/Omc Catalysts Prepared By the Polyol Method – E. Cazares-Ávila, E. J. Ruiz-Ruiz Sr., A. Hernández-Ramírez (Universidad Autónoma de Nuevo León), F. J. Rodriguez-Varela, and D. MoralesAcosta (Cinvestav) Laser Sealing Technique for Fuel Cell Application – C. C. Lin (Industrial Technology Research Institute (ITRI)), W. L. Wang (Industrial Technology Research Institute (ITRI), South Campus), and H. Hsieh (Industrial Technology Research Institute)

1182

1183

H1

Application of Carbon Coated Stainless Steel for Bipolar Plate in Proton Exchange Membrane Fuel Cell – H. Hsieh (Industrial Technology Research Institute South), W. L. Wang (Industrial Technology Research Institute (ITRI), South Campus), and C. Lan (Industrial Technology Research Institute South) Study on Condition of Low-Cost CarbonBased Surface Treatment for Application of Metallic Bipolar Plates in PEMFC – M. H. Kim, Y. Goo (KOREA AUTOMOTIVE TECHNOLOGY INSTITUTE), and S. E. Yoo (Korea Automotive Technology Institute)

Physical and Analytical Electrochemistry General Session

Physical and Analytical Electrochemistry Expo Center, 2nd Floor, Delta Room, Moon Palace Resort

General Session II – 07:40 – 09:40 Co-Chairs: Graham T. Cheek, Alice H Suroviec, and R. L. Calhoun 07:40

1344

08:00

1345

08:20

1346

08:40

1347

09:00

1348

09:20

1349

Electrochemical Study of the Chalcopyrite Biooxidation in Presence and Absence of Sulfuro- and Ironoxidizing Microorganisms – M. I. Lopez-Cazares (Instituto de Metalurgia-UASLP DICIM/UASLP), J. V. Garcia-Meza (Instituto de MetalurgiaUASLP), E. R. Larios Duran (Universidad de Guadalajara), and R. Cruz Gaona (Instituto de Metalurgia-UASLP) Electrochemical Studies of 9,10-Anthraquinone in Adiponitrile – G. T. Cheek (United States Naval Academy) The Protoelectric Potential Map (PPM): The Two-Dimensional Plot of Absolute Redox Potentials and Absolute pH Values – V. Radtke, D. Himmel, K. Pütz, and I. Krossing (Universität Freiburg) Effect of SAM Chain Length on Mediated Amperometric Detection of Glucose – A. H. Suroviec (Berry College) Understanding the Meat Color Attributes by Direct Electrochemistry of Myoglobin Films on Electrodes – S. Krishnan, R. Nerimetla, C. Walgama, and R. Ramanathan (Oklahoma State University) Examining the Electrodeposition Mechanism of Manganese Dioxide Using In-Situ Small Angle X-ray Scattering – S. W. Donne, W. M. Dose, and M. F. Dupont (University of Newcastle)

Electrode Process 9 – 10:30 – 11:50 Co-Chairs: Johna Leddy, Andrew Campion Hillier, and Dennis G. Peters 10:30

1350

11:10

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Notions of Magnetoelectrocatalysis – H. C. Lee (Samsung), S. D. Minteer (The University of Utah), and J. Leddy (University of Iowa) Reduction of α,β- and α,ωDibromoalkanes at Silver Cathodes – L. Strawsine and D. G. Peters (Indiana University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1352

In Situ STM and Impedance Spectroscopy Study of 4,4’-Bipyridine Adsorption on Cd(0001) and Sb(111) Single Crystal Electrode Surfaces – P. Pikma, V. Grozovski, H. Kasuk, and E. Lust (Institute of Chemistry, University of Tartu)

17:00

1361

General Session III – 14:00 – 16:00 Co-Chairs: Alice H. Suroviec, Masahiro Yamamoto, and Kilho Lee 14:00

1353

14:20

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14:40

15:00

15:20

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Theoretical Analysis of Surface Waves: Revisited – M. Yamamoto (Department of Chemistry, Konan University, JST-CREST) and K. Kano (Kyoto University) Size-Dependent Electrochemical Stability of Silver Nanoparticles – B. F. Leo (Imperial College London, University of Malaya), G. W. Nelson, E. R. Brooke, D. S. McPhail, D. J. Payne, and M. P. Ryan (Imperial College London) A New Understanding of Chemical Expansion in Non-Stoichiometric Cerium Oxide with Elastic Force Dipole – D. Er, J. Li (Dept of Mat. Sci. and Eng., University of Pennsylvania), M. Cargnello (Department of Chemistry, University of Pennsylvania), P. Fornasiero (Department of Chemical and Pharmaceutical Sciences, University of Trieste), R. J. Gorte (Department of Chemical and Biomolecular Engineering, University of Pennsylvania), and V. B. Shenoy (Depts of Mat. Sci. and Eng. & Mech. Eng. and App. Mech., University of Pennsylvania) Ultrasound Assisted Electrodeposition of Zn-TiO2 Dispersion Coatings – M. K. Camargo (Technische Universität Ilmenau, Department of Electrochemistry and Electroplating,Gustav-Kirchhoff-Straße 5, D-98693 Ilmenau), I. Tudela (Coventry University), U. Schmidt (Technische Universität Ilmenau), A. J. Cobley (Coventry University), and A. Bund (Technische Universität Ilmenau) Sample Preparation Method to Measure Strain of P-Channel with Esige by Nano Beam Diffraction – K. Lee (Samsung Electronics Co.)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort General Session V Poster Session – 18:00 – 20:00 Co-Chairs: Pawel J. Kulesza, Iwona Agnieszka Rutkowska, and Alice H. Suroviec •

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1366

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1368

General Session IV – 16:00 – 17:40 Co-Chairs: Hidenori Noguchi and Michael F. Francis 16:00

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16:20

1359

16:40

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An Rrde Investigation of Manganese Dioxide Anodic Electrodeposition – S. W. Donne, R. C. Burns, and A. J. Gibson (University of Newcastle) A New Picture of the Electrochemical Double Layer Based on Modern Continuum Thermodynamics – M. Landstorfer, W. Dreyer, and C. Guhlke (Weierstrass Institute for Applied Analysis and Stochastics (WIAS)) Diffuse Reflectance Infrared Fourier Transform Spectroscopy (DRIFTS) for InSitu Analysis of Solid Oxide Electrolysis Cells – R. H. Elder, D. J. Cumming (University of Sheffield), R. Taylor, and C. Hardacre (Queen’s University Belfast)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Application of Double Resonance Sum Frequency Generation Spectroscopy to Characterize the Interfacial Electronic and Molecular Structure in Electrochemical Environment – H. Noguchi (National Institute for Materials Science, Hokkaido University), S. Yang (Hokkaido University), and K. Uosaki (National Institute for Materials Science)

Relationship between the Different Surface Morphologies of Diamond Electrodes and Their Electroanalytical Responses to Cadmium Detection – A. F. Sardinha (Universidade Federal de São Paulo, Instituto de Ciência e Tecnologia), T. M. Arantes, M. R. Baldan (Instituto Nacional de Pesquisas Espaciais), F. H. Cristovan (Universidade Federal de São Paulo, Instituto de Ciência e Tecnologia), and N. G. Ferreira (Instituto Nacional de Pesquisas Espaciais) Immittance Model of Anodic Dissolution of Ferromagnetic Materials – E. A. Baranova (University of Ottawa) and O. Kuznetsov (Dniprodzerzhins’k State Technical University) The Electrolytic Dissociation of 1,4-Cyclohexanedicarboxylic Acid – E. Kvaratskhelia, R. Kvaratskhelia, and R. Kurtanidze (Ivane Javakhishvili Tbilisi State University) Quantum-Chemical Modeling of Nickel Interaction with Acrylic Acid – V. F. Vargalyuk, V. A. Polonskyy, L. V. Borshchevych, and O. V. Demchyshyna (Oles Honchar Dnipropetrovsk National University) Electrochemical Desulfurization of Dibenzothiophene Sulfone in Sodium Fluoride/Acetonitrile – M. González-Perea, V. Dorantes-García, M. M. Dávila-Jiménez, and M. D. L. P. Elizalde-González (Universidad Autónoma de Puebla) The Influence of the Interaction between Silicon and Hydroxyl Radicals before the Copper Electrodeposition. Activity Changes of the Silicon Surface – E. C. Muñoz, E. A. Navarrete, C. A. Heyser, R. G. Henríquez, R. S. Schrebler, and R. A. Córdova (Pontificia Universidad Católica de Valparaíso) Electrochemical Study of the Interaction between Silicon n–type (100) and Hydroxyl Radicals – E. C. Muñoz, C. A. Heyser (Pontificia Universidad Católica de Valparaíso), U. Hasse, and F. Scholz (Ernst Moritz Arndt Universität Greifswald)

107

Tuesday, October 7

11:30


Tuesday, October 7

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H2

Effect of Hydration Property of Pore Wall on Performance of Electric Double Layer Capacitors – Y. Imaoka, A. Koyama (Department of Materials Science and Engineering, Kyoto University), R. Koda (Department of Energy Hydrocarbon Chemistry, Kyoto University), K. Fukami (Department of Materials Scinence and Engineering, Kyoto University), A. Kitada (Department of Materials Science and Engineering, Kyoto University), and K. Murase (Department of Materials Scinence and Engineering, Kyoto University) Characterization and Electrochemical Determination of Diclofenac in the Presence of CTAB – M. M. Cid-Cerón (Universidad Autónoma MetropolitanaIztapalapa), D. S. Guzmán-Hernández (Universidad Autónoma MetropolitanaIztapalapa), M. T. Ramirez-Silva, A. Rojas-Hernández (Universidad Autonoma Metropolitana Iztapalapa), M. PalomarPardavé, and M. A. Romero-Romo (Universidad Autónoma MetropolitanaAzcapotzalco) Study of the Substrate Effect in the KCl Adsorption onto Single-Crystal and Polycrystalline Gold Electrodes – F. Gomez-Zamudio, C. Alvarez-Casillas, A. Soto-Estrada (Departamento de Ingeniería Química, Universidad de Guadalajara, Mexico), N. Casillas, M. Barcena-Soto (Departamento de Química, Universidad de Guadalajara, Mexico), and E. R. Larios-Duran (Departamento de Ingeniería Química, Universidad de Guadalajara, Mexico) Effective Data Treatment for Impulse Chronopotentiometry – A. V. Sedov (Southern Scientific Center of Russian Academy of Sciences), M. S. Lipkin, and S. M. Lipkin (South Russian State Polytechnical University) Separation of Heavy Bivalent Metals Extracted by Electrodeposition Using a STEEL Substrate from Wastewater – Y. Addi (USTHB-ENPEI, USTHB-ENPEI)

Chemically Modified Electrodes

Physical and Analytical Electrochemistry / Electrodeposition Expo Center, 1st Floor, Universal 11, Moon Palace Resort

08:50

1389

Glassy Carbon Electrodes Sequentially Modified by Thiol-Capped Gold Nanoparticles and Dendrimers for Detecting Uric Acid in Human Serum – A. S. Ramírez-Segovia (Universidad de Guanajuato), J. A. Banda-Alemán (Centro de Investigación y Desarrollo Tecnológico en Electroquímica SC), S. GutiérrezGranados (Universidad de Guanajuato), L. A. Godínez (Centro de Investigación y Desarrollo Tecnológico en Electroquímica SC), E. Bustos (Centro de Investigación y Desarrollo Tecnológico en Electroquímica S. C.), and J. Manríquez (Centro de Investigación y Desarrollo Tecnológico en Electroquímica SC) 09:10 1390 Enhancement of Activity of Noble Metal Nanoparticles in Oxidative Electrocatalysis through Modification with Mixed-Metal Oxo-Species – I. A. Rutkowska, A. Wadas, W. Ozimek (University of Warsaw), E. Zagubien, J. P. Sek (University of Warsaw, Department of Chemistry), and P. J. Kulesza (University of Warsaw) 09:30 Break 10:00 1391 Chemically Modifying Electrodes in 3D – J. W. Long, M. B. Sassin, C. N. Chervin, and D. R. Rolison (U.S. Naval Research Laboratory) 10:30 1392 Modifying Oxide Single Crystal Surfaces to Study Photoinduced Electron Transfer – B. A. Parkinson (University of Wyoming) 11:00 1393 O2 Reduction at Se Modified Surfaces: Characterization by SPM and DEMS – H. Baltruschat, S. Iqbal, and C. Bondü (University of Bonn) 11:30 1394 The Oxidation of Bromide on Platinum Electrodes in Aqueous Acidic Solutions: Electrochemical and In-Situ Spectroscopic Studies – D. Scherson, J. Xu (Case Western Reserve University), and N. S. Georgescu (Case Western Reserve University, Department of Chemistry) 12:00 1395 Voltammetric Reduction of Organics at Poly-Para-Aminophenol Modified Graphite Electrodes – I. U. Haque (University of Engineering and Technology Lahore Pakistan), K. Bano, and M. Tariq (University of Engineering and Technology)

Chemically Modified Electrodes III – 08:10 – 12:20 Co-Chairs: Alanah Fitch and John Lewellen Stickney

Chemically Modified Electrodes IV – 14:00 – 17:50 Co-Chairs: Stojan S. Djokic and John Lewellen Stickney

08:10

14:00

1396

14:30

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15:00

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08:30

108

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Electron Transfer Kinetics at Co PorpyrinModified Electrodes with Controlled Interfaces – K. Ikeda (Hokkaido University, JST-PRESTO) and S. Sato (Hokkaido University) Pt Surfaces Modified with Mo Species as an Improved Electrocatalyst for Efficient Water Splitting – A. T. Garcia-Esparza (King Abdullah University of Science and Technology (KAUST)), T. Shinagawa (King Abdullah University of Science and Techonology), and K. Takanabe (King Abdullah University of Science and Technology)

Hyaluronic Acid as a Matrix for Increased Functionality of Biomedical Alloys – I. Milosev (Jozef Stefan Institute) Oxidation of Hydrogen Peroxide at Electrodeposited Platinum on Carbon Microelectrodes – J. Burgess (Case Western Reserve University) A Survey of Materials and Corrosion Issues for Metal Implant Materials – L. E. Kay (Fort Wayne Metals Research Products Corp.)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


15:50

1399

1400

16:10 16:30 1401

16:50

1402

17:10

1403

17:30

1404

Control of the Corrosion of Magnesium for Implant Application by Hydrothermally Deposited Biodegradable Calcium Phosphate Coating – S. Kaabi Falahieh Asl (Nanyang Technological University, School of Mechanical & Aerospace Engineering, 50 Nanyang Avenue, Singapore 639798, Singapore Institute of Manufacturing Technology, 71 Nanyang Drive, Singapore 638075), S. Nemeth (Singapore Institute of Manufacturing Technology, 71 Nanyang Drive, Singapore 638075), and M. J. Tan (Nanyang Technological University, School of Mechanical & Aerospace Engineering, 50 Nanyang Avenue, Singapore 639798) Surface Finishing of Strongly Passive Biomedical Materials, such as Nitinol, in Low- and Non-Acid Electrolytes – M. E. Inman, E. J. Taylor (Faraday Technology Inc.), T. D. Hall, H. Garich, and S. Lucatero (Faraday Technology, Inc.) Break Electrochemical Investigation of Nitinol/ Tantalum Hybrid Surfaces Modified with Phosphonic Acid Derivatives – Z. Mekhalif, A. Maho, S. Devillers, A. Vanhooland, and J. Delhalle (University of Namur) Surface Modification of Mg Alloys for Controlled Biodegradation Behavior – S. Virtanen (University of Erlangen) Effects of Surface Cathode Properties on Biopolymer Structuring via Electrochemical Deposition – L. Altomare, R. Bernasconi, L. Magagnin, A. Cigada (Politecnico di Milano), and L. De Nardo (INSTM - Local Unit Politecnico di Milano) Self-Assembling of Thiol Monolayers on Copper, Copper-Nickel Alloy and Nickel Using Ionic Liquid as Reducing Medium – Z. Mekhalif, S. Rajalingam, S. Devillers, and J. Delhalle (University of Namur)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Chemically Modified Electrodes V Poster Session – 18:00 – 20:00 Co-Chairs: Mark R. Anderson and Alanah Fitch •

1405

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Study on Horn-Shaped Polypyrrole Electrodes Prepared By Pulse Potential – L. Li (Institute of Textiles and Clothing, the Hong Kong Polytechnic University,) and J. Wang (Institute of Textiles and Clothing, the Hong Kong Polytechnic University) Modified Electrodes with Adsorbed Porphine Complexes on Modified Covalent Surfaces. Effect of the Covalent Bond on the Electrocatalytic Activity – G. Ramirez (Pontificia Universidad Católica de Chile) and C. Canales (Pontificia Universidad Catolica de Chile) Selective Detection by Dpv of Benserazide and Levodopa in Pharmaceutical Preparates – M. M. Dávila, P. Ruíz, and M. D. L. P. Elizalde (Universidad Autónoma de Puebla)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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1412

1413

Electrochemical Detection of Polyanions on Polypyrrole/DMMB Nanowire Composite Film Modified Electrode – J. Liu, M. Xin, W. Cai, and M. Chen (Donghua University) Characterization of Changes in the Surface Properties of Silicon and Porous Silicon after Interaction with Hydroxyl Radicals – E. C. Muñoz, E. A. Navarrete, C. A. Heyser, R. G. Henríquez, R. S. Schrebler, and R. A. Córdova (Pontificia Universidad Católica de Valparaíso) Copper Electroless Process Optimization to Modify Boron Doped Diamond at Different Boron Levels – C. F. Pereira, A. B. Couto, M. R. Baldan, and N. G. Ferreira (Instituto Nacional de Pesquisas Espaciais) Tenoxicam’s Electro-Analytical Determination with a b-Cyclodextrin Modified-Electrode – D. S. GuzmánHernández (Universidad Autónoma Metropolitana-Iztapalapa), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. PalomarPardavé (Universidad Autónoma Metropolitana-Azcapotzalco), S. CoronaAvendaño (Universidad Autónoma Metropolitana- Azcapotzalco), and M. A. Romero-Romo (Universidad Autónoma Metropolitana-Azcapotzalco) Electrochemical Characterization of a 2-Hydroxypropyl b-Cyclodextrin Membrane with Tenoxicam – D. S. Guzmán-Hernández (Universidad Autónoma Metropolitana-Iztapalapa), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), M. Palomar-Pardavé, M. A. Romero-Romo (Universidad Autónoma MetropolitanaAzcapotzalco), and S. Corona-Avendaño (Universidad Autónoma MetropolitanaAzcapotzalco) Enhanced Oxygen Evolution Reaction Activity of LaFeO3 with Co-Pi Decoration – Q. Peng (State Key Laboratory of Digital Manufacturing Equipment and Technology, School of Mechanical Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, Hubei, People’s Republic of China), Y. Wen, B. Shan (State Key Laboratory of Material Processing and Die &Mould Technology, School of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, Hubei, People’s Republic of China), and R. Chen (State Key Laboratory of Digital Manufacturing Equipment and Technology, School of Mechanical Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, Hubei, People’s Republic of China)

109

Tuesday, October 7

15:30


H6

1414

1415

Preparation and Characterization Nanocomposites Based on Conducting Polymers and Functionalized Carbon Nanotubes with Different Dopants – F. Branzoi (Institute of Physical Chemistry), V. Branzoi, and Z. Pahom (University Politehnica of Bucharest) C2-Symmetric Benzene-Based Hydrogel Modified Electrode for the Determination of Copper Ion by Stripping Voltammetry – J. Liu, W. Cai (Donghua University), C. Feng (Shanghai Jiao Tong University), and M. Xin (Donghua University)

Electrodeposition II – 14:00 – 16:40 Co-Chairs: Andreas Bund and Adriana Ispas 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

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16:00

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16:20

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Molten Salts and Ionic Liquids 19

Physical and Analytical Electrochemistry / Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 3, Moon Palace Resort

Electrodeposition I – 09:00 – 12:00 Co-Chair: Frank Endres

Tuesday, October 7

09:00

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09:40 10:00 1434

10:20

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10:40

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11:00

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11:20

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11:40

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Electrorefining of Na in Hydrophobic Ionic Liquid – M. Ueda (Hokkaido University) Break Direct Electroreduction of Indium and Tin Oxides in Molten Salts – B. Qin (Norweigian University of Science and Technology), P. Cui (Norwegian University of Science and Technology), A. M. Martinéz (SINTEF), E. R. Aune (Norweigian University of Science and Technology), and G. M. Haarberg (Norwegian University of Science and Technology) Aluminum Anodization in the LiAlCl4NaAlCl4-NaAlBr4-KAlCl4 Chloroaluminate Molten Salt – C. Wang and C. L. Hussey (University of Mississippi) Electrodeposition of Palladium in 1-Butyl3-Methylimidazolium Chloride Ionic Liquid – S. Shrestha, E. Gjoka, and E. J. Biddinger (Department of Chemical Engineering, City College of New York) Electrochemical Behavior of Ti in Molten Fluoride-Oxide System – T. Takenaka, Y. Yamanaka, and T. Morishige (Kansai University) A New Electrodeposition Process of Crystalline Silicon Utilizing WaterSoluble KF–KCl Molten Salt – K. Maeda (Graduate School of Energy Science, Kyoto University), K. Yasuda (Environment, Safety and Health Organization, Kyoto University), T. Nohira, R. Hagiwara (Graduate School of Energy Science, Kyoto University), and T. Homma (Waseda University) PFC Formation in Aluminium Producing Cells during Normal Electrolysis Potentials – H. Åsheim (Norwegian University of Science and Technology), T. Aarhaug, A. Ferber, O. S. Kjos (SINTEF, Norway), and G. M. Haarberg (Norwegian University of Science and Technology)

Electrodeposition of Liquid Metals from Molten Salts – G. M. Haarberg (Department of Materials Science and Engineering, Norwegian University of Science and Technology, 7491 Trondheim, Norway) The Electrochemical Study of Iron Ions in KCl-LiCl-NaCl at 550°C – B. Khalaghi, E. Kvalheim (Department of Materials Science and Engineering, Norwegian University of Science and Technology, 7491 Trondheim, Norway), M. Tokushige (Department of Fundamental Energy Science, Kyoto University, Kyoto 6068501, JAPAN), L. Teng, S. Seetharaman (Royal Institute of Technology, SE 100 44, Stockholm, Sweden), and G. M. Haarberg (Department of Materials Science and Engineering, Norwegian University of Science and Technology, 7491 Trondheim, Norway) Electrodeposition of Mg-Ni-Al Alloys in Low Temperature Molten Salts – J. Xu (School of Science, Northeastern Univeristy), X. Zhang (School of Science, Northeastern University), Z. Shi (School of Materials and Metallurgy, Northeastern Univeristy), and G. M. Haarberg (Center for Advanced Materials, Qatar University, Doha, Qatar, Norwegian University of Science and Technology) Electrochemical Deposition of Alkali Metal in Low-Melting Alkali Metal Perfluorosulfonylamides – K. Kubota (Advanced Industrial Science and Technology (AIST)) and H. Matsumoto (National Institute of Advanced Industrial Science and Technology (AIST)) Effects of Process Conditions on the Fluidised Cathode Electrochemical Reduction of Tungsten Oxide in Molten LiCl-KCl – R. Abdulaziz, L. D. Brown, D. Inman, P. R. Shearing, S. J. R. Simons, and D. J. L. Brett (Electrochemical Innovation Lab, Department of Chemical Engineering, University College London, Torrington Place, London, WC1E 7JE, United Kingdom) Molten Salt Assisted Electrochemical Separation of Spent Fuel Surrogates by Partial Direct Reduction and Selective Anodic Dissolution – A. Stevenson, D. Hu, and G. Z. Chen (University of Nottingham) The Behavior of Additives LiF and KF on Current Efficiency in Aluminium Electrolysis – P. Cui (Norwegian University of Science and Technology), A. Solheim (SINTEF Materials and Chemistry,Trondheim, Norway), and G. M. Haarberg (Norwegian University of Science and Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


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H6 Poster Session – 18:00 – 20:00 Co-Chair: William Matthew Reichert •

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Synthesis of Novel Ionic Liquids with Aromatic Trifluoroborate Anions – K. Iwasaki, K. Yoshii (Department of Applied Chemistry, Graduate School of Engineering, Osaka University), S. Tsuzuki (National Institute of Advanced Industrial Science and Technology (AIST)), T. Tsuda, and S. Kuwabata (Department of Applied Chemistry, Graduate School of Engineering, Osaka University) Electrochemical Synthesis of Nickel Disilicide from NaCl-NaF-K2SiF6 Melt on a Ni Cathode – S. A. Kochetova, A. D. Pisanenko, and S. V. Devyatkin (Institute of General and Inorganic Chemistry) Carbon Fibers and Nanotubes as a Product of Interaction Between Silicon Carbide and Carbonate Melt – S. V. Devyatkin (Institute of General and Inorganic Chemistry) Formation Features of Anodic Oxide Films in the KNO3 Melt – L. Skatkov (PCB “Argo”) and V. Gomozov (NTU “Kharkov Polytechnical Institute”) Electrochemical Synthesis of Composite Materials Based on Nanoscale Powders of Tungsten Carbides with Carbon Nanomaterials in NaCl-KCl Melt – I. Novoselova (V.I. Vernadskii Institute of General & Inorganic Chemistry National Academy of Sciences of Ukraine) Electrodeposition of Zn - Ni Alloys from Protic Ionic Liquids – R. M. Ortega Borges, T. Garcia Ramos, G. Trejo Córdova, and Y. Meas Vong (CIDETEQ (Centro de Investigación y Desarrollo Tecnológico en Electroquímica)) An Electrochemical Study of Uranium (III) and (IV) Species in Fused Alkali Chlorides – D. S. Maltsev, V. A. Volkovich, B. D. Vasin, and E. N. Vladykin (Ural Federal University) Deposition and Dissolution of Lithium through Lithium Phosphorus Oxynitride Thin Film in Some in Ionic Liquids – R. Furuya (Department of Applied Chemistry, Faculty of Science and Technology, Keio University), Y. Katayama, and T. Miura (Keio University) Molybdenum(V) Species in Alkali Chloride Melts: An Electronic Absorption Spectroscopy Study – R. V. Kamalov, V. A. Volkovich, A. B. Ivanov, B. D. Vasin (Ural Federal University), and T. R. Griffiths (Trevor Redston Consulting Ltd) Separation of Uranium and Lanthanides in a Fused Salt – Liquid Gallium Based Alloy System – S. Y. Melchakov, D. S. Maltsev, V. A. Volkovich, L. F. Yamshchikov (Ural Federal University), and A. G. Osipenko (Research Institute of Atomic Reactors)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Comparison of Some Structural Parameters of the Model Systems nM+[CrX6]3- and 3M+[CrX6]3- + 18MCl (M–Na, K, Cs; X–F, Cl; n=1–6) – S. A. Kuznetsov and V. G. Kremenetsky (I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials, Kola Science Centre of the Russian Academy of Sciences) The Composition of the Second Coordination Sphere and Charge Transfer of the Nb(V)/Nb(IV) Redox Couple in Alkali Halide Melts – A. V. Popova (I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials, Kola Science Centre of the Russian Academy of Sciences), V. G. Kremenetsky, and S. A. Kuznetsov (I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials, Kola Science Centre of the Russian Academy of Sciences) Electrochemical Properties of Molybdenum in Alkali Chloride Melts – A. B. Ivanov, V. A. Volkovich, P. Y. Likhachev, and R. V. Kamalov (Ural Federal University) Physicochemical Properties of Nonvariant Compositions of Ternary NaF-LiF-LnF3 Systems (Ln = La, Nd) – R. N. Savchuk, N. V. Faidyuk, and A. A. Omel’chuk (V.I. Vernadskii Institute of General & Inorganic Chemistry of the Ukrainian NAS) Charge and Mass Transfer on a La2O3 Added Li/Na or Li/K Molten Carbonate Meniscus Electrode of LaNiO3 Coated Au Ring for Oxygen Reduction Reaction – Y. Takeuchi (Green Hydrogen Research Center, Yokohama National University, Yokohama National University), K. Matsuzawa, Y. Kohno, and S. Mitsushima (Yokohama National University) Comparison of Redox Potentials in NonAqueous Solvents: Silver is Not a Noble Metal in the Acidic Ionic Liquid HmimBr – K. Pütz (University Freiburg), V. Radtke, D. Himmel, and I. Krossing (Universität Freiburg) Niobium Speciation in NaCl-KCl Based Melts: An Electrochemical and Spectroelectrochemical Study – I. B. Polovov, M. V. Chernyshov, D. A. Shuklin, V. A. Volkovich, O. I. Rebrin, B. D. Vasin (Ural Federal University), and T. R. Griffiths (Trevor Redston Consulting Ltd) Solubility of Transition Metal Halides in Chloroaluminate Melts – V. V. Karpov, V. A. Volkovich, I. B. Polovov, and O. I. Rebrin (Ural Federal University) Corrosion of Ñorrosion-Resistant and High-Temperature Nickel-Based Alloys in Chloroaluminate Melts – A. V. Abramov, V. V. Karpov, A. Y. Zhilyakov, A. F. Gibadullina, I. B. Polovov, V. A. Volkovich, S. V. Belikov, A. V. Shak, and O. I. Rebrin (Ural Federal University)

111

Tuesday, October 7

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort


1467

1468

H7 Tuesday, October 7

1466

Indirect Methods for Determination of K:Al Molar Ratio in Molten Chloroaluminates – V. V. Karpov, I. B. Polovov, D. Kudryashov, D. G. Lisienko, V. A. Volkovich, A. V. Chukin, and O. I. Rebrin (Ural Federal University) Lanthanum Activity, Activity Coefficients and Solubility in Gallium-Indium Liquid Alloys – A. S. Dedyukhin, A. V. Shchetinskiy, V. A. Volkovich, L. F. Yamshchikov (Ural Federal University), and A. G. Osipenko (Research Institute of Atomic Reactors) Thermodynamic Analysis of Solutions of Oxides in the Alkali Melt – I. N. Skryptun (Institute of General & Inorganic Chemistry of National Academy of Sciences of Ukraine)

Oxygen Reduction Reactions IV – 10:00 – 12:00 Co-Chairs: Anil V. Virkar and Sanjeev Mukerjee 10:00

1509

10:40

1510

11:20

1511

11:40

1512

Oxygen Reduction Reactions

Physical and Analytical Electrochemistry / Battery / Energy Technology / High Temperature Materials Expo Center, 1st Floor, Universal 14, Moon Palace Resort

Oxygen Reduction Reactions III – 08:00 – 09:40 Co-Chairs: Elena R. Savinova and Nicolas Alonso-Vante 08:00

08:40

09:20

112

1506

1507

1508

Electrocatalysis of the Oxygen Reduction in Alkaline Media: Comparison of Predominant Reaction Pathways on Various Electrode Materials – T. Poux (ICPEES UMR 7515 CNRS-ECPMUniversity of Strasbourg), E. R. Savinova (ICPEES UMR 7515-CNRS-Univeristy of Strasbourg), A. Bonnefont (Institut de Chimie, UMR 7177, CNRS/Université de Strasbourg), L. Truong Phuoc (ICPEES UMR 7515 CNRS-ECPM-University of Strasbourg), A. Ryabova (Faculty of Chemistry, Lomonosov Moscow State University), G. Kéranguéven (ICPEES UMR 7515 CNRS-ECPM-University of Strasbourg), G. Tsirlina (Faculty of Chemistry, Moscow University), and C. Pham-Huu (ICPEES UMR 7515 CNRSECPM-University of Strasbourg) Materials for ORR Electrocatalysis: Catalytic Center and Substrate Effects – Y. Luo (IC2MP - UMR-CNRS 7285 Universite de Poitiers), M. U. Sreekuttan (IC2MP, UMR CNRS 7285, University of Poitiers), J. M. Mora-Hernandez (IC2MP - UMR-CNRS 7285 Universite de Poitiers, DIMM, Instituto Politécnico Nacional, México D.F., México), and N. Alonso-Vante (IC2MP - UMR-CNRS 7285 Universite de Poitiers) Oxygen Electrocatalysis on High-Surface Area at Non-Pt Modified Carbon Catalysts – E. Härk, R. Jäger, P. E. Kasatkin, V. Steinberg, and E. Lust (Institute of Chemistry, University of Tartu)

Stability and Activity of Core-Shell and Alloy Catalysts for Proton Exchange Membrane Fuel Cells (PEMFC) – A. V. Virkar (The University of Utah) Electrocatalytic Pathways for Oxygen Reduction and Evolution in Aqueous and Non Aqueous Electrolytes – S. Mukerjee (Northeastern University, Northeastern University), U. Tylus, K. Strickland, and Q. Jia (Northeastern University) Evaluation of RuCORE@PtSHELL Structure for the Oxygen Reduction Reaction (ORR) with Methanol-Crossover during DMFC Operation – J. Svendby (Norwegian University of Science and Technology), J. L. G. de la Fuente (Instituto de Catalisis y Petroleoquimica, CSIC), F. Seland, and S. Sunde (Norwegian University of Science and Technology) Pt, Au and Pd Based Binary and Ternary Catalysts for the Oxygen Reduction Reaction – S. Baranton, S. Lankiang, and C. Coutanceau (Université de Poitiers, IC2MP, UMR CNRS 7285)

Oxygen Reduction Reactions V – 14:00 – 16:00 Co-Chairs: Plamen Atanassov and Vojislav R. Stamenkovic 14:00

1513

14:40

1514

15:20

1515

15:40

1516

Novel Pathways for Improving the ORR Rate – J. D. Snyder, Y. Kang, D. Strmcnik, D. Li, N. M. Markovic, and V. R. Stamenkovic (Argonne National Laboratory) Mechanism of ORR on Non-PGM M-N-C Catalysts – P. Atanassov, K. Artyushkova, A. Serov (University of New Mexico), and B. Kiefer (New Mexico State University) Electrocatalytic Activities of Pt Monolayer Covered Ni and Co Core-Shell Nanoparticles for Oxygen Reduction Reaction – T. Kondo, H. Nagai, S. Shibata, and M. Hirota (Ochanomizu University) Durability of Active ORR Electrocatalysts – P. B. Balbuena, G. Ramos-Sanchez (Texas A&M University), F. Godinez, O. Solorza-Feria (CINVESTAV), M. P. Gurrola, and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica)

Oxygen Reduction Reactions VI – 16:20 – 18:00 Co-Chairs: Lior Elbaz and J. W. Fergus 16:20

1517

16:40

1518

Mediated Electron Transfer for ORR Catalysis with Transition-Metal Macrocycles – L. Elbaz (Bar-Ilan University) Investigation of Active Sites for the Oxygen Reduction Reaction on NitrogenDoped Carbon Nanomaterials – M. E. M. Buan, N. Muthuswamy, I. Hjorth, D. Chen, and M. Rønning (Norwegian University of Science and Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


17:20

17:40

1519

1520

1521

A Formic Acid Air-Breathing Microfluidic Fuel Cell Feeding with a Single Stream – E. Ortiz-Ortega (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), F. M. Cuevas-Muñiz, A. J. Armenta-González (Centro de Investigación y Desarrollo en Tecnología Electroquímica), M. GuerraBalcázar, J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Oxide-Based Electrocatalysts toward Oxygen Reduction Reaction as Non Pt Cathodes for PEFC – N. Uehara (Green Hydrogen Research Center, Yokohama National University), A. Ishihara (Yokohama National University), H. Imai, M. Matsumoto, M. Arao (NISSAN ARC Ltd.), Y. Ohgi (Kumamoto Industrial Research Institute), Y. Kohno, K. Matsuzawa, S. Mitsushima, and K. I. Ota (Yokohama National University) Graphene-Polyaniline Nanofibers Composite as Electrocatalyst for Oxygen Reduction Reaction in Alkaline Media – M. Sankararao and J. Mathiyarasu (CSIRCentral Electrochemical Research Institute)

N1

1522

1523

1524

Correlation between Electrocatalytic Oxygen Reduction Reaction and Structure of Mononuclear CuII Complex at Various pH – M. Asahi, S. I. Yamazaki, Z. Siroma, N. Fujiwara, T. Nagai (National Institute of Advanced Industrial Science and Technology (AIST)), S. Itoh (Osaka University), and T. Ioroi (National Institute of Advanced Industrial Science and Technology (AIST)) Comparative Study of Nitrogen Doped Carbon Nanofibers Obtained on Fe and Ni Based Catalysts for the Oxygen Reduction Reaction – N. Muthuswamy, M. E. M. Buan (Norwegian University of Science and Technology), E. Garcia-Bordeje (Instituto de Carboquimica (ICB-CSIC)), D. Chen, and M. Rønning (Norwegian University of Science and Technology) Kinetics of Reaction with Oxygen of LnBa1-XSrxCo2-YFeyO6-δ (Ln - Selected Lanthanides) Oxides as Studied by Relaxation Methods – K. Swierczek, K. Zheng, and A. Klimkowicz (AGH University of Science and Technology, Faculty of Energy and Fuels)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Dielectric Science and Technology / High Temperature Materials / Sensor Expo Center, 2nd Floor, Beta Room, Moon Palace Resort

Thermal and Plasma CVD of Nanostructures I – 08:00 – 11:50 Co-Chairs: U. Cvelbar, Mahendra Kumar Sunkara, and Mohan Sankaran 08:00

08:20

08:50

09:10

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Oxygen Reduction Reactions VII Poster Session – 18:00 – 20:00 Co-Chairs: Pawel J. Kulesza, Robert A. Mantz, and Iwona Agnieszka Rutkowska

Thermal and Plasma CVD of Nanostructures and Their Applications

10:00

10:30 11:00

11:30

1580

Invited: Non-Equilibrium Effects of NonEquilibrium Plasmas: From Nanoscale Synthesis to Applications in Energy and Medicine – K. Ostrikov (CSIRO Materials Science and Engineering, Queensland University of Technology) 1581 Invited: Large-Scale Production and Assembly of Nanowires for the Fabrication of Highly Efficient Thermoelctrics – S. Vaddiraju (Texas A&M University) 1582 Invited: In Situ Characterization of Plasma Assisted Hydrogenation/Fluorination of Graphene and CFx Battery Applications – R. Jayasinghe, G. U. Sumanasekera (University of Louisville), A. K. Thapa (University of Louisville, Conn Center for Renewable Energy Research), and B. Pradhan (Nanoholdings) 1583 Invited: iCVD Synthesis of Polymer Electrolytes for Application in Dye Sensitized Solar Cells (DSSCs) – Y. Y. Smolin, C. Y. Hsieh, S. Nejati, M. Soroush, and K. K. S. Lau (Drexel University) 1584 Invited: Atmospheric-Pressure Plasmas Processes for Third Generation Photovoltaics – D. Mariotti, S. Askari, S. Mitra (University of Ulster), V. Svrcek (AIST), T. Belmonte (Université de Lorraine - Institut Jean Lamour), and P. Maguire (University of Ulster) 1585 Invited: Nanopartilce Composite Plasma CVD Films and Some Applications – M. Shiratani and K. Koga (Kyushu University) 1586 Invited: Plasmaelectrochemistry in Ionic Liquids: Challenges to Make Silicon Nanoparticles – F. Endres (Clausthal University of Technology) 1587 Invited: Advantages of Plasma Synthesis of Copper Oxide Nanowires – G. Filipič and U. Cvelbar (Jozef Stefan international postgraduate school, Jozef Stefan Institute)

Thermal and Plasma CVD of Nanostructures II – 14:00 – 16:30 Co-Chairs: Mohan Sankaran, Mahendra Kumar Sunkara, and U. Cvelbar 14:00

1588

14:30

1589

Invited: Novel Plasma Enhanced Chemical Vapor Deposition Methods Utilizing Radical Reactions – M. Sekine (Nagoya University) Invited: Microplasma Spray Deposition of Nanostructured Films for Catalytic, Magnetic, and Photonic Applications – T. Koh, A. Pebley, K. Mackie, and M. Gordon (University of California, Santa Barbara)

113

Tuesday, October 7

17:00


14:55

1590

1591

15:50

1592

16:10

1593

Tuesday, October 7

15:25

Invited: Controlled Growth of Hierarchical Metal Oxide Nanoarchitectures by an Atmospheric Pressure Micro-Afterglow – T. Gries (CNRS, Université de Lorraine - Institut Jean Lamour), A. Altaweel (Université de Lorraine - Institut Jean Lamour), D. Kuete Saa (Université de Lorraine - Institut Jean Lamour, Université de Yaoundé - Laboratoire de Chimie Minérale), and T. Belmonte (CNRS, Université de Lorraine - Institut Jean Lamour) Invited: Nanowire Growth Mechanism upon Treatment of Metals with NonEquilibrium Oxygen Plasma – M. Mozetič (Jozef Stefan Institute) Invited: Scalable Production of Nanowire Arrays and Powders Using Plasmas – M. K. Sunkara (University of Louisville, Conn Center for Renewable Energy Research) Invited: Atmospheric Pressure Plasma Modified Polyaniline Crystals for Detection of Volatile Organic Compounds – H. Puliyalil (Jozef Stefan Institute, Jamova 39, Ljubljana-1000, Slovenia, Jozef Stefan International Post graduate school, Jamova 39, Ljubljana-1000, Slovenia), P. Slobodian (Polymer Centre, Faculty of Technology, T. Bata University, T.G.M. 275, 76272 Zlin, Czech Republic, Centre of Polymer Systems, University Institute, T. Bata University, Nad Ovcirnou 3685, 76001 Zlin, Czech Republic), M. Sedlacik (Polymer Centre, Faculty of Technology, T. Bata University, T.G.M. 275, 76272 Zlin, Czech Republic, Department of Production Engineering, Faculty of Technology, Tomas Bata University, T. G. Masaryk Sq. 275, 762 72 Zlin, Czech Republic), P. Riha (Institute of Hydrodynamics, Academy of Sciences,Pod Patankou 5, 166 12 Prague 6, Czech Republic), and U. Cvelbar (Jozef Stefan International Post graduate school, Jamova 39, Ljubljana-1000, Slovenia, Jozef Stefan Institute, Jamova 39, Ljubljana-1000, Slovenia)

P1

Atomic Layer Deposition Applications 10

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 16, Moon Palace Resort

Molecular Layer Deposition – 08:00 – 09:40 Co-Chairs: F. Roozeboom and J. W. Elam 08:00 08:20 1606

09:00

1607

Advanced Semiconductor Applications I – 10:00 – 12:00 Co-Chairs: Laura Nyns, Stefan De Gendt, and Robert M. Wallace 10:00

1608

10:40

1609

11:20

1610

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Thermal and Plasma CVD of Nanostructures III Poster Session – 18:00 – 20:00 •

1594

1595

1596

114

High Quality Inductively Coupled Plasma Chemical Vapor Deposited SiOxNy Gas Barrier Films for OLED Display – S. H. Bang, J. H. Suk, D. Choi, K. Kim, and N. M. Hwang (Seoul National University) Characterization of Tinbcn Coatings Subject to Micro-Abrasion Wear and Corrosion Phenomena in a Simulated Biological Fluid – J. L. Caballero, W. A. Aperador Chaparro, and J. Duque (Universidad Militar Nueva Granada) Dependence of Spatial Uniformity of Nanocrystalline Silicon and Silicon Nitride Films on the Thermal Profile of Low Temperature Catalytic CVD Reactor – T. H. Song, S. M. Noh, and W. S. Hong (University of Seoul)

Introductory Remarks Molecular Layer Deposition of Nanoscale Organic Films for Nanoelectronics Applications – D. Bergsman, H. Zhou, and S. F. Bent (Stanford University) Highly Luminescent Monolayers Prepared by Molecular Layer Deposition – A. Räupke (University of Wuppertal, Germany), F. Albrecht (Technical University of Braunschweig, Germany), J. Maibach (Technische Universität Darmstadt, InnovationLab GmbH, Heidelberg, Germany), A. Behrendt, A. Polywka, R. Heiderhoff (University of Wuppertal, Germany), J. Helzel, T. Rabe, H. H. Johannes (Technical University of Braunschweig, Germany), W. Kowalsky (Technical University of Braunschweig, Germany, InnovationLab GmbH, Heidelberg, Germany), E. Mankel, T. Mayer (Technische Universität Darmstadt, InnovationLab GmbH, Heidelberg, Germany), P. Görrn, and T. Riedl (University of Wuppertal, Germany)

Challenges with Industrialization of Atomic Layer Deposition of Silicon Nitride – D. Hausmann, J. Henri, J. Sims, K. Kelchner, S. Janjam, and S. Tang (Lam Research Corporation) In Situ Studies of 2D Materials – R. M. Wallace (University of Texas at Dallas) Enabling Sub-10nm Lithography with Atomic Layer Deposition and Block Copolymer Self Assembly – R. Ruiz, Y. A. Chapuis, L. Wan (HGST A Western Digital Company), S. Xiong (University of Chicao), H. Gao, K. Patel, E. Dobisz, A. Bogdanov (HGST A Western Digital Company), P. Nealey (University of Chicago), and T. Albrecht (HGST A Western Digital Company)

Advanced Semiconductor Applications II – 14:00 – 15:20 Co-Chairs: Stefan DeGendt and Robert M. Wallace 14:00

1611

ALD and PVD Tantalum Nitride Barrier Resistivity and Their Significance in Via Resistance Trends – O. van der Straten (IBM Research), X. Zhang (GLOBALFOUNDRIES, Inc.), K. Motoyama (IBM Research), C. Penny, J. Maniscalco, and S. Knupp (IBM Systems & Technology Group)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


14:40

1612

1613

Higher-K Formation in Atomic Layer Deposited Hf1-XAlxOy – K. Tapily, S. Consiglio, R. Clark (TEL Technology Center, America), R. Vasic (College of Nanoscale Science and Engineering), C. Wajda (TEL Technology Center, America), J. Jordan-Sweet (IBM), G. Leusink (TEL Technology Center, America), and A. C. Diebold (College of Nanoscale Science and Engineering) Engineering the IIIV Gate Stack Properties by Optimization of the ALD Process – S. Sioncke (imec), L. Nyns (IMEC), T. Ivanov (imec), D. Lin (imec vzw), J. Franco, A. Vais, M. Ameen, A. Delabie (imec), Q. Xie (ASM), J. W. Maes (ASM Belgium), F. Tang (asm), M. Givens (ASM), S. Van Elshocht (imec), F. Holsteyns (imec vzw), K. Barla, N. Collaert, A. Thean (IMEC), S. De Gendt (imec, Kapeldreef 75, 3001 Leuven, Belgium), and M. Heyns (IMEC)

New ALD Materials and Processes – 15:40 – 17:20 Co-Chairs: J. W. Elam and Christian Dussarrat 15:40

1614

16:20

1615

16:40

1616

Manganese Precursor Selection and the Thermal Atomic Layer Deposition of Copper/Manganese Alloy Films – L. C. Kalutarage (Wayne State University), S. B. Clendenning (Intel Corporation), and C. H. Winter (Wayne State University) Promoted platinum catalytic activity and thermal stability with nano-scale cobalt oxide coating via atomic layer deposition – K. Cao, B. Huang, Y. Zhang, B. Shan (State Key Laboratory of Material Processing and Die &Mould Technology, School of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, Hubei, People’s Republic of China), X. Liu, and R. Chen (State Key Laboratory of Digital Manufacturing Equipment and Technology, School of Mechanical Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, Hubei, People’s Republic of China) Flash-Lamp-Enhanced Atomic Layer Deposition of Thin Films – T. Henke, M. Knaut (Institute of Semiconductors and Microsystems, Technische Universität Dresden, Center for Advancing Electronics Dresden, Technische Universität Dresden), C. Hossbach, M. Geidel (Institute of Semiconductors and Microsystems, Technische Universität Dresden), L. Rebohle (Institute of Ion Beam Physics and Materials Research, Helmholtz-Zentrum Dresden-Rossendorf), M. Albert (Institute of Semiconductors and Microsystems, Technische Universität Dresden), W. Skorupa (Institute of Ion Beam Physics and Materials Research, HelmholtzZentrum Dresden-Rossendorf), and J. W. Bartha (Institute of Semiconductors and Microsystems, Technische Universität Dresden, Center for Advancing Electronics Dresden, Technische Universität Dresden)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort P1 Poster Session – 18:00 – 20:00 •

1617

1618

1619

1620

1621

1622

1623

P3

RF Power Effect of Post-Deposition Oxygen Plasma Treatment on HfO2 Gate Dielectrics – T. C. Bo (Department of Electrical Engineering, National Chi-Nan University) and Y. L. Cheng (National ChiNan University) Precursor Development and Application for Atomic Layer Deposition – T. M. Chung (Korea Research Institute of Chemical Technology) Development of Continuous and Ultrathin Pt Electrocatalysts Using Plasma-Assisted ALD – J. W. Clancey, A. S. Cavanagh (University of Colorado), R. Kukreja, A. Kongkanand (General Motors), and S. M. George (University of Colorado) Growth of Al Doped ZnO Thin Films by Atomic Layer Deposition Process – K. Zhang, X. Chen (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), P. Lin (Old Dominion University), S. K. R. Obulreddy (Old Dominion University, Applied Research Center), and H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories) Mechanical/Structural Properties of ALD Zirconium Oxide (ZrO2) Thin Films for High-tech Applications – M. A. Mamun (Old Dominion University), H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), and A. A. Elmustafa (Old Dominion University) Nanomechanical Properties of Titanium Oxide (TiO2) Grown by Atomic Layer Deposition – M. A. Mamun (Old Dominion University), H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), and A. A. Elmustafa (Old Dominion University) Nanomechanical Properties of Tungsten Oxide (WO3) Grown by Atomic Layer Deposition – M. A. Mamun (Old Dominion University), K. Zhang, H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), and A. A. Elmustafa (Old Dominion University)

High Purity and High Mobility Semiconductors 13 Electronics and Photonics Expo Center, 1st Floor, Universal 17, Moon Palace Resort

High Mobility Materials and Advanced Devices – 08:00 – 09:40 Co-Chairs: Cor Claeys and Giovanni Capellini 08:00

1645

Keynote; Material Challenges and Opportunities in Ge/III-V Channel MOSFETs – S. Takagi, S. H. Kim, M. Yokoyama, K. Nishi (The University of Tokyo), R. Zhang (Zhejiang University), and M. Takenaka (The University of Tokyo) 115

Tuesday, October 7

14:20


08:40

1646

09:20

1647

Invited; First-Principles Studies of the Defect Formation in III-V FETs Grown by Fin Replacement Method – H. Minari, S. Yoshida, K. Sawada, M. Nakazawa (imec assignee from Sony Corporation), M. Caymax, C. Merckling, N. Waldron, W. Guo, S. Jiang, N. Collaert (IMEC), E. Simoen, D. Lin, and G. Pourtois (imec vzw) Profiling of Border Traps at GeSn and High-K Oxide Interface – S. Gupta (IMEC vzw, KU Leuven), E. Simoen (imec vzw), A. Dobri (University of Liege, Belgium), H. Vrielinck, J. Lauwaert (Ghent University), C. Merckling (IMEC), F. Gencarelli (KU Leuven), Y. Shimura (FWO Pegasus Marie Curie Fellow), R. Loo, and M. Heyns (IMEC)

14:40

1652

15:00

1653

15:20

1654

Tuesday, October 7

Ge-based Devices – 10:00 – 12:00 Co-Chairs: Giovanni Capellini and Cor Claeys 10:00

1648

10:40

1649

11:20

1650

Invited; The Impact of a (Si)Ge Heterojunction on the Analog Performance of Vertical Tunnel FETs – P. G. D. Agoppian (University of Sao Paulo), J. A. Martino (University of São Paulo), A. Vandooren, R. Rooyackers (imec), E. Simoen (Imec), A. Thean (IMEC), and C. Claeys (KU Leuven) Invited; Ge-on-Insulator MOSFETs for High-Performance and 3D-LSI Applications – T. Tezuka, K. Ikeda, Y. Kamata, Y. Kamimuta, K. Usuda, Y. Moriyama, M. Ono, M. Koike, M. Oda, T. Irisawa, E. Mieda, T. Maeda (National Institute of Advanced Industrial Science and Technology (AIST)), W. Jevasuwan (National Institute for Advanced Industrial Science and Technology (AIST)), Y. Kurashima, H. Takagi, K. Furuse, and E. Kurosawa (National Institute of Advanced Industrial Science and Technology (AIST)) Invited; Solid Phase Epitaxy of GeSn Alloys on Silicon and Integration in MOSFET Devices – R. R. Lieten (KU Leuven, IMEC, ATMI), T. Maeda (National Institute of Advanced Industrial Science and Technology (AIST)), J. W. Seo (KU Leuven), W. Jevasuwan, H. Hattori, N. Uchida (National Institute for Advanced Industrial Science and Technology (AIST)), S. Miura, M. Tanaka (Yokohama National University), C. Fleischmann (IMEC, KU Leuven), A. Vantomme (KU Leuven), B. C. Johnson (School of Physics, University of Melbourne), and J. P. Locquet (KU Leuven)

Doping and Junctions – 14:00 – 15:40 Co-Chairs: Gudrun Helga Kissinger and Ruben R. Lieten 14:00

116

1651

Invited; Alternative High n-Type Doping Techniques in Germanium – G. Capellini (IHP-Innovations for High Performance Microelectronics, Dip. Scienze, Università Roma Tre), W. M. Klesse, G. Mattoni, M. Y. Simmons, and G. Scappucci (School of Physics, University of New South Wales)

Deep-Level Defects in High-Dose Proton Implanted and High-Temperature Annealed Silicon – M. Jelinek (Infineon Technologies Austria AG), J. Laven (Infineon Technologies AG), M. Rommel (Fraunhofer Institute for Integrated Systems and Device Technology), W. Schustereder (Infineon Technologies Austria AG), H. J. Schulze (Infineon Technologies AG), L. Frey (Fraunhofer Institute for Integrated Systems and Device Technology), and R. Job (Department of Electrical Engineering and Computer Science, Muenster University of Applied Sciences) Formation of Shallow n-p Junctions in CzSi by Low-Energy Implantation of Carbon Ions – B. Romanyuk, V. Melnik, V. Popov, V. Litovchenko, V. Babich, V. Ilchenko, V. Kladko (V. Lashkarev Institute of Semiconductor Physics NAS of Ukraine), and J. Vanhellemont (Ghent University) A New Method to Increase the Doping Efficiency of Proton Implantation in a High-Dose Regime – M. Jelinek (Infineon Technologies Austria AG), J. Laven (Infineon Technologies AG), R. Job (Department of Electrical Engineering and Computer Science, Muenster University of Applied Sciences), W. Schustereder (Infineon Technologies Austria AG), H. J. Schulze (Infineon Technologies AG), M. Rommel, and L. Frey (Fraunhofer Institute for Integrated Systems and Device Technology)

Metals and Gettering – 16:00 – 17:20 Co-Chairs: Ruben R. Lieten and Gudrun Helga Kissinger 16:00

1655

16:20

1656

16:40

1657

17:00

1658

Modeling of Carbon Clustering and Associated Metal Gettering – Y. Jin and S. T. Dunham (University of Washington) Deep Levels in W-Doped Czochralski Silicon – E. Simoen (Imec, Ghent Unviversity), K. Saga (Sony Corporation), J. Lauwaert, and H. Vrielinck (Ghent University) Ab Initio Analysis on Stability of Metal Atoms in β-Si3N4/Si Structure – D. Shibata, S. Kobayashi, K. Sueoka (Okayama Prefectural University), J. Komachi, and K. Saga (Sony Corporation) Mn Related Defect Levels in Germanium – J. Lauwaert, F. Moens, S. H. Segers (Ghent University), K. Opsomer (IMEC), E. Simoen (imec vzw, Ghent University), J. Vanhellemont, P. Clauws, F. Callens, and H. Vrielinck (Ghent University)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort P3 Poster Session – 18:00 – 20:00 •

1659

Electrical and Structural Properties of W-Capped Er Ohmic Contact to n-Type in0.53Ga0.47As Channel – C. H. Leem, M. S. Kang, Y. J. Lee, Y. R. Lim, K. H. Shim, and C. J. Choi (Chonbuk National University) Meeting Program l October 5-9, 2014 l Cancun, Mexico


P4

1660

Self-Aligned Ni-Germanide Ohmic Contact to n-Type GaAs Substrate for High Mobility III-V Channel Metal-Oxide Semiconductor Field-Effect Transistor (MOSFET) – M. S. Kang, C. H. Leem, Y. J. Lee, Y. R. Lim, K. H. Shim, and C. J. Choi (Chonbuk National University)

Plasma Processing 20

15:00 15:20

16:00

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 5, Moon Palace Resort

General Plasma Processes – 08:50 – 11:40 Co-Chairs: S. Mathad and O. M. Leonte 08:50

09:10

1667

1668

09:30 10:00 1669

10:40

1670

11:20

1671

Fabrication of Uniform Sized Metal Spheres by Plasma Induced Dewetting – D. H. Han, S. M. Lee (Thin film technology team, Memory Division, Samsung electronics), J. J. Lee (Material Science and Engineering, Seoul National University), D. Kim, J. Choi, and J. Won (Thin film technology team, Memory Division, Samsung electronics) Nuclear Forensics Using Plasma Source Ion Beams – R. Boswell (Australian National University), N. Smith (Oregon Physics), C. Charles (Australian National University), N. Martin, and P. Tesch (Oregon Physics) Break Experiments and Modeling of Gas Heating in a Radio-Frequency Plasma Jet – R. Boswell, C. Charles, A. Greig, and S. Dixon (Australian National University) Overcoming High Performance Semiconductor Packaging Challenges Using Plasma – D. Foote (Nordson March) Plasma Solutions for Life Sciences and Medical Device Manufacturing – D. Foote (Nordson March)

Plasma Etching Processes – 13:40 – 16:20 Co-Chairs: M. Engelhardt and Dennis W. Hess 13:40

1672

14:00

1673

14:40

1674

Cryogenic Etching of Submicronic Features in Silicon Using Masks Based on Porous Polymer Films – T. Tillocher (GREMI CNRS/Université d’Orléans), A. Vitale (GREMI CNRS/Université d’Orléans, CRMD CNRS/Université d’Orléans), M. Vayer (CRMD CNRS/ Université d’Orléans), N. Gosset, P. Lefaucheux (GREMI CNRS-Université d’Orléans), C. Sinturel (CRMD CNRS/ Université d’Orléans), M. Boufnichel (STMicroelectronics), and R. Dussart (GREMI CNRS-Université d’Orléans) Plasma Etch in the Era of Atomic Scale Fidelity – T. Lill, H. Singh, G. Kamarthy, K. J. Kanarik, A. Cohen, A. Eppler, J. Holland, A. Fischer, M. Shen, J. Marks, R. A. Gottscho, and V. Vahedi (Lam Research) Alternative to H3PO4 for Si3N4 removal by using chemical downstream etching – C. de Buttet (CEA-LETI, ST Microelectronics), O. Gourhant (STMicroelectronics), S. Zoll, and R. Bouyssou (ST Microelectronics)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

P5

1675

Ge FET Fabrication by Plasma Etch at 45nm Pitch – A. Milenin (IMEC) and L. Witters (imec) 1676 Etch Challenges for 3D NAND Flash Technology – A. H. Khan, S. Srinivasan, J. Choi, A. Athayde, and R. Achutharaman (Applied Materials) 1677 HfO2 Gate Stack Engineering by Post-Gate Cleaning Using NF3/NH3 Plasma – M. S. Lee (Department of Materials Science and Engineering, Yonsei University), H. J. Oh (BIO-IT Micro Fab Center, Yonsei University), J. H. Lee, I. G. Lee (Department of Materials Science and Engineering, Yonsei University), W. G. Shin, S. Y. Kang (Gen Co. Ltd., Korea), and D. H. Ko (Department of Materials Science and Engineering, Yonsei University)

Processing Materials of 3D Interconnects, Damascene, and Electronics Packaging 6

Electronics and Photonics / Dielectric Science and Technology / Electrodeposition Expo Center, 1st Floor, Universal 13, Moon Palace Resort

Through Silicon Via II – 08:00 – 12:40 Co-Chairs: Shoso Shingubara and Mitsumasa Koyanagi 08:00

1684

08:40

1685

09:00

1686

09:20

1687

09:40 10:00 1688

10:20

1689

11:00

1690

Recent Progress in Cu Electrodeposition for TSV (Through Silicon Via) – J. J. Kim, M. J. Kim, S. Choe, K. H. Kim, H. C. Kim, and A. Lee (Seoul National University) Kinetic Monte Carlo Simulation of Filling High-Aspect-Ratio through Silicon Via - III – Y. Kaneko, Y. Fukiage, A. Morita (Kyoto University), T. Hayashi, K. Kondo (Osaka Prefecture University), K. Ohara, and F. Asa (C. Uyemura & Co., Ltd.) Plating through Hole with High Throwing Power Using Dual Levelers – C. F. Hsu, W. P. Dow (National Chung Hsing University), and S. M. Huang (Army Academy) Through Silicon via Filling by Electroplating Using Reduced Graphene Oxide (rGO) as a Conducting Layer – S. C. Chang and W. P. Dow (National Chung Hsing University) Break Through-Silicon-Via(TSV) Filling by Electrochemical Deposition with PulseReverse Current – S. Jin (Hanyang Univ.) and B. Yoo (Hanyang University) Cryoetching of Silicon and Advanced Materials for 3D Interconnects – R. Dussart, T. Tillocher, N. Gosset, P. Lefaucheux, R. L’jazouli (GREMI CNRSUniversité d’Orléans), M. Boufnichel (STMicroelectronics), L. Zhang, J. F. de Marneffe, M. Baklanov (IMEC), E. Nishimura, K. Yatsuda, and K. Maekawa (Tokyo Electron) Electrografted Copper Seed Layer for High Aspect Ratio TSVs Interposer Metallization – F. Gaillard, T. Mourier, L. Vandroux (CEA-Leti, Minatec Campus), L. Religieux, D. Suhr, F. Raynal, and V. Mevellec (Alchimer SA) 117

Tuesday, October 7


11:20

1691

12:00

1692

12:20

1693

Electroless Plating for Seed Layer Deposition and Direct Metallization of Glass for Interposer Fabrication – C. Cordonier, K. Okabe, and H. Honma (Kanto Gakuin University, Materials & Surface Engineering Research Institute) Low-Cost MEMS Packaging Using Sacrificial Polymer-Based In-Situ Airgap Creation – E. Uzunlar, O. Philips, Z. Zhu, and P. A. Kohl (Georgia Institute of Technology) Advances in Wafer Bonding for 3D Integration and Other Applications – J. J. Q. Lu (Rensselaer Polytechnic Institute)

Tuesday, October 7

Fundamentals in Electrodeposition I – 15:00 – 17:00 Co-Chairs: Masanori Hayase and Rohan Akolkar 15:00

1694

15:40

1695

16:20

16:40

P6

1697

1698

Anodic Oxidation of SPS Resulting in PDS Formation and the Influence of PDS on Electrolytic Copper Via Filling Performance – R. Kimizuka (JCU CORPORATION, Kanto Gakuin University), H. Toda, T. Eda (JCU CORPORATION), and O. Takai (Kanto Gakuin University) Numerical Analysis of the Correlation between the Cu+ Ion Concentration and the Current Density – T. Hayashi, K. Kondo, M. Yokoi, T. Saito, and N. Okamoto (Osaka Prefecture University) Behavior of Cuprous Intermediate by RRDE – K. NIshimura, M. Yokoi, K. Kondo, T. Hayashi, N. Okamoto, and T. Saito (Osaka Prefecture University) Degradation of Organic Additives and Its Influences on Cu Electrodeposition – S. Choe, M. J. Kim, K. H. Kim, H. C. Kim, A. Lee (Seoul National University), S. K. Kim (School of Integrative Engineering, ChungAng University), and J. J. Kim (Seoul National University)

Electronics and Photonics Expo Center, 1st Floor, Universal 9, Moon Palace Resort

07:50 08:00 1728

118

1730

1729

Introductory Remarks Invited: Water Stress Corrosion in Bonded Structures – F. Fournel, C. Martin-Cocher, D. Radisson, V. Larrey, E. Beche, C. Morales, P. A. Delean (CEA, Leti, Minatec Campus), F. Rieutord (CEA, INAC), and H. Moriceau (CEA, Leti, Minatec Campus) Surface Characterization for and by Semiconductor Wafer Direct Bonding – R. Knechtel, N. Frohn, and H. Klingner (X-FAB MEMS Foundry GmbH Erfurt)

AlN-AlN Wafer Bonding and Its Thermal Characteristics – S. Bao (Singapore-MIT Alliance for Research and Technology (SMART), Nanyang Technological University), K. H. Lee (Singapore-MIT Alliance for Research and Technology (SMART)), G. Y. Chong (Nanyang Technological University), E. A. Fitzgerald (Singapore-MIT Alliance for Research and Technology (SMART), Massachusetts Institute of Technology), and C. S. Tan (Nanyang Technological University, Nanyang Technological University)

Temporary Wafer Bonding – 09:40 – 10:40 Co-Chairs: Laurent Brunet and Ralf Hausner 09:40

1731

10:00

1732

10:20

1733

Temporary Wafer Bonding by Polyelectrolyte Interlayers – M. Eichler (Fraunhofer Institute for Surface Engineering and Thin Films IST), H. Dillmann (Technische Universität Braunschweig), L. C. Reim, M. Thomas (Fraunhofer Institute for Surface Engineering and Thin Films IST), and C. P. Klages (Fraunhofer Institute for Surface Engineering and Thin Films IST, Technische Universität Braunschweig) Delamination Root Cause in Temporary Bonding – K. Vial (EV Group), F. Fournel (CEA, Leti, Minatec Campus), M. Wimplinger, J. Burggraf, J. Bravin (EV Group), P. Montméat, and M. Pellat (CEA, Leti, Minatec Campus) New Temporary Bonding Solution Based on a Vacuum Wafer Carrier – T. Rogers and R. Santilli (Applied Microengineering Ltd)

Characterization of Bonded Wafers and Devices Part II – 11:00 – 12:00 Co-Chair: Lukas Czornomaz 11:00

1734

11:20

1735

11:40

1736

Semiconductor Wafer Bonding 13: Science, Technology, and Applications

Characterization of Bonded Wafers and Devices Part I – 07:50 – 09:20 Co-Chair: Karl D. Hobart

08:40

09:00

Hermeticity and Reliability of Al-Al Thermocompression Wafer Bonding – N. Malik (University of Oslo), E. Poppe, K. Schjolberg-Henriksen, M. M. V. Taklo (SINTEF), and T. G. Finstad (University of Oslo) Large Area Plan-View Transmission Electron Microscopy Sample Preparation for Direct-Bonded Interfaces – B. Beekley, C. R. Roberts, M. S. Salazar (UCLA), and M. S. Goorsky (University of California, Los Angeles) Hermeticity and Reliability of Au-Au Thermocompression Bonds, Realized at Low Temperature – N. Malik (University of Oslo), H. Tofteberg, E. Poppe (SINTEF), T. G. Finstad (University of Oslo), and K. Schjolberg-Henriksen (SINTEF)

Wafer Bonding for MEMS and Packaging – 13:00 – 16:50 Co-Chairs: Chuan Seng Tan and Julie Widiez 13:00

1737

Invited: Wafer-Bonding for MEMS – Status and Trends – R. Hausner (BOSCH GROUP)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


14:20

1738

1739

14:40 15:00 1740

15:20

15:40

16:00

16:20

1741

1742

1743

1744

16:40

Invited: Wafer-Level Integration of Embedded Cooling Approaches – S. Paredes, Y. Madhour, G. Schlottig, C. L. Ong, and T. Brunschwiler (IBM Research) Low-Temperature Solid-State Bonding Using Hydrogen Radical Treated Solder for Optoelectronic and MEMS Packaging – E. Higurashi, H. Kawai, T. Suga (The University of Tokyo), S. Okada (Senju Metal Industry Co., Ltd.), and T. Hagihara (Shinko Seiki Co., Ltd.) Break Electrical, Mechanical, and Hermeticity Properties of Low Temperature, Plasma Activated Direct Si Bonded Joints – K. SchjølbergHenriksen (SINTEF), N. Malik (SINTEF, University of Oslo), E. V. Gundersen, O. R. Christiansen, K. Imenes (Høgskolen i Buskerud og Vestfold), and S. T. Moe (SINTEF) Materials Issues in Hermetic Wafer Level Packaging Using Au Thermocompression and Au-Sn Transient Liquid Phase Bonding – D. Chagnon, D. Isik (Department of Engineering Physics, École Polytechnique de Montréal), P. Lévesque (Department of Chemistry, Université de Montréal), F. Lewis, M. Caza, X. T. Le, J. S. Poirier, D. Michel, R. Larger (Teledyne DALSA Semiconducteur), and O. Moutanabbir (Department of Engineering Physics, École Polytechnique de Montréal) Detailed Investgation of Inner Cavity Pressure of MEMS Devices Sealed by Wafer Bonding – R. Knechtel, S. Dempwolf, and S. Hering (X-FAB MEMS Foundry GmbH Erfurt) Low Activation Temperature Au/Ti Getter Films for Wafer-Level Vacuum Packaging – M. Wu (Univ. Paris Sud), J. Moulin (Université Paris Sud), G. Agnus (Univ. Paris Sud), and A. Bosseboeuf (CNRS, Univ. Paris Sud) Leak Rates and Residual Gas Pressure in Cavities Sealed by Metal ThermoCompression Bonding and Silicon Direct Bonding – K. Schjølberg-Henriksen (SINTEF), N. Malik (University of Oslo, SINTEF), A. Sandvand (Memscap, HBV), G. Kittilsland (SensoNor), and S. T. Moe (SINTEF) Concluding Remarks

Meeting Program l October 5-9, 2014 l Cancun, Mexico

P7

SiGe, Ge, and Related Compounds: Materials, Processing, and Devices 6 Electronics and Photonics Expo Center, 1st Floor, Universal 8, Moon Palace Resort

Processing 2 – 08:00 – 10:00 Co-Chairs: Shigeaki Zaima and Stefano Chiussi 08:00

1776

08:30

1777

08:50

1778

09:20

1779

09:40

1780

Combining SiGe BiCMOS and InP Processing in an on-top of Chip Integration Approach – M. Lisker, A. Trusch, A. Krüger, M. Fraschke, P. Kulse, S. Marschmeyer, J. Schmidt, C. Meliani, B. Tillack (IHP), N. Weimann, T. Kraemer, I. Ostermay, O. Krüger, T. Jensen, T. Al-Sawaf, V. Krozer, and W. Heinrich (Ferdinand Braun Institut für Höchstfrequenztechnik) Temperature Dependent Internal Friction Behavior of Single Crystal Germanium Studied by the Impulse Excitation Technique – A. K. Swarnakar (National Institute of Technology, KU Leuven), O. Van der Biest, J. Van Humbeeck (KU Leuven), and J. Vanhellemont (Ghent University) “Small Size” Effects in Si-Based Epitaxies for Advanced CMOS Technologies – D. Dutartre, B. Seiss, D. Barge, and N. Loubet (STMicroelectronics) Etch Pit Formation on Germanium Alloys by in situ Gaseous Hydrogen Chloride Etching – Y. C. Huang, C. Wang (Applied Materials, Inc.), and Y. Kim (Applied Materials) Reduction of RIE Induced Ge Surface Roughness by SF6-CF4 Cyclic Etching Method – X. Ma (Zhejiang University, Nanjing University), R. Zhang, and Y. Zhao (Zhejiang University)

Expo Center, 1st Floor, Universal 7, Moon Palace Resort Surfaces & Interfaces 2: Channel and Gate Stack Technology 2014 – 10:15 – 11:45 Co-Chairs: Seiichi Miyazaki and Shigeaki Zaima 10:15

1785

10:35

1786

11:05

1787

11:25

1788

Characterization of Chemical Bonding Features and Interfacial Reactions in Ge-MIS Structure with HfO2/TaGexOy Dielectric Stack – A. Ohta (Nagoya University), H. Murakami, K. Hashimoto (Hiroshima University), K. Makihara, and S. Miyazaki (Nagoya University) Interfacial Layer Engineering Using Thulium Silicate/Germanate for High-k/ Metal Gate MOSFETs – P. E. Hellström, E. D. Litta, and M. Östling (KTH Royal Institute of Technology) Investigation of Al-PMA Effect on Al2O3/ GeOX/Ge Gate Stack – Y. Nagatomi, Y. Nagaoka, K. Yamamoto, D. Wang, and H. Nakashima (Kyushu University) Ultra-Thin, High Quality HfO2 on StrainedGe MOS Capacitors with Low Leakage Current – J. T. Teherani, W. Chern, D. A. Antoniadis, and J. L. Hoyt (Massachusetts Institute of Technology)

119

Tuesday, October 7

13:40


Tuesday, October 7

Expo Center, 1st Floor, Universal 8, Moon Palace Resort

Optoelectronics 1: Emission – 15:45 – 17:25 Co-Chair: Gianlorenzo Masini

HBT 2: Optimization, Characterization, and Modeling – 10:15 – 11:55 Co-Chairs: G. Niu and Rudolf Lachner

15:45

1794

16:15

1795

16:35

1796

17:05

1797

10:15

1781

10:45

1782

11:05

1783

11:35

1784

Application-Specific SiGe HBT Optimization – P. H. C. Magnée, R. V. Dalen, H. Mertens, and T. Vanhoucke (NXP Semiconductors) SiGe HBTs in 90nm BiCMOS Technology Demonstrating fT/fMAX 285GHz/475GHz through Simultaneous Reduction of Base Resistance and Extrinsic Collector Capacitance – Q. Z. Liu, J. W. Adkisson, V. Jain, R. A. Camillo-Castillo (IBM Microelectronics Division), M. H. Khater (IBM T.J. Watson Research Center), P. B. Gray, J. J. Pekarik, B. Zetterlund, A. W. Divergilio, M. L. Kerbaugh, and D. L. Harame (IBM Microelectronics Division) Electro-Thermal Characterization of SiGe HBT PA-Cells – T. Zimmer (University of Bordeaux), M. Weiß (XMOD Technologies), M. De Matos, C. Maneux (University of Bordeaux), and S. Fregonese (CNRS) Second Order Intermodulation Linearity of a 200 GHz SiGe HBT Technology – Z. Li, G. Niu (Auburn University), and X. Wei (Huazhong University of Science and Technology)

Joint FET and Strain 1: Germanium FETs – 13:20 – 15:30 Co-Chairs: Y. Yee Chia and Ken Uchida 13:20

13:50

14:10

14:40

120

1789

1790

1791

1792

Gate-All-Around Ge FETs – C. W. Liu (National Taiwan University, National Nano Device Laboratories), Y. T. Chen (National Taiwan University), and S. H. Hsu (National Nano Device Laboratories) Plasma Post-Oxidation for High Mobility Strained-Ge pFETs with Aggressively Scaled High-κ Dielectrics – W. Chern (IBM T.J. Watson Research Center, Massachusetts Institute of Technology), P. Hashemi, M. Kobayashi, D. G. Park (IBM T.J. Watson Research Center), and J. L. Hoyt (Massachusetts Institute of Technology) Silicon Germanium FinFET Device Physics, Process Integration and Modeling Considerations – D. Lu (IBM), P. Morin (STMicroelectronics), B. Sahu (GLOBALFOUNDRIES), T. B. Hook, P. Hashemi, A. Scholze (IBM), B. Kim (Samsung Electronics), P. Kerber, A. Khakifirooz, P. Oldiges, K. Rim, and B. Doris (IBM) Mobility Enhancement of Uniaxially Strained Germanium Nanowire MOSFETs – K. Ikeda, Y. Kamimuta, Y. Moriyama, M. Ono, K. Usuda, M. Oda, T. Irisawa (National Institute of Advanced Industrial Science and Technology (AIST)), D. Kosemura, A. Ogura (Meiji University), and T. Tezuka (National Institute of Advanced Industrial Science and Technology)

Highly-Doped, Highly-Strained Germanium and Schottky Electroluminescent Diodes – M. El Kurdi (Université Paris Sud), M. Prost (Université Paris Sud, STMicroelectronics), A. Ghrib, X. Checoury, S. Sauvage, N. Zerounian, F. Aniel (Université Paris Sud), G. Beaudoin, I. Sagnes (CNRS), V. Le Thanh (Université Aix Marseille), T. P. K. Luong (University Hong Duc), M. Chaigneau, R. Ossikovski (CNRS-Ecole polytechnique), C. Baudot, F. Boeuf (STMicroelectronics), and P. Boucaud (Université Paris Sud) Photoluminescence Study of Si Quantum Dots with Ge Core – K. Makihara, K. Kondo (Nagoya University), M. Ikeda (Hiroshima University), A. Ohta, and S. Miyazaki (Nagoya University) Light Emission from Highly-Strained Germanium for On-Chip Optical Interconnects – D. Nam, D. S. Sukhdeo (Stanford University), B. R. Dutt (APIC Corporation, PhotonIC Corporation), and K. C. Saraswat (Stanford University) Franz-Keldysh Effect in GeSn Detectors – S. Bechler, M. Oehme, O. Latzel, M. Schmid, K. Kostecki, R. Koerner, M. Gollhofer, E. Kasper, and J. Schulze (University of Stuttgart)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort P7 Poster Session – 18:00 – 20:00 •

1798

1799

1800

1801

Structural and Optical Properties of Ge1Grown on GaAs (001) by R. F. Magnetron Sputtering – H. Pérez Ladrón de Guevara (Universidad de Guadalajara), A. G. Rodríguez, H. Navarro-Contreras, and M. A. Vidal (Universidad Autónoma de San Luís Potosí) A Study on the Sensitivity between Oxygen Radical and Negative Color PR in Exposure Process of CMOS Image Sensor – S. D. Hwang (Samsung Institute of Technology, Samsung Electronics), J. N. Kim, Y. J. Kim, and J. K. Choi (Samsung Electronics) Low-Temperature Deposition of Thin Si, Ge, and SiGe Films Using Reducing Activity of Ballistic Hot Electrons – N. Koshida, R. Suda, M. Yagi, A. Kojima, R. Mentek (Tokyo University of Agriculture and Technology), B. Gelloz (Nagoya University), N. Mori (Osaka University), and J. Shirakashi (Tokyo University of Agriculture and Technology) Fermi-Level Depinning of Ge Schottky Junction Using Se Treatment – Y. R. Lim, Y. J. Lee, K. H. Shim, V. Janardhanam, and C. J. Choi (Chonbuk National University) XSnx Alloys

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1802

1803

1804

1805

1806

P8

Fast and Accurate in-Line Monitor of Boron Implantation Energy and Dose by Spectroscopic Ellipsometry – T. Y. Wen, T. W. Lu, Y. R. Wang, C. F. Lin, J. Y. Wu (United Microelectronics Corp. (UMC)), S. J. Chang, S. M. Chiu, C. J. Huang, C. Y. Cheng, J. Cheng, G. Raphael, Z. Jiang, and Z. Tan (KLA-Tencor Corporation) Pre-Amorphization and Low-Temperature Implantation for Efficient Activation of Implanted As in Ge(100) – H. Murakami, S. Hamada, T. Ono, K. Hashimoto (Hiroshima University), A. Ohta (Nagoya University), H. Hanafusa, S. Higashi (Hiroshima University), and S. Miyazaki (Nagoya University) Detection of Effect of Strain on the Valence Band Structure of SiGe by HXPES with High Spatial Resolution – S. Yamahori, T. Sasago, T. Sakurai, E. Yonekura, K. Sawano (Tokyo City University), E. Ikenaga (Japan Synchrotoron Radiation Research Institute), and H. Nohira (Tokyo City University) The Use of Dopants for Defect Monitoring for Silicon-Germanium Ultra-High Vaccuum Chemical Vapor Deposition – R. Hazbun, J. Hart (University of Delaware), J. Nakos, D. Siegel (IBM Microelectronics Division), C. Funch, V. Kaushal, D. S. Hazel (IBM Corporation), and J. Kolodzey (University of Delaware) Optical Constants Determination of Pseudomorphic Si1-XGex Layers on Si(001), with 0<x<0.54 – E. Nolot, J. M. Hartmann (CEA, LETI), and J. Hilfiker (J.A. Woollam Co. Inc.)

P9

09:30 10:00 1875

10:40

1876

11:20

1877

11:40

1878

Electronics and Photonics

1872

ALD Synthesis of PbSe Thin Films inside Porous Si Templates for Innovative Thermoelectric Applications – K. Zhang (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), A. D. Ramalingom Pillai (Old Dominion University), X. Chen, H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories), and V. Kochergin (MicroXact Inc.)

13:40

1879

14:20

1880

Electronics and Photonics / Dielectric Science and Technology Expo Center, 1st Floor, Universal 10, Moon Palace Resort

1873

Transparent Conducting ITO Nanowires: Orientation Control, Phase Selection, and Light Emission – T. Wu (KAUST)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Transparent Electrodes Based on ThreeDimensional Nanohelixes Light Harvesting Applications – J. K. Kim, I. Choi, H. Kwon, S. H. Lee, and S. J. Oh (POSTECH) Break Wrappable, Stretchable and Transparent Photodetectors using a Printed Nanowire Network Scheme – D. H. Lien, S. B. Chen, Y. C. Chi, C. L. Wu, Y. C. Liao, G. R. Lin, S. C. Lee, and J. H. He (National Taiwan University) Graded Index Transparent Conducting Materials with Enhanced Optical Functionality – C. O’Dwyer (University College Cork) Transparent Ga2O3 Photodetectors for Harsh Optoelectronics – T. C. Wei, D. S. Tsai (Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, Taiwan), P. Ravadgar (the Department of Photonics and Advanced Optoelectronic Technology Center, National Cheng Kung University, Tainan, Taiwan), J. J. Ke (Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, Taiwan, ROC), M. L. Tsai (the Department of Electrical Engineering, and Graduate Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, Taiwan), D. H. Lien (Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, Taiwan, ROC), C. Y. Huang (the Department of Materials Science and Engineering, National Chung Hsing University), R. H. Horng (the Graduate Institute of Precision Engineering, National Chung Hsing University, Taichung, Taiwan), and J. H. He (Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, Taiwan) Metal Decorated Carbon-Based Materials for Transparent Conductive Thin Films – P. H. Wang (Dept. of Chemical Engineering, National Taiwan University), W. H. Chiang (Department of Chemical Engineering, National Taiwan University of Science and Technology), and Y. C. Liao (National Taiwan University)

Multi-functional Optoelectronic Materials – 13:40 – 15:20 Co-Chair: Jr-Hau He

Transparent Conducting Materials for Electronic and Photonics

Transparent Conducting Nanomaterials – 08:10 – 12:00 Co-Chairs: Colm O’Dwyer and Jong Kyu Kim 08:10

1874

Thermoelectric and Thermal Interface Materials

P8 Poster Session – 18:00 – 20:00 •

08:50

Transparent Graphene Nanoplatelets for Charge Storage in Memory Devices – A. Nayfeh (Masdar Institue of Science and Technology), A. Okyay (UNAM), N. El-Atab (Masdar Institute of Science and Technology), F. Cimen (Bilkent University), and S. Alkis (UNAM) Flexible and Pixelated Textile Pressure Sensor Fabricated with Weaving Techniques – J. Lee, H. Kwon, J. Seo, S. Shin, D. Kim, and T. Lee (Yonsei University)

121

Tuesday, October 7


15:00

1881

Transparent Conductive Vanadium OxideBased Thin Films from Liquid Precursors – C. Glynn (University College Cork), D. Aureau (Institut Lavoisier de Versailles, UVSQ), G. Collins (University College Cork), A. Etcheberry (Institut Lavoisier de Versailles, UVSQ), and C. O’Dwyer (University College Cork)

08:30

1889

08:50

1890

09:10

1891

Solar Cell and Polymer Materials – 15:40 – 17:00 Co-Chair: Jong Kyu Kim 15:40

1882

1883

16:20

1884

Tuesday, October 7

16:00

16:40

1885

The Effect of Band-Bending on Hybrid Bulk Heterojunction Solar Cell Performance – A. J. Haring and A. J. Morris (Virginia Tech) Microdroplet Manipulation at Ultra-Low Voltages on Conjugated Polymer Using Electrochemical Tunable Wetting – W. Xu, C. H. Choi, and E. H. Yang (Stevens Institute of Technology) Control of Thickness, Morphology and Band Gap of Poly-(3.4ethylenedioxythiophene) Electrochemically Growth (e-PEDOT) to Use It as Anodic Buffer Layer in Organic Photovoltaic Cells – J. A. del Oso-Acevedo (Universidad Autónoma de la Ciudad de México), B. A. Frontana-Uribe (Centro Conjunto de Investigación en Química Sustentable UAEMéx-UNAM, Universidad Nacional Autónoma de México), J. L. MaldonadoRivera (Centro de Investigaciones en Óptica), G. Roa-Morales (Centro Conjunto de Investigación en Química Sustentable (CCIQS) UAEM-UNAM), and M. R. Hernández (Instituto de Física UNAM) A Scanning Kelvin Probe Investigation of the Interaction of PEDOT:PSS Films with Metal Surfaces – C. F. Glover (SPECIFIC, Swansea University), T. Watson, D. Bryant (Swansea University (SPECIFIC)), and G. Williams (Swansea University)

Emerging Nanomaterials and Devices 2 – 13:00 – 15:00 Co-Chairs: Qiliang Li and Helmut Baumgart 13:00

1892

13:30

1893

14:00

1894

14:20

1895

14:40

1896

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort P9 Poster Session – 18:00 – 20:00 •

1886

1887

Q1

Sol Gel Dip Coated CdO : Ga Films – K. R. Murali (CECRI, Karaikudi, India) The Influence of Trifluoroacetic Acid on the Poly(3,4-ethylenedioxythiophene):P oly(styrenesulfonate) – Y. C. Du, L. D. Tsai, and J. Fang (Industrial Technology Research Institute)

Emerging Nanomaterials and Devices

Electronics and Photonics / Dielectric Science and Technology Expo Center, 1st Floor, Universal 7, Moon Palace Resort

Emerging Nanomaterials and Devices 1 – 08:00 – 09:30 Co-Chairs: Qiliang Li and Jr-Hau He 08:00

122

1888

Invited: Electron Flow in GC8 DNA strand – J. Qi and M. P. Anantram (University of Washington)

Functionalized Germanene as Emerging Nanomaterials – J. Li (Dept of Mat. Sci. and Eng., University of Pennsylvania), D. Datta (Brown University), and V. B. Shenoy (Depts of Mat. Sci. and Eng. & Mech. Eng. and App. Mech., University of Pennsylvania) Study on Thermal Stability of Dendritic Silver-Coated Copper Powders Fabricated by Galvanic Displacement Reaction – K. Zhuo, Y. S. Park, N. Seo (Sungkyunkwan University), and C. H. Chung (Sungkyunkwan university) Synthesis of Metal Nano-Powders in Nonstationary Electrolysis Conditions – M. S. Lipkin (South Russian State Polytechnical University), V. M. Lipkin (South Russian State Technical University, South Russian State Technical University), A. A. Naumenko, A. S. Misharev, F. R. Tulaeva, E. A. Rybalko, N. A. Lytkin, V. G. Shishka, and A. N. Bogdanchenko (South Russian State Technical University)

Invited: Electronic Devices Based on Vertical Si Nanowires – H. Yu (South University of Science and Technology of China,) Invited: Scaling Mosfets with Self-Aligned Super-Steep-Retrograde-Well – H. Zhu (Key Laboratory of Microelectronics Devices & Integrated Technology, Institute of Microelectronics, Chinese Academy of Sciences) Crossover from Band-like to Thermally Activated Charge Transport in Organic Thin-Film Transistors as a Result of Microstress – Y. Mei (Wake Forest University), M. M. Payne (University of Kentucky), C. S. Day (Wake Forest University), J. E. Anthony (University of Kentucky), and O. D. Jurchescu (Wake Forest University) Novel Electrostatically Doped Planar FieldEffect Transistor for High Temperature Applications – T. A. Krauss (Institute for Semiconductor Technology and Nanoelectronics, Technische Universität Darmstadt), F. Wessely (Institute for Semiconductor Technology and Nanoelectronics, Technische Universtität Darmstadt), and U. Schwalke (Institute for Semiconductor Technology and Nanoelectronics, Technische Universität Darmstadt) Synthesis and Characterization of CuO Nanotubes (NTs) Formed By Anodization Sonoelectrochemical – P. C. Grez (Instituto de Química, Pontificia Universidad Católica de Valparaíso), L. A. Ballesteros (Pontificia Universidad Católica de Valparaíso), C. E. Celedón (Universidad Técnica Federico Santa María), and R. S. Schrebler (Pontificia Universidad Católica de Valparaíso)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


15:20

15:50

16:20

16:40

17:00

Q3

1897

Invited: From Graphene to TransitionMetal Dichalcogenide (TMDs) Semiconductors: Probing at Atomic Scale – M. Pan (Center for Nanophase Materials Sciences, Oak Ridge National Laboratory) 1898 Invited: Room Temperature Hydrogen Generation from Hydrolysis of AmmoniaBorane over an Efficient Niagpd/C Catalyst – K. W. Huang (King Abdullah University of Science and Technology) 1899 Effects of Doping, Strain and Size on the Electrical Properties of MoS2 Nanoribbons – S. Yu, Q. Li, and K. Eshun (George Mason University) 1900 Pd/TiO2-multiwall nanotubes toward electrocatalytic oxidation of formic acid in acid media – J. Aldana-González (Universidad Autónoma Metropolitana Azcapotzalco), M. G. Montes de Oca (Universidad Autónoma MetropolitanaAzcapotzalco), J. C. Olvera, R. SánchezGuajardo, E. Garfias-García, M. A. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), and M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco) 1901 1D Photonic and Electrochromic Nanomaterials Applications – E. Redel (Karlsruhe Institute of Technology)

GaN and SiC Power Technologies 4

Electronics and Photonics / Dielectric Science and Technology Expo Center, 1st Floor, Universal 20, Moon Palace Resort

GaN Materials and Power Devices – 10:10 – 11:50 Co-Chairs: Manijeh Razeghi and Aris Christou 10:10

1976

10:30

1977

10:50

1978

11:10

1979

11:30

1980

Material Defects and Their Impact – 14:00 – 16:20 Co-Chairs: Michael Dudley and Mietek Bakowski 14:00

1981

14:20

1982

14:40

1983

15:00

1984

15:20

1985

15:40

1986

16:00

1987

SiC Material Growth and Characterization – 08:20 – 09:40 Co-Chairs: Aivars Lelis and N. Ohtani 08:20

1972

08:40

1973

09:00

1974

09:20

1975

Innovative Solutions to Materials Challenges for High-Voltage SiC Power Devices – D. K. Gaskill, R. L. MyersWard, P. B. Klein, N. A. Mahadik, R. E. Stahlbush, and C. R. Eddy Jr. (U.S. Naval Research Laboratory) Stacking Fault Formation during HomoEpitaxy of 4H-SiC – M. Dudley, H. Wang, F. Wu, Y. Yang, J. Guo (Stony Brook University), J. Zhang, B. Thomas, E. K. Sanchez, S. Mueller, D. Hansen, and M. Loboda (Dow Corning Compound Semiconductor Solutions) Thermodynamics and Kinetics of SiC CVD Epitaxy – A. Yanguas-Gil and K. Shenai (Argonne National Laboratory) Characterization of Defects in SiC Substrates and Epilayers – M. Dudley, H. Wang, F. Wu, Y. Yang, J. Guo (Stony Brook University), G. Chung, B. Thomas, E. K. Sanchez, S. Mueller, D. Hansen, M. Loboda, and J. Zhang (Dow Corning Compound Semiconductor Solutions)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Digital Control of DC-DC Converters Employing Wide Band Gap (WBG) Power Devices – L. Guo (Northern Illinois University), K. Shenai, and J. Wang (Argonne National Laboratory) New Material Technologies in AlGaN/ GaN Based Electronic Devices – M. Leszczynski (Institute of High Pressure Physics) Novel Oxide Buffer for Scalable GaN-onSilicon – A. Clark, R. Dargis, F. E. Arkun, and R. S. Smith (Translucent Inc.) An Industrial 650V GaN DHEMT Cascode Technology – M. Tack, P. Moens, C. Liu, and F. Bauwens (ON Semiconductor) Advances in Diamond Integration for Thermal Management in GaN Power HEMTs – T. J. Anderson, K. D. Hobart, M. J. Tadjer, A. D. Koehler, T. I. Feygelson, B. B. Pate (Naval Research Laboratory), J. K. Hite (U.S. Naval Research Laboratory), F. J. Kub, and C. R. Eddy Jr. (Naval Research Laboratory)

On the Power-Handling Capability of Wide Bandgap (WBG) Semiconductor Power Switching Devices – K. Shenai (Argonne National Laboratory) Direct Observation of Bandgap Shift in the Dislocations Using High Resolution Cathodoluminescence in Transmission Electron Microscopy – S. D. Kim (Seoul National University), S. Y. Kwon (Ulsan National Institute of Science and Technology), M. H. Sheen, and Y. Kim (Seoul National University) GaN/Si(111) Device Defects and HFET Degradation Mechanisms – A. Christou and D. Shahin (University of Maryland) Studies of Relaxation Processes and Basal Plane Dislocations in CVD Grown Homoepitaxial Layers of 4H-SiC – M. Dudley, H. Wang, F. Wu, Y. Yang, J. Guo (Stony Brook University), G. Chung, J. Zhang, B. Thomas, E. K. Sanchez, S. Mueller, D. Hansen, and M. Loboda (Dow Corning Compound Semiconductor Solutions) Comparison of the Forward Voltage Drop of Si and SiC High Voltage Diodes – T. Gachovska (Solantro Semiconductor Corp.) and J. L. Hudgins (University of Nebraska) PECVD and Thermal Gate Oxides on 3C Vs. 4H SiC – Impact on Traps, Leakage and Energy Offsets – T. Gutt, H. M. Przewlocki, K. Piskorski (Institute of Electron Technology), A. Mikhaylov, and M. Bakowski (Acreo Swedish ICT) Angle-Resolved Photoelectron Spectroscopy Studies of Initial Stage of Oxidation on C-Face 4H-SiC – T. Sasago, S. Yamahori, and H. Nohira (Tokyo City University) 123

Tuesday, October 7

Emerging Nanomaterials and Devices 3 – 15:20 – 17:20 Co-Chairs: Oana D Jurchescu, Jr-Hau He, and Helmut Baumgart


Special Session - Work Force Development (Industry Perspective) – 16:30 – 18:00 Co-Chairs: Krishna Shenai and Tanya Gachovska 16:30

1988

16:50

1989

17:10

1990

Q4

Workforce Development at PEIC – Power Electronics Industry Collaborative – J. N. Hryn (Argonne National Laboratory) Work Force Development Challenges in the Wide Band Gap Supply Chain Industry – G. Ruland and T. Wessel (II-VI, WBG) Wide Bandgap Semiconductor Research Interests at Navy Laboratories – K. D. Hobart (Naval Research Laboratory)

Low-dimensional Nanoscale Electronic and Photonic Devices 7

Electronics and Photonics / Dielectric Science and Technology / Sensor Expo Center, 1st Floor, Universal 19, Moon Palace Resort

Tuesday, October 7

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part III – 08:00 – 11:30 Co-Chairs: Joseph R. Stetter and Hyunhyub Ko 08:00

08:30 09:00

2007

2008 2009

09:30 10:00 2010

10:30

2011

11:00

2012

Graphene Synthesis By Plasma Technique Toward Transparent Conductive Film Applications – M. Hasegawa, R. Kato, Y. Okigawa, M. Isihara, and T. Yamada (National Institute of Advanced Industrial Science and Technology) Study of 1/f Noise in Graphene Based Field-Effect-Transistors – Y. Zhang (Chinese Academy of Sciences) Scalable Growth of Single-Crystal Graphene on Hydrogen-Terminated Germanium – D. Whang (Sungkyunkwan University) Break Fast Direct Growth of Self-Crystallized Graphene-from Controllable Growth to Material Characterization and Device Applications – Y. L. Chueh (Dept. of Materials Scence and Engineering, National Tsing Hua University) Direct CVD Growth of High Quality Single Layer Graphene on Dielectric Substrates – H. C. Choi (POSTECH, South Korea, Institute for Basic Science) Towards Highly Transparent and Flexible Field Emission Displays Based on LowDimensional Nanocarbon – M. Tanemura (Nagoya Institute of Technology)

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part IV – 13:30 – 15:20 Co-Chairs: Jyh Ming Wu and Masataka Hasegawa 13:30

14:00

124

2013

2014

III-V Nanostructures Grown by Molecular Beam Epitaxy for High Efficiency Solar Cells – J. Wu, P. Lam, Y. Zhang, M. Tang, S. Hatch, and H. Liu (University College London) Epitaxial Transfer Printing of Compound Semiconductor Nanomembranes and Device Applications – D. S. Um, Y. Lee, H. Lee, S. Lim, and H. Ko (Ulsan National Institute of Science and Technology)

14:30

2015

15:00

2016

Heterointegration Technologies for Advanced 3D Neural Interfaces – S. A. Dayeh and R. Chen (University of California San Diego) Ultrashort Channel Silicon Nanowire Transistors with Nickel Silicide Source/ Drain Contacts – W. Tang (University of California Los Angeles), S. A. Dayeh (University of California San Diego), S. T. Picraux (Los Alamos National Laboratory), and K. N. Tu (University of California, Los Angeles)

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part V – 16:00 – 17:40 Co-Chairs: Shadi A. Dayeh and Johnny C. Ho 16:00

2017

16:30

2018

17:00

2019

17:20

2020

Q6

Prolonged Hot Electron Dynamics in Plasmonic-Metal/Semiconductor (Au/ TiO2) Heterostructures with Implications for Solar Photocatalysis – W. D. Wei (University of Florida) Omnidirectional Broadband Silicon-Based Solar Cells – J. H. He (National Taiwan University) Methods of Patterned Mist Deposition of Nano-Crystalline Quantum Dot Films – A. Sabeeh, Y. Thakur, J. H. Chao (The Pennsylvania State University), A. Kshirsagar (Intel Corp), and J. Ruzyllo (The Pennsylvania State University) Geometry Controlled Growth of Single Crystalline CdS Nanopillar Arrays and the Investigation of Their Electrical Properties – L. Gu (Hong Kong University of Science and Technology)

Photovoltaics for the 21st Century 10

Dielectric Science and Technology / Electrodeposition / Electronics and Photonics / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering Expo Center, 2nd Floor, Gama Room, Moon Palace Resort

Organic and DSS – 08:20 – 11:20 Co-Chairs: Meng Tao and Thad Druffel 08:20

2060

08:40

2061

09:00

2062

Effect of Organic Solar Cell Using Double Cathode Buffer Layers – Y. H. Wang, J. C. Ke (National Cheng-Kung University), K. L. Chen (Fortune Institute of Technology), I. T. Tang (National University of Tainan), K. W. Lee (I-Shou University), L. W. Ji (National Formosa University), and C. J. Huang (National University of Kaohsiung) Electrolytes Based on Binary-Redox Couples for High Voltage Dye-Sensitized Solar Cells – N. C. D. Nath (School of Energy Engineering, Kyungpook National University), I. S. Jeong, J. C. D. Kim, C. C. D. Kim, and J. J. Lee (Konkuk University) Dependence of Dark Processes on Film Thickness in Dye Sensitized Solar Cells – R. Garcia, J. Villanueva, R. Escalante, B. Heredia (Cinvestav Unidad Mérida), and G. Oskam (Cinvestav-Mérida)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


2063

09:40 10:00 2064 10:20

10:40

11:00

2065

2066

2067

Application of ZnO with Different Morphologies to DSSCs – F. I. LizamaTzec, G. Rodriguez-Gattorno (CinvestavMérida), U. Pal (Instituto de Física, Benemérita Universidad Autónoma de Puebla), and G. Oskam (Cinvestav-Mérida) Break New Redox Mediators for Quantum Dot Sensitized Solar Cells – A. J. Haring and A. J. Morris (Virginia Tech) Effect of Cd0.5Zn0.5s/ZnS Core/Shell Quantum Dots on Power-ConversionEfficiency Enhancement for Silicon Solar Cells – Y. H. Ko, S. W. Baek, and J. G. Park (Hanyang University) Random Walk Numerical Simulation of Disordered Semiconductor Heterojunctions – H. J. Mandujano-Ramírez (Departamento de Física Aplicada, CINVESTAV-IPN), G. Oskam (Cinvestav-Mérida), J. P. GonzalezVazquez, and J. A. Anta (Área de Química Física, Universidad Pablo de Olavide) Evaluation of ALD-Grown Metal Oxide Tunnel Junction Layer for Organic Tandem Cells – M. Kim, C. Chambers (Department of Electrical and Computer Engineering, The Ohio State University), and P. R. Berger (Department of Electrical and Computer Engineering,The Ohio State University, Department of Physics, The Ohio State University)

Inorganic – 14:00 – 17:00 Co-Chairs: Jea-Gun Park and Hiroki Hamada 14:00

14:20

2068

2069

14:40

2070

15:00

2071

15:20 15:40 2072

Microstructure Control of Absorber Sb2S3 and p-Type Semiconductor Cuscn with Semiconductor-Sensitized Solar Cells (TiO2/Sb2S3/CuSCN) – X. Zhang, S. Yoshioka, and M. Ihara (Tokyo Institute of Technology) Rapid Directed Sintering of CdTe/ CdS Thin Film Solar Cells Using an Intense Pulsed Light – T. Druffel and R. Dharmadasa (Conn Center for Renewable Energy Research, University of Louisville) Electroplating of Al on Si for Crystalline-Si Solar Cells – W. C. Sun, X. Han, and M. Tao (Arizona State University) Design of Next Generation Full Spectrum Solar Cells Using Intermediate Band Semiconductors – A. Luce (University of California, Berkeley, Lawrence Berkeley National Lab), Y. J. Kuang (University of California, La Jolla), O. Dubon (Lawrence Berkeley National Lab), J. Wu (UC Berkeley), C. W. Tu (University of California, La Jolla), K. M. Yu, and W. Walukiewicz (Lawrence Berkeley National Lab) Break Roll-to-Roll Fabrication of Large Scale and Regular Arrays of Three-Dimensional Nanospikes for High Efficiency and Flexible Photovoltaics – S. F. Leung, L. Gu, Q. Zhang, Q. Lin, and Z. Fan (Hong Kong University of Science and Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

16:00

2073

16:20

2074

16:40

2075

Photon-Assisted Electrochemical Construction of <0001>-n-ZnO/<111>p-Cu2O Photovoltaic Devices with Intermediate TiO2 Layer – M. Z. Mohd Zamzuri (Toyohashi University of Technology, Universiti Malaysia Perlis), B. M. Fariza (Universiti Tun Hussein Onn Malaysia), S. Junji, and M. Izaki (Toyohashi University of Technology) Defect Analysis of Monolithic Gainp/ Gainas/Ge Triple-Junction Solar Cells By Luminescence Technology – S. H. Lin (Hungkuang University) and T. H. Cheng (National Taiwan University) High-Aspect-Ratio Silicon Microwire Arrays By Metal-Assisted Chemical Etching for Photovoltaic Applications – H. D. Um, I. Hwang, K. Lee, J. H. Seo, and K. Seo (Ulsan National Institute of Science and Technology)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Q6 Poster Session – 18:00 – 20:00 Co-Chairs: James M. Fenton and Cor Claeys •

2076

2077

2078

2079

2080

2081

2082

Templated Growth of Multilayer Graphene from Cellulose for the Fabrication of Photovoltaic Devices – M. Dasari, M. Hautzinger, P. Kohli (Southern Illinois Univeristy), and H. Fan-Hagenstein (Claflin University) Structural,Optical and Electrical Properties of Spray Pyrolysed Ti-Doped ZnO Films – K. R. Murali (CECRI, Karaikudi, India) Spray Pyrloysed TiO2 Dye Sensitized Solar Cells – K. R. Murali (CECRI, Karaikudi, India) Detail Analysis of External Quantum Efficiency Measurement for Tandem Junction Solar Cells – T. H. Cheng (National Taiwan University) and S. H. Lin (Hungkuang University) Effect of Organic Solar Cells by Inserting Pentacene Layer – P. H. Huang (National University of Kaohsiung), K. L. Chen (Fortune Institute of Technology), N. L. Shih (National University of Kaohsiung), T. H. Meen (National Formosa University), and C. J. Huang (National University of Kaohsiung) Performance Improvement of Bulk Heterojunction Polymer Solar Cells with Metal Oxide Nanoparticles – T. M. AbdelFattah (Christopher Newport University), E. M. Younes (Damanhour University), G. Namkoong (Old Dominion University), E. M. El-Maghraby (Damanhour University), A. Elsayed, and A. H. Abo Elazm (Alexandria University) Water Soluble CdTe Quantum Dots for Mercury Detection – M. Elnagar, A. H. Sakr, M. Soliman, S. Ebrahim (Alexandria University), and T. M. Abdel-Fattah (Christopher Newport University)

125

Tuesday, October 7

09:20


Q7

2083

New Integration Approaches for Highly Arrayed Nanostructures for Organic/Inorganic Solar Cells – G. Namkoong (Applied Research Center), I. Nam (Applied Research Center, Old Dominion University), K. Zhang, and H. Baumgart (Applied Research Center at Thomas Jefferson National Accelerator Laboratories)

Semiconductors, Dielectrics, and Metals for Nanoelectronics 12

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 18, Moon Palace Resort

Nano-technology – 09:00 – 12:10 Co-Chairs: D. Landheer and Samares Kar

Tuesday, October 7

09:00

09:20

2094

2095

09:40 10:10 2096 10:40

2097

11:00

2098

11:30

2099

11:50

126

2100

In Situ TEM Study on Au Mediated Growth of NiSi2 in Si Nanowire: A Vapor-Liquid-Solid Analogy – W. Tang (University of California Los Angeles, Center for Integrated Nanotechnologies), S. T. Picraux (Los Alamos National Laboratory), X. Liu (Sandia National Laboratory), K. N. Tu (University of California, Los Angeles), and S. A. Dayeh (University of California San Diego) Effect of the Diameter on the Band Gap of ZnO Nanorods – M. F. Kasim, N. Kamarulzaman, and R. Rusdi (Universiti Teknologi MARA, Shah Alam, Malaysia) Break Dislocated Semiconductor Nanowire Heterostructures – K. L. Kavanagh (Simon Fraser University) Kinetics and Structure of Nickelide Contact Formation to Ingaas Fin Channels – R. Chen and S. A. Dayeh (University of California San Diego) Epitaxial Growth of Nanodots on Si Substrates with Controlled Interfaces and Their Application to Electronics and Thermoelectronics – Y. Nakamura (Osaka Univeristy, PRESTO, Japan Science and Technology Agency (JST)) and A. Sakai (Osaka Univeristy) Influence of Surface States on Electronic Band Structure and Electron Density in InAs Nanowires and InAs Shell Nanowires – N. Demarina and D. Grützmacher (Forschungszentrum Juelich) Dynamical Imaging of Nickel Disilicide Nucleation and Step Flow Propagation in Defect-engineered Si Nanowire – W. Tang (University of California Los Angeles), S. T. Picraux (Los Alamos National Laboratory), A. M. Gusak (Department of Theoretical Physics, Cherkasy National University), K. N. Tu (University of California, Los Angeles), and S. A. Dayeh (University of California San Diego)

2D Semiconductors – 13:30 – 17:05 Co-Chairs: Michel Houssa and Dayeh Shadi 13:30 13:40 2101

14:10

2102

14:40

2103

15:10

2104

15:40 15:50 2105

16:20

2106

16:40

2107

17:00

Q8

Award Ceremony Interaction of Silicene and Germanene with Non-Metallic Substrates – M. Houssa, E. Scalise, B. van den Broek (University of Leuven), A. Lu, G. Pourtois (imec), V. V. Afanas’ev (KU Leuven), and A. Stesmans (Department of Physics, University of Leuven) Graphene and 2-Dimensional Materials for Nanoelectronics Applications – M. C. Lemme (University of Siegen) Doping, Functionalization, and Permeability of Graphene: Insights from First-Principles Studies – L. Tsetseris (National Technical University of Athens), B. Wang, and S. T. Pantelides (Vanderbilt University) Electron Device Potential of 2D Crystal Semiconductors – D. Jena (University of Notre Dame) Break Molecule@MOF: A New Class of Electronic Materials – A. A. Talin (Sandia National Laboratories), V. Stavila (Sandia. National Labs), M. E. Foster (Sandia National Laboratories, Livermore, CA 94551-0969), F. El Gabaly, A. C. Ford, F. Léonard (Sandia National Laboratories), and M. D. Allendorf (Sandia National Laboratories, Livermore, CA 94551-0969) Electrical Characteristics of Multilayer MoS2 Transistors at Real Operating Temperatures and Different Ambient Conditions – H. J. Kwon, J. Jang, H. Kang (University of California), S. Kim (Kyung Hee University), V. Subramanian, and C. P. Grigoropoulos (University of California) Synthesis of MoS2 Thin Film – J. Mun (Sungkyunkwan University, Korea Research Institute of Standards and Science), D. Kim (Sungkyunkwan University), Y. Shin, J. Yun, S. Kang (Korea Research Institute of Standards and Science), and T. Kim (Sungkyunkwan University) Introduction to Poster Paper 40283

Solid State Electronics and Photonics in Biology and Medicine Electronics and Photonics / Sensor Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort

Q8 Poster Session – 18:00 – 20:00 Co-Chair: Yu-Lin Wang •

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Synthesis of Gold@Iron Oxide Core-Shell Nanostructures via an Electrochemical Procedure – K. C. Lin, C. D. Valle, and Y. F. Huang (Department of Biomedical Engineering and Environmental Sciences, National Tsing Hua University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Electronics and Photonics Expo Center, 1st Floor, Universal 6, Moon Palace Resort

Session III – 08:45 – 12:20 Co-Chairs: Michael Shur and Ammar Nayfeh 08:45

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10:35

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11:35

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Q10

Compound Semiconductor Nanowires for Optoelectronic Device Applications – H. Tan (The Australian National University) High-Performance Sb-Based III-V Nanowires Synthesized on Amorphous Substrates: From the Formation Mechanism to p-Channel Transistor Applications – J. C. Ho (City University of Hong Kong) Break Room-Temperature Defect-Enabled Spin Functionality in GaAs-Based Coumpound Semiconductors – W. M. Chen and I. A. Buyanova (Linkoping University) A Quick and a Flexible Hydride Vapor Phase Epitaxy Process to Achieve Buried Heterostructure Quantum Cascade Lasers – W. Metaferia (KTH-Royal Institute of Technology), B. Simozrag (III-V Lab Thales Research and Technology France), C. Junesand (Epiclarus AB), Y. T. Sun (KTH-Royal Institute of Technology), M. Carras (III-V Lab - Thales Research and Technology France), and S. Lourdudoss (KTH - Royal Institute of Technology) Innovative III-Nitride Epitaxy Approach for Low Dislocation GaN and FreeStanding GaN Substrate – X. D. Hu, J. J. Wu, D. Li, L. Li, Q. Ji, H. Zong, T. Han (Peking University), and Y. Xie (University of California Los Angeles) III-V Nanowire MOSFETs in RFApplications – L. E. Wernersson (Lund University, Sweden) Surface Roughness Influences on the ZnO Reram – J. J. Ke (Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, Taiwan, ROC), K. Namura (Department of Micro Engineering, Kyoto University, Kyoto, Japan), T. C. Wei (Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, Taiwan), J. H. He (National Taiwan University), and M. Suzuki (Department of Micro Engineering, Kyoto University, Kyoto, Japan)

Thin Film Transistors 12 (TFT 12)

Electronics and Photonics Expo Center, 1st Floor, Universal 4, Moon Palace Resort

Oxide TFT Processes I – 08:30 – 11:40 Co-Chairs: Michael Shur and Hamakichi Hamada 08:30

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Crystalline Oxide Semiconductor Using CAAC-IGZO and its Application – S. Yamazaki (Semiconductor Energy Laboratory Co., Ltd.)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

09:00

1914

Gate Insulator for High Mobility Oxide TFT – S. H. K. Park (KAIST), H. O. Kim, S. H. Cho, M. K. Ryu, J. H. Yang (ETRI), J. B. Ko (KAIST), and C. S. Hwang (ETRI) 09:30 1915 Gate-Insulator-Capacitance-Dependent Field-Effect Mobility in SolutionProcessed Oxide Semiconductor Thin-Film Transistors – E. Lee, K. H. Lim, S. Y. Park, K. Kim (Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology), and Y. S. Kim (Advanced Institutes of Convergence Technology, Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology) 09:50 Intermission 10:20 1916 Self-Aligned Bottom-Gate InGaZnO ThinFilm Transistor with Source and Drain Regions Formed by Selective Deposition of Fluorinated SiNx Passivation – M. Furuta, J. Jiang, G. Tatsuoka, and D. Wang (Kochi University of Technology) 10:50 1917 Solution Processed Oxide Thin Film Transistors – C. Avis and J. Jang (Kyung Hee University) Oxide TFT Processes II – 14:00 – 15:00 Co-Chair: Shunpei Yamazaki 14:00

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The Role of Passivation Layer during Thermal Annealing for Oxide Semiconductor Thin Films – C. S. Hwang (ETRI), S. H. K. Park (KAIST), S. H. Cho, M. K. Ryu, H. Oh, S. J. Lee, J. H. Yang, C. Byun, J. Park, K. I. Cho (ETRI), and H. Y. Chu (Electronics and Telecommunications Research Institute (ETRI)) Flash Lamp Annealing Effect on Stability of Oxide TFT – S. J. Moon (Department of Display Engineering, Hoseo University), K. M. Yu, S. H. Jeong, J. Y. Kim (Hoseo University), B. K. Kim, H. J. Kim (ViatronTechnologies), E. J. Yun, and B. S. Bae (Hoseo University) Effect of Negative Oxygen Ions on a-IGZO Thin Films by Superimposed RF/DC Magnetron Sputtering – D. Kim, J. Jang, S. Yoon, and M. Hong (Korea University)

Oxide TFT Stability – 15:30 – 17:20 Co-Chair: Guglielmo Fortunato 15:30

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Analysis of Thermal Degradation in Oxide Thin Film Transistors – Y. Uraoka, S. Urakawa, and Y. Ishikawa (Nara Institute of Science and Technology) Effects of the Bombardment of Negative Oxygen Ions on Gate Bias Stability of InGaZnO Thin Film Transistors – D. Kim, S. Yoon, and M. Hong (Korea University) Drain Bias Effect on the Instability of Amorphous InGaZnO Thin-Film Transistors under Negative Gate Bias and Illumination Stress – D. Wang, M. P. Hung, J. Jiang, T. Toda, and M. Furuta (Kochi University of Technology) 127

Tuesday, October 7

Q9

State-of-the-Art Program on Compound Semiconductors 56 (SOTAPOCS 56)


16:40

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Interpretation of Defect States in Sputtered IGZO Devices Using I-V and C-V Analysis – T. Mudgal, N. Walsh, N. Edwards (Rochester Institute of Technology), R. G. Manley (Corning Incorporated), and K. D. Hirschman (Rochester Institute of Technology) Improvement of Electrical Properties and Bias Stability of InGaZnO Thin-Film Transistors by Fluorinated Silicon Nitride Passivation – J. Jiang, T. Tatsuya, G. Tatsuoka, D. Wang, and M. Furuta (Kochi University of Technology)

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Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Q10 Poster Session – 18:00 – 20:00

Tuesday, October 7

Z1

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Solution- Processed Alkali Metals-Doped Amorphous Zinc Tin Oxide Thin-Film Transistors and Analysis of Alkali Metal Doping Mechanism through the UVVisible Spectroscopic – K. H. Lim (Seoul National University, Graduate School of Convergence Science and Technology), E. Lee, K. Kim, and Y. S. Kim (Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology) Stability of Amorphous in-Ga-Zn-O Thin Film Transistors with SiliconDoped Back-Channel Layer under Temperature Humidity Stresses – H. R. Lee (SAMSUNG DISPLAY), Y. H. Ko, and J. G. Park (Hanyang University) Fabricating High-Performance Silicon Thin-Film Transistor by Meniscus Force Mediated Layer Transfer Technique – K. Sakaike, M. Akazawa, A. Nakagawa, and S. Higashi (Hiroshima University)

Student Poster Session All Divisions / SMEQ

Z1: Student Poster Session – 18:00 – 20:00 •

128

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Microelectrochemical Properties of Ti(C,N) Inclusion of High Strength Martensitic Carbon Steel – Y. Watanabe (Department of Materials Science, Tohoku University), I. Muto (Department of Materials Science, Tohoku University), T. Ohmura (Nippon Steel&Sumitomo Metal Corporation), N. Hara, and Y. Sugawara (Department of Materials Science, Tohoku University)

Improving Lithium-Ion Battery Performance of Metal Oxide Nanoparticles By Organic Hybridization Using Anchoring Carbon Precursor Polymers – B. Oschmann (Institute of Organic Chemistry, University of Mainz), D. Bresser (Institute of Physical Chemistry & MEET, University of Muenster), M. N. Tahir (Institute of Inorganic & Analytical Chemistry, University of Mainz), F. Mueller (Institute of Physical Chemistry & MEET, University of Muenster), I. Lieberwirth (Max Planck Institute for Polymer Research), R. Zentel (Institute of Organic Chemistry, University of Mainz), S. Passerini (Institute of Physical Chemistry, University of Muenster), and W. Tremel (Institute of Inorganic & Analytical Chemistry, University of Mainz) Fabrication of Gold Nanoparticles on Porous Silicon and Its Application to (Bio) Chemical Sensing Platforms – E. Ko, J. H. Kim, X. H. Pham, B. C. Huynh-Nguyen, T. H. Le, and G. H. Seong (Hanyang university) Micropatterning of Transparent, Flexible Graphene Films By Oxygen Plasma – J. H. Kim (Hanyang University), J. H. Lee, E. Ko, X. H. Pham, B. C. Huynh-Nguyen (Hanyang university), L. Thanh-Hai (Hanyang University), and G. H. Seong (Hanyang university) Improvement of Thermal Reliability and Power Density of SOFCs By Preparing Nano LSC Particles Between GDC Electrolyte and Lscf Cathode – T. Mukai, T. Fujita, S. Tsukui, M. Adachi (Osaka Prefecture University), K. Yoshida (Tokyo Metropolitan College of Industrial Technology), H. Iwai, Y. Takahashi (Noritake Co., Limited), and K. C. Goretta (The Air Force Office of Scientific Research) Study of a Biocathode Based on the Physical Immobilization of CrudeExtract with Laccase Activity for Oxygen Reduction – B. López-González (Universidad Autónoma de Querétaro), M. G. Ramírez-Ledesma (Universidad de Guanajuato), F. M. Cuevas-Muñiz (Centro de Investigación y Desarrollo en Tecnología Electroquímica), A. AranaCuenca (Universidad Politécnica de Pachuca), J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


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Electrodeposition of Co-Pd Alloys from Chloride Solutions – K. 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 30, 30-059 Krakow), P. Zabinski (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), and R. 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) Improved Performance of an MH/ Air Secondary Battery Using a Low Polarization Air Electrode – S. Terui and M. Morimitsu (Doshisha University) Mechanism Analysis of Nonvolatile Graphene Oxide Based Reram with Laterally Structured Device – Y. Park, J. Ko (Seoul National University), J. A. Lim (Future Convergence Research Division, Korea Institute of Science and Technology, Seoul 136–791, Republic of Korea), S. Cho, J. Yoo (Seoul National University), and Y. S. Kim (Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology) Preparation of IrO2-Ta2O5 Coatings on Ni Substrate and Oxygen Evolution in Alkaline Aqueous Solution – T. Morishita, T. Zhang, and M. Morimitsu (Doshisha University) Influence of Heat Treatment on Charge/ Discharge Characteristics of Sn-Ag Alloy Plating Films for Li-Ion Battery Anode – K. Nishimura and S. Arai (Shinshu University) Black Pigment Preparation Via CouetteTaylor Vortex for Electrophoretic Display Application – M. Kim, K. J. Park, K. U. Lee, M. J. Kim (Seoul National University), O. J. Kwon (Incheon National University), and J. J. Kim (Seoul National University) Visualization of Mg2+ Electrochemical Insertion/Deinsertion into MnO2: Ex-Situ TEM Study – J. Song, M. Noked, and S. B. Lee (University of Maryland) Designing of a Novel Potentiometric Sensor for Selective Determination of Chromium (III) Ion in Real Samples – M. Hariri and S. Morin (York University) Electrocatalytic Activity of Anode for Lithium Borohydride in Tetrahydrofuran – Y. Nishida (National Institute of Advanced Industrial Science and Technology (AIST), Kansai University), H. Senoh, T. Kiyobayashi (National Institute of Advanced Industrial Science and Technology (AIST)), R. Kondo, and H. T. Takeshita (Kansai University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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Synthesis, Physicochemical and Electrochemical Characterization of TiO2 Nanotubes Arrays and SelfStanding Membranes as Susbtrate for Electro-Catalysts – J. A. Díaz-Real and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) The Study of Dissolved Oxygen Control in TSV Electroplating Deposition – D. G. Kim (Samsung Institute of Technology (SSIT), Samsung electronic co. ltd.), D. Lee (SAMSUNG ELECTRONICS Co., Ltd.), and S. Y. Kim (Samsung Electronics, Samsung Institute of Technology (SSIT)) Oxidative Stable Cu3Sn Nanoparticles for Novel Electrode Fabrication Using Pressure Under Ambient Condition – S. Cho (Seoul National University), K. H. Lim (Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology), J. Yoo (Seoul National University), S. Y. Park (Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology), Y. Park (864-1, Iui-dong, Yeongtong-gu, Suwon-si, Gyeonggi-do Korea), and Y. S. Kim (Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology) Effect of Hydrogen Neutral Beam on the Growth of Nanocrystalline Silicon – D. H. Lee (Dept. of Display and Semiconductor Physics, Korea University), J. N. Jang (Display and Semiconductor Physics, Korea University), and M. Hong (Korea University) Pulsed Electrodeposition for Preparing Hollow, Conical Needles with Sub-Micron Dimensions – A. Durney, E. C. Hotvedt, and H. Mukaibo (Department of Chemical Engineering, University of Rochester) Silver Removal from Polluted Effluents Using a Rotating Cylinder Electrode Reactor (RCE) Potential Application for Valuable Metal Removal from Plating Industry Waste Waters – J. L. Arredondo, F. F. Rivera, and J. L. Nava (Universidad de Guanajuato) Effect of the Components of the Electrode on the Morphological and Electrochemical Performance of Manganese DioxideBased Electrode for Application in Hybrid Electrochemical Capacitor 1 – A. GambouBosca (Département de Chimie, Université du Québec à Montréal) and D. Bélanger (Département Chimie, Université du Québec à Montréal) Electrochemical Scanning Tunneling Microscopic Observations of Pt Nanostructures Prepared by UltraHigh Vacuum Deposition Methods – Y. Asakimori, R. Kawamura, N. Todoroki, and T. Wadayama (Graduate School of Environmental Studies,Tohoku University)

129

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Tuesday, October 7

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2208

Crystal Structure and Ferroelectric Properties of Bi0.5K0.5TiO3-BiFeO3-K(Nb, Ta)O3 Ferroelectric Oxide – K. Miyazaki, N. Ishida, N. Kitamura, and Y. Idemoto (Tokyo University of Science) Analysis of Crystal and Electronic Structure of Reduced Layered Material 0.5Li2MnO3-0.5LiMn5/12Ni5/12Co1/6O2 during Electrochemical Cycling – S. Nakayama (Department of Pure and Applied Chemistry Faculty of Science & Technology, Tokyo University of Science), N. Ishida, N. Kitamura, and Y. Idemoto (Tokyo University of Science) Composition Dependence of Average and Local Structures, Electron Density Distribution and Ferroelectric Properties in (Pb,RE)(Zr,Ti,Nb)O3 (RE=La,Nd) – T. Tamura, N. Ishida, N. Kitamura, and Y. Idemoto (Tokyo University of Science) ORR Activity for Pt/Pd(111) Bimetallic Surface Prepared By Molecular Beam Epitaxy – Y. Bando, Y. Takahashi, E. Ueta, N. Todoroki, and T. Wadayama (Graduate School of Environmental Studies,Tohoku University) Effects of Morphology on Nanostructured Cobalt Oxides for Oxygen Evolution Reaction – S. H. Cho (Sejong University), G. Roh (Korean Resister of Shipping), and J. Y. Park (Sejong University) Enhanced Oxygen Evolution Activity of 3D Nanostructured Cobalt Oxides through Doping with Various Transition Metal Oxides – N. I. Kim, I. So, and J. Y. Park (Sejong University) Failure Mode and Effect Analysis of Composite Cathode on Anode-Supported SOFCs under the Accelerated Durability Testing – T. H. Lee, K. Y. Park, J. T. Kim (Sejong University), G. Roh (Korean Resister of Shipping), and J. Y. Park (Sejong University) Average, Local and Electronic Structures of LiMn2-XAlxO4(x=0, 0.2) in ChargeDischarge Process by Neutron and Synchrotron X-ray – F. Tejima, N. Ishida, N. Kitamura, and Y. Idemoto (Tokyo University of Science) Composition Dependences of Property and Conductivity in (Sr,Ca)3Nb2O7-δ – D. Fukuda, N. Ishida, N. Kitamura, and Y. Idemoto (Tokyo University of Science) Electroconductive Gold Deposited Silicon Nanoparticles for Lithium Ion Battery Anode Prepared by Immersion Plating Method – R. K. Arief and S. Arai (Shinshu University) Preparation of Carbonaceous Fiber Sheets Derived from Bamboo and Application to Gas Diffusion Layer of Proton Exchange Membrane Fuel Cells – T. Matsumura, T. Kinumoto, M. Matsuoka, T. Tsumura, and M. Toyoda (Oita University)

2209

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Preparation of LaMnO3-CNF and Its Activity for Oxygen Electrode Reaction in Alkaline Electrolyte Solution – T. Kinumoto, T. Tsumura, M. Toyoda (Oita University), and K. Ono (Oita University, Oita University) Electrochemical Characterization of Lithiation and De-Lithiation of Ultra-Thin Amorphous TiO2 Films – S. Moitzheim (imec, Kapeldreef 75, 3001 Leuven, Belgium, Centre for Surface Chemistry and Catalysis, KU Leuven, 3001 Leuven, Belgium), S. Deng (Department of Solid State Science, Ghent University, B-9000 Ghent, Belgium), C. Huyghebaert (imec, Kapeldreef 75, 3001 Leuven, Belgium), C. Detavernier (Department of Solid State Science, Ghent University, B-9000 Ghent, Belgium), S. De Gendt (imec, Kapeldreef 75, 3001 Leuven, Belgium, University of Leuven), and P. M. Vereecken (imec, Kapeldreef 75, 3001 Leuven, Belgium) Self-Propelled Motion of Oil Droplets on Au Electrode during Sn Electrodeposition – T. Shiono and Y. Mukouyama (Tokyo Denki University) Electrochemical Oscillation during H2O2 Reduction in Basic Solutions – M. Hasegawa (Tokyo Denki University), S. Nakanishi (The University of Tokyo), and Y. Mukouyama (Tokyo Denki University) Urea Oxidation on Ni(OH)2X(SO4)0.5x·yH2o / C-PVC Composite Electrodes – A. Romero-Morán, M. González Fuentes, M. D. L. P. ElizaldeGonzález, and M. M. Dávila-Jiménez (Universidad Autónoma de Puebla) Pattern Formation in the Mercury Beating Heart System – J. L. OcampoEspindola (Universidad Autónoma del Estado de Morelos), E. Ramírez-Álvarez (Universidad Autonóma del Estado de Morelos), F. Montoya, and M. A. Rivera (Universidad Autónoma del Estado de Morelos) White Light Emission of Polystyrene (PS) Thin Films Deposited by Spray Pyrolysis – S. Carmona (UNAM), G. Alarcón (CICATA IPN), E. Zaleta (CINVESTAV), M. Agular-Frutis (CICATA IPN), Z. Rivera (CINVESTAV), A. Pineda (ESIQIE IPN), H. Murrieta (IF UNAM), and C. Falcony (Centro de Investigación y Estudios Avanzados, Instituto Politécnico Nacional, Departamento de Física) Development of a Silver/Silver Ibuprofenate Potentiometric Sensor for Ibuprofen Quantification in Pharmaceutical Products – S. I. Rivera-Hernández, G. A. Álvarez-Romero, C. A. Galán-Vidal, M. E. Páez-Hernández (Universidad Autónoma del Estado de Hidalgo), and S. Corona-Avendaño (Universidad Autónoma Metropolitana- Azcapotzalco) Construction of Binding Group Terminated Self-Assembled Monolayers for Multilayer Formation – T. Arisaka, T. Kondo, Y. Ishikawa, and N. Aoki (Ochanomizu University) Meeting Program l October 5-9, 2014 l Cancun, Mexico


2218

Electrochemical Catalytic Activities of Pseudomorphic Pt Monolayers Electrodeposited on Au(111) for Various Reactions – M. Ishizaki (Ochanomizu University), I. Yagi (FC-Cubic TRA), and T. Kondo (Ochanomizu University) 2219 CdS-TiO2 photoelectrodes Formed through Pulsed Electrodeposition of Cadmium on TiO2 Nanotube Films and Treatment with H2s for Application in Solar Cells – J. E. Carrera-Crespo (Universidad Autónoma Metropolitana-Iztapalapa. Departamento de Química), F. González, E. Barrera (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Ingeniería de Procesos e Hidráulica), and I. González (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Química) 2220 Fabrication of High Thermal Conductivity Cu/Diamond Composites By Electrodeposition – M. Ueda and S. Arai (Shinshu University) 2221 Electrochemical Dechlorination of 2-Chlorophenol on Ti-Ni, Ti-Pd and Ti-Ni-Pd Electrodes – M. Arellano (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Química), A. C. Texier (Universidad Autónoma Metropolitana-Iztapalapa. Departamento de Biotecnología), and I. González (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Química) 2222 Corrosion Resistance of Pt-Skin Layer on Pt-Co Alloy Surface in Simulated PEFC Environment – M. Konno, Y. Sugawara, I. Muto, and N. Hara (Department of Materials Science, Tohoku University) 2223 Determination of Methylparaben by Square Wave Voltammetry at Boron-Doped Diamond Electrode – C. D. Mendonça (Instituto de Química de São Carlos - USP) and S. A. S. Machado (Instituto de Química de São Carlos) 2224 In Operando Observation of (La, Sr)CoO3 Perovskite Oxide Solid/Gas Interface by X-ray Absorption Spectroscopy – S. Sako (Graduate School of Human and Environmental Studies, Kyoto University), T. Haruki (Graduate School of Human and Environmental Studies,Kyoto University), T. Ina, K. Nitta (Japan Synchrotron Radiation Research Institute), Y. Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), and Y. Uchimoto (Rutgers University) 2225 Electrodeposition and Evaluation of Ruthenium Film from Divalent Ruthenium Electrolyte – S. Chiba (Shinshu University), T. Fujinami (R&D Div. Electroplating Engineers of Japan Ltd.), and S. Arai (Shinshu University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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Structure and Synthesis of Bi2S3 Nanocrystals for Thermoelectric Device – Y. J. Hsiao (National Nano Device Laboratories, National Applied Research Laboratories), T. H. Fang (National Kaohsiung University of Applied Sciences (KUAS)), C. D. Wu (Chung Yuan Christian University), S. H. Wang, and B. Y. Yang (KUAS) New Insights on Naproxen Quantification Using Voltammetry and Graphite Electrodes: Development of an Optimized and Competitive Methodology – G. Y. Aguilar-Lira, G. A. Álvarez-Romero (Universidad Autónoma del Estado de Hidalgo), A. Rojas-Hernández (Universidad Autonoma Metropolitana Iztapalapa), M. E. Páez-Hernández, J. A. Rodríguez-Ávila (Universidad Autónoma del Estado de Hidalgo), and M. A. Romero-Romo (Universidad Autónoma Metropolitana, Campus Azcapotzalco) Microelectrochemical Property of δ / γ Boundary in Cast Stainless Steel – A. Otake, I. Muto, Y. Sugawara, and N. Hara (Department of Materials Science, Tohoku University) Elimination of Boron from Soluble Silica Via Solvent Extraction with 2,2,4-Trimethyl-1,3-Pentanediol Using a Multistage Flow-Type Reactor – N. Matsuo (Department of Applied Chemistry, Waseda University), T. Ishihara, T. Oyanagi, K. Nakajima (Department of Applied Chemistry, Waseda University, Tokyo, Japan), Y. Fukunaka (Waseda University, CREST, JST and JAXA), and T. Homma (Waseda University) Superionic Conductivities in Li1.7Al0.3Ti1.7Si0.4P2.6O12 Made Using LFFSP (Liquid- Feed Flame Spray Pyrolysis) Processing to Free Standing Thin Films – E. Yi, W. Wang (University of Michigan), S. Mohanty (Quallion LLC), J. Kieffer (University of Michigan), R. Tamaki (Quallion LLC), and R. Laine (University of Michigan) Effects of the Cross-Linking Agent on Electrochemical Performances of the Lithium Metal Polymer Batteries Prepared by In-Situ Thermal Polymerization with Trimethylolpropane Treiacrylate – J. Jeong, H. Lee, G. Shin, I. Cho, J. Choi, M. H. Ryou, and Y. M. Lee (Hanbat National University) The Study of Electrodeposition of Si in Tmhatfsi-SiCl4 analyzed by EQCM Method – Y. Tsuyuki (Waseda University), A. H. T. Pham (Waseda university), J. Komadina (UC Merced), Y. Fukunaka (Waseda University, CREST, JST and JAXA), and T. Homma (Waseda University) Characterization of Electrodeposited Co-Pt Nano-Dot Array at Initial Deposition Stage – S. Wodarz, T. Otani, H. Hagiwara, and T. Homma (Waseda University)

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Tuesday, October 7

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2243

Electrochemical Characterization of Li2sP2S5 Glass-Ceramic Solid Electrolyte/Li Metal Electrode Interface – N. Koretaka (Osaka Prefecture University, JST-ALCA), E. Higuchi (Osaka Prefecture University), M. Chiku (Osaka Prefecture University, JST-ALCA), and H. Inoue (Osaka Prefecture University) New Computational Insights to Describe the Oxygen Reduction Reaction on Graphene Containing Multiple Nitrogen Functional Groups – H. Ortiz-García, J. Vazquez-Arenas, Annia Galano (Universidad Autónoma MetropolitanaIztapalapa, Departamento de Química 55-534), and I. González (Universidad Autónoma Metropolitana-Iztapalapa. Departamento de Química) Relaxation Rietveld Stage Analysis of Li Inserted Graphite – T. Kitamura, S. Takai, and T. Yao (Graduate School of Energy Science, Kyoto University) Electrochemical Deposition of Zinc Oxide Nanotubes with Countless Small Dimples on the External Surface – K. Osamura and M. Matsunaga (Chuo University, Japan) Catalytic Activity of Spherical MesoPorous Pt Films-Deposited FluorineDoped Tin Oxide Substrate Covered By Multi-Walled Carbon Nanotube for Iodine Reduction – M. Endo, H. Aoyama, and M. Matsunaga (Chuo University, Japan) Niobium Phosphate Glass Thin Film As an Intermediate-Temperature Proton Conductor – D. H. Kim, S. B. Park, and Y. I. Park (School of Advanced Materials and System Engineering, Kumoh National Institute of Technology) Improvement in Cycle-Stability of Naphthoquinone-Based Rechargeable Organic Batteries By Polymerization – T. Numoto (National Institute of Advanced Industrial Science and Technology (AIST), Kansai University), M. Yao, H. Ando, T. Kiyobayashi (National Institute of Advanced Industrial Science and Technology (AIST)), R. Kondo, and H. T. Takeshita (Kansai University) The Oxygen Reduction Reaction in Alkaline Solution – P. E. Kasatkin, E. Härk, R. Jäger, and E. Lust (Institute of Chemistry, University of Tartu) Electrochemical and Physical Characterization of Ru Activated Carbon Supported Electrodes in Alkaline Solution – V. Steinberg, E. Härk, R. Jäger, and E. Lust (Institute of Chemistry, University of Tartu) Efficient Electrochemical Reduction of CO2 to Formic Acid – N. C. D. Nath (School of Energy Engineering, Kyungpook National University), H. Park, S. Y. Choi (School of Energy Engineering, Kyungpook National University, Daegu, 702–701, Korea), and J. J. Lee (Konkuk University)

2244

2245

2246

2247

2248

2249

2250

Mass Transfer in an Anode-Supported Honeycomb Solid Oxide Fuel Cell – S. Kotake (Department of Hydrogen Energy Systems, Graduate School of Engineering, Kyushu University), H. Nakajima, and T. Kitahara (Department of Mechanical Engineering, Faculty of Engineering, Kyushu University, International Institute for Carbon-Neutral Energy Research (I2CNER), Kyushu University) Thin Films and Superlattices in the BiFe-O System Prepared by ALD – A. R. Akbashev (A J Drexel Institute for Energy and the Environment, Drexel University, Philadelphia, Pennsylvania, USA, Department of Materials Science and Engineering, Drexel University, Philadelphia, Pennsylvania, USA) and J. E. Spanier (Department of Materials Science and Engineering, Drexel University, Philadelphia, Pennsylvania, USA, A J Drexel Institute for Energy and the Environment, Drexel University, Philadelphia, Pennsylvania, USA) Cation Intercalation and High Volumetric Capacitance of Two-Dimensional Titanium Carbide – M. R. Lukatskaya, C. E. Ren, O. Mashtalir (Department of Materials Science and Engineering, Drexel University), Y. Dall’Agnese (Université Paul Sabatier, CIRIMAT), M. W. Barsoum (Department of Materials Science and Engineering, Drexel University), Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University), and P. Simon (Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France) Electrochemical Characterization of Vanadium Nitride as Pseudocapacitive Electrode for Aqueous Electrochemical Capacitor – A. Morel (Institut des Matériaux Jean Rouxel, Université de Nantes, CNRS, Université du Québec à Montréal), R. L. Porto (Institut des Matériaux Jean Rouxel (IMN), Université de Nantes, CNRS), S. Bouhtiyya, J. F. Pierson (Institut Jean Lamour (UMR 7198 CNRS-Université de Lorraine), Département CP2S), T. Brousse (Institut des Matériaux Jean Rouxel, CNRS), and D. Bélanger (Université du Québec à Montréal) Oxygen Evolution at Thermally Prepared Fe2O3 Electrodes in Alkaline Solution – A. Rovetta and M. E. G. Lyons (Trinity College Dublin) An Investigation into the Oxygen Evolution Reaction at Manganese/ Manganese Ruthenium and Ruthenium Oxide Films in Base – M. P. Browne (Trinity College, Dublin), R. J. Cullen, P. E. Colavita, and M. E. G. Lyons (Trinity College Dublin) Effect of Local Cell Reaction on γ-NiOOH Formation in Nickel Hydrogen Battery – T. Iwai (Graduate School of Energy Science), S. Takai, and T. Yao (Graduate School of Energy Science, Kyoto University) Meeting Program l October 5-9, 2014 l Cancun, Mexico


2251

2252

2253

2254

2255

2256

2257

2258

Flowable Electrodes: A Review of the Material Aspects of Capacitive Suspension Electrodes for Grid Energy Storage and Desalination Applications – K. B. Hatzell, E. C. Kumbur (Drexel University), and Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University) Electrokinetic Removal of Na-24 and Tc99m Scintillation Liquid Content Absorbed in Soil Type Phaeozem – V. Valdovinos (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), E. Bustos (Centro de Investigación y Desarrollo Tecnológico en Electroquímica S. C.), and F. Monroy (Instituto Nacional de Investigaciones Nucleares) Comparative Study of Borohydride Oxidation, at Polycrystalline and Nanostructured Copper Electrodes – J. E. Donato Moreno, D. E. García-Rodríguez, M. A. Alatorre Ordaz, I. R. Galindo Esquivel (Universidad de Guanajuato), C. Ponce de León (University of Southampton), P. Herrasti (Universidad Autónoma de Madrid), and L. H. MendozaHuizar (Universidad Autónoma del Estado de Hidalgo) Electrocatalytic Activity and Stability of Supported Palladium Nanoparticles – W. Ju (Institut für Informatik VI, Technische Universität München), T. Brülle (Physik-Department, Technische Universität München), M. Favaro, S. Agnoli, G. Granozzi (Department of Chemical Sciences, University of Padova), O. Schneider (Institut für Informatik VI, Technische Universität München), and U. Stimming (Institute for Advanced Study, Technische Universität München) Voltammetric Determination of Cisteine by Carbon Paste Electrode Cu-Hg Amalgamated – M. Molina (Universidad Autónoma del Estado de México), P. O. Gil (Instituto Tecnológico de Toluca), G. Roa (Universidad Autónoma del Estado de México), G. Macedo (Instituto Tecnológico de Toluca), and P. Balderas (Centro Conjunto de Investigación en Química Sustentable (CCIQS) UAEM-UNAM) Effects of Stack Stress on Lithium-Ion Cell Degradation – J. Cannarella and C. B. Arnold (Princeton University) Free Platinum Electrcatalyts Based on Sulfur Doped Carbon Nanotubes as Electrocatalyst in Fuel Cells – E. MontielMacias, I. Alonso-Lemus, Y. Verde Gomez (Instituto Tecnologico de Cancun), and P. B. Balbuena (Texas A&M University) Robust Microbial Carbon Based Electrode System for Ureolysis of Urine – M. Morales-Cruz, R. Morales, R. A. MartínezRodríguez (University of Puerto Rico at Rio Piedras), I. Gonzalez-Gonzalez (University of Turabo), G. A. Toranzos, and C. R. Cabrera (University of Puerto Rico at Rio Piedras)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

2259

2260

2261

2262

2263

2264

2265

2266

Effect of Surface Morphology and Pore Structure on the Water Electrolysis, O2 Evolution Activity of Sb-Doped SnO2 Supported IrO2 – P. Karimi, B. Peppley (Queen’s-RMC Fuel Cell Research Centre, Queen’s University), A. Bazylak (Department of Mechanical and Industrial Engineering, University of Toronto), and E. Halliop (Queen’s-RMC Fuel Cell Research Centre, Queen’s University) Study of Corrosion Inhibitors for Mg Alloy AZ31B with Variations of PCO2 and Electrolyte Layer Thickness – D. Kaminski and R. Buchheit (Fontana Corrosion Center, Department of Materials Science and Engineering, The Ohio State University) Synthesis of Mesoporous Ordered LiFePO4 /C Structures for Cathodes of Li-Ion Batteries – A. Y. Palacios Enriquez (Departamento de Química, Universidad Autónoma Metropolitana-Iztapalapa), J. Vazquez-Arenas, L. I. Vera-Robles (Universidad Autónoma MetropolitanaIztapalapa, Departamento de Quìmica), and I. González (Universidad Autónoma Metropolitana-Iztapalapa. Departamento de Química) All-Solid-State Thin-Film Electrochemical Capacitors Using Inorganic Nanosheets Electrolytes – S. Ito, S. Suzuki (Department of Applied chemistry, Graduate schools of Engineering, The University of Tokyo), and M. Miyayama (Department of Applied chemistry, Graduate schools of Engineering, The University of Tokyo, CREST, JST) Fabrication and Evaluation of Quasi-AllSolid-State Electrochemical Capacitors with High Energy Densities – S. Uchida (Department of Applied Chemistry, Graduate School of Engineering, The University of Tokyo), S. S. (The University of Tokyo), and M. Miyayama (CREST, The University of Tokyo) Enhanced Hydrogen Separation in Multilayered Ni-Zr Thin-Film – S. B. Park (School of Advanced Materials and System Engineering, Kumoh National Institute of Technology), D. H. Yun Jr. (Kumoh National Institute of Technology), and Y. I. Park (School of Advanced Materials and System Engineering, Kumoh National Institute of Technology) Thermal Conductivity Measurements of Bi2Te3 Nanostructure By Raman Thermography – D. Park (Yonsei University), S. Park, K. Jeong (Yonsei university), B. Yoo (Hanyang University), and M. H. Cho (Yonsei University) Structural and Optical Properties of Phase Change Material in Sb2Te3 Thin Film – H. Choi (Yonsei university), S. Jung (Pohang Accelerator Laboratory), T. Kim (Yonsei university), J. Park (Pohang Accelerator Laboratory), K. Jeong (Yonsei university), and M. H. Cho (Yonsei University)

133

Tuesday, October 7


2267

2268

Tuesday, October 7

2269

2270

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2272

Z2

Defect States in ALD-HfO2 Films on InP Compound Semiconductor as a Function of Film Thickness – Y. Kang, D. Kim, H. Kang, M. H. Cho, S. Cho (Yonsei University), and H. Kim (Sungkyunkwan University) Effect of Annealing Temperature on Electrochemical and Mechanical Properties of STS with Titanium Carbonitride Composites Synthesized By Spark Plasma Sintering – B. Allabergenov (Department of Advanced Materials & System Engineering, Kumoh National Institute of Technology(KIT)), A. Abidov, S. W. Jeong, and S. Kim (Kumoh National Institute of Technology) The Effect of Etching Temperature upon the Optical Reflactance on Silicon Nanowires Grown By Electroless Etching – V. H. Velez (University of Central Florida), R. G. Mertens (Morehead State University), and K. B. Sundaram (University of Central Florida) Investigation of Electrical Characterization of Hetero-Junctions Formed by RF Sputtered Indium Tin Oxide on Silicon – A. K. Saikumar, G. Skaria (University Of Central Florida), and K. B. Sundaram (University of Central Florida) Studies on Dielectric Properties of Annealed Reactively Co-Sputtered Bcn Thin Films – A. Prakash and K. B. Sundaram (University of Central Florida) Unique Layered Tin Oxide Structure Via Buffered Anodization – N. E. K. Mohri and W. Tremel (Institute of Inorganic & Analytical Chemistry, University of Mainz)

10:00

2280

10:30

2281

11:00

2282

11:30

2283

Microbial Fuel Cells and Bio-Electrochemical Systems: II – 14:00 – 15:30 Co-Chairs: Plamen Atanassov and Shelley D. Minteer 14:00

2284

14:30

2285

14:50

2286

15:10

2287

Energy Water Nexus

All Divisions / Interdisciplinary Science and Technology Subcommittee Expo Center, 2nd Floor, Universal Ballroom, Moon Palace Resort

Microbial Fuel Cells and Bio-Electrochemical Systems: I – 08:00 – 12:00 Co-Chairs: Shelley D. Minteer and Plamen Atanassov 08:00

2277

08:30

2278

09:00

2279

09:30

134

Wastewater Treatment for Water Recycling Using Microbial Fuel Cells – O. Bretschger (J. Craig Venter Institute) Systematic Variation of Membrane Chemistry and Biofilm Composition in Strategic Modifications of Microbial Fuel Cells (MFC) and Other BioElectrochemical Systems (BES) – J. Varcoe, C. Avignone-Rossa, and R. C. Slade (University of Surrey) Quantitative Modeling of Microbial Fuel Cells for Water Purification – S. Calabrese Barton (Michigan State University) Break

Simultaneous Electricity Generation and Microbially-Assisted Electrosynthesis in MFCs – I. Gajda, J. Greenman, C. Melhuish (University of the West of England), and I. Ieropolous (Bristol Robotics Laboratory) Application Driven Fundamental Research on Microbial Electrochemical Technologies: From Components to System – U. Schroder (Technische Universitat Braunschweig) and F. Harnisch (Helmholtz-Centre for Environmental Research - UFZ) Bio-Electrochemical Treatment of Wastewater Organic Load: Comparison of Microbial Electrolysis, Microbial Fuel Cell and Microbial Electrochemical Snorkel Performances – B. Erable, E. Blanchet, L. Etcheverry (CNRS - Univ. de Toulouse), E. Desmond, A. Bridier, T. Bouchez, and A. Bergel (IRSTEA) In Field Applications of Single Chamber Membraneless Microbial Fuel Cells (SCMFCs) for Wastewater Treatment, Metal Reduction and Nutrients Removal – P. Cristiani (Ricerca sul Sistema Energetico S.p.A.) and S. P. Trasatti (Università degli Studi di Milano)

Microbial Fuel Cell for Energy Generation and Wastewater Treatment – Y. Ulyanova and S. Singhal (CFD Research Corporation) Research and Study of Low-cost and Reliable Materials for Anode and Cathode Electrodes in Bioelectrochemical Systems (BESs): Scale Up of Materials for Real Application – C. Santoro, S. Babanova (University of New Mexico, Center for Emerging Energy Technologies), P. Atanassov (University of New Mexico), S. P. Trasatti (Università degli Studi di Milano), and P. Cristiani (Ricerca sul Sistema Energetico S.p.A.) Engineering of Microbial Fuel Cells: The Things We Need to Know to Move Forward – S. Babanova (University of New Mexico, Center for Emerging Energy Technologies), O. Bretschger (J. Craig Venter Institute), K. Artyushkova (University of New Mexico, Center for Emerging Energy Technologies), and P. Atanassov (University of New Mexico) Engineered, Modular Microbial Communities for Simultaneous Wastewater Decontamination and Energy Generation – L. K. Ista, P. Atanassov, D. T. Hanson (University of New Mexico), and M. ElNaggar (University of Southern California)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Bio-digestion and Electrofuel – 15:50 – 17:20 Co-Chairs: Michael John Cooney and Shelley D. Minteer 2288

16:20

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Low Energy High Rate Anaerobic – Aerobic Digestion (HRAAD) and Applications – M. J. Cooney (University of Hawaii) Anaerobic Electrochemical Membrane Bioreactor (AnEMBR) for Low-Strength Wastewater Treatment with Resource Recovery – K. Katuri, C. Werner, R. Jimenez-Sandoval, W. Chen, S. Jeon, Z. Lai, G. Amy, and P. Saikaly (King Abdullah University of Science and Technology) Electrofuel Production Using Genetically Engineered Acidithiobacillus Ferrooxidans – S. Banta (Columbia University, Chemical Engineering) and A. West (Columbia University)

Wednesday, October 8

A2

Batteries Beyond Lithium Ion

Battery / Energy Technology Sunrise, 2nd Floor, Galactic Ballroom 1, Moon Palace Resort

Na-Ion Battery I – 08:00 – 12:00 Co-Chairs: Christopher S. Johnson and Yangchuan Xing 08:00

89

08:30

90

09:00

91

09:20

92

09:40 10:00 93

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Invited: Na-Ion Battery Technologies: Present Status and Update – C. S. Johnson (Chemical Sciences and Engineering Division, Argonne National Laboratory) Invited: Why Na Batteries Could Outperform Li Ones? – J. Gaubicher (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), F. Boucher (Institut des Matériaux Jean Rouxel, UMR 6502, CNRS - Université de Nantes, Réseau sur le Stockage Electrochimique de l’Energie (RS2E)), P. Moreau (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France, Réseau sur le Stockage Electrochimique de l’Energie (RS2E)), P. Soudan (Institut des Matériaux Jean Rouxel (IMN), Nantes University, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), M. Cuisinier (Institut des Materiaux Jean Rouxel), and D. Guyomard (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France) Use of Symmetric Cells for the Study of Na-Ion Materials and Electrolytes – T. Hatchard (Dalhousie University, Department of Chemistry) and M. N. Obrovac (Dept. of Chemistry, Dalhousie University) Defective Graphene As a High-Capacity Anode Material for Na- and Ca-Ion Batteries – D. Datta (Brown University), J. Li (Dept of Mat. Sci. and Eng., University of Pennsylvania), and V. B. Shenoy (Depts of Mat. Sci. and Eng. & Mech. Eng. and App. Mech., University of Pennsylvania) Break First-Principles Study of the Thermodynamic Stability of Sodium Oxides As a Function of Temperature, Pressure and Particle Size; And Its Implications for Na−O2 Batteries – S. Kang, Y. Mo, S. P. Ong, and G. Ceder (Massachusetts Institute of Technology)

135

Wednesday, October 8

15:50


Wednesday, October 8

10:20

94

10:40

95

11:00

96

11:20

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11:40

98

Sn-Polyacrylate Composite Electrode for Advanced Na-Ion Batteries – M. Fukunishi, N. Yabuuchi (Tokyo University of Science), S. Kuze (Sumitomo Chemical Co.,Ltd.), J. Y. Son, Y. T. Cui, H. Oji (JASRI), and S. Komaba (Tokyo University of Science) Characterization and Electrochemical Behaviour of AV4S8 (A=Ga,Ge) Materials as Negative Electrodes of Sodium-Ion Batteries – C. Michelet (Institut des matériaux Jean Rouxel (IMN) - CNRS - Nantes), O. Crosnier (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), N. Dupré, D. Guyomard (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), T. Brousse (Institut des Matériaux Jean Rouxel, CNRS), and P. Moreau (Institut des Matériaux Jean Rouxel - UMR 6502, 44300 nantes, France) Fully Fluorine-Free Liquid Electrolytes for Na-Ion Applications – K. Michalczewski, A. Bitner-Michalska, A. Gajewska, M. Poterala, M. Dranka, G. Z. Zukowska, M. J. Kalita (Warsaw Technical University, Faculty of Chemistry), and M. Marcinek (Warsaw University of Technology, Faculty of Chemistry) Tin-Based Negative Electrodes for Sodium Secondary Battery Using Na[FSA]-K[FSA] Ionic Liquid Electrolyte – T. Yamamoto, T. Nohira, R. Hagiwara (Graduate School of Energy Science, Kyoto University), A. Fukunaga, S. Sakai, K. Nitta, and S. Inazawa (Sumitomo Electric Industries, Ltd.) Electrochemical Reactions of Niobium Based Oxide Materials as Anodes for Sodium Ion Batteries – H. Nakayama, M. Nose (Battery Research Div., Toyota Motor Corporation), S. Nakanishi, and H. Iba (Battery Research Division, Toyota Motor Corporation)

15:00

102

15:20

103

15:40

104

16:00

105

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106

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107

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108

Batteries with Other Chemistries – 14:00 – 18:00 Co-Chair: Yangchuan Xing 14:00

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14:20

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14:40

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136

Insights into the Solvation Structure of Multi-Valent Ions for Multivalent Battery Applications – K. A. Persson, N. N. Rajput, and X. Qu (Lawrence Berkeley National Laboratory) High Energy Non-Aqueous Al-S Battery – G. Cohn and L. A. Archer (Cornell University) Mxenes As High Capacity Electrodes Materials for Metal (Li, Na, K, Ca)-Ion Batteries – D. Er, J. Li (Dept of Mat. Sci. and Eng., University of Pennsylvania), M. Naguib, Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University), and V. B. Shenoy (Depts of Mat. Sci. and Eng. & Mech. Eng. and App. Mech., University of Pennsylvania)

Redox Active Molecules for Non-Aquoes Flow Battery – L. Zhang (Argonne National Laboratory), J. Huang (Argonne National Lab, Argonne National Lab), and A. K. Burrell (Argonne National Laboratory) Synthesis of Nickel-Cobalt Difluoride [NixCo(1-x)F2] for Lithium Ion Batteries Application – Y. T. Teng (TUM CREATE Centre for Electromobility, Energy Research Institute @ NTU (ERI@N)), F. Wei (Nanyang Technological University), and R. Yazami (Energy Research Institute @ NTU (ERI@N)) Aqueous Lithium-Iodine Battery – H. R. Byon (Byon Initiative Research Unit, RIKEN, Japan) and Y. Zhao (Byon Initiative Research Unit, RIKEN, Japan, Department of Mechanical Engineering and the Materials Science and Engineering Program, The University of Texas at Austin, USA) Chloride Ion Batteries Based on Metal Oxychloride/Metal Electrode Systems – X. Zhao (College of Materials Science and Engineering, Nanjing University of Technology, China, Institute of Nanotechnology (INT), Karlsruhe Institute of Technology (KIT), Germany), P. Gao (Helmholtz Institute Ulm (HIU), Germany), Z. Zhao-Karger (Institute of Nanotechnology (INT), Karlsruhe Institute of Technology (KIT), Germany), M. Fichtner (Institute of Nanotechnology (INT), Karlsruhe Institute of Technology (KIT), Germany, Helmholtz Institute Ulm (HIU), Germany), and X. Shen (College of Materials Science and Engineering, Nanjing University of Technology, China) Micro- and Mesoporous Carbon - Selenium Composite Cathode for Lithium / Selenium Battery – J. T. Lee, H. Kim (School of Materials Science and Engineering, Georgia Institute of Technology), M. Oschatz (Technische Universität Dresden), D. C. Lee, F. Wu, H. T. Lin (School of Materials Science and Engineering, Georgia Institute of Technology), W. I. Cho (Center for Energy Convergence, Korea Institute of Science and Technology (KIST)), S. Kaskel (Technische Universität Dresden), and G. Yushin (School of Materials Science and Engineering, Georgia Institute of Technology) Electrochemical Insertion/Deinsertion of Mg2+ Ions into MnO2 Nanowires – J. Song, M. Noked, and S. B. Lee (University of Maryland) Beyond Chevrel Phase Mo6S8 : High Energy Density Mg Battery Cathodes – F. Mizuno, T. S. Arthur, R. Zhang, and C. Ling (Toyota Research Institute of North America)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


109

Composite Block Copolymer Electrolytes for Lithium Metal Batteries – Y. G. Lee (Samsung Advanced Institute of Technology (SAIT), Samsung Electronics), Y. Yang, H. S. Choi, and J. N. Lee (Samsung Advanced Institute of Technology (SAIT),Samsung Electronics)

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Expo Center, 1st Floor, Center and Right Foyers, Moon Palace Resort Battery Beyond Li-ion Posters – 18:00 – 20:00 Co-Chairs: Yangchuan Xing and Vito Di Noto •

110

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Magnetic Structure and Properties of NaFePO4 Polymorphs: Antiferromagnetic Ordering and Spin-Flop Transition – P. Barpanda (Indian Institute of Science), M. Avdeev (ANSTO, Braag Institute, Australia), and C. D. Ling (The University of Sydney) Polymeric Gel Electrolyte Based on a Rotaxane-Networked Polymer with Alkyl Magnesium Bromide and Ionic Liquid for Rechargeable Mg Batteries – N. Yoshimoto, K. Yamabuki, I. Kim, R. Shigematsu (Graduate School of Science and Engineering, Yamaguchi University), and H. Tsutsumi (Graduate School of Medicine, Yamaguchi University) Nanostructured MgFeSiO4/C Cathode Prepared By a Modified Sol-Gel Method for Rechargeable Mg-Ion Batteries – X. Chen and F. Vullum-Bruer (Department of Materials Science and Engineering, Norwegian University of Science and Technology) Screening of Potential TM-Olivine Candidates As Cathodes for Mg-Ion Batteries – F. L. Bleken (Sintef Materials and Chemistry), A. Fossdal (SINTEF Materials and Chemistry), F. VullumBruer (Department of Materials Science and Engineering, Norwegian University of Science and Technology), and O. M. Løvvik (Sintef Materials and Chemistry) Towards Understanding Li-O2 Electrochemistry on Precious Metal Electrocatalyst Surfaces in Non-Aqueous Electrolytes – K. Omichi, E. Kreidler, Q. Xu, and C. Brooks (Honda Research Institute USA, Inc.) Pd-Co/CNF Composite Material as Electro-Catalysts for Lithium-Oxygen Batteries – S. M. Cho, S. Hwang, B. S. Koo, and W. Y. Yoon (Department of Materials Science and Engineering, Korea University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Revisiting Chevrel Compounds Toward High-Voltage Mg Rechargeable Battery – T. Ichitsubo (Department of Materials Science and Engineering, Kyoto University), S. Yagi (Nanoscience and Nanotechnology Research Center, Osaka Prefecture University), R. Nakamura (Department of Materials Science and Engineering, Kyoto University), Y. Ichikawa (Nanoscience and Nanotechnology Research Center, Osaka Prefecture University), T. Kawaguchi (Department of Materials Science and Engineering, Kyoto University), T. Doi (Department of Molecular Chemistry and Biochemistry, Doshisha University), and E. Matsubara (Department of Materials Science and Engineering, Kyoto University) Spin-Lattice Coupling Studies of Electrode Material for 2nd Battery – S. Lee (Korea Atomic Energy Research Institute), H. Kim, and K. Kang (Seoul National University) Efficient Elimination of Lithium Carbonate/Carboxylates By NiO for Rechargeable Li–O2 Battery – M. Hong (Byon Initiative Research Unit, RIKEN, Japan, Department of Chemistry, POSTECH, South Korea), H. C. Choi (POSTECH, South Korea, Institute for Basic Science), and H. R. Byon (Byon Initiative Research Unit, RIKEN, Japan) Shuttle-Battery: High Capacity Rechargeable Metal-Air Energy Storage System – R. Tamaki and H. Tsukamoto (CONNEXX SYSTEMS LLC) Novel Cathode Structures for the Development of a Fuel Cell/Battery System – M. Musil (Institute of Industrial Science) and A. Tsutsumi (The University of Tokyo) Characterization of Reaction Products on the Surface of Li/Air Battery Electrodes – C. K. Lee and Y. J. Park (Kyonggi University) Free-Standing Type Mixed Oxide Oxygen Electrode for Rechargeable Li–O2 Batteries – R. S. Kalubarme, G. E. Park, and C. J. Park (Chonnam National University) Application of Al-Doped LLTO Solid Electrolyte Prepared By Sol-Gel Method in Lithium-Oxygen Batteries – H. T. T. Le, H. S. Jadhav, R. S. Kalubarme, S. Y. Jang, and C. J. Park (Chonnam National University) Cycle Life of Manganese Dioxide Cathodes for Large-Scale Storage: Effects of Discharge Rate and Depth – N. Ingale, J. W. Gallaway, G. Yadav, M. Nyce, A. Couzis, and S. Banerjee (CUNY Energy Institute at the City College of New York) Electrochemical Reaction on Plane Carbon As Cathode Electrode of Lithium Oxygen Battery – H. Nishikoori (Battery Research Division, Toyota Motor Corporation), M. Imano (Battery Research Divsion, Toyota Motor Corporation), S. Nakanishi, and H. Iba (Battery Research Division, Toyota Motor Corporation) 137

Wednesday, October 8

17:20


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Wednesday, October 8

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Lithium-Air Cells Assembled with Nitrogen and Sulfur Co-Doped Graphene Electrode – J. H. Kim, A. G Kannan, and D. W. Kim (Department of Chemical Engineering, Hanyang University) The Effect of Chloride Ion in the Electrolyte of Al Rechargeable Battery – M. Chiku, H. Takeda, E. Higuchi, and H. Inoue (Osaka Prefecture University) Highly Electrocatalytic Non-Precious Materials for Lithium Oxygen Batteries – A. Zahoor, J. Jeon, H. Jang (Chonbuk National University), Y. B. Kim, J. J. Lee (Chonbuk National Univeristy), M. Christy, and K. Nahm (Chonbuk National University) Dynamics of Polysulfide Dissolution for Various Electrolytes in Working Li-S Battery By in-Operando Technology – C. N. Lin, C. C. Chang, C. L. Li (Industrial Technology Research Institute), N. L. Wu (Department of Chemical Engineering, National Taiwan University), L. D. Tsai, and J. Fang (Industrial Technology Research Institute) Effect of Operating Temperature in Li-Air Cells – J. B. Park, W. J. Kwak (Hanyang University), J. Hassoun (Sapienza University of Rome), H. G. Jung (Center for Energy Convergence Research, Korea Institute of Science and Technology), C. S. Yoon (Hanyang University), Y. K. Sun (Department of Energy Engineering, Hanyang University), and B. Scrosati (Italian Institute of Technology, Genova, Italy) Electrochemical Deposition of Lithium Metal on Garnet Type Li7La3Zr3O12 Lithium Ion Conducting Ceramic Membranes – P. Stevens and G. Toussaint (Electricité de France, R&D division) High Energy and High Power Electrically Rechargeable Zinc-Air Battery – G. Toussaint, P. Stevens (Electricité de France, R&D division), R. Rouget, and F. Fourgeot (SCPS) High Tap Density MgO Doping Composite Composition 0.5Li2MnO30.5LiNi0.5Mn0.5O2 Cathode Material – A. Kumar and M. Tomar (University of Puerto Rico ,Mayaguez) Solid Electrolytes Based on Fast Fluorine Ion Motions — 19F T1ρ NMR Relaxation vs Conductivity Measurements of Mechanosynthesized Nanocrystalline Ba0.6La0.4F2.4 – F. Preishuber-Pflügl (Institute for Chemistry and Technology of Materials, DFG Priority Program (SPP) 1415, Graz University of Technology) and M. Wilkening (Christian-Doppler Laboratory for Lithium Batteries, Institute for Chemistry and Technology of Materials, DFG Priority Program (SPP) 1415, Graz University of Technology)

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Dual-Ion Batteries – Chances for Stationary Energy Storages By Electrode Structuring – L. Froböse, H. Bockholt, W. Haselrieder, and A. Kwade (Institute for Particle Technology, TU Braunschweig) Stability of Different Binders and Their Effect on the Cycling Behavior of LiO2 Cells – M. Piana, M. Metzger, K. U. Schwenke, J. Wandt, H. Beyer, J. Haberl, H. Rauch (Technical Electrochemistry, Technische Universität München), and H. A. Gasteiger (Technische Universität München, Technische Universität München) Generalized Simulation Models of Transport Processes within Sodium-Sulfur Batteries – J. H. Mason, F. Wu (West Virginia University), and I. B. Celik (U.S. Department of Energy, National Energy Technology Laboratory) A New Family of Novel Electrolytes for Rechargeable Magnesium Batteries – R. Mohtadi, T. S. Arthur, F. Mizuno, R. Zhang (Toyota Research Institute of North America), and T. Carter (University of Michigan) Anion Exchange Membranes for Alkaline Fuel Cells a Comparative Study – A. L. Roy (The University of Tennessee), L. Zhu (Penn State University), C. D. Bruneau, K. Dietz (The University of Tennessee), G. A. Goenaga (Chemical and Biomolecular Engineering Department, University of Tennessee - Knoxville), A. B. Papandrew (University of Tennessee), L. T. Servedio (Chemical and Biomolecular Engineering Department, University of Tennessee Knoxville), S. Foister (The University of Tennessee), M. Hickner (Pennstate), and T. A. Zawodzinski (Oak Ridge National Laboratory) Doped Carbonate Alkaline Battery Cathodes – B. J. Hertzberg (Department of Mechanical & Aerospace Engineering, Princeton University), L. Sviridov (CUNY Energy Institute at the City College of New York), E. A. Stach (Brookhaven National Laboratory), A. Mehra, and D. A. Steingart (Department of Mechanical and Aerospace Engineering, Princeton University) First Principles Study of Lithium and Oxygen Adsorption on the β-MnO2 (110) Surface – P. E. Ngoepe, K. P. Maenetja (Materials Modelling Centre, Univeristy of Limpopo, Private Bag x1106, Sovenga, 0727, South Africa.), T. Mellan, C. R. A. Catlow, S. M. Woodley (Department of Chemistry, University College London, 20 Gordon Street, London. WC1H 0AJ, UK.), and R. Grau-Crespo (Department of Chemistry, University of Reading, Reading, Whiteknights, Reading, RG6 6AD, UK.)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


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Conductivity Enhancement of MgMxOy (M=Co, Ni) Oxide Cathodes for Mg Battery Applications – S. Y. Tsai (Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), K. Z. Fung (Research Center for Energy Technology and Strategy, Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan, Research Center for Energy Technology and Strategy, National Cheng Kung University), and C. T. Ni (Dept. of Materials Science and Engineering, National Cheng Kung University) Oxygen Reduction and Evolution Examined Using Quartz Crystal Microbalance and Electrochemical Methods in Non-Aqueous Li-Ion Electrolytes – J. Lindberg, G. Lindbergh, and M. Behm (KTH Royal Institute of Technology) Optimization of Basic Parameters of New Sodium Electrolytes Based on Tailored Anions – A. Bitner (Warsaw University of Technology), G. Nolis, N. DeWever (ALISTORE-European Research Institute), L. Niedzicki (Warsaw University of Technology, Faculty of Chemistry), M. J. Kalita (Warsaw Technical University, Faculty of Chemistry), T. Trzeciak (Warsaw University of Technology, Faculty of Chemistry), M. Poterala, A. Gajewska (Warsaw Technical University, Faculty of Chemistry), W. Wieczorek (Warsaw University of Technology Faculty of Chemistry), and M. Marcinek (Warsaw University of Technology, Faculty of Chemistry) Stability Investigation of Inorganic Li Conductors As Protective Layers for Li-Air Batteries – K. Z. Fung (Research Center for Energy Technology and Strategy, Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), C. T. Ni (Dept. of Materials Science and Engineering, National Cheng Kung University), S. Y. Tsai, and M. H. Chen (Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan) The Scanning Vibrating Electrode Technique for the Study of Hydrogen Evolution from Iron Electrodes – C. F. Glover (SPECIFIC, Swansea University), I. Mabbett, R. Subramanian (Swansea University), A. Barnes (Swansea University (SPECIFIC)), and G. Williams (Swansea University)

A3

Battery / Physical and Analytical Electrochemistry / Dielectric Science and Technology Sunrise, 2nd Floor, Star Ballroom 1, Moon Palace Resort

Electrode Material (General) – 08:10 – 12:00 Co-Chairs: Prashant N. Kumta and Patrice Simon 08:10

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Meeting Program l October 5-9, 2014 l Cancun, Mexico

Electrochemical Capacitors: Fundamentals to Applications

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Ion Intercalation into 2D Titanium Carbide Based MXenes: Applications for Electrochemical Capacitors – M. R. Lukatskaya, C. E. Ren, O. Mashtalir (Department of Materials Science and Engineering, Drexel University), Y. Dall’Agnese (Université Paul Sabatier, CIRIMAT), M. W. Barsoum (Department of Materials Science and Engineering, Drexel University), P. Simon (Université Paul Sabatier, CIRIMAT UMR CNRS 5085, 118 route de Narbonne, 31062 Toulouse, France), and Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University) In-Situ Atomic Force Microscopy Studies of Ti3C2: A Promising New Material for Electrochemical Capacitors – J. Black (Oak Ridge National Laboratory), M. Beidaghi (Drexel Nanomaterials institute, Department of Materials Science and Engineerring, Drexel University), S. V. Kalinin (Oak Ridge National Laboratory), Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University), and N. Balke (Oak Ridge National Laboratory) Double Layer and Pseudocapacitive Charge-Storage Mechanisms in Carbides and Nitrides – A. Djire, O. T. Ajenifujah, A. Sleightholme, P. Rasmussen, and L. T. Thompson (University of Michigan) Polypyrrole/Carbon Paper Nanocomposite Films toward Free-Standing Electrochemical Capacitors – Z. Guo, H. Wei, Y. Wang, J. Guo (Integrated Composites Laboratory (ICL), Dan F. Smith Department of Chemical Engineering, Lamar University, Beaumont, TX 77710 USA), and S. Wei (Department of Chemistry and Biochemistry, Lamar University, Beaumont, TX 77710 USA) Break New Insight in the Charge Storage Mechanism of Vanadium Nitride as a Pseudocapacitve Electrode – A. Morel (Institut des Matériaux Jean Rouxel, Université de Nantes, CNRS), T. Brousse (Institut des Matériaux Jean Rouxel, CNRS), and D. Bélanger (Université du Québec à Montréal) Electrochemical Capacitors Fabricated Using Porous Silicon – D. S. Gardner, C. W. Holzwarth III, Y. Liu, S. B. Clendenning, W. Jin, Z. Chen, B. K. Moon, E. Hannah (Intel Corporation), C. Pint (Intel Corporation, Vanderbilt University), E. Mäkilä (University of Turku), C. Chen, C. Wang (Florida International University), and J. Gustafson (Intel Corporation, Ceranovo)

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Doped Transition Metal Nitride Supercapacitors (DTMSCs): Mechanisms of Charge Storage – P. N. Kumta, P. Jampani, P. Patel (Department of Chemical and Petroleum Engineering, University of Pittsburgh), and O. I. Velikokhatnyi (University of Pittsburgh) Oxidative Chemical Vapor Deposition (oCVD) Synthesis of Ultrathin Polythiophene Films for Enhanced Charge Storage in Nanostructured Devices – Y. Y. Smolin, S. Nejati, T. E. Minford, and K. K. S. Lau (Drexel University) Polyanilene-Coated Porous Carbon Nanofiber Electrodes for Supercapacitors – V. Kalra (Drexel University) Influence of Surface Chemistry on Rheological and Electrochemical Properties in Flowable Electrodes – K. B. Hatzell, G. Housel, A. J. McBride, M. Boota, E. C. Kumbur (Drexel University), and Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University)

Wednesday, October 8

Device I – 14:00 – 17:00 Co-Chairs: Katsuhiko Naoi and Enn Lust 14:00

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Invited: New Generation Supercapacitors in Synergy with Li-Ion Technology – K. Naoi (Tokyo University of Agriculture and Technology) and W. Naoi (K & W Inc) Large Amplitude Electrochemical Impedance Spectroscopy for Characterizing the Performance of Electrochemical Capacitors – S. W. Donne and M. F. Dupont (University of Newcastle) Supercapacitors Based on Propylene Carbonate Solution Operating from -45 °C to 100 °C – A. Jänes, T. Thomberg, J. Eskusson, and E. Lust (Institute of Chemistry, University of Tartu) Separator Materials Influence on Supercapacitors Performance in Viscous Electrolytes – K. Tõnurist, T. Thomberg, A. Jänes, and E. Lust (Institute of Chemistry, University of Tartu) Break All Solid State Activated Carbon Supercapacitor with Silica Ionogel As Electrolyte – M. Brachet, T. Brousse (Institut des Matériaux Jean Rouxel, CNRS), and J. Le Bideau (Institut des Materiaux Jean Rouxel (IMN) - Universite de Nantes) High-Voltage, High-Frequency Electrochemical Capacitor – J. R. Miller (Case Western Reserve University, JME, Inc), R. A. Outlaw (The College of William & Mary), and S. M. Butler (JME, Inc.) Analysis of Ion Transport in Solution Electrolytes for Electrochemical Capacitors – M. Saito (Division of Applied Chemistry, Institute of Engineering, Tokyo University of Agriculuture and Technology), S. Kawaharasaki (Tokyo University of Agriculture and Technology), K. Hayamizu (University of Tsukuba), and S. Seki (Central Research Institute of Electric Power Industry)

A4

Electrochemical Interfaces in Energy Storage Systems Battery / Energy Technology / Physical and Analytical Electrochemistry Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort

Electrochemical Interfaces in Energy Storage Systems V Poster Session – 18:00 – 20:00 Co-Chairs: Robert Kostecki and Kristina Edstrom •

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A5

Analytical Study of Surface Film on the Li Metal – H. Kuwata (Mie University), M. Matsui (Mie University, JST, PRESTO), and N. Imanishi (Mie University) In Operando FTIR Spectroscopy for Lithium-Ion Batteries – M. Matsui, H. Kuwata, and N. Imanishi (Mie University) Local State-of-Charge Inhomogeneities in Charged and Cycled High Capacity Lithium-Manganese-Rich Composite Cathodes – J. Nanda, R. E. Ruther (Oak Ridge National Laboratory), A. F. Callender (Tennessee Tech University), and H. Zhou (Oak Ridge National Laboratory)

Lithium-Ion Batteries

Battery Sunrise, 2nd Floor, Galactic Ballroom 2, Moon Palace Resort

Progress in Electrolytes – 08:10 – 12:00 Co-Chairs: Kristina Edstrom and Khalil Amine 08:10

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Study of the Impact of Electrolyte Additives on High Voltage LiNi0.4Mn0.4Co0.2O2/Graphite Cells by Electrochemical Impedance Spectroscopy – R. Petibon, L. Ma (Dalhousie University), and J. Dahn (Dalhousie University - Dept. of Physics and Atmospheric Science) Vinyl Cyclosiloxanes As New Electrolyte Additives for High-Voltage Li-Ion Batteries – H. Yamaguchi, H. Koga, S. Nakanishi, and H. Iba (Battery Research Division, Toyota Motor Corporation) Polycarbonate-Based Solid Polymer Electrolytes for Li-Ion Batteries – B. Sun, J. Mindemark, K. Edström, and D. Brandell (Department of Chemistry - Ångström Laboratory, Uppsala University) Li-Ion Coordination and Transport Properties in Gel Polymer Electrolytes Based on Amphiphilic Block Copolymers – M. Schaefer (University of Muenster MEET Battery Research Center) and A. Lex-Balducci (MEET Battery Research Center/Institute of Physical Chemistry) Break Combinations of Ethylene Sulfite (ES) and Vinylene Carbonate (VC) As Electrolyte Additives in Li(Ni1/3Mn1/3Co1/3)O2/ Graphite Pouch Cells – J. Xia, C. Aiken, L. Ma (Dalhousie University), G. Y. Kim (Department of Physics and Atmospheric Science, Dalhousie University), J. C. Burns, and J. Dahn (Dalhousie University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


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Comparative Study on the Solid Electrolyte Interface Formation by the Reduction of Alkyl Carbonates in Lithium Ion Battery – A. M. Haregewoin, E. G. Leggesse, B. J. Hwang, J. C. Jiang (National Taiwan University of Science and Technology), F. M. Wang (National Taiwan University of Science and Technology, Taipei, Taiwan), and S. D. Lin (National Taiwan University of Science and Technology) Effect of Microstructure and Elemental Composition on Electrode Interfacial Impedance of Li7La3Zr2O12-based Batteries – G. Hitz, J. Dai, J. A. Taillon, Y. Gong, X. Han (University of Maryland), V. Thangadurai (University of Calgary), L. Hu (University of Maryland, college park), and E. D. Wachsman (University of Maryland) Synthesis of Li7La3(Zr2−X, NbX)O12 (X = 0 – 1) at Low Temperatures Using a SolGel Process – N. C. Rosero-Navarro, T. Yamashita, M. Higuchi, and K. Tadanaga (Division of Materials Chemistry, Faculty of Engineering, Hokkaido University) Design of Solid Electrolyte Interphase to Improve Li-Ion Battery Cycle Efficiency – P. Lu, J. H. Kim, X. Xiao (General Motors R&D Center), and S. J. Harris (Lawrence Berkeley National Laboratory) Libis(fluorosulfonyl)Imide-Based Low EC-Content Electrolyte with Specific Coordination/Solvation Process – S. Uchida, M. Yamagata, and M. Ishikawa (Department of Chemistry and Materials Engineering, Faculty of Chemistry, Materials and Bioengineering, Kansai University)

Progress in Cathodes II – 13:30 – 18:20 Co-Chairs: Atsuo Yamada and Byoungwoo Kang 13:30

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On the Unusually High Fe3+/Fe2+ Redox Potential Exceeding 4V – A. Yamada (The University of Tokyo, ESICB, Kyoto University), S. C. Chung (The University of Tokyo), S. Nishimura (The University of Tokyo, ESICB, Kyoto University), and P. Barpanda (Indian Institute of Science) Stability of Carbon Coating Surrounding LiMPO4 (M=Fe, Co) Particles in Water Free and Water Containing Electrolytes – M. Metzger, C. Marino, D. Haering, C. Kavakli (Technical Electrochemistry, Technische Universität München), C. Alarcon, S. Puravankara, T. Nilges (Synthesis and Characterization of innovative Materials, Technische Universität München), C. Stinner (BMW AG), and H. A. Gasteiger (Technische Universität München) In Situ XANES Analysis of Olivine-Type Cathode Materials to Study Kinetically Preferred State – Y. Satou (DENSO CORPORATION, Graduate School of Energy Science, Kyoto University), Y. Kimura, S. Komine (DENSO CORPORATION), S. Takai, and T. Yao (Graduate School of Energy Science, Kyoto University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

14:40

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The Delithiation Behavior of LiFePO4 Particles with Broad Particle Size Distribution during Chemically Delithiation – S. Yoo and B. Kang (Pohang University of Science and Technology, MSE) 15:00 306 Degradation Mechanism of LiCoPO4 As a Cathode for Li-Ion Batteries – H. Miki (Battery Research Division, Toyota Motor Corporation), X. Gao, Y. H. Ikuhara (Japan Fine Ceramics Center), H. Koga, and H. Iba (Battery Research Division, Toyota Motor Corporation) 15:20 307 LiCoPO4 Based High Energy Li-Ion Cathodes – J. L. Allen (U.S. Army Research Laboratory), J. Wolfenstine (U.S. Army Research Lab), J. L. Allen, and T. R. Jow (U.S. Army Research Laboratory) 15:40 Break 16:00 308 Evidence for Continuous Transformation in Mixed Manganese Iron Olivines – K. Xiang, D. B. Ravnsbaek, W. Xing, Z. Li, and Y. M. Chiang (Massachusetts Institute of Technology) 16:20 309 Li3V2(PO4)3 As a Positive Electrode Material for Rechargeable Lithium Batteries – J. S. Park and S. T. Myung (Sejong University) 16:40 310 Improvement of Electrochemical Performance of Li-Rich Cathode Material with Specific Morphology for Lithium Ion Batteries – X. He, J. Wang, and J. Li (MEET Battery Research Center, University of Muenster, Corrensstrasse 46, 48149 Muenster, Germany) 17:00 311 Influences of Dopants on the Properties of LiMnO2 and Li2MnO3 in Olo Cathode for Li Ion Batteries – F. Kong, R. C. Longo (Materials Science & Engineering Dept., The University of Texas at Dallas, Richardson, 75080 Texas, USA), M. S. Park (Energy Lab., SAIT, Samsung Electronics, Suwon 443-803, Republic of Korea), J. Yoon (Energy Lab., SAIT, Samsung Electronics,Suwon 443-803, Republic of Korea), D. H. Yeon, J. H. Park (Energy Lab., SAIT, Samsung Electronics, Suwon 443-803, Republic of Korea), W. Wang, S. KC (Materials Science & Engineering Dept., The University of Texas at Dallas, Richardson, 75080 Texas, USA), S. K. Doo (Energy Lab., SAIT, Samsung Electronics, Suwon 443-803, Republic of Korea), and K. Cho (Department of Mechanical and Aerospace Engineering, Seoul National University, Korea.) 17:20 312 Mechanism of Performance Improvement in LiNi0.5Mn1.5-XTixO4 High Voltage Spinel Full-cells paired with Graphite and Li4Ti5O12 Negative Electrodes – J. H. Kim (General Motors R&D Center), N. P. W. Pieczonka (Optimal CAE Inc), Z. Liu (General Motors Global Research & Development Center), P. Lu (General Motors R&D Center), B. R. Powell (General Motors Global Research & Development Center), and Y. K. Sun (Department of Energy Engineering, Hanyang University) 141

Wednesday, October 8

10:20


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Fe and V Substituted Li2MnSiO4/C As Potential Cathode Material for Li-Ion Batteries – N. Wagner, A. M. Svensson, and F. Vullum-Bruer (Norwegian University of Science and Technology) Electronic Origin of Different Discharge Curves in LixCoO2 and NaxCoO2 cathode Materials – J. Molenda, A. Milewska (AGH University of Science and Technology, Faculty of Energy and Fuels), D. Baster (AGH University of Science and Technology, Faculty of Energy an Fuels), and J. Tobola (AGH University of Science and Technology, Faculty of Physics and Applied Computer Science)

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Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Lithium-ion Batteries Poster Session – 18:00 – 20:00 Co-Chairs: Khalil Amine and Shirley Meng •

Wednesday, October 8

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A Semi-IPN Polymeric Binder for High Performance Silicone Negative Electrodes in Lithium Ion Batteries – N. S. Kim (Aekyung Chemical Company), B. J. Chung (Samsung SDI), S. J. Kim, and K. S. Choi (Aekyung Chemical Company) Hydrogenated TiO2 Nanotubes as HighPower Anode Materials for Lithium-Ion Batteries – J. Y. Eom, J. H. Yun, S. E. Yoo (Korea Automotive Technology Institute), W. H. Ryu, S. J. Lim, and H. Kwon (Korea Advanced Institute of Science and Technology) Studies of the Effect of Varying Prop-1Ene-1,3-Sultone (PES) Concentration on Li-Ion Batteries – K. Nelson (Dalhousie University - Dept. of Physics and Atmospheric Science), J. Xia, and J. Dahn (Dalhousie University) Synthesis and Lithium Storage Properties of Novel Flower-like Co3O4 – P. Liu (School of Chemical Engineering, Nanjing University of Science and Technology), X. Xia, W. Wang, and Q. Hao (Key Laboratory for Soft Chemistry and Functional Materials , Ministry of Education, Nanjing University of Science and Technology) Hydrothermally Synthesized Mg-Doped LiMn1-XFexPO4/Li4Ti5O12 Li-Ion Batteries for Stationary Power Applications – K. Hoshina, Y. Yamashita, T. Sasakawa, M. Ishibashi, Y. Isozaki, and N. Takami (Toshiba Corporation) Mapping the Entropic Coefficient of the NMC Pouch Cell at Various Temperatures and State-of-Charge Levels – S. J. Bazinski (Oakland Uniersity) and X. Wang (Oakland University) Use of Well-Aligned, Inclined Nanocolumnar Structured Cusi Thin Film As Anode Material in Lib – D. B. Polat and O. Keles (Istanbul Technical University)

Degradation Diagnosis of Aged Li4Ti5O12/ LiFePO4 Batteries – R. Castaing (Institut des Matériaux Jean Rouxel (IMN), Université de Nantes, CNRS), Y. Reynier (CEA), N. Dupré (Réseau sur le Stockage Électrochimique de l’Énergie (RS2E), FR CNRS 3459, France, Institut des matériaux Jean Rouxel (IMN) - CNRS - Nantes), D. Schleich (Institut des Matériaux Jean Rouxel (IMN), Université de Nantes, CNRS, Réseau sur le Stockage Électrochimique de l’Énergie (RS2E), FR CNRS 3459, France), S. Jouanneau (CEA Grenoble DRT/LITEN/DEHT/LCPB), D. Guyomard (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459), and P. Moreau (Réseau sur le Stockage Electrochimique de l’Energie (RS2E)) Cost Reduction Strategies for Lithium Ion Electrode Processing and Pouch Cell Formation Steps – D. L. Wood III, J. Li, and C. Daniel (Oak Ridge National Laboratory) A Comparative Study of SulphurContaining Electrolyte Additives on the Reactivity Between Electrolytes and Charged Electrodes Using Accelerating Rate Calorimetry (ARC) – L. Ma (Dalhousie University) and J. Dahn (Dalhousie University - Dept. of Physics and Atmospheric Science) Structural and Spectroscopic Studies on Electrolytes Containing Novel Salts Dedicated to Lithium-Ion Batteries – B. Jurkowska, A. Szablowska, P. Jankowski, A. Gajewska, M. Poterala, M. J. Kalita, M. Dranka, G. Z. Zukowska, and J. Zachara (Warsaw Technical University, Faculty of Chemistry) Graphite-Based Negative Electrodes: Correlation of Electrode Expansion and Cyclability – C. Bünzli (Paul Scherrer Institute, Electrochemistry Laboratory), D. Cericola, T. Hucke, M. Spahr (TIMCAL SA, Bodio), P. Novák, and J. L. Gomez-Camer (Paul Scherrer Institute, Electrochemistry Laboratory) Electrochemical Properties of DLC Coated LiNi0.8Co0.15Al0.05O2 Cathode Material of All-Solid-State Lithium Ion Battery – H. Visbal (Kyoto University, Samsung R&D Institute Japan), Y. Aihara (Samsung R&D Institute Japan), Y. Park (Samsung Electronics), and S. Doo (Samsung Electronics Advanced Institute of Technology) Influence of Convective Drying Parameters on Electrode Performance and Physical Electrode Properties – B. Westphal, H. Bockholt, and A. Kwade (Institute for Particle Technology, TU Braunschweig) Heat Flow Measurement and Analysis during Lithium-Ion Battery Formation Process – J. Q. Xu, J. V. Sarlashkar, V. Iyengar, and M. Argo (Southwest Research Institute)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


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Performances and Ageing Mechanisms of LiMn1-XFexPO4 // Graphite Prototype Cells – E. Dumont, F. Castaing, and C. Tessier (Saft) One Step Core-Shell Silicon/Carbon Nanoparticle Synthesis By Laser Pyrolysis: Application to Anode Material in LithiumIon Batteries – J. Sourice (CEA Saclay DSM/IRAMIS/NIMBE/LEDNA, CEA Grenoble DRT/LITEN/DEHT), A. Quinsac, Y. Leconte, O. Sublemontier, N. Herlin, C. Reynaud (CEA Saclay DSM/ IRAMIS/NIMBE/LEDNA), C. Haon (CEA Grenoble DRT/LITEN/DEHT/ SCGE/LCB), W. Porcher (CEA Grenoble DRT/LITEN/DEHT/SRGE/LRC), and S. Jouanneau (CEA Grenoble DRT/LITEN/ DEHT/LCPB) Characteristics of Anodic Aluminum Oxide As Separator for Li Ion Battery – J. Yoo, Y. K. Ahn (Seoul National University), S. Y. Park (Seoul National University, The Graduate School of Convergence Science and Technology, Program in Nano Science and Technology), S. Cho (Seoul National University), and Y. S. Kim (Advanced Institutes of Convergence Technology) Electrochemical and in-Situ Investigation of Quaternary Lithium Transition Metal Fluorides in Li-Ion Batteries – G. Lieser, C. Dräger, S. Glatthaar (Institute for Applied Materials (IAM)), H. Geßwein, L. de Biasi (Helmholtz Institute Ulm), S. Indris (Institute of Applied Materials – Energy Storage Systems, Karlsruhe Institute of Technology), H. Ehrenberg (Karlsruhe Institute of Technology), and J. R. Binder (Institute for Applied Materials (IAM)) First Principles Study of Two-Phase Boundary in LiFePO4 – Y. Asari (Hitachi, Ltd.) Impedance Growth with Lithium Titanate Based Cells; Understanding and Mitigation – T. A. Greszler, Y. Chen (Saft Batteries), B. Deveney (Saft America), L. El Ouatani (Saft Batteries), and C. Tessier (Saft) Cycle Life Evaluation of Lithium-Ion Batteries for Electric Vehicles at 45°C Using IEC and QC/T Standard Test Methods – D. Imamura, M. Myojin, and T. Matsuda (Japan Automobile Research Institute) Reverse Monte Carlo Simulation of Lithium Transition Metal Oxide for Cathode Material of Lithium-Ion Battery – N. Kitamura, N. Ishida, and Y. Idemoto (Tokyo University of Science) Fine-Grained Si Alloy Prepared By Melt Spinning and Its Electrochemical Performance for Li Ion Battery Anode – T. Kaburagi (Nissan Motor Co.,ltd.), F. Miki (Nissan Motor Co.,ltd), M. Watanabe, N. Chiba, M. Hatano (Nissan Motor Co.,ltd.), K. Inoda, and H. Tanimoto (University of Tsukuba)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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Advanced 3D Imaging and Analysis of Lithium Ion Battery Electrodes – M. Biton (Imperial College), F. Tariq, V. Yufit (Imperial College London), P. R. Shearing (Electrochemical Innovation Lab, Department of Chemical Engineering, University College London, Torrington Place, London, WC1E 7JE, United Kingdom), M. Kishimoto (Imperial College London), J. Gelb (Carl Zeiss X-ray Microscopy), D. Golodnitsky, E. Peled (Tel Aviv University), and N. P. Brandon (Imperial College London) Synthesis and Crystal Structure of Lithium Iron Titanium Oxides Li1/2-+1/2xFe5/23/2xTixO4 with 0 ≤ x ≤ 1.666 – K. Mukai, Y. Kato, K. Horibuchi, and H. Nakano (Toyota Central R&D Labs., Inc.) Visualizing Longitudinal and Transversal Strain Effects in High-Energy NMC Cathodes Induced By Intense Calendering – J. H. Schünemann, R. Petri (VOLKSWAGEN VARTA Microbattery FgmbH & Co. KG), and A. Kwade (Institute for Particle Technology, TU Braunschweig) Improved Electrochemical Properties of MoP2 Anode By Substitution of Si for Lithium Ion Batteries – G. Park (Battery Research Center, Korea Electrotechnology Research Institute) Degradation Analyses of Commercial Lithium-Ion Cells By C-Rate/Temperature Controlled Cycle Test – T. Matsuda, M. Myojin, and D. Imamura (Japan Automobile Research Institute) A Comparison of LCM Results to Calorimetric Data in Predicting Heat Generation from Lithium-Ion Pouch Cells – S. J. Bazinski (Oakland Uniersity) and X. Wang (Oakland University) Healthcare for Lithium-Ion Battery By Multi-in-Situ Electrochemical Impedance Spectroscopy Measurement System – I. Shitanda, Y. Hoshi, K. Honda, T. Kawado, M. Itagaki (Tokyo University of Science), S. Aoyagi (Hokuto denko Corporation), and A. Fukuizumi (Hokuto Denko Corp.) Structual and Electrochemical Effects of Sn Addition on Si-Based Alloy Anod for Lithium Ion Batteries – M. H. Kim, Y. P. Choi, S. K. Kim, C. H. Park (Next Generation Technology Center ; ILJIN Electric), and Y. K. Kim (Next-G Institute of Techonology, IlJin Electric Co., Ltd.) The Effect of High Charge Rate Cycling on Coulombic Efficiency Measurements – J. C. Burns and J. Dahn (Dalhousie University) Changes of Thermodynamic Properties in Aged Lithium-Ion Cell – P. J. Osswald and H. E. Hoster (TUM CREATE)

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Pursuing Better Rate Performance of LiRich Layered Cathode Materials for Li-Ion Batteries – L. Li (National University of Singapore), Y. L. Zhang (National Taiwan University), H. Xia (Nanjing University of Science and Technology), B. H. Song (University of Oxford), J. R. Yang (National Taiwan University), K. S. Lee, and L. Lu (National University of Singapore) Electrochemical Properties of Si-Alloy/ Graphite/Carbon Nanotubes Blending Electrode for Li-Ion Batteries – C. H. Park, S. K. Kim, Y. P. Choi, M. H. Kim (Next Generation Technology Center ; ILJIN Electric), Y. N. Kim (Research Center, KH Chemicals Co., Ltd.), and Y. K. Kim (Next-G Institute of Techonology, IlJin Electric Co., Ltd.) Evaluation of Electrochemical Performance of Recovery Silicon from Waste Silicon Sludge As Lithium Ion Battery – Y. H. Jin, K. S. Park, and H. C. Jung (Institute for Advanced Engineering) Very High Surface Capacity with Si Negative Electrodes Embedded in Copper Foam as 3D Current Collector – D. Mazouzi (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), D. Reyter (INRS-Centre Énergie Matériaux et Télécommunications), M. Gauthier (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), D. Guyomard (Institut des Matériaux Jean Rouxel (IMN), Nantes University, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), L. Roué (INRS-Centre Énergie Matériaux et Télécommunications), and B. Lestriez (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France) Electrochemical Characterization of Si Alloy Anodes for Libs Synthesized By Mechanical Ball Milling – J. S. Cho, H. G. Ahn (MKE), S. S. Suh, J. H. Kim, S. U. Kwon (SAMSUNG SDI), and K. H. Oh (Seoul National University) Li Containing Binder for Improved the First Coulombic Efficiency and Cycleability of Li-Ion Batteries – J. H. Ku, S. S. Hwang, M. S. Song, J. K. Shon, S. M. Ji, and J. M. Choi (Samsung Advanced Institute of Technology, Samsung Electronics Co., Ltd.) Characterization of LiMn0.3Co0.3Ni0.3Cr0.1O2 Cathode for an All Solid-State Thin Film Battery – N. Kamarulzaman, R. Rusdi (Universiti Teknologi MARA, Shah Alam, Malaysia), K. Elong, and N. Badar (Universiti Teknologi MARA (UiTM))

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Modelling Mechanical Degradation in Lithium-Ion Batteries during Cycling – I. Laresgoiti, S. Käbitz, M. Ecker, and D. U. Sauer (Chair for Electrochemical Energy Conversion and Storage Systems, Institute for Power Electronics and Electrical Drives (ISEA), RWTH Aachen University, Jaegerstrasse 17-19, 52066 Aachen, Germany, Juelich Aachen Research Alliance, JARA-Energy, Germany) Analysis of Crystal Structure, Electronic and Nuclear Densities, and Local Structure for LiNi0.8Co0.2O2 during Charge Process Using Synchrotron X-Ray and Neutron Sources – N. Ishida, A. Horie, N. Kitamura, and Y. Idemoto (Tokyo University of Science) From Lab Scale to Large Volume Production: Substitution of Toxic NMP/ PVDF with H2o/CMC/SBR in Lithium-Ion Cells – P. Noll (University of Muenster; MEET Battery Research Center), G. Hörpel (University of Münster, MEET Battery Research Center), and M. Schroeder (MEET Battery Research Center) Entropy of Cycled and Aged Li-Ion Batteries for Maritime Conditions – P. J. S. Vie (Institute for Energy Research), J. P. Mæhlen, and M. Kirkengen (Institute for Energy Technology) Electrochemical Performance of Si Modified TiO2 Nanotube Arrays Investigated in Li-Ion Containing Ionic Liquid Electrolyte – S. Ivanov (Technische Universität Ilmenau, Department of Electrochemistry and Electroplating), R. Grieseler (Technische Universität Ilmenau,Department of Materials for Electronics,Gustav-Kirchhoff-Straße 5, D-98693 Ilmenau), L. Cheng (Technische Universität Ilmenau, Department of Electrochemistry and Electroplating), P. Schaaf (Technische Universität Ilmenau, Department of Materials for Electronics,Gustav-Kirchhoff-Straße 5, D-98693 Ilmenau, Germany), and A. Bund (Technische Universität Ilmenau, Department of Electrochemistry and Electroplating) A Study of Li Based Solid State Battery with Nanoscale Transition Metal Oxide Coatings – S. Mukherjee, A. Bates (University of Louisville), S. C. Lee (DaeguGyeongbuk Institute of Science & Technology (DGIST)), J. Kim (DGIST), O. Kwon (Keimyung University), B. Son (DGIST), and S. Park (University of Louisville) New Synthesis Approach for High-Voltage Spinel LiNi0.5Mn1.5O4 a High Performance Positive Material for Lithium-Ion Batteries – H. Liu (MEET Battery Research center, University of Muenster, Corrensstrasse 46, 48149 Muenster, Germany) and J. Li (MEET Battery Research Center, University of Muenster, Corrensstrasse 46, 48149 Muenster, Germany) Meeting Program l October 5-9, 2014 l Cancun, Mexico


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Lithium Powder Electrode As Anode in Lithium-Oxygen Batteries – S. Hwang, S. M. Cho, B. S. Koo, and W. Y. Yoon (Department of Materials Science and Engineering, Korea University) Electroless Copper-Based Coating on Lithium Iron Phosphate for Improved Performances – M. A. Spreafico, A. V. Oriani (Politecnico di Milano), P. Cojocaru, F. Triulzi (Solvay Specialty Polymers), L. Magagnin (Politecnico di Milano), and M. Apostolo (Solvay Specialty Polymers) New Surface Treatment Strategy for HighPerformance Li-Rich Cathode Material with High Volumetric Energy Density – P. Oh (UNIST) Simplifying Electrothermal Dynamics of 15-Ah Prismatic Li-Ion Batteries – L. Secondo, S. U. Kim (Department of Chemical Engineering, University of Michigan, Ann Arbor 48109, USA), J. Siegel (Department of Mechanical Engineering, University of Michigan), A. Stefanopoulou (Department of Mechanical Engineering, University of Michigan, Ann Arbor 48109, USA), and C. W. Monroe (University of Michigan) The Influence of Platinum Doping on the Structure, Morphology and Electrochemical Properties of LiFePO4/C Cathode Material – M. Talebi-Esfandarani (Laboratory of New Materials for Electrochemistry and Energy, École Polytechnique de Montréal, Montréal, QC, Canada,) and O. Savadogo (École Polytechnique de Montréal) Ex Situ Activation of Li-Excess Layered Cathode Materials for High-Capacity Lithium Ion Batteries – J. Zhao and Y. Wang (Louisiana State University) Efficient Computational Strategy for Coupled Multi-Physics Battery Pack Simulations – S. Allu, W. Elwasif, S. Pannala, S. Kalnaus, S. Simunovic, and J. A. Turner (Oak Ridge National Laboratory) Investigation of Metal Oxide/Carbon Nanotubes as Anode Material for High Capacity Lithium-Ion Cells – J. Wu (NASA Glenn Research Center) and H. Hong (South Dakota School of Mines and Technology) Significant Effects of Nitrogen Ion Implantation on Lithium Phosphorus Oxynitrid Solid State Electrolytes Via E-Beam Reactive Evaporation – H. Z. Song Sr. (College of Physics and Materials Science, Tianjin Normal University) and D. Li (Tianjin Normal University) Correlating the Resulting Internal Structures of Lithium-Ion Battery Electrodes to the Prior-to-Coating Suspension Properties – H. Bockholt, B. Westphal, W. Haselrieder, and A. Kwade (Institute for Particle Technology, TU Braunschweig)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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Model-Based Analysis of a 12V DualBattery System for Design Optimization of Microhybrid Vehicles – Z. Zhang (Johnson Controls Power Solutions), A. Rick (Johnson Controls Inc), and B. C. Sisk (Johnson Controls Power Solutions) Evaluation of Electrode Structure and Simulation of Transport Phenomena in Lithium-Ion Battery – G. Inoue, J. Ikishima, and M. Kawase (Kyoto University) Effects of Heat Treatment Temperature on the Electrochemical Performance of LiV3O8 Obtained By Solid-State Method – K. Y. Bae and W. Y. Yoon (Department of Materials Science and Engineering, Korea University) Investigation of Li-Ion Diffusion Rates Using Gitt in Cells with 3D Structured Intercalation Cathode Materials – P. GotcuFreis (Karlsruhe Institute of Technology (KIT), Institute for Applied Materials – Applied Materials Physics (IAMAWP)), W. Pfleging (Karlsruhe Institute of Technology, Institute for Applied Materials (IAM-AWP), Karlsruhe Nano Micro Facility, H.-von-Helmholtz-Platz), and H. J. Seifert (Karlsruhe Institute of Technology, IAM-AWP) Improved Electrochemical Performance of Silicon Nanowires As Negative Electrode with Metal Coatings – S. H. Baek, J. S. Park, and J. H. Kim (DGIST) Exploiting Differential Flatness and Pseudospectral Optimization to Improve the Computational Efficiency of HealthConscious Lithium-Ion Battery Control – J. Liu, G. Li, J. Anstrom, S. Brennan (Pennsylvania State University), and H. Fathy (The Pennsylvania State University) Soft Chemical Synthesis and Electrochemical Li Insertion Properties of Li2Ti3O7 with NaLiTi3O7-Type Structure – K. Chiba (Office of Society-Academia Collaboration for Innovation, Kyoto University), H. Sakaebe, K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST)), and Z. Ogumi (Office of Society-Academia Collaboration for Innovation, Kyoto University) Effect of Electrode Mixing Conditions on the Performance of Lithium-Ion Batteries Analyzed by Fast Fourier Transform Electrochemical Impedance Spectroscopy – H. Nakajima, T. Kitahara (Department of Mechanical Engineering, Faculty of Engineering, Kyushu University, International Institute for Carbon-Neutral Energy Research (I2CNER), Kyushu University), Y. Higashinaka, and Y. Nagata (Department of Hydrogen Energy Systems, Graduate School of Engineering, Kyushu University)

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Li Storage Behavior of C-Coated Si/SiOx Nanospheres As a High Capacity Anode Material for Lithium-Ion Battery – E. Park (Department of Energy Engineering, Hanyang University), M. Park, J. Lee, Y. J. Kim (Advanced Batteries Research Center, Korea Electronics Technology Institute, Korea.), and H. Kim (Department of Energy Engineering, Hanyang University) 382 Degradation Studies on LiFePO4 cathode – R. Scipioni (Department of Energy Conversion and Storage, Technical University of Denmark), P. S. Jørgensen (Technical University of Denmark), J. Hjelm, P. Norby (Department of Energy Conversion and Storage, Technical University of Denmark), C. N. Rasmussen (Department of Electrical Engineering, Technical University of Denmark), and S. H. Jensen (Department of Energy Conversion and Storage, Technical University of Denmark) 383 Rate-Dependent, Li-Ion Insertion/ Deinsertion Behaviour of LiFePO4 Cathodes in Commercial 18650 LiFePO4 Cells – Q. Liu (Indiana University Purdue University Indianapolis), Y. Ren (X-ray Science Division, Argonne National Laboratory), and J. Xie (Indiana University-Purdue University (IUPUI)) 384 Electrochemical and Local Structural Analysis of the Li3V(2-2x/3)Mgx(PO4)3/C (x=0, 0.15, 0.3, and 0.45) Cathode – S. Kim (University of Michigan), Z. Zhang, S. Wang, L. Yang (Shanghai Jiao Tong University), J. Penner-Hahn, and A. Deb (University of Michigan) 385 Electrochemical Properties of TiO2(R) As a High-Potential Negative-Electrode for Lithium Ion Batteries – R. Kanazawa, T. Doi, and M. Inaba (Department of Molecular Chemistry and Biochemistry, Doshisha University) 386 Graphene/Li[Li0.2Ni0.2Mn0.6]O2 nanocomposite for Enhanced Cathode with High Rate Capability – M. Pyun and Y. J. Park (Kyonggi University) 387 Electrochemical Properties of LiMn2O4Li7La3Zr2O12 Composite Film Electrode Fabricated By Aerosol Deposition Method – R. Inada, Y. Nakanishi, C. Masada, M. Tojo, T. Tojo, and Y. Sakurai (Toyohashi University of Technology) 388 Development of Cost-Efficient SiliconCarbon Anode Materials Based on Existing Mass-Production of Silicon and Carbon at Elkem – M. Kirkengen (Institute for Energy Technology), J. Voje (Elkem Technology AS), A. Fossdal (SINTEF Materials and Chemistry), B. Sandberg (Elkem Technology AS), J. P. Maehlen (Institute for Energy Technology), S. Y. Larsen (Elkem Carbon AS), P. E. Vullum (SINTEF Materials and Chemistry), P. J. S. Vie (Institute for Energy Research), H. F. Andersen (Institute for Energy Technology), and E. Sheridan (SINTEF Materials and Chemistry)

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Building Ionic/Electronic ThreeDimensional Conductive Framework to Enhance the Electrochemical Performance of LiVPO4f Cathode for Lithium Ion Batteries – J. Wang, X. Li, H. Guo, Z. Wang, and B. Huang (Central South University) Improved Electrochemical Performances of Silicon Nanowires Anode with Optimized Cycling Conditions – L. Leveau (LPICM, UMR 7647 CNRS-Ecole Polytechnique, Route de Saclay, 91128 Palaiseau, France), B. Laïk (ICMPE/GESMAT, UMR 7182 CNRS-UPEC, rue Henry Dunant, 94320 Thiais, France), J. P. Pereira-Ramos (ICMPE-CNRS), A. Gohier, P. Tran-Van (Renault Research Department, 78288 Guyancourt, France), and C. S. Cojocaru (LPICM, UMR 7647 CNRS-Ecole Polytechnique, Route de Saclay, 91128 Palaiseau, France) Hybrid Solid Electrolyte Composed of Lithium Aluminum Germanium Phosphate and Poly(ethylene oxide) for All Solid-State Lithium Batteries – Y. C. Jung (Department of Chemical Engineering, Hanyang University), S. M. Lee, J. H. Choi (Battery Research Center, Korea Electrotechnology Research Institute), and D. W. Kim (Department of Chemical Engineering, Hanyang University) Electrochemical Performance of Overlithiated Li1+XNi0.8Co0.2O2: Structural and Oxidation State Studies – R. Rusdi, N. Kamarulzaman (Universiti Teknologi MARA, Shah Alam, Malaysia), K. Elong (Universiti Teknologi MARA (UiTM)), H. Rusdi (University of Malaya (UM)), and A. Abd Rahman (Universiti of Malaya (UM)) Silicon Nitride Coated Silicon Thin Films As Anodes for Li-Ion Batteries – A. Ulvestad (University of Oslo, Institute for Energy Technology), M. Kirkengen, and J. P. Mæhlen (Institute for Energy Technology) Flower-like Co3O4 As an Anode Material for High Performance Li-Ion Batteries – H. S. Jadhav and C. J. Park (Chonnam National University) Ultra-Long-Term Cyclability of Ge/C Nanocomposite Anode for Li-Ion Batteries – D. T. Ngo, S. W. Kim, and C. J. Park (Chonnam National University) Modified Carbide-Derived Carbon As Electrode Applications for Energy Storage System – S. H. Yeon, H. N. Yoon, A. Wook (Korea Institute of Energy Research), and K. H. Shin (Korea Insitute of Energy Research) Potential and Current Distributions in Planar Electrodes of Lithium-Ion Batteries – P. Taheri (Laboratory for Alternative Energy Conversion (LAEC), School of Mechatronic Systems Engineering, Simon Fraser University), A. Mansouri (American University in Dubai), M. Yazdanpour, and M. Bahrami (Laboratory for Alternative Energy Conversion (LAEC), School of Mechatronic Systems Engineering, Simon Fraser University) Meeting Program l October 5-9, 2014 l Cancun, Mexico


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High-Energy and High-Power Electrochemical Energy Storage Based on Dual Intercalation/Radical Electrodes – D. Wohlmuth (Christian Doppler Laboratory for Lithium Batteries, Institute for Chemistry and Technology of Materials,TU Graz), O. Fontaine (Institut Charles Gerhardt Montpellier, Université Montpellier 2), M. Wilkening, and S. A. Freunberger (Christian Doppler Laboratory for Lithium Batteries, Institute for Chemistry and Technology of Materials,TU Graz) Hybrid Polyvinyl Alcohol/Silicon Nanofiber Anodes with High Concentrated Graphene Nanoribbons for Rechargeable Lithium-ion Batteries – Y. S. Kim (School of Chemical Biomolecular Engineering, Cornell Univeristy), Z. Li (R&D Center, AZ Electronic Materials Corp.), B. Patel (AZ Electronic Materials Corp), S. Chakrapani (R&D Center, AZ Electronic Materials Corp.), S. Lee (AZ Electronic Materials Corp), and Y. L. Joo (School of Chemical Biomolecular Engineering, Cornell Univeristy) Formation of Aligned Nanotubular TiSx Structures by Thermal Treatment of TiO2 in H2S – R. Kirchgeorg, R. Hahn, and P. Schmuki (University of ErlangenNuremberg (FAU)) Low Temperature Synthesis of Highly Crystallined Spinel Oxides: LiNi1/2Mn3/2O4 – Y. Matsuda, T. Sanda, Y. Takashi (Mie University), M. Matsui (Mie University, JST, PRESTO), and N. Imanishi (Mie University) A Direct Route to Prepare Graphene/Tin Oxide Nanocomposites with Superior Electrochemical Properties As a LithiumIon Battery Anode – D. O. Shin (Power Control Device Research Section, Electronics & Telecommunications Research Institute(ETRI)), H. Park (Hanyang University), K. Y. Kang, Y. G. Lee, K. M. Kim (Power Control Device Research Section, Electronics & Telecommunications Research Institute(ETRI)), and T. H. Han (Hanyang University) Lithium-Ion Batteries Assembled with Electrospun Hybrid Polymer Membrane Containing Reactive Silica Nanoparticles – S. R. Park, W. K. Shin, and D. W. Kim (Department of Chemical Engineering, Hanyang University) Investigation of Solid State Diffusion Coefficient Dependency in Lithium Ion Battery – M. Ma (Johnson Controls Inc., Power Solutions,) and B. C. Sisk (Johnson Controls Power Solutions)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

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Degradation Analysis of Commercial Lithium-Ion Batteries Using a Pseudo Reference Electrode Application – K. Shono (Materials Science Research Laboratory, Central Research Institute of Electric Power Industry), T. Kobayashi (Central Research Institute of Electric Power Industry), T. Ouchi, H. Kato, T. Kudo (Research & Development Center, Tohoku Electric Power Co., Inc.), and Y. Kobayashi (Materials Science Research Laboratory, Central Research Institute of Electric Power Industry) Synthesis and Characterization of Co Doped Nickel-Manganese Based SpinelLayered Mixed Structure as Cathode Active Materials – J. Choi, I. Choi, Y. Hwang, and K. Nahm (Chonbuk National University) Nano-Structured Silicon Derived from Silica Precursors as Anode Material for Lithium Ion Batteries – M. Schrandt (South Dakota School of Mines and Technology), P. Kolla (SDSM&T), W. Rhine (Aspen Aerogels, Northborough, MA), R. T. Koodali (University of South Dakota), J. Wu, V. Lvovich (NASA Glenn Research Center), R. Cook (Zyvex Technologies, Rapid City, SD 57701), and A. Smirnova (South Dakota School of Mines and Technology) Single Step Aerosol Route Synthesis of Mixed Oxide Nanostructures for Useas Additive Free Lithium Ion Battery Electrodes – T. S. Chadha, J. Fang, and P. Biswas (Washington University in St. Louis) Electrochemical and Structural Characteristics of Type I and Type II Silicon Clathrate Anodes – Y. Li, R. Raghavan, N. Wagner, and C. K. Chan (Arizona State University) The Electrochemical Performances of Metal Ions and F- Co-Substituted Li4Ti5O12 – J. H. Kim, J. S. Park, and S. H. Baek (DGIST) Single Particle Measurement for Volume Change Behavior of a Silicon Single Particle – J. Moon, K. Nishikawa (National Institute for Materials Science), H. Munakata (Tokyo Metropolitan University), and K. Kanamura (National Institute for Materials Science, Tokyo Metropolitan University) The Electrochemical Properties of Hyperbranched Polymer Nanocoated Cathode Materials – Y. W. Lin, W. H. Wu, L. D. Tsai, and J. Fang (Industrial Technology Research Institute) Experimental Parameter Identification of a LiFePO4 Thermal Battery Model through Identifiability Maximization Using Input Trajectory Optimization – S. Mendoza, M. Rothenberger, A. Hake, and H. Fathy (The Pennsylvania State University)

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Improved Lithium Sulfur Battery Performance through Attaching Nanosilica on the Backside of Nickel Foam – S. H. Cho and W. Y. Yoon (Department of Materials Science and Engineering, Korea University) Effect of Al2O3 Coatings Prepared By RF Sputtering on Polyethylene Separators for High Power Lithium-Ion Batteries – T. Lee, Y. Lee, W. A. Appiah, S. H. Kim, D. Yeon, H. Lee, M. H. Ryou, and Y. M. Lee (Hanbat National University) Novel Design of Silicon Electrode Based on Stainless Steel Metal Fibril As Current Collector for Lithium-Ion Batteries – S. Song (Hanbat National University), C. H. Kim (Shine Co. Ltd.), J. Choi, S. Yeon, M. H. Ryou, and Y. M. Lee (Hanbat National University) The Novel Study on the Reaction Mechanism and Structural Changes of Co(OH)2 By Using Synchrotron X-Ray Techniques – H. Kim, G. O. Park, Y. Jang, Y. Kim, S. Muhammad, H. Lee (Department of Energy Science, Sungkyunkwan University), J. M. Kim (Department of Chemistry, Sungkyunkwan University), and W. S. Yoon (Department of Energy Science, Sungkyunkwan University) A Study on Structural and Electrochemical Properties of Co Fixed LiNi0.5+XCo0.2Mn0.3XO2 (x=0, 0.1, 0.2) Using Synchrotron Based X-Ray Techniques – W. Lee, T. Kim, S. Muhammad (Department of Energy Science, Sungkyunkwan University), T. Yim, J. S. Yu (Advanced Batteries Research Center, Korea Electronics Technology Institute), and W. S. Yoon (Department of Energy Science, Sungkyunkwan University) Alginate Nanofibers as a Binder in Lithium-Ion Cells – M. K. Dufficy, S. A. Khan, and P. S. Fedkiw (Department of Chemical and Biomolecular Engineering, North Carolina State University) Effects of the Thickness of Silicon Thin Films on the Charge and Discharge Performance As Negative Electrodes for Lithium-Ion Batteries – Y. Dohori (Doshisha University), T. Doi, and M. Inaba (Department of Molecular Chemistry and Biochemistry, Doshisha University) A Study of the Electrochemical Reaction Mechanism on LiNi0.5Mn1.5O4-δ using Synchrotron X-Ray Techniques – D. Kim, J. Yoon, S. Muhammad, W. Oh, and W. S. Yoon (Department of Energy Science, Sungkyunkwan University) A Haxpes Study on Solid Electrolyte Interphase Formed on a Carbon Negative Electrode – M. Matsumoto, K. Kamiguchi, T. Sanada (NISSAN ARC Ltd.), D. Imamura (Japan Automobile Research Institute), and H. Imai (NISSAN ARC Ltd.)

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Effect of Fixed Mn Content in Full Concentration Gradient Structure on the Electrochemical Properties of Layered Cathode Materials – E. J. Lee, H. J. Noh, H. M. Kim, C. S. Yoon (Hanyang University), S. T. Myung (Sejong University), and Y. K. Sun (Department of Energy Engineering, Hanyang University) Continuous Solid-Solution Particle of Cathode Material for Rechargeable Lithium Batteries – H. J. Noh, S. J. Youn, G. J. Park (Hanyang University), S. T. Myung (Sejong University), and Y. K. Sun (Department of Energy Engineering, Hanyang University) Preparation of NMC622 Cathode Materials Using a Cost Effective Circular Type Reactor for LiIon Battery Application – J. H. Song (Secondary Battery Research Team, Research Institute of Industrial Science & Technology(RIST)), D. H. Jeon (Dep. of Mechanical System Eng., Dongguk University), and J. P. Hong (Larminar Co. Ltd) Preparation and Improved Electrochemical Properties of PANI– Li3V2(PO4)3 composite As Cathode Material for Lithium Ion Batteries – H. S. Kim, S. G. Baek, H. J. Choi, and Y. S. Lee (Faculty of Applied Chemical Engineering, Chonnam National University) Development of Novel Fe2O3-Al2O3 Solid Solution Electrode by Using Mechanochemical Synthesis – E. Sawada, M. Takemoto, J. Harada, S. Takai, and T. Yao (Graduate School of Energy Science, Kyoto University) Production of Silicon Particles for High-Capacity Anode Material Yielding Outstanding Production Capacity – H. F. Andersen, J. P. Mæhlen, H. Klette (Institute for Energy Technology), A. Ulvestad (University of Oslo, Institute for Energy Technology), W. Filtvedt, M. Kirkengen, T. T. Mongstad (Institute for Energy Technology), P. J. S. Vie (Institute for Energy Research), and A. Holt (Institute for Energy Technology) Synthesis and Electrochemical Performance of Low Surface Area Alloy Anodes for Lithium-Ion Battery – X. Zhao, R. A. Dunlap (Dept. of Physics and Atmospheric Science, Dalhousie University, Halifax, N.S. B3H 4R2 Canada, Institute for Research in Materials, Dalhousie University, Halifax, N.S. B3H 4R2 Canada), and M. N. Obrovac (Dept. of Chemistry, Dalhousie University, Halifax, N.S. B3H 4R2 Canada)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


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A7

436

Preparation and Electrochemical Performance of Polycrystalline Mesoporous Co3O4 Nanosheets/N-Rgo as Superior Materials for Electrochemical Energy Storage Systems – S. Palanichamy (Faculty of Applied Chemical Engineering, Chonnam National University, Gwangju, South Korea), H. S. Kim (Faculty of Applied Chemical Engineering, Chonnam National University), J. Y. An (Faculty of Applied Chemical Engineering, Chonnam National University, Gwangju, South Korea), and Y. S. Lee (Faculty of Applied Chemical Engineering, Chonnam National University) Fabrication of Li4Ti5O12 Spinel Thin Films for Li Mirobattery Applications – K. Z. Fung (Research Center for Energy Technology and Strategy, National Cheng Kung University, Research Center for Energy Technology and Strategy, Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), S. Y. Tsai (Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan), C. T. Ni (Dept. of Materials Science and Engineering, National Cheng Kung University), A. F. Orliukas (Faculty of Physics, Vilnius University, Lithuania), G. Bajars (Institute of Solid State Physics, University of Latvia, Riga), and M. H. Chen (Dept. of Materials Science and Engineering, National Cheng Kung University, Taiwan) Tin Oxide Modifed LiNi0.8Co0.2O2 Cathode Material for Lithium-ION Batteries – H. C. Coban and Keleş (ITU) Improving Electrochemical Performance of Cusi Thin Film By Depositing Cu Thin Film Via Magnetron Sputtering – D. B. Polat (Istanbul Technical University), L. Eryilmaz (Argonne National Laboratory), and Keleş (ITU) Effect of Conductive Materials and Binder Distribution on Mass Transport by Multi-Scale Simulation Method – G. Inoue, J. Ikishima, and M. Kawase (Kyoto University) Electrical Property of Nasicon (Na3Zr2Si2PO12) as Solid-Electrolyte for Na/S Battery – H. Park (Postech) and B. Kang (Pohang University of Science and Technology, MSE) Facile and Scalable Synthesis of 3.9V LiFeSO4F – M. Kim, Y. Jung (Postech, MSE department), and B. Kang (Pohang University of Science and Technology, MSE)

528

Battery Sunrise, 2nd Floor, Star Ballroom 7, Moon Palace Resort

527

Computational Screening and Design of Fluorinated Solvents for High-Voltage LiIon Batteries – S. E. Burkhardt (DuPont Central Research and Development)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

In Search of Electrolyte Additives for High Voltage LiNi0.5Mn1.5O4/Graphite Batteries – S. A. Delp, J. L. Allen, and T. R. Jow (U.S. Army Research Laboratory)

High-voltage Electrolytes II – 10:00 – 12:00 Co-Chairs: Michael Schmidt and Brett L. Lucht 10:00

530

10:40

531

11:20

532

Electrolyte Additives for High Voltage Lithium Ion Batteries – W. Li, L. Xing, M. Xu (South China Normal University), Y. Liao (South China Normal Uinversity), and X. Li (South China Normal University) Improved Performance of Graphite/ LiNi0.5Mn1.5O4 Cells Cycled to High Voltage (4.8 V) with Electrolyte Additives – A. Garsuch (BASF SE), B. L. Lucht, M. Xu, and Y. Dong (University of Rhode Island) BASF - Lithium Ion Battery Electrolytes – M. Schmidt, F. F. Chesneau, A. Garsuch, S. Meini, and R. Schmitz (BASF SE)

Ionic Liquid Electrolytes – 14:00 – 16:40 Co-Chairs: Stefano Passerini and Wesley Henderson 14:00

533

14:40

534

15:00

535

15:20

536

Nonaqueous Electrolytes

High-voltage Electrolytes I – 08:10 – 09:30 Co-Chairs: T. Richard Jow and Brett L. Lucht 08:10

08:30

Ionic Coordination in Magnesium Ionic Liquid-Based Electrolytes: Solvates with Mobile Mg2+ Cations – G. A. Giffin (Helmholtz Institute Ulm, Karlsruhe Institute of Technology, Institute of Physical Chemistry, University of Muenster), A. Moretti (Helmholtz Institute Ulm, Karlsruhe Institute of Technology, Institute of Physical Chemistry, University of Muenster), S. Jeong (Helmholtz Institute Ulm, Karlsruhe Institute of Technology, Institute of Physical Chemistry, University of Münster), and S. Passerini (Helmholtz Institute Ulm, Karlsruhe Institute of Technology) The Beneficial Effect of Protic Ionic Liquids on the Lithium Environment in Electrolytes for Battery Applications – A. Balducci (Westfälische WilhelmsUniversität Münster, MEET Battery Research Centre, Institute of Physical Chemistry), S. Menne (Institute of Physical Chemistry-MEET, Westfälische Wilhelms University of Muenster), T. Vogl, and R. S. Kühnel (MEET Battery Research Center & Institute of Physical Chemistry, University of Muenster) Atomic Force Microscopy Study of Ionic Liquid Structure at Carbon Interface – J. Black (Oak Ridge National Laboratory), G. Feng (Vanderbilt University), M. B. Okatan, P. C. Hillesheim (Oak Ridge National Laboratory), S. Dai (Department of Chemistry, University of Tennessee), P. T. Cummings (Vanderbilt University), S. V. Kalinin, and N. Balke (Oak Ridge National Laboratory) Imidazole Anions as Electrolyte Components: Ionic Liquids, Lithium Salts, Additives – L. Niedzicki, T. Trzeciak, E. Karpierz, B. Brzozowski, M. Kasprzyk, P. Wieczorek, and M. Marcinek (Warsaw University of Technology, Faculty of Chemistry) 149

Wednesday, October 8


15:40

16:00

16:20

Wednesday, October 8

A8

537

538

539

NMR Studies of Sulfonamide Based Deep Eutectic Lithium Electrolytes – A. D. Pauric, S. Krachkovskiy (McMaster University), I. C. Halalay (General Motors Global Research & Development), and G. R. Goward (McMaster University) Physical and Electrochemical Characterization of Quaternary Ammonium Ionic Liquids and Polar Solvent Mixture as Electrolyte for Lithium Batteries – M. V. Tran (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNUHCM), Vietnam), T. G. Nguyen (Faculty of Chemistry, University of Science, VNUHCM), D. K. Vo (CanTho University), and P. M. L. Le (Department of Physical Chemistry, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam, Applied Physical Laboratory, University of Science, Vietnam National University – Ho Chi Minh City (VNU-HCM), Vietnam) Enhancing the Stability of Non-Aqueous Electrolytes for Li-O2 Batteries – B. Adams, R. Black, Z. Williams, R. Fernandes, M. Cuisinier (University of Waterloo), E. J. Berg, P. Novák (Paul Scherrer Institute, Electrochemistry Laboratory), G. K. Murphy, and L. F. Nazar (University of Waterloo)

08:30

150

10:30

11:00

11:20 11:40

Energy Technology / Physical and Analytical Electrochemistry / Sensor Sunrise, 2nd Floor, Mars 1-4, Moon Palace Resort

582

Using Metal Oxides for the PhotoElectrochemical Oxygen Evolution Reaction – A. M. Herring (Department of Chemical and Biological Engineering, Colorado School of Mines), S. K. Pilli (University of Nevada), T. E. Furtak (Colorado School of Mines), T. G. Deutsch (NREL), and J. A. Turner (National Renewable Energy Laboratory) 583 MoS2-Nano Layers Deposited Onto Multi Walled Carbon Nanotubes As a Hydrogen Evolving Catalyst for PVHybrid Electrolyzers: A Structure-Activity Correlation Study – P. Bogdanoff, D. Stellmach (HZB Solar Fuels), O. Gabriel, B. Stannowski, R. Schlatmann (PVcomB), R. van de Krol (HZB Solar Fuels), and S. Fiechter (Helmholtz Zentrum Berlin, Institute for Solar Fuels)

Keynote Presentation on Solar Fuels – 09:00 – 09:40 Co-Chair: Pawel J. Kulesza 09:00

10:00

Solar Fuels and Photocatalysts 4

Invited Presentations on Solar Water Splitting III – 08:00 – 09:00 Co-Chair: Pawel J. Kulesza 08:00

Carbon Dioxide Conversion and Artificial Photosynthesis – 10:00 – 12:20 Co-Chairs: Deryn Chu and Nick Wu

584

12:00

585

Photoelectrochemical Water Oxidation and CO2 Reduction for Artificial Photosynthesis – H. Park (School of Energy Engineering, Kyungpook National University, Daegu, 702–701, Korea) 586 Application of Coordinatively Supported and Activated Palladium Nanoparticles to Enhance Electrocatalytic Reduction of Carbon Dioxide – P. J. Kulesza, A. Wadas (University of Warsaw), E. Szaniawska (University of Warsaw, Department of Chemistry), K. Bienkowski, R. Solarska, and I. A. Rutkowska (University of Warsaw) 587 Integrated CO2 Capture and Photocatalytic Conversion to Solar Fuels Using Multifunctional Materials – L. Liu, J. Chen, and Y. Li (University of WisconsinMilwaukee) 588 Porous Coodination Networks for Artificial Photosynthesis – S. R. Ahrenholtz, W. A. Maza, and A. J. Morris (Virginia Tech) 589 CO2 Electroreduction to Hydrocarbons on Carbon-Supported Copper Nanoparticles – O. A. Baturina, Q. Lu (Naval Research Laboratory), M. Padilla (University of New Mexico, Center for Emerging Energy Technologies), L. Xin (Michigan Technological University), W. Li (Michigan technological University), A. Serov (University of New Mexico, Center for Emerging Energy Technologies), T. Brintlinger, A. Epshteyn, and G. Collins (Naval Research Laboratory) 590 Controlling the Selectivity of the CO2 Electrochemical Reduction through Anion Effects – A. S. Varela (TU berlin), R. Reske (Department of Chemistry, Chemical Engineering Division, Technical University Berlin), and P. Strasser (Technical University Berlin)

Invited Presentations on Photoelectrochemical Cells and Photovoltaics – 14:00 – 15:30 Co-Chair: Jae Joon Lee 14:00

591

14:30

592

15:00

593

Structural Design and Characterizations for Perovskite Solar Cells – E. W. G. Diau (National Chiao Tung University) Novel Photoelectrodes for the Flexible Mesoporous Sensitized Solar Cells – M. J. Ko (Korea Institute of Science and Technology) Bulk Heterojunction Organic Solar Cell Using Small Molecules – S. Paek, K. Lim, K. Do, H. Choi, S. Park, H. Jo, H. Lee, J. Shim, and J. Ko (Korea University)

A Technical and Operational Perspective on the DOE Energy Innovation Hub in Fuels from Sunlight, the Joint Center for Artificial Photosynthesis – N. S. Lewis (California Institute of Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


15:50

16:10

16:30

594

595

596

16:50

597

17:10

598

17:30

17:50

A9

599

600

Nanostructured Cu-Zn Oxides for Photocathodic Water Splitting – S. Banerjee, Y. Myung (Washington University in St.Louis), H. Im, J. Park (Korea University), S. Raman (Physical Electronics), and P. Banerjee (Washington University in St. Louis) High Photoelectrochemical Oxygen and Hydrogen Evolution Performance by Using a-Si/c-Si Heterojunction Solar Cells as Photoelectrodes – H. P. Wang (National Taiwan University), K. Sun, S. Y. Noh, A. Kargar (University of California - San Diego), M. L. Tsai (National Taiwan University), D. Wang (Qualcomm Institute (QI), University of California - San Diego), and J. H. He (National Taiwan University) Fabrication of Transition Metal Doped TiO2 Photocatlyst for Artificial Photosynthesis Applications – A. Abidov, B. Allabergenov, F. Xiao, X. Jin, S. W. Jeong, and S. Kim (Kumoh National Institute of Technology) Energy Payback Time Modeling of Integrated Photoelectrochemical Devices Using Concentrated Solar Irradiation – M. Dumortier and S. Haussener (Laboratory of Renewable Energy Science and Engineering, EPFL) Coupled Multi-Physics Modeling of Integrated Photoelectrochemical Hydrogen Processing Devices Using Concentrated Irradiation – S. Tembhurne, M. Dumortier, and S. Haussener (Laboratory of Renewable Energy Science and Engineering, EPFL) Comparison of the Photocatalytic and Photoelectrocatalytic Methyl Orange Color Removal over TiO(2-x-y)NxFy – E. L. Castellanos Leal (Universidad Industrial de Santander) Removal of Heavy Metal Ions by Photoelectrodeposition in Aqueous Solutions – K. Sato, Y. Hoshi, J. Ayawanna, T. WahTzu, N. Saito, Y. Inoue (Nagaoka University of Technology), and H. Nishiyama (Tokyo University)

08:20

623

08:40

624

09:00

625

09:20

626

Design, Modeling and Systems Issues – 10:00 – 12:00 Co-Chairs: Vincent Sprenkle and Sanjeev Mukerjee 10:00

627

10:20

628

10:40

629

11:00

630

11:20

631

11:40

632

Stationary and Large-Scale Electrical Energy Storage Systems 4

Industrial Electrochemistry and Electrochemical Engineering / Battery / Energy Technology Sunrise, 2nd Floor, Star Ballroom 2, Moon Palace Resort

High Temperature Systems – 08:00 – 09:40 Co-Chairs: Vincent Sprenkle and Sanjeev Mukerjee 08:00

622

Development of a Planar Sodium Sulfur Cell – K. Jung (Research Institute of Industrial Science and Technology (RIST)), Y. C. Park, S. H. Park, C. Lee, M. Cho, G. Kim, Y. Lee, J. H. Lee, S. W. Cheon, S. C. Hwang, and C. Yang (Research institute of industrial science and technology (RIST))

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Development of Intermediate Temperature Sodium-Metal Halide Battery – J. Y. Kim, G. Li, X. Lu, K. Meinhardt, and V. Sprenkle (Pacific Northwest National Laboratory) Development of Molten Sodium Battery Using NaSICON Solid Electrolyte Membrane for Stationary and Large-Scale Electrical Energy Storage System – W. Koh, J. Lee, J. Kim, S. Lee, D. Park, H. Lee (SK Innovation), M. Robins (Ceramatec, Inc.), A. Eccleston, S. Bhavaraju (Ceramatec,Inc.), and J. Kim (SK Innovation) Static and Dynamic Corrosion Characteristics of Plasma-Sprayed Fe-70Cr Coatings by Molten Sulfur and Sodium Polysulfides in Sodium Sulfur Cells – K. Jung (Research Institute of Industrial Science and Technology (RIST)), S. W. Cheon, Y. C. Park, S. H. Park, C. Lee, H. J. Kim, and N. Cho (Research institute of industrial science and technology (RIST)) Finite-Element Analysis Study to Predict the Thermo-Mechanical Stability of Planar-Type NaS Batteries – C. S. Kim (University of Wisconsin-Milwaukee), Y. C. Park (Research institute of industrial science and technology (RIST)), and K. Jung (Research Institute of Industrial Science and Technology (RIST))

Novel Energy Storage System, bindbattery™, with an Intrinsic Overcharge Protection Capability – R. Tamaki and H. Tsukamoto (CONNEXX SYSTEMS LLC) 3D-Electrode Technology Platform for Energy Storage Safety – J. Prochazka (HE3DA s.r.o.) Distributed Diagnostic Techniques to Quantify Spatial and Temporal Voltage Gradients in Energy Storage Systems Utilizing Flowable Electrodes – C. R. Dennison (Drexel University), M. Beidaghi (Drexel Nanomaterials institute, Department of Materials Science and Engineerring, Drexel University), K. B. Hatzell (Drexel University), Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University), and E. C. Kumbur (Drexel University) GPU-Accelerated Pore-Scale Transport Resolved Model for Flow-Assisted Battery Design – C. Andersen, G. Qiu, N. Kandasamy, and Y. Sun (Drexel University) Development of Megawatt Scale Proton Exchange Membrane Electrolysis for Energy Storage Applications – K. E. Ayers (Proton OnSite) Autonomy and Battery Utilization within Microgrids and Solar-Battery Applications – M. T. Lawder, R. K. Fenton, and V. R. Subramanian (Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis) 151

Wednesday, October 8

Photocatalysis Experiments and Simulation – 15:50 – 18:10 Co-Chairs: Ying Li and Ayyakkannu Manivannnan


B1

Chemical Sensors 11. Chemical and Biological Sensors and Analytical Systems

Sensor Sunrise, 2nd Floor, Galactic Ballroom 8, Moon Palace Resort

Gas Sensors – 08:20 – 09:40 Co-Chair: Michael T. Carter

Wednesday, October 8

08:20

652

08:40

653

09:00

654

09:20

655

Trace Detection of 2, 4, 6-Trinitrotoluene Using Electrochemical Gas Sensors – P. K. Sekhar, J. Zhou, E. R. Hamblin (Washington State University, Vancouver), and E. L. Brosha (Los Alamos National Laboratory) Rational Design of Amperometric Gas Sensors with Ionic Liquid Electrolytes – M. T. Carter, J. R. Stetter, M. W. Findlay, and V. Patel (KWJ Engineering, Inc.) Mixed-Potential NOx and NH3 Sensors Fabricated by Commercial Manufacturing Methods – C. R. Kreller, D. Spernjak (Los Alamos National Laboratory), W. Li, P. Palanisamy (ESL ElectroScience), E. L. Brosha, R. Mukundan, and F. Garzon (Los Alamos National Laboratory) Influence of Au Nanoparticle Surface Decoration on Highly Oriented SnO2 Nanorods/ZnO Hybrid Films for Gas Sensing Improved Performance – C. G. Carvajal (Center for Materials Research), A. K. Pradhan (Norfolk State University), and K. Kadri (Norfolk State University, Center for Materials Research)

Biosensors I – 10:00 – 12:40 Co-Chairs: Zoraida Pascual Aguilar, Aleksandr Simonian, and Gary W. Hunter 10:40 11:00 657

11:20

11:40

152

658

659

Break Phospholipid Sensors for Detection of Bacterial Pore-Forming Toxins – G. Valincius, R. Budvytyte, T. Penkauskas (Vilnius University, Institute of Biochemistry), M. Pleckaityte, and A. Zvirbliene (Vilnius University, Institute of Biotechnology) Real-Time Impedimetric Detection of DNA Amplification By PCR Using Electrochemical Impedance Spectroscopy – D. C. Diaz-Cartagena (University of Puerto Rico, Rio Piedras Campus), R. Gomez-Moreno (University of Puerto Rico, School of Medicine), L. Cunci (University of Puerto RIco), E. M. DiazDiaz (University of Puerto Rico, Rio Piedras Campus), R. Cunci (Buenos Aires Institute of Technology), A. J. BaergaOrtiz (University of Puerto Rico, School of Medicine), J. J. Watkins (University of Massachusetts at Amherst), and C. R. Cabrera (University of Puerto Rico at Rio Piedras) Potentiometric Glycerol Biosensor Based On Immobilization Of GlycerolDehydrogenase On Au Using A Molecular Wiring System – A. Mahadevan, D. A. Gunawardena, and S. Fernando (Texas A&M University)

12:00

660

12:20

661

Cell-Based Sensing: From 2D to 3D Cell Culture – L. Yang, G. Trivedi, A. F. Adcock, and W. Tyson (North Carolina Central University) Alternative Substrate Materials for Impedance Biosensors – I. I. Suni (Southern Illinois University) and R. Radhakrishnan (Clarkson University)

Biosensors II – 14:00 – 16:50 Co-Chairs: Zoraida Pascual Aguilar, Bryan A. Chin and Larry A. Nagahara 14:00

662

14:20

663

14:40

664

15:00

665

15:20 15:50 666

16:10

667

16:30

668

C1

Magnetophoretic Chromatography Technique for the Detection of Pathogenic Bacteria with the Naked Eye – D. Kwon and S. Jeon (Department of Chemical Engineering, POSTECH) Layered MoS2 based Electrochemical Biosensor – H. U. Kim (Sungkyunkwan University(SKKU) Advanced Institute of Nanotechnology (SAINT)), H. Kim (Korea Electronics Technology Institute), C. Ahn (Sungkyunkwan University(SKKU) Advanced Institute of Nanotechnology (SAINT)), A. Kulkarni (School of Mechanical Engineering Sungkyunkwan uni.), M. H. Lee (Korea Electronics Technology Institute), and T. Kim (Sungkyunkwan University) Graphene Quantum Dots and Graphene Oxide-Based Biosensors for Detection of Cancer Biomarkers and Heavy Metals – N. Wu and M. Li (West Virginia University) Discriminative Detection of Neurotoxins by a Layer-by-Layer Based Carbon Nanotube/bi-enzyme Biosensor – Y. Zhang, M. Arugula, and A. Simonian (Auburn University) Break Facile and Rapid Detection of Pathogenic Bacteria Using Immuno-Magnetophoretic Assay – W. Lee (POSTECH), D. Kwon, and S. Jeon (Department of Chemical Engineering, POSTECH) Nano and Bio Sensors for Life Sciences Applications – Z. P. Aguilar (Zystein, LLC), I. Al-Ogaidi (Baghdad University), S. Suri, H. Gou, N. Wu (West Virginia University), H. Xu, H. Wei (Nanchang University), and A. Wang (Ocean NanoTech, LLC) Autonomous Magnetoelastic Biosentinels for the Detection and Capture of Invasive Pathogens – S. Horikawa, Y. Chai, H. C. Wikle III, and B. A. Chin (Materials Research & Education Center, Auburn University)

Corrosion General Session

Corrosion Expo Center, 1st Floor, Universal 15, Moon Palace Resort

High Temperature Corrosion – 08:00 – 11:00 Co-Chair: R. Buchheit 08:00

740

Corrosion of Positive Current Collector in Li||Sb-Pb Liquid Metal Battery for GridScale Energy Storage – T. Ouchi and D. R. Sadoway (MIT) Meeting Program l October 5-9, 2014 l Cancun, Mexico


741

08:40

742

09:00

743

09:20

744

09:40 10:00 745

10:20

10:40

C2

746

747

Electrochemical Study of Corrosion in High Temperature Molten Salts – B. L. Garcia-Diaz, L. C. Olson, M. J. MartinezRodriguez, R. E. Fuentes, and J. R. Gray (Savannah River National Laboratory) Evaluation of Corrosion T22 and 347H Steel Molten Salt By Electrochemical Techniques – A. T. Estrada, J. A. C. Miramontes, P. Z. Robledo, C. G. Tiburcio, and F. A. Calderón (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.) Corrosion of High Temperature Materials in Fluoride and Chloride Molten Salts – R. E. Fuentes, L. C. Olson, M. J. Martinez-Rodriguez, J. R. Gray, and B. L. Garcia-Diaz (Savannah River National Laboratory) High Temperature Electrochemical Evaluation of Ni Based Coatings Deposited by Laser Ablation – A. T. Estrada, J. A. C. Miramontes (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.), P. A. M. Aguilar, A. C. Hernández (2Universidad Autónoma del Estado de Morelos, FCQeI-CIICAp), P. Z. Robledo, C. G. Tiburcio, and F. A. Calderón (Centro de Investigación e Innovación en Ingeniería Aeronáutica, CIIIA.) Break Hot Corrosion Behaviors of Cr2alc, Cr3C2, and Al4C3 Thin Film Coatings on Ni201 – L. Aw (Montana State University, Bozeman), R. Amendola, and P. E. Gannon (Montana State University) High-Temperature Corrosion of AISI 316L in Chlorosilane Environments at 550°C – J. L. Aller, P. E. Gannon, and P. White (Montana State University) Investigation of the Fundamental Processes in the Internal Oxidation of Binary and Ternary Iron Based Alloys at Elevated Temperatures – M. Rohwerder (Christian Doppler Laboratory for Diffusion and Segregation, Max-Planck-Institut fuer Eisenforschung GmbH), S. Borodin (Christian-Doppler Laboratory for Diffusion and Segregation, Max-PlanckInstitut für Eisenforschung GmbH), A. Vogel (Max-Planck-Institut fuer Eisenforschung GmbH), and D. Vogel (Max-Planck-Institut für Eisenforschung GmbH)

Electrochemical Techniques and Corrosion Monitoring

779

08:40

780

09:00

781

09:20

782

09:40 10:00 783

10:20

784

10:40

785

11:00

786

11:20

787

Corrosion / SMEQ Expo Center, 2nd Floor, Alfa Room, Moon Palace Resort

Corrosion Protection – 08:00 – 12:00 Co-Chairs: Francisco Javier Rodriguez-Gomez 08:00

08:20

778

Development of New Multifunctional Coatings for Protection Against Erosion and Corrosion in Qatar Oil and Gas Production – D. Wang, I. Dizvay, E. Sikora, B. A. Shaw (The Pennsylvania State University), and N. Al-Jassem (Texas A&M University in Qatar)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Microstructural and Electrochemical Characterization of Ti6Al4V Alloy – J. F. Flores-Álvarez (Facultad de Quimica UNAM), F. J. Rodriguez-Gomez (Departamento de Ingeniería Metalúrgica. Facultad Química. UNAM), E. OnofreBustamante (Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada (CICATA)- IPN Unidad Altamira, Altamira Tamaulipas, México), and P. Roncagliolo Barrera (Departamento Ingeniería Metalúrgica, Facultad de Química, Universidad Nacional Autónoma de México, Ciudad Universitaria, México) Passivation Magnesium in Phosphates for Its Application As Biomaterial – J. M. Ramírez Herrera, F. J. Rodrígez Gómez (UNAM, Facultad de Química, Departamento Ingeniería Metalúrgica), and G. Galicia Aguilar (Universidad Veracruzana, Instituto de Ingeniería) Evaluation of an Imidazoline in Simulated Atmospheric Conditions as Corrosion Inhibitor through Electrochemical Noise – P. Roncagliolo Barrera (Departamento Ingeniería Metalúrgica, Facultad de Química, Universidad Nacional Autónoma de México, Ciudad Universitaria, México), J. F. Flores-Álvarez (Facultad de Quimica UNAM), and F. J. Rodriguez-Gomez (Departamento de Ingeniería Metalúrgica. Facultad Química. UNAM) Characterization of Coatings of New Technology for Corrosion Prevention – A. Espino, V. Vega, and R. Antaño (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Break Dissolution Mitigation of Alloy 690 By Electrochemical Surface Modification – K. M. Kim, H. S. Shim, M. J. Seo, and D. H. Hur (Korea Atomic Energy Research Institute) Protection and Failure Mechanism Analysis of Zinc Coatings for Galvanic Protection – S. L. Wijesinghe (National University of Singapore) and Z. Tan (Singapore Institute of Manufacturing Technology,) Micro-Arc Oxidation on Ti and Al Alloys: Basic Aspects – D. Veys-Renaux (Institut Jean Lamour - Université de LorraineCNRS) and E. Rocca (Institut Jean Lamour - Université de Lorraine - CNRS) Development of a Novel, Environmentally Compliant Magnesium Coating System for Corrosion Protection of Magnesium Alloys – M. Nunez, A. Naccarelli, E. Sikora, and B. A. Shaw (The Pennsylvania State University) Enhanced Corrosion Resistance of 316L Stainless Steel Interstitially Hardened with Nitrogen or Carbon – N. R. Tailleart (American Society for Engineering Education), P. M. Natishan (Naval Research Laboratory), F. J. Martin, R. Rayne (US Naval Research Laboratory), H. Kahn, and A. Heuer (Case Western Reserve University) 153

Wednesday, October 8

08:20


11:40

C3

788

Electrochemical Migration and ElectroMigration Reliability of Ag Interconnect Fabricated By Reverse-Offset Printing – J. S. Hwang (Department of Materials Science & Engineering, Seoul National University, Seoul 151-744, Korea, Department of Materials Science & Engineering, Seoul National University, Seoul 151-744, Korea)

14:20

798

14:40

799

15:00

800

High Resolution Characterization of Corrosion Process 4 Corrosion / SMEQ Expo Center, 1st Floor, Universal 11, Moon Palace Resort

Wednesday, October 8

High Resolution Characterization of Corrosion Processes I – 08:00 – 11:20 Co-Chair: Hamilton Neil McMurray 08:00

789

08:40

790

09:00

791

09:20

792

09:40 10:00 793

10:20

794

10:40

795

11:00

796

Scanning Kelvin Probe Force Microscopy as Tool for the Investigation of Localized Corrosion – M. Rohwerder (Christian Doppler Laboratory for Diffusion and Segregation) Volta Potential on Stainless Steel Under Mechanical Stress Conditions – N. Casals (SwereaKIMAB), A. Nazarov, and D. Thierry (French Corrosion Institute) Detection of Corrosion-Induced Tensile Stress in Aluminum – O. O. Capraz, P. Shrotriya, and K. Hebert (Iowa State University) Star-Shaped Surface Cracking during Inhibited Dealloying Controlled by Grain Crystallography – F. U. Renner (Hasselt University), G. N. Ankah (MaxPlanck-Institut für Eisenforschung), and B. R. Shrestha (Max-Planck-Institut f. Eisenforschung GmbH) Break Localized Corrosion Behaviour in Dissimilar Friction Stir Welds Made in AZ31B/AZ80 Magnesium Alloys – Y. Savguira, T. H. North, and S. J. Thorpe (University of Toronto) The Localised Corrosion Mechanism of Magnesium in Methanol Resolved Using SVET – H. N. McMurray, G. Williams, and J. E. Board (Swansea University) The Effects of Oxygen Concentration and pH on the Galvanic Protection of Tin – S. Geary, H. N. McMurray (Swansea University), A. C. A. de Vooys (Tata Steel), and N. Wint (Swansea University) The Role of Tin in Suppressing Filiform Corrosion on Tin Coated and Iron-Tin Intermetallic Coated Steels – N. Wint, H. N. McMurray, G. Williams, S. Geary (Swansea University), and A. C. A. de Vooys (Tata Steel)

High Resolution Characterization of Corrosion Processes II – 14:00 – 17:00 Co-Chair: Michael Rohwerder 14:00

154

797

Influence of Altered Surface Layer on Corrosion Inhibition of AA5083 – J. Seong, G. Frankel (Fontana Corrosion Center, The Ohio State University), and N. Sridhar (Det Norske Veritas (USA), Inc.)

15:20 15:40 801

16:00

802

16:20

803

16:40

804

D1

Role of Oxide Stress in the Initiation of Pores during Anodic Oxidation of Aluminum in Acid Solutions – O. O. Capraz, P. Shrotriya, and K. Hebert (Iowa State University) Investigating the Role of Electrolyte Composition and Oxide Structure in Galvanic Corrosion Susceptibility Under Atmospheric Electrolytes – S. Policastro (US Naval Research Laboratory), C. M. Hangarter (Excet, Inc.), and F. J. Martin (US Naval Research Laboratory) Examination of the Electrochemical Compatibility of a Selection of Bimetallic Coins Using 3D-Skp and 3D-Svet – J. R. Searle, C. F. Glover, K. Khan (SPECIFIC, Swansea University), G. Williams, and D. A. Worsley (Swansea University) Break Effect of Inclusion Size on Pit Initiation at MnS in Stainless Steel – A. Chiba, I. Muto, Y. Sugawara, and N. Hara (Department of Materials Science, Tohoku University) An Investigation of the Corrosion of Carbon Steel in Simulated Concrete Pore Water Under Anoxic Conditions – P. Lu (University of California, Berkeley) and D. D. Macdonald (University of California at Berkeley) A Chemical Sensing Plate for Simultaneous Measurements of pH and Cl− Concentration Inside Crevice of Stainless Steel – J. Ogawa (Department of Materials Science, Tohoku University, Fuji Heavy Industries Ltd.), I. Muto, Y. Sugawara, and N. Hara (Department of Materials Science, Tohoku University) Investigating the Initial Stages of KClInduced Corrosion of a Chromia Stainless Steel Using ESEM in-Situ and WellControlled Ex-Situ Exposures at 450°c – N. Mortazavi (Chalmers University of Technology), L. Intiso (CENTRO SVILUPPO MATERIALI S.p.A.), M. Halvarsson, and L. G. Johansson (Chalmers University of Technology)

Electrodeposition for Energy Applications 3

Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 12, Moon Palace Resort

Catalyst Synthesis – 08:00 – 12:20 Co-Chairs: Stanko Brankovic and Nikolay Dimitrov 08:00

816

Effect of Au Content in Aupd ElectroSynthesized Mixtures Toward Formic Acid/ Formate Electro-Oxidation – N. Arjona (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), M. Guerra-Balcázar (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), L. Álvarez-Contreras (Centro de Investigación en Materiales Avanzados S.C.), J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Meeting Program l October 5-9, 2014 l Cancun, Mexico


817

08:40

818

09:20

819

09:40 10:00 820

10:20

821

11:00

822

11:20

823

Hybrid Electrocatalysts of NiMo and Molybdenum Sulfide for Hydrogen Evolution Reaction – K. H. Lee, D. Chang, J. H. Lim, D. Lim, S. M. Choi, J. Y. Lee (Korea Institute of Materials Science), and N. V. Myung (University of California Riverside) Pt Monolayer Shell on Hollow Pd Core Electrocatalysts: Scale up Synthesis, Structure, and Activity for the Oxygen Reduction Reaction – M. Vukmirovic, Y. Zhang, J. X. Wang (Chemistry Department, Brookhaven National Laboratory), D. Buceta (Chemistry Department, Brookhaven National Laboratory, Department of Physical Chemistry, Fac. Chemistry & Nanomag Laboratory, IIT. University of Santiago de Compostela), L. Wu (Department of Condensed Matter Physics and Materials Science, Brookhaven National Laboratory), and R. Adzic (Chemistry Department, Brookhaven National Laboratory) An Investigation of Electrodeposited Platinum Metal Monolayer Catalysts By X-Ray Photoelectron Spectroscopy and Cyclic Voltammetry – A. Vitale (Georgia Tech) and F. M. Alamgir (School of Materials Science and Engineering, Georgia Institute of Technology) Break Growth of Ultra-Thin PtxPb1-x Electrocatalysts By Surface Limited Redox Replacement and Study of Their Adsorption Properties – M. P. Mercer (Bristol Centre for Functional Nanomaterials, University of Bristol), D. Plana, D. Fermín (School of Chemistry, University of Bristol), and N. Vasiljevic (School of Physics, University of Bristol) Deposition of Metal and Alloy Thin Films By Surface Limited Redox Replacement in a Galvanic Cell Configuration (SLRRGC) – N. Dimitrov and S. J. Ambrozik (Department of Chemistry, SUNY at Binghamton) Miniature Fuel Cell with Monolithically Fabricated Si Electrodes- Pd-Pt Catalyst by Upd-Slrr – M. Hayase, T. Suzuki, and D. Ogura (Tokyo University of Science) Aupd/Polyaniline Composites Toward Ethylene Glycol Electro-Oxidation – A. Palacios (2División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro, 76010 Querétaro, México), N. Arjona (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), J. Ledesma-García, M. Guerra-Balcázar (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

11:40

824

12:00

825

Electroless Deposition of Low-Cost Reusable Transition Metal Active Catalyst on Oxide Supports for Hydrogen Generation from Hydrides – S. Anderson (Florida A&M University), L. Deravil (Florida State University), M. Rakap (Department of Chemistry, Yuzuncu Yil University, Turkey), E. E. Kalu (Florida A&M University - Florida State University College of Engineering), and E. N. Onyeozili (Department of Chemistry, Florida A&M University) Synthesis and Characterization of Metaland Non-Metal-Doped Titania Nanotubes for Solar Hydrogen Generation and Methanol Electrooxidation – S. Karimi (Lambton College)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort D1 Poster Session – 18:00 – 21:00 Co-Chair: Massimo Innocenti •

826

827

828

829

830

831

832

833

Structural, Optical and Photoelectrical Properties of AgInSe2 Films – R. Murali (CECRI, Karaikudi, India) and S. Murugan (AVC College, Mayaladurai, India) Properties of Pulse Plated CuInS2 Films – K. R. Murali (CECRI, Karaikudi, India) and S. Vadivel (C.Abdul Hakeem College of Engineering and Technology,Melvisharam, Vellore, India) Photoelectrochemical Behavior of Indium Sulphide Films – K. R. Murali (CECRI, Karaikudi, India) Photoelectric Properties of Pulse Electrodeposited CdIn2Se4 Films – K. R. Murali (CECRI, Karaikudi, India) Brush Plated Copper Indium Selenide Films and Their Characteristics – K. R. Murali (CECRI, Karaikudi, India) and N. P. Subramanian (A.J.K.College of Arts and Science, Coimbatore, India) Brush Plated CuInS2 Films and Their Photoelectrochemical Behaviour – K. R. Murali (CECRI, Karaikudi, India), B. KajaMoideen (Department of Basic Sciences, Sree Narayana Guru Polytechnic College, Madukkarai, Coimbatore , India), and A. Paneerselvam (Department of Physics, Pavai College of Technology, Paachal, Namakkal, India) Photoelectrochemical Characteristics of Pulse Plated CuGaSe2 Films – K. R. Murali (CECRI, Karaikudi, India), K. Chitra (Department of Physics, Sri Ramakrishna Institute of Technology, Coimbatore, India), and S. Vasantha (Department of Physics, CIT, Coimbatore, India) Transition Metal Foams as Electrocatalysts for Hydrogen Evolution Reaction – D. M. F. Santos, S. Eugenio, C. A. C. Sequeira, and M. F. Montemor (Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, Universidade de Lisboa, 1049-001 Lisboa, Portugal)

155

Wednesday, October 8

08:20


834

835

Wednesday, October 8

D2

836

837

Electrodeposition of Aluminum from AlCl3 / Glyme Solutions at Room Temperature – K. Nakamura, A. Kitada (Department of Materials Science and Engineering, Kyoto University), K. Fukami, and K. Murase (Department of Materials Scinence and Engineering, Kyoto University) Underpotential Deposition of Copper onto 3D Gold Nanostructures – J. AldanaGonzález, J. C. Olvera (Universidad Autónoma Metropolitana Azcapotzalco), M. G. Montes de Oca (Universidad Autónoma Metropolitana-Azcapotzalco), M. A. Romero-Romo (Universidad Autónoma Metropolitana Azcapotzalco), M. T. Ramirez-Silva (Universidad Autonoma Metropolitana Iztapalapa), and M. Palomar-Pardavé (Universidad Autónoma Metropolitana-Azcapotzalco) Fabrication and Characterization of CdS Nanoparticles Obtained via MicrowaveAssisted Synthesis – L. TamasauskaiteTamasiunaite, G. Grinciene, A. Selskis, and E. Norkus (Center for Physical Sciences and Technology) Investigation of CdS Thin Films Deposition by the SILAR Method Using Cd(II) Organic Salt as Precursor – L. Tamasauskaite-Tamasiunaite, B. Simkunaite-Stanyniene, A. Zieliene, L. Naruskevicius, A. Selskis, and E. Norkus (Center for Physical Sciences and Technology)

10:40

889

11:00

890

11:20

891

11:40

892

The Path from Invention to Product: Electrodeposition II – 14:00 – 16:20 Co-Chairs: Giovanni Zangari and Gery R. Stafford 14:00

893

14:40

894

15:00

895

15:20

896

15:40

897

16:00

898

Electrochemical Science and Technology: Challenges and Opportunities in the Path from Invention to Product Electrodeposition / Industrial Electrochemistry and Electrochemical Engineering / Physical and Analytical Electrochemistry Expo Center, 1st Floor, Universal 1, Moon Palace Resort

The Path from Invention to Product: Processing for Semiconductor Devices II – 08:40 – 09:40 Co-Chairs: Lubomyr Romankiw and E. J. Taylor 08:40

885

09:20

886

Keynote: Integrating Discovery, Direct and Combinatorial Science for Solar Fuels Prototype Development – H. J. Lewerenz (California Institute of Technology) Dual Damascene Copper Electroplating Enabled Scaling of the Wires and Multilevel Interconnects – P. M. Vereecken (imec, Belgium)

The Path from Invention to Product: Electrodeposition I – 10:00 – 12:00 Co-Chairs: Petr Vanýsek and Stanko R. Brankovic 10:00

887

10:20

888

156

Conditions at the Electrochemical Interface and Their Relation to Electrodeposition of High Moment Soft CoFe Alloys – S. Brankovic (University of Houston) Solution Equilibria and Electroless Copper Deposition in Alkaline FormaldehydeContaining Solutions – E. Norkus (Center for Physical Sciences and Technology)

High Speed Electrochemical Deposition Bath for Sn-Ag Alloy and Evaluation of Micro Solder Bump Plated on Ni-Coated Si Wafer – H. S. Kim, S. H. Yi, J. H. Song, S. S. Jeon, B. T. Kim, A. H. Lim (COWON INNOTECH, Inc.), and J. M. Yook (Korea Electronic Technology Institute) Nanocrystalline Stainless Steel Electrodeposition – M. Hasegawa, S. Yoon, S. Schneider, C. Frantz (EMPA), C. Niederberger (Eleoss GmbH, EMPA), A. Weidenkaff (Institute for Materials Science, University of Stuttgart), J. Michler, and L. Philippe (EMPA) Electrodeposition of Highly-Textured Nanotwinned Copper – M. Hasegawa, M. Mieszala, Y. Zhang, J. Michler, and L. Philippe (EMPA) In Situ Stress Measurements Using Cantilever Curvature – G. R. Stafford, M. C. Lafouresse, and U. Bertocci (National Institute of Standards and Technology)

(Research Award of the Electrodeposition Division) Mathematical Modeling in Electrodeposition Studies – A. West (Columbia University) Reaction Mechanism of Thiourea as Suppressor in Electroless Cu Deposition Process – M. Kunimoto (Institute for Nanoscience and Nanotechnology, Waseda University), T. Naito (Department of Applied Chemistry, Waseda University), H. Nakai (Department of Chemistry and Biochemistry, Waseda University), and T. Homma (Institute for Nanoscience and Nanotechnology, Waseda University, Department of Applied Chemistry, Waseda University) Electrochemical Synthesis of High Strength Nanotwin Copper Films – G. Wang, S. Seo, S. Jin, and B. Yoo (Hanyang University) In Situ Surface Enhanced Raman Spectroscopy Analysis of the Electrochemical Deposition Processes Using Plasmon Antenna Sensors – T. Homma (Department of Applied Chemistry, Waseda University, Institute for Nanoscience and Nanotechnology, Waseda University), T. Yamamoto, M. Nakamura (Department of Applied Chemistry, Waseda University), M. Kunimoto, M. Saito, and M. Yanagisawa (Institute for Nanoscience and Nanotechnology, Waseda University) First-Passage-Time Kinetic Monte Carlo Simulation of Nucleation and Growth in Electrodeposition – A. Nakajima and Y. Kaneko (Kyoto University) Kinetic Monte Carlo Studies of Enhanced Chemical Reactions on Nanoporous Electrodes – S. Sato and Y. Kaneko (Kyoto University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Magnetic Materials, Processes, and Devices 13

Electrodeposition Expo Center, 1st Floor, Universal 21 & 22, Moon Palace Resort

E2

Electrodeposition of Magnetic Materials – 08:40 – 12:00 Co-Chairs: Peter Hesketh and Christian Bonhote 08:40

919

09:20

920

09:40 10:00 921

10:20

922

11:00

923

11:20

924

11:40

925

Ni-Mo-W Induced Codeposition – E. J. Podlaha, S. Sun, and K. Ziemer (Northeastern University) Controlling Crystal Structure and Stoichiometry in Co/Fe Electrodeposited Films for Improved Magnetostriction – J. R. Pillars, E. Langlois, C. L. Arrington, W. G. Yelton, and T. Monson (Sandia National Laboratories) Break Magnetic Alloy Plating with Hydroxymethyl-P-Tolylsulfone (HPT) Organic Additive – M. Sun, J. Medina, S. Sam, and M. Jiang (Western Digital) Magnetohydrodynamic Effects in Electrodeposition Reactions – A. Bund, A. Ispas (Technische Universität Ilmenau), and G. Mutschke (Helmholtz-Zentrum Dresden-Rossendorf) A Comparative Study of Saturation Induction with Current Density of Electrodeposited Fe-Ni-W Alloys – B. M. Mundotiya (Leibniz Universitaet Hannover), M. C. Wurz (Institute for Microproduction Technology), and L. Rissing (Leibniz Universität Hannover) Recent Progress on Electrodeposition of Magnetic Iron-Based Alloy Films and Nanowires – H. Schlorb (Leibniz Institute for Solid State and Materials Research), V. Haehnel, C. Konczak, D. Pohl, A. Funk (Leibniz Institute for Solid State and Materials Research, Technische Universitat Dresden), S. Oswald, C. Damm (Leibniz Institute for Solid State and Materials Research), and L. Schultz (Leibniz Institute for Solid State and Materials Research, Technische Universitat Dresden) Modification of Fe Alloys by Magnetic Field – P. Zabinski (AGH University of Science and Technology, Faculty of NonFerrous Metals, Department of Physical Chemistry and Metallurgy of Non-Ferrous Metals al. A. Mickiewicza 30, 30-059 Krakow) and A. M. Bialostocka (Bialystok Technical University)

Industrial Electrochemistry and Electrochemical Engineering / SMEQ Sunrise, 2nd Floor, Galactic Ballroom 4, Moon Palace Resort

Electrochemical Treatments for Organic Pollutant Degradation in Water and Soils I – 08:00 – 11:40 Co-Chairs: Juan Hernandez, Mercedes Teresita Oropeza-Guzman, and Dennis G. Peters 08:00

926

08:20

927

08:40

928

09:00

929

09:20

930

09:40 10:00 931

10:20

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Electrochemical Treatments for Organic Pollutant Degradation in Water and Soils

932

Preparation and Characterization of a Dimensionally Stable Electrocatalysts for Electrochemical Oxidation of Persistent Organic Compounds – Z. G. Aguilar, J. L. Nava, and M. I. León (Universidad de Guanajuato) Nanoparticle Electrocatalysts for the Oxidation of Waste Lignin – O. MovilCabrera, M. Garlock, and J. A. Staser (Ohio University) Direct Reduction of Legacy Pesticides at Silver Cathodes in Dimethylformamide and Dimethylformamide–Water Mixtures – C. McGuire and D. G. Peters (Indiana University) Application of Photoelectro-Fenton/BDD Process Based on the Cathodic Production of H2O2 for Degradation of Industrial Dyes – J. M. peralta Hernandez and A. cruz-Rizo (CIATEC) Photocatalysis of TiO2 – Supported Graphene and Graphene Oxide Towards Phenol Degradation – H. A. Al-Kandari (College of Health Sciences, Department of Environmental Health, Public Auhority of Applied Education and Training (PAAET), Kuwait), A. M. Abdullah (Chemistry Department, Faculty of Science, Cairo University, Giza 12613, Egypt, Center for Advanced Materials, Qatar University, Doha 2713, Qatar), S. A. Al-Kandari, and A. M. Mohamed (Chemistry deaptemnt, Kuwait University, P.O. Box 5969 Safat 13060,Kuwait) Break Electrochemical Oxidation of Methyl Parathion at a Boron-Doped Diamond Electrode – E. Campos-Gonzalez, R. C. Vasquez-Medrano (Universidad Iberoamericana), B. A. Frontana-Uribe (Centro de Investigación en Química Sustentable UAEMex-UNAM), and J. G. Ibanez (Universidad Iberoamericana) Production of Hydrogen Peroxide By Oxygen Reduction in a FM01-LC Reactor for Electro-Fenton Process. Experimental Characterization and Numerical Simulation – T. Pérez and J. L. Nava (Universidad de Guanajuato)

157

Wednesday, October 8

D3


10:40

11:00

Wednesday, October 8

11:20

933

934

935

Experimental and Modelling study for Electrocoagulation Cell Used to Remove High Organic Loads in Wastewater – M. R. Cruz-Díaz, E. P. Rivero (Universidad Nacional Autónoma de México, Facultad de Estudios Superiores Cuautitlán), A. Torres- Mendoza (Tecnologico de Estudios Superiores de Ecatepec), F. J. Almazán-Ruiz (Universidad Autonoma Metropolitana-Iztapalapa), and I. González (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Química) On the Electrocatalysis for Organic Mineralization on BDD: Ab Initio Calculations and Microscopic Studies – R. Jaimes (Universidad Autónoma Metropolitana-Iztapalapa), V. M. Ugalde (Universidad Nacional Autónoma de México), J. G. Vázquez, M. E. Galvan (Universidad Autónoma MetropolitanaIztapalapa), and I. González (Universidad Autónoma Metropolitana-Iztapalapa. Departamento de Química) Degradation of Indigo Carmine and Reactive Black 5 Dyes with Sb2O5-Doped Ti/RuO2-ZrO2 DSA in a Parallel-Plate Flow Reactor Via Active Chlorine – F. A. Rodríguez, E. P. Rivero (Universidad Nacional Autónoma de México, Facultad de Estudios Superiores Cuautitlán), and I. González (Universidad Autónoma Metropolitana-Iztapalapa. Departamento de Química)

939

940

941

942

943

944

945

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Electrochemical Treatments for Organic Pollutant Degradation in Water and Soils II Poster Session – 18:00 – 20:00 •

158

936

937

938

Influence of EDTA on the Electrochemical Removal of Mercury (II) in Soil – I. Robles (Centro de Investigación y Desarrollo Tecnológico en Electroquímica S. C. CIDETEQ), E. Bustos (Centro de Investigación y Desarrollo Tecnológico en Electroquímica S. C.), and T. Serrano (Universidad Autónoma de Guerrero) Electrooxidation of Diclofenac in Synthetic Pharmaceutical Wastewater Using an Electrochemical Reactor Equipped with a Boron Doped Diamond Electrode – G. Coria, J. L. Nava, and G. Carreño (Universidad de Guanajuato) Electrochemical Degradation of Azo Dyes using Graphene/Fto As Cathode and Platinum/Ti As Anode – J. C. Baltazar (División de Ciencias Naturales y Exactas Universidad de Guanajuato), G. Carreño (División de Ingenierías Universidad de Guanajuato), R. Fuentes, V. A. HernÁndez (División de Ciencias Naturales y Exactas Universidad de Guanajuato), J. Ortiz (División de Ingenierías Universidad de Guanajuato), and F. F. Rivera (Universidad de Guanajuato)

Electrochemical Oxidation of 4-Chlorophenol over a Lamellar Double Znal Hydroxides-Modified Carbon Paste Electrode – L. D. Hernandez-Fuerte, M. Palomar-Pardavé, T. D. J. Licona-Sánchez, M. A. Romero-Romo (Universidad Autónoma Metropolitana-Azcapotzalco), and J. Sánchez-Valente (Instituto Mexicano del Petroleo) Ecotoxicity Measurements of Degraded Textile Dye by Electrochemical Process Using Boron-Doped Diamond Electrodes – F. L. Migliorini (Instituto Nacional de Pesquisas Espaciais), V. Vasconcelos (Instituto de Química de São Carlos), S. A. Alves (Universidade de São Paulo), M. R. Baldan (Instituto Nacional de Pesquisas Espaciais), M. R. V. Lanza (University of Sao Paulo), and N. G. Ferreira (Instituto Nacional de Pesquisas Espaciais) Wastewater Treatment of Chocolate Manufacture Industry through an Integrated Process of Electrocoagulation and Filtration – M. A. García-Morales (Universidad Politécnica del Valle de Toluca, Universidad Autónoma del Estado de México. UAEMex), C. Barrera-Díaz (Centro Conjunto de Investigación en Química Sustentable (CCIQS) UAEMUNAM), V. Martínez Miranda (Centro Interamericano de Recursos del Agua (CIRA) UAEMex), G. Roa-Morales, E. Martín del Campo Lopez, and T. Torres Blancas (Centro Conjunto de Investigación en Química Sustentable (CCIQS) UAEMUNAM) Electrocoagulation of an Industrial Wastewater Using Copper Electrodes – C. A. Carbajal-Clemente (UAEM), C. Barrera-Díaz, G. Roa-Morales (Centro Conjunto de Investigación en Química Sustentable (CCIQS) UAEM-UNAM), and P. Balderas-Hernández (UAEM) Iron Electrodeposition at High Surface Area Activated Carbon Material Using a Rotating Disk-Slurry Electrode Technique – J. A. Bañuelos (centro de investigación y desarrollo tecnológico en electroquímica), F. J. Rodriguez Valadez (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), and L. A. Godínez MoraTovar (centro de investigación y desarrollo tecnológico en electroquímica) Electrooxidation Treatment for Wastewater Sludge – C. De Leon Condes (UAEM), J. A. Barrios (Instituto de Ingenieria UNAM), E. Becerril (Instituto de Ingenieira UNAM), C. Barrera-Díaz, and G. RoaMorales (Centro Conjunto de Investigación en Química Sustentable (CCIQS) UAEMUNAM) Al Recovery and Reuse for Wastewater Treatment – J. Gamboa (UAEM), C. Barrera-Díaz, G. Roa-Morales (Centro Conjunto de Investigación en Química Sustentable (CCIQS) UAEM-UNAM), and V. Varela-Guerrero (UAEM)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


F2

946

947

948

949

Effect of Ru Dopant Amount on the Electrocatalytic Capability of Ti/SnO2Sb-Gd-Ru Electrodes in the Phenol Oxidation – F. López Morales (Universidad Autónoma Metropolitana, Iztapalapa.), L. Salgado Juárez (Universidad Autónoma Metropolitana, Iztapalapa), and T. Zayas Pérez (Benemérita Universidad Autónoma de Puebla) Effect of Coupling Electrochemical and Ozonation Methods on the Degradation of Phenol – T. T. Blancas (UNIVERSIDAD AUTONOMA DEL ESTADO DE MEXICO.), D. A. PiÑa, G. R. Morales, R. N. Rangel, R. R. Romero (Centro Conjunto de Investigación en Química Sustentable CIQS, UAEM-UNAM, Carretera TolucaAtlacomulco, km 14.5, C.P. 50200, Toluca, México), P. B. Hernandez (Centro Conjunto de Investigación en Química Sustentable CIQS, UAEMUNAM, Carretera Toluca-Atlacomulco, km 14.5, C.P. 50200, Toluca), and C. B. Diaz (Centro Conjunto de Investigación en Química Sustentable CIQS, UAEMUNAM, Carretera Toluca-Atlacomulco, km 14.5, C.P. 50200, Toluca, México) Rapid Degradation of Malathion By Solar Photo-Electro Fenton Process Using an Oxygen Diffusion Cathode – G. A. Palacios-Rodriguez Sr., L. HinojosaReyes, J. L. Guzmán Mar Sr. (Universidad Autónoma de Nuevo León, Facultad de Ciencias Químicas), A. HernándezRamírez (Universidad Autónoma de Nuevo León), M. Villanueva-Rodíguez (Universidad Autónoma de Nuevo León, Facultad de Ciencias Químicas), and E. J. Ruiz-Ruiz Sr. (Universidad Autónoma de Nuevo León) Degradation of 4-Clorophenol By ElectroFenton Using Electrodes of Graphite – G. Santana, R. Nartividad, G. Roa, and E. Martín del Campo (Universidad Autónoma del Estado de México)

08:20

1008

09:00

1009

09:20

1010

High Temperature Materials / Energy Technology / Physical and Analytical Electrochemistry / Sensor Sunrise, 2nd Floor, Galactic Ballroom 5, Moon Palace Resort

1006

1007

Reformer-Integrated Thin-Film Solid Oxide Fuel Cell for Ethanol Fuel – S. Kang (Mechanical and aerospace engineering department, Seoul National University), I. Chang (Graduate School of Convergence Science and Technology, Seoul National University), and S. W. Cha (Mechanical and aerospace engineering department, Seoul National University) A New Family of Proton-Conducting Conducting Materials in Layered Oxides – S. Tao and R. Lan (University of Strathclyde)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Nanostructured Low-Temperature Solid Oxide Fuel Cell with High Power Density – J. An (Stanford University), Y. B. Kim (Hanyang University), J. Park, T. M. Gur, and F. B. Prinz (Stanford University) Electrochemical Characterization of La0.9Sr0.1Ga0.8Mg0.2O3-δ Thin Film Electrolyte Deposited by Radio Frequency Magnetron Sputtering – Y. Endo, T. Terai (School of Engineering, The University of Tokyo), and A. Suzuki (Nuclear Professional School, The University of Tokyo) Electrode/Electrolyte Interphase Studies of Ceria Based Electrolytes for ITSOFCs – L. C. Baqué (CONICET-Centro Atómico Bariloche, CNEA, Argentina), K. Padmasree, A. F. Fuentes (Cinvestav Unidad Saltillo, Mexico), A. Serquis, and A. Soldati (CONICET-Centro Atómico Bariloche, CNEA, Argentina)

Solid State Ionic Devices II – 10:00 – 11:00 Co-Chair: Enrico Traversa 10:00

1011

10:20

1012

10:40

1013

Solid State Ionic Devices 10

Solid Oxide Fuel Cells IV – 08:00 – 09:40 Co-Chairs: Enrico Traversa and Shanwen Tao 08:00

08:40

F3

Surface Exchange Model for Miec Membrane in Transient Stage – C. Gazeau, E. Blond (Prisme Laboratory), M. Reichmann (SPCTS, UMR CNRS 6638), P. M. Geffroy (SPCTS,UMR CNRS 6638), T. Chartier (SPCTS, UMR CNRS 6638), and N. Richet (Air Liquide) Ceria Based Composite Membranes for Oxygen Separation – J. Gurauskis, S. Ovtar, A. Kaiser, M. Søgaard, and P. V. Hendriksen (Technical University of Denmark) Annealing Effect on As-Synthesized Pd/ MWNTs Catalyst for Ethanol Oxidation – Z. Guo, Y. Wang, Q. He, H. Wei, J. Guo (Integrated Composites Laboratory (ICL), Dan F. Smith Department of Chemical Engineering, Lamar University, Beaumont, TX 77710 USA), and S. Wei (Department of Chemistry and Biochemistry, Lamar University, Beaumont, TX 77710 USA)

Polymer Electrolyte Fuel Cells 14 (PEFC 14)

Industrial Electrochemistry and Electrochemical Engineering / Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Jupiter 3 & 5, Moon Palace Resort

B2-1: Advanced Systems – 08:00 – 11:25 Co-Chairs: Karen Swider-Lyons and Peter Jaime Bouwman 08:00 08:05 1184

08:25

1185

08:45

1186

Introductory Remarks Development of anodic materials with elevated Hydrogen Sulfide tolerance for HT-PEMFCs using reformat – M. Rau, C. Cremers, J. Tübke, and K. Pinkwart (Fraunhofer Institute for Chemical Technology ICT) Performance of the High Temperature PEM Membrane Electrode Assembly – R. Kerr, H. R. García, M. T. Romero, C. Terkelsen, T. Steenberg, and H. A. Hjuler (Danish Power Systems) Invited: Balance of Plant Issues for PEM Fuel Cells – D. Wheeler (DJW Technology, LLC)

159

Wednesday, October 8


09:25 09:45 1187

10:05

10:25

Wednesday, October 8

10:45

11:05

1188

1189

1190

1191

Intermission Hydrogen Production on an Ethanol Dehydrogenation Reactor Coupled to a Conventional PEMFC – A. G. Sato (Universidade Federal de Viçosa), G. C. D. Silva (Universidade de São Paulo IQSC), V. A. Paganin, and E. A. Ticianelli (Universidade de São Paulo, IQSC) On Power Density and Efficiency of H2/ O2 Polymer Electrolyte Fuel Cell Systems – F. N. Büchi, M. Hofer, U. Cabalzar (Paul Scherrer Institut), J. Bernard, U. Hannesen, A. Closset (Belenos Clean Power Holding), P. Dietrich (Paul Scherrer Institut), and T. J. Schmidt (Electrochemistry Laboratory, Paul Scherrer Institut) Development of Next Generation Heavy Duty Bus Fuel Cells with Enhanced Durability – E. Kjeang, S. Holdcroft (Simon Fraser University), S. Knights (Ballard Power Systems), K. Malek (Simon Fraser University), N. Djilali (University of Victoria), M. Eikerling, F. Golnaraghi, G. Wang, N. Rajapakse (Simon Fraser University), P. Wild (University of Victoria), J. Devaal, M. Lauritzen, M. Watson, and E. Rogers (Ballard Power Systems) Hydrogen Fuel Cells for Small Unmanned Air Vehicles – K. Swider-Lyons (U.S. Naval Research Laboratory), R. O. Stroman, J. A. Rodgers, J. Mackrell, B. D. Gould (Naval Research Laboratory), M. Schuette (Sotera Defense), and G. Page (Excelis) Fuel Cells Current Capabilities and Challenges for the Military Applications – D. Chu (U.S. Army Research Laboratory, Sensors and Electron Devices Directorate), R. Jiang, X. Ren, K. Grew, and J. McClure (U.S. Army Research Laboratory)

10:00

1196

10:40

1197

11:00

1198

11:20

1199

Sunrise, 2nd Floor, Galactic Ballroom 7, Moon Palace Resort D2-1. Pt-Based Catalysts with Durable Suppports II – 08:00 – 12:20 Co-Chairs: Rod L. Borup and Yu Morimoto 08:00

1200

08:20

1201

Sunrise, 2nd Floor, Jupiter 4 & 6, Moon Palace Resort C2-1. PFSA Ionomers and Membranes – 08:00 – 11:40 Co-Chairs: M. Edmundson and Asmae Mokrini 08:00

1192

08:20

1193

09:00

1195

09:40

160

Morphological Differences in Short Side Chain and Long Side Chain Perfluorosulfonic Acid Proton Exchange Membranes at Low and High Water Contents – S. K. Buratto and N. J. Economou (University of California, Santa Barbara) Study of Azoles As Bifunctional Additives for Proton Exchange Membranes Melt-Processing from LSC and SSC Perfluorosulfonic Acid Ionomers – A. Mokrini (National Research Council of Canada) Invited: Development of PFSA Ionomers for the Membrane and the Electrodes – S. Kinoshita, T. Tanuma, K. Yamada, S. Hommura, A. Watakabe, S. Saito, and T. Shimohira (Asahi Glass Co., Ltd.) Intermission

Invited: Study of Fundamental Aspects of Ionomer Structure in Different States – A. Ohira (National Institute of Advanced Industrial Science and Technology (AIST), Fuel Cell Cutting-Edge Research Center (FC-Cubic), Technology Research Association), S. Kuroda, M. Yamaguchi (Fuel Cell Cutting-Edge Center (FCCubic), Technology Research Association), T. Oshima, T. Matsuura, K. Ogu, and M. Rikukawa (Department of Materials and Life Sciences, Sophia University) Development of Hybrid Membranes Nafion-ZrO2 for PEM fuel cells – C. K. Gutiérrez, S. M. Montemayor (Universidad Autónoma de Coahuila), S. Rivas Gandara (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), J. L. Pineda (Centro de Investigación y Desarrollo Tecnológico en Electroquimica), J. Ledesma García (Universidad Autónoma de Queretaro), A. U. Chavez (Centro de Investigación y Desarrollo Tecnológico en Electroquimica), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Gelation Behavior of Nafion Dispersion – Y. S. Kim (Los Alamos National Laboratory) Electrospinning PFSA + PVDF Nanofibers for Fuel Cell Membrane Fabrication – R. Wycisk, J. W. Park, D. Powers, and P. N. Pintauro (Vanderbilt University)

Evaluation of Durability with MEAs Made by Graphitized Carbon Supports – A. Hayashi (International Research Center for Hydrogen Energy, Kyushu University), X. Zhao, Y. Minamida, M. Kitamura, Z. Noda (Faculty of Engineering, Kyushu University), and K. Sasaki (Department of Mechanical Engineering, Kyushu University) Invited: Electrocatalyst Layer Degradation of PEM Fuel Cells – R. L. Borup, R. Mukundan, D. Spernjak, D. A. Langlois, D. Torraco (Los Alamos National Laboratory), K. L. More (Oak Ridge National Laboratory), R. Ahluwalia, S. Arisetty (Argonne National Laboratory), and L. 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)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1202

Improvements of Electrical and Electrochemical Activities at NbSnO2 Supports by Aggregation and Pt Loading as Fuel Cell Cathode Catalysts – K. Kakinuma (Fuel Cell Nanomaterials Center, University of Yamanashi), Y. Senoo (Corporate R and D Center, Mitsui Mining and Smelting @Co., Ltd., Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), Y. Chino (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), K. Taniguchi (Corporate R and D Center, Mitsui Mining and Smelting @Co., Ltd.), M. Uchida (Fuel Cell Nanomaterials Center, University of Yamanashi), H. Uchida (Clean Energy Research Center, University of Yamanashi), S. Deki (Fuel Cell Nanomaterials Center, University of Yamanashi,), and M. Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) 09:20 1203 SnO2 As an Effective Protection Layer of Electrospun Carbon Nanowires Based Catalyst for PEMFC Applications – G. Ercolano (ICGM, Aggregates, Interfaces and Materials for Energy, CNRS Montpellier, France), C. Marichy (Laboratoire des Multimatériaux et Interfaces, CNRS-Université Lyon 1), R. M. Silva (CICECO, University of Aveiro), G. Caputo (Institut für Chemie, Humboldt Universität zu Berlin), D. J. Jones, J. Roziere, S. Cavaliere (ICGM, Aggregates, Interfaces and Materials for Energy, CNRS Montpellier, France), and N. Pinna (Institut für Chemie, Humboldt Universität zu Berlin) 09:40 Intermission 10:00 1204 Understanding the Growth of Pt Nanoparticles by Galvanic Displacement on ITO Nanocubes for ORR – Y. Liu, S. Zhao, and W. E. Mustain (University of Connecticut) 10:20 1205 Alternative Oxide-Supported PEFC Electrocatalysts – K. Sasaki, Z. Noda, T. Tsukatsune, K. Kanda, Y. Takabatake, Y. Nagamatsu, T. Daio, S. M. Lyth, and A. Hayashi (Kyushu University) 10:40 1206 Doing More with Less: Challenges for PEMFC Catalyst Layer Design – J. Stumper (Automotive Fuel Cell Cooperation Corporation) 11:00 1207 Fabrication and Cell Analysis of a Pt/SiO2 Platinum Thin Film Electrode – M. Inaba, T. Suzuki, T. Hatanaka, and Y. Morimoto (Toyota Central R&D Labs., Inc.) 11:20 1208 The Stability of Nano-Structured-ThinFilm™ Supported Ir on Pt PEMFC Catalysts Under Rde Simulated Start-up and Shut-Down – T. C. Crowtz (Dept. of Process Engineering and Applied Science, Dalhousie University), R. Sanderson (Dept. of Physics and Atmospheric Science, Dalhousie University), and J. Dahn (Dalhousie University - Dept. of Physics and Atmospheric Science)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

11:40

1209

12:00

1210

The Impact of Pretreatments and Conditioning on the Structure and Performance of NSTF ORR Alloy Catalysts – D. A. Cullen, K. L. More (Oak Ridge National Laboratory), J. Erlebacher (Johns Hopkins University), D. van der Vliet, S. M. Luopa, and A. J. Steinbach (3M Company) Pt Catalysts Supported on Polybenzimidazole-Grafted Graphene for Pemfcs – Z. F. Li (Indiana University Purdue University Indianapolis), H. Zhang, L. Stanciu (Purdue University), and J. Xie (Indiana University-Purdue University (IUPUI))

Sunrise, 2nd Floor, Jupiter 1 & 2, Moon Palace Resort E2-1. Electrocatalysis in Alkaline Media III – 08:40 – 11:20 Co-Chairs: Xiaoming Ren and Ernesto Rafael Gonzalez 08:40

1212

09:20

1213

09:40

1214

10:00 10:20 1215

10:40

1216

Nuclear Magnetic Resonance Methods for Investigation of Electrochemical Phenomena in Direct Alcohol Fuel Cells – O. H. HAN (Korea Basic Science Institute, Chungnam National University) Cu-Pd/C Electrocatalyst with Low Pd Content toward Methanol ElectroOxidation – J. A. Maya-Cornejo, N. Arjona (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), M. Guerra-Balcázar (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), L. Álvarez-Contreras (Centro de Investigación en Materiales Avanzados S.C.), J. Ledesma García (Universidad Autónoma de Queretaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Methanol Oxidation on Pt/CNT Electrocatalysts Promoted with TiO2 – Z. Bedolla (Universidad Nacional Autónoma de México), Y. Verde Gómez (Instituto Tecnológico de Cancún), Y. Gochi (Instituto Tecnológico de Oaxaca), and G. Alonso (Universidad Nacional Autónoma de México) Break Enhancing Alkaline Ethanol Oxidation on Ordered Intermetallic Pt3pb-Ptpb Core-Shell Nanoparticles Prepared by Converting Nanocrystalline Metals to Ordered Intermetallic Compounds – A. J. Jeevagan, T. Gunji, T. Tanabe, S. Usui, T. Tsuda (Kanagawa University), S. Kaneko (Research Institute for Engineering, Kanagawa University), G. Saravanan (CSIR-National Environmental Engineering Research Institute (CSIRNEERI)), H. Abe (National Institute for Materials Science (NIMS)), M. Tanaka (Department of Applied Chemistry, Tokyo Metropolitan University), and F. Matsumoto (Kanagawa University) Improvement of Ethanol Catalytic Activity by Mn Doped Pt and Pt-Sn/C- Based Catalysts – T. S. Almeida, C. Garbin, L. M. Palma, and A. R. De Andrade (Universidade de São Paulo) 161

Wednesday, October 8

09:00


11:00

1217

The Effect of Alloying in Pt-Sn/C Electrocatalysts in the Performance of a Direct Ethanol Fuel Cell – F. Colmati Jr. (Universidade Federal de Goiás), R. Sousa Jr. (Universidade Federal de São Carlos, Dep. Engenharia Química), E. G. Ciapina (UNESP-Campus de Guaratingueta), and E. R. Gonzalez (Instituto de Quimica de Sao Carlos, USP)

Sunrise, 2nd Floor, Star Ballroom 8, Moon Palace Resort

Sunrise, 2nd Floor, Jupiter 1 & 2, Moon Palace Resort A2-2. GDL and MPL Structure – 14:00 – 17:00 Co-Chairs: Marc Secanell and Zahra Tayarani 14:00

1225

14:20

1226

14:40

1227

15:00

1228

15:20

1229

15:40

1230

A2-1. GDL Water Management – 08:40 – 11:40 Co-Chairs: Matthew M. Mench and Tatsumi Kitahara 08:40

09:20

1218

1219

Wednesday, October 8

09:40 10:00 1220

10:20

1221

10:40

1222

11:00

1223

11:20

162

1224

Invited: Engineering Net Water Balance in Polymer Electrolyte Fuel Cells – J. M. LaManna (University of Tennessee) and M. M. Mench (Department of Mechanical, Aerospace and Biomedical Engineering, University of Tennessee, Knoxville, TN) PTFE Distributions in Diffusion Media of PEFCs and Related Effects on Water Transport – E. A. Wargo (Drexel University), V. P. Schulz (BadenWuerttemberg Cooperative State University Mannheim), and E. C. Kumbur (Drexel University) Break Influence of Hydrophobic Coating of Gas Diffusion Layers on the Performance and Water Transport inside PEFC – J. Biesdorf, P. Oberholzer (Electrochemistry Laboratory, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland), T. J. Schmidt (Electrochemistry Laboratory, Paul Scherrer Institut), and P. Boillat (Electrochemistry Laboratory, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland, Neutron Imaging and Activation Group, Paul Scherrer Institut, 5232 Villigen PSI, Switzerland) In-Situ Measurement and Analysis of Water Movement in PEFCs – Y. Oshiba (Chemical Resorces Laboratory Tokyo Institute of Technology), H. Irizawa, H. Ohashi (Chemical Resources Laboratory Tokyo Institute of Technology), and T. Yamaguchi (Chemical Resorces Laboratory Tokyo Institute of Technology) Experimental Investigation and Numerical Determination of Custom Gas Diffusion Layers to Understand Water Transports in PEMFC – V. Lilavivat, S. Shimpalee (University of South Carolina), C. K. Mittelsteadt, and H. Xu (Giner, Inc.) Effect of the Inlet Gas Humidification on PEMFC Behavior and Current Density Distribution – D. G. Sanchez, T. Ruiu, I. Biswas, K. A. Friedrich (Institute of Technical Thermodynamics), J. SanchezMonreal, and M. Vera (Universidad Carlos III de Madrid) Influence of GDL Coated with MPL Containing CNTs on PEFC Performance Under Low and High Humidity Conditions – T. Kitahara, H. Nakajima, and K. Okamura (Department of Mechanical Engineering, Faculty of Engineering, Kyushu University)

16:00 16:20 1231

Measurements of Permeability and Effective in-Plane Gas Diffusivity of Gas Diffusion Media Under Compression – P. Mangal, M. Dumontier, N. Carrigy, and M. Secanell (University of Alberta) Impact of Contact Pressure on NonWoven GDLs of HT-PEM Fuel Cells – M. Rastedt, F. J. Pinar, and P. Wagner (NEXT ENERGY • EWE Research Centre for Energy Technology) Gas Diffusion Layer Fabrication with Coating of Carbon Fiber Dispersion – T. Tanuma (Asahi Glass Co., Ltd.) Effect of through-Plane Polytetrafluoroethylene Distribution in a Gas Diffusion Layer – H. Ito, A. Nakano, T. Iwamura, S. Someya, and T. Munakata (National Institute of Advanced Industrial Science and Technology (AIST)) The Role of Gas Diffusion Layer in Cationic Contamination and Mitigation in Polymer Electrolyte Fuel Cells – M. A. Uddin, J. Park (Center for Clean Energy Engineering, University of Connecticut, Department of Mechanical Engineering, University of Connecticut), X. Wang (Center for Clean Energy Engineering, University of Connecticut, Department of Materials Science & Engineering, University of Connecticut), J. Qi (Center for Clean Energy Engineering, University of Connecticut), M. O. Ozdemir (Center for Clean Energy Engineering, University of Connecticut, Department of Mechanical Engineering, University of Connecticut), U. Pasaogullari (Department of Mechanical Engineering, University of Connecticut, Center for Clean Energy Engineering, University of Connecticut), L. J. Bonville (Center for Clean Energy Engineering, University of Connecticut), and T. Molter (Department of Materials Science & Engineering, University of Connecticut, Center for Clean Energy Engineering, University of Connecticut) Capturing the Morphology of the Micro-Porous Layer Using a Stochastic Approach – M. El Hannach (Simon Fraser University), R. Singh (Institute for Integrated Energy Systems and Department of Mechanical Engineering, University of Victoria, BC, Canada), N. Djilali (University of Victoria), and E. Kjeang (Simon Fraser University) Break Impact of Micro-Porous Layer Properties on Fuel Cell Performance – M. AndishehTadbir, Z. Tayarani (PhD Candidate, Simon Fraser University), M. E. Hannach, and E. Kjeang (Simon Fraser University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1232

Characterization of Micro-Porous Layer Structure and Properties – Z. Tayarani (PhD Candidate, Simon Fraser University), M. E. Hannach (Simon Fraser University), M. Andisheh-Tadbir (PhD Candidate, Simon Fraser University), and E. Kjeang (Simon Fraser University)

Sunrise, 2nd Floor, Star Ballroom 8, Moon Palace Resort C2-2. Membrane Characterization – 14:00 – 17:20 Co-Chairs: Gillian Goward and Kelly A. Perry 14:00

1241

14:40

1242

15:00

1243

15:20

1244

15:40

1245

16:00 16:20 1246

16:40

1247

Invited: Advanced Solid-State NMR Spectroscopy Studies for Improved Performance in PEM-FCs – A. R. MacIntosh, B. Z. Yan, K. J. Harris, and G. R. Goward (McMaster University) Study of Morphological Evolution of Hybrid PEM by Current Sensing Atomic Force Microscopy – O. Kwon (Keimyung University), S. C. Lee (DaeguGyeongbuk Institute of Science & Technology (DGIST)), J. G. Kim, B. Son (DGIST), and S. Park (University of Louisville) MEA Conditioning Studied by CurrentSensing Atomic Force Microscopy – J. Inukai (Fuel Cell Nanomaterials Center, University of Yamanashi), M. Hara (Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi), M. Hara (Fuel Cell Nanomaterials Center, University of Yamanashi), K. Miyatake (Clean Energy Research Center, University of Yamanashi), and M. Watanabe (Fuel Cell Nanomaterials Center, University of Yamanashi) Direct Imaging of Nanoscale Morphology of Perfluorosulfonic Acid Ionomers – D. K. Paul (University of calgary), Y. Zou, J. Li (Automotive Fuel Cell Cooperation), and K. Karan (University of Calgary) Fracture Properties of Fuel Cell Membranes – Y. Singh, R. M.H. Khorasany, A. S. Alavijeh, E. Kjeang, G. Wang, and N. Rajapakse (Simon Fraser University) Intermission An Improved EVB Model for Proton Transport in Polymer Electrolyte Membrane – T. Mabuchi and T. Tokumasu (Tohoku University) Selective Analysis of Grotthuss Proton Diffusion in Polymer Electrolyte Membranes at a Freezing Temperature Region: A 2H and 17O Solid-State NMR Investigation – K. Kamiguchi, H. Imai (NISSAN ARC Ltd.), T. Ogawa (Chemical Resources Laboratory, Tokyo Institute of Techonology), T. Tamaki (Chemical Resources Laboratory, Tokyo Institute of Technology, Kanagawa Academy of Science and Technology), and T. Yamaguchi (Chemical Resorces Laboratory, Tokyo Institute of Technology, Kanagawa Academy of Science and Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

17:00

1248

Electric Field Poling Induces Ordered Membrane Morphology Giving Exceedingly High Proton Conductivity – P. P. Chu and Y. C. Tseng (National Central University, Department of Chemistry)

Sunrise, 2nd Floor, Jupiter 3 & 5, Moon Palace Resort B2-2: Electrolysis Systems – 14:00 – 17:25 Co-Chairs: Douglas Wheeler and Luis Gerardo Arriaga 14:00 14:05 1233

14:45

1234

15:05

1235

15:25

1236

15:45

1237

16:05

Introductory Remarks Invited: Electrochemical Hydrogen Compression – P. J. Bouwman, J. Konink, D. Semerel, L. Raymakers, M. Koeman, W. Kout, W. Dalhuijsen, and M. J. J. Mulder (Hydrogen Efficiency Technologies (HyET) B.V.) Impact of Water Flow Rate on Current Efficiency in Solid Polymer Water Electrolyzer Under 2 MPa Condition – K. Ito (Graduate school of Engineering, Kyushu University, WPI I2CENR, Kyushu University), Y. Maeda, T. Sakaguchi, A. Inada (Graduate school of Engineering, Kyushu University), and H. Nakajima (Department of Mechanical Engineering, Faculty of Engineering, Kyushu University) Foam Based Gas Diffusion Electrodes for Reversible Alkaline Electrolysis Cells – F. Allebrod, C. Chatzichristodoulou, and M. B. Mogensen (Department of Energy Conversion and Storage, Technical University of Denmark) Low Cost Bipolar Plates for Large Scale PEM Electrolyzers – A. S. Gago, A. S. Ansar, P. Gazdzicki, N. Wagner, J. Arnold, and K. A. Friedrich (Institute of Technical Thermodynamics, German Aerospace Center, Pfaffenwaldring 38-40, 70569 Stuttgart, Germany) Synthesis and Corrosion Studies of Sb-Doped SnO2 (ATO) Support for Electrolysis Systems – M. P. Gurrola, J. Guitiérrez Ramírez (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), S. Rivas Gandara, M. Guerra-Balcázar, J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Intermission

163

Wednesday, October 8

16:40


16:25

16:45

Wednesday, October 8

17:05

164

1238

Development of Electrodeposited IrO2 Electrodes and Its Catalytic Activity towards Oxygen Evolution Reaction in Polymer Electrolyte Membrane Based Water Electrolysis – B. S. Lee (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST), School of Chemical and Biological Engineering, Korea University), S. H. Ahn, I. Choi, H. Y. Park (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)), S. K. Kim (School of Integrative Engineering, Chung-Ang University), K. Y. Lee (School of Chemical and Biological Engineering, Korea University), S. J. Yoo, E. Cho, H. J. Kim, S. W. Nam, and J. H. Jang (Fuel Cell Research Center, Korea Institute of Science and Technology (KIST)) 1239 Novel Oxygen Evolution Catalysts for Proton Exchange Membrane Water Electrolysis – B. Rasimick, A. Stocks (Giner Inc.), and H. Xu (Giner, Inc.) 1240 La2NiO4 Ceramic Electrode for Hydrogen Peroxide Electroreduction – D. M. F. Santos (Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, Universidade de Lisboa, 1049001 Lisboa, Portugal, CICECO, Dep. Engª. Materiais e Cerâmica, Universidade de Aveiro, Campus Universitário de Santiago, 3810–193 Aveiro, Portugal), N. Sousa (CICECO, Dep. Engª. Materiais e Cerâmica, Universidade de Aveiro, Campus Universitário de Santiago, 3810–193 Aveiro, Portugal), B. Sljukic, C. A. C. Sequeira (Institute of Materials and Surfaces Science and Engineering, Instituto Superior Técnico, Universidade de Lisboa, 1049-001 Lisboa, Portugal), and F. M. Figueiredo (CICECO, Dep. Engª. Materiais e Cerâmica, Universidade de Aveiro, Campus Universitário de Santiago, 3810–193 Aveiro, Portugal)

Sunrise, 2nd Floor, Jupiter 4 & 6, Moon Palace Resort E2-2. Ion Transport in Alkaline Media I – 14:00 – 17:40 Co-Chairs: Andrew M. Herring and Bryan S. Pivovar 14:00

1259

14:40

1260

15:00

1261

Thin Robust Anion Exchange Membranes for Fuel Cell Applications – A. M. Herring (Department of Chemical and Biological Engineering, Colorado School of Mines), E. B. Coughlin (University of Massachusetts Amherst), D. M. Knauss (Department of Chemistry and Geochemistry, Colorado School of Mines), Y. Yan (Department of Chemical & Biomolecular Engineering, University of Delaware), M. W. Liberatore (Department of Chemical and Biological Engineering, Colorado School of Mines), T. Witten (Department of Physics, and James Franck Institute, University of Chicago), G. Voth (Department of Chemistry, James Franck Institute, and Computation Institute, University of Chicago), H. N. Sarode, M. A. Vandiver (Department of Chemical and Biological Engineering, Colorado School of Mines), Y. Liu (Department of Chemical & Biological Engineering, Colorado school of mines), A. Maes (Department of Chemical Engineering and Petroleum Refining - Colorado School of Mines), T. P. Pandey (Department of Chemical and Biological Engineering, Colorado School of Mines), S. P. Ertem, T. Tsai (University of Massachusetts Amherst), B. Zhang (Department of Chemical & Biomolecular Engineering, University of Delaware), D. Herbst, G. Linberg (University of Chicago), Y. L. S. Tse (Department of Chemistry, James Franck Institute, and Computation Institute, University of Chicago), S. Seifert (X-ray Science Division, Argonne National Laboratory), and V. Di Noto (Department of Chemical Sciences - University of Padova) Insight on Pure vs Air Exposed Hydroxide Ion Conductivity in an Anion Exchange Membrane for Fuel Cell Applications – T. P. Pandey (Department of Chemical and Biological Engineering, Colorado School of Mines), B. D. Peters (Colorado School of Mines), M. W. Liberatore, and A. M. Herring (Department of Chemical and Biological Engineering, Colorado School of Mines) Water/Methanol Transport in Polyethylene Based Block Copolymers as Anion Conductors for Applications in Fuel Cells – H. N. Sarode (Department of Chemical and Biological Engineering, Colorado School of Mines), Y. Yang (Department of Chemistry and Geochemistry, Colorado School of Mines), and A. M. Herring (Department of Chemical and Biological Engineering, Colorado School of Mines)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1262

15:40

1263

16:00 16:20 1264

16:40

1265

17:00

1266

17:20

1267

Baseline BTMA Degradation as a Standard for Cationic Degradation in AMFCs – M. R. Sturgeon (National Renewable Energy Laboratory, Chemical and Materials Science Center), C. S. Macomber (National Renewable Energy Laboratory,Chemical and Materials Science Center), C. Engtrakul (National Renewable Energy Laboratory, Chemical and Materials Science Center), and B. S. Pivovar (National Renewable Energy Laboratory) Computational Modeling of Degradation of Substituted Benzyltrimethyl Ammonium – H. Long and B. S. Pivovar (National Renewable Energy Laboratory) Intermission Degradation Mechanism of Membranes for Alkaline Membrane Fuel Cells – Y. K. Choe (AIST), N. J. Henson, and Y. S. Kim (Los Alamos National Laboratory) Systematic Analysis of Cation Stability in Alkaline Exchange Membrane Fuel Cells – A. D. Mohanty and C. Bae (Rensselaer Polytechnic Institute) Cross-Linked Anion Exchange Membranes for AMFC – A. Amel, Y. Ein Eli (Technion), and M. Hickner (Pennstate) Theoretical study of the morphologic and structural characteristics of an anion exchange membrane used in AEMFC using DFT – S. Castañeda Ramírez and R. E. Ribadeneira Paz (Universidad Nacional de Colombia - Sede Medellín)

Sunrise, 2nd Floor, Star Ballroom 8, Moon Palace Resort D2-2. New Cathode Catalyst Layers & Anode Catalysts – 14:00 – 18:00 Co-Chairs: Anusorn Kongkanand and Tommy Rockward 14:00

14:40

1249

1250

15:00

1251

15:20

1252

Invited: Development of Nstf Electrode for PEMFC – A. Kongkanand, P. Sinha (General Motors), Z. Liu (General Motors Global Research & Development Center), E. Thompson (General Motors), J. Zhang (GM Global Fuel Cell Activities), R. Kukreja, T. Moylan (General Motors), J. W. Clancey, A. S. Cavanagh, and S. M. George (University of Colorado) New Developments in Electrospun Nanofiber Electrodes for Hydrogen/Air Fuel Cells – M. Brodt, R. Wycisk, J. Slack, and P. N. Pintauro (Vanderbilt University) Impact of Methanol Reformate on Fuel Cell Anode Performance and Durability – P. He (Ballard Power Systems), C. Fraser (University of British Coloumbia), R. Bashyam (Ballard Power System), and S. Knights (Ballard Power Systems) CO Tolerance of Pt Electrocatalysts on Composite Supports in the Hydrogen Oxidation Reaction – W. A. Rigdon (University of South Carolina) and X. Huang (University of South Carolina, 300Main St., Columbia, SC29208, USA)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

15:40

1253

Enhance CO Tolerance of PEFC Anode Catalyst by Optimized Degree of Activation of Resorcinol-Formaldehyde Carbon Support – N. Narischat (Catalysis Research Center, Hokkaido University), T. Takeguchi (Department of Chemistry and Bioengineering, Iwate University), T. Mori, I. Ogino, S. R. Mukai (Graduate School of Engineering, Hokkaido University), and W. Ueda (Catalysis Research Center, Hokkaido University) 16:00 Intermission 16:20 1254 RuO2 Nanosheet Modified Pt-Based Catalysts as CO Tolerant PEFC Anode – W. Sugimoto, D. Takimoto, and T. Ohnishi (Shinshu University) 16:40 1255 Adsorption Behavior of Carbon Monoxide at Low Concentration on the Polymer Electrolyte Fuel Cell – Y. Matsuda, S. Nakamura, N. Tsurumi, and T. Shimizu (Japan Automobile Research Institute) 17:00 1256 Can CO-tolerant Anodes be Economically Viable for PEMFC Applications with Reformates? – J. X. Wang (Chemistry Department, Brookhaven National Laboratory), P. He (Ballard Power Systems), Y. Zhang (Chemistry Department, Brookhaven National Laboratory), and S. Ye (Ballard Power Systems) 17:20 1257 Density Functional Theory Study of OH and CO Adsorption on the Pt2Ru3 Surface – M. K. Alam and H. Takaba (Kogakuin University) 17:40 1258 Platinum Electrode Properties Tailored to Respond to Ultra-Low Concentrations of H2S in Gaseous Hydrogen Fuel – T. Rockward (Los Alamos National Laboratory)

G1

Bioelectroanalysis and Bioelectrocatalysis 2

Physical and Analytical Electrochemistry / SMEQ Expo Center, 2nd Floor, Beta Room, Moon Palace Resort

Bioelectrocatalysis – 08:00 – 12:20 Co-Chairs: Shelley D. Minteer and Scott Banta 08:00

1313

08:20

1314

08:40

1315

Enzyme Engineering via Rationally Designed Intermolecular Interactions: Applications towards Bioelectrocatalysis – Y. Gao, J. Zhu, J. L. Lin, and I. Wheeldon (University of California, Riverside) Electrochemical Characterization of electroactive Biomolecules Isolated from Novel Fungal Sources Applied in Bioelectrodes for Microbial Fuel Cell – C. E. La Rotta-Hernández, K. Vascocelos-Morant, P. H. da Silva, and G. M. de Campos-Takaki (Laboratory of Bioelectrochemistry - Reseach Center for Environmental Sciences and Biotechnology - Catholic University of Pernambuco) Characteristics of Paper-Based Lactate-O2 Biofuel Cell and Its Application for Wearable Devise – I. Shitanda, Y. Yagi, M. Momiyama, Y. Hoshi, M. Itagaki (Tokyo University of Science), and S. Tsujimura (University of Tsukuba) 165

Wednesday, October 8

15:20


09:00

09:20

1316

1317

Wednesday, October 8

09:40 10:00 1318

10:20

1319

10:40

1320

11:00

1321

11:20

166

1322

Enzyme Immobilization Using Carbon Nanotubes for Direct Electron Transfer in a Hybrid Membraneless Fuel Cell – R. A. Escalona-Villalpando (Universidad Autónoma de Querétaro), A. Dector (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), M. Galvan-Valencia, S. M. Duron-Torres (Universidad Autónoma de Zacatecas), J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Effect of Immobilization Method in the Electrocatalytic Properties of AlcoholDehydrogenase Enzyme – J. D. D. Galindo de la Rosa (Universidad Autónoma de Querétaro), N. Arjona (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), J. Ledesma-García, M. Guerra-Balcázar (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Break Surface Chemistry Enhanced Microbial Bioelectrocatalysis – C. Santoro, S. Babanova, K. Artyushkova, J. A. Cornejo (University of New Mexico, Center for Emerging Energy Technologies), L. K. Ista, A. J. Schuler (University of New Mexico), and P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies) Photoelectrochemical Characterization of Photosystem I Encapsulated in Nafion – D. R. Baker (U.S. Army Research Laboratory), R. Simmerman (University of Tennessee at Knoxville), J. J. Sumner (U.S. Army Research Laboratory), B. D. Bruce (University of Tennessee at Knoxville), and C. A. Lundgren (U.S. Army Research Laboratory) Composition Dependence of Glucose Oxidation at Mediated Glucose Oxidase Bioanodes – Y. Feliciano and S. Calabrese Barton (Michigan State University) Insights into Enzymatic Bioelectrocatalysis – S. Babanova (University of New Mexico, Center for Emerging Energy Technologies), I. Matanovic (University of New Mexico), and P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies) Gas-Diffusion and Direct Electron Transfer-Type Bioanode for Hydrogen Oxidation with Oxygen-Tolerant [Nife]Hydrogenase As an Electrocatalyst – K. Kano (Kyoto University, Division of Applied Life Sciences, Graduate School of Agriculture, Kyoto University)

11:40

1323

12:00

1324

Adventures in the Engineering of the Small Laccase (SLAC) from Streptomyces Coelicolor for Incorporation into Enzymatic Biofuel Cell Cathodes – S. Banta, K. Garcia (Columbia University, Chemical Engineering), P. Atanassov, S. Babanova (University of New Mexico, Center for Emerging Energy Technologies), D. Baker, and W. Sheffler (Department of Biochemistry, University of Washington) Characterization of the Electron Transport Chain Metabolon Bioelectrocatalysis – L. Pelster (University of Utah) and S. D. Minteer (The University of Utah)

Bioelectroanalysis – 14:30 – 15:30 Co-Chair: Plamen Atanassov 14:30

1325

14:50

1326

15:10

1327

Electron Transfer Mechanisms in Nanomaterials-Incorporated Metalloprotein-Films on Electrodes – S. Krishnan, S. Kariate, C. Walgama, R. Nerimetla, R. Matlock, and G. Premaratne (Oklahoma State University) The Role of Lipid-Membrane in the Direct Electrochemistry of Human Liver-Microsomal Films – S. Krishnan, C. Walgama, R. Nerimetla (Oklahoma State University), D. Schildkraut, and J. F. Elman (Filmetrics Application Lab Rochester) Comparative Studies on Electrocatalytic Activities of Electrochemically and Chemically Reduced Graphene Oxide Noncovalently Modified with Tetrathiafulvalene for Glucose Biosensing – B. Kowalewska and A. Patyna (University of Warsaw, Department of Chemistry)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Bioelectroanalysis and Bioelectrocatalysis Poster Session – 18:00 – 20:00 •

1328

1329

Detection of Dopamine Efflux in the Nucleus Accumbens caused by Electrical Stimulation of the Rat Fornix by Fast Scan Cyclic Voltammetry – H. Shin, Y. Oh, D. Kim, and D. P. Jang (Department of Biomedical Engineering, Hanyang University) Effect of Humic Acid on the Electrochemical Performance of Microbial Fuel Cells (MFCs) – F. J. Rodriguez Valadez and C. Gonzalez Nava (Centro de Investigación y Desarrollo Tecnológico en Electroquímica)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


H6

1330

1331

Quantification of Nitric Oxide Produced By Breast Cancer Cells Stimulated By Persistent Luminescent Nanoparticles: A Study of Nanotoxicity Mechanism – G. Ramírez García (University of Guanajuato, Université Pierre et Marie Curie), S. Gutierrez Granados, M. Martinez Alfaro (University of Guanajuato), A. Varenne, F. DxOrlye (École Nationale Superiéure de Chimie de Paris), C. Richard, and N. Mignet (Unité de Technologies Chimiques et Biologiques pour la Santé) Modification of Electrodes for MFC Using Sludge from the Wastewater Treatment Plant – G. G. Ibañez-Redín, M. N. Chaur (Universidad del Valle, Departamento de Química, A. A. 25360, Cali - Colombia), E. Bravo (Universidad del Valle, Departamento de Biología, A. A. 25360, Cali - Colombia), and W. H. Lizcano-Valbuena (Universidad del Valle, Departamento de Química, A. A. 25360, Cali - Colombia)

11:20

1474

Materials and Applications – 14:00 – 18:00 Co-Chair: Hugh C. De Long 14:00

1475

14:40

1476

15:00

1477

Molten Salts and Ionic Liquids 19

Physical and Analytical Electrochemistry / Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 3, Moon Palace Resort

Power and Energy – 09:00 – 12:00 Co-Chair: Minoru Mizuhata 09:00

1469

09:40 10:00 1470

10:20

1471

10:40

1472

11:00

1473

Applications of Ionic Liquids in Electrochemical Energy Conversion and Storage – J. Ma, L. Seidl, W. Ju, E. Mostafa, L. Asen, S. Martens (Institut für Informatik VI, Technische Universität München), U. Stimming (Institute for Advanced Study, Technische Universität München, TUM CREATE), and O. Schneider (Institut für Informatik VI, Technische Universität München) Break High Temperature Operation of Lithium Secondary Batteries with Using Ionic Liquids – H. Matsumoto and K. Kubota (National Institute of Advanced Industrial Science and Technology (AIST)) Microstructure at the Ionic Liquid/ Electrode Interface – L. M. Haverhals, C. Zibart, B. Egan, and D. Parr (Bradley University) Inorganic-Organic Hybrid Ionic Liquid Electrolytes for Na Secondary Batteries – K. Matsumoto, R. Taniki, T. Nohira, and R. Hagiwara (Graduate School of Energy Science, Kyoto University) Zn-Sn Electrochemical Cells with Molten Salt Eutectic Electrolytes and Their Potential for Energy Storage Applications – N. Holubowitch, C. Lippert, J. Landon (University of Kentucky Center for Applied Energy Research), S. A. Odom (Department of Chemistry, University of Kentucky), S. Manek, and K. Liu (University of Kentucky Center for Applied Energy Research)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Determination of Charge and Mass Transfer for Molten Carbonate Fuel Cell Cathode Using NiO Coated Ring Electrode – S. Mitsushima (Yokohama National University), Y. Takeuchi (Green Hydrogen Research Center, Yokohama National University), Y. Kohno, and K. Matsuzawa (Yokohama National University)

15:20 15:40 1478

16:20

1479

16:40

1480

17:20

1482

17:40

1483

Use of Fluorescence Imaging and Ionic Liquids in the Study of Clay, Carbon, and Cellulose Based-Nanomaterials – J. W. Gilman (NIST) Synthesis and Characterizations of Cobalt Films Electrochemically Deposited from Aqueous and Non-Aqueous Media – T. Dushatinski, C. Huff, and T. M. AbdelFattah (Christopher Newport University) Preparation of Pt Nanoparticle-Adsorbed Carbon Nanotubes Using Room Temperature Ionic Liquid and Their Use as Electrocatalyst for Oxygen Reduction – S. Kuwabata, K. Yoshii, T. Tsuda (Department of Applied Chemistry, Graduate School of Engineering, Osaka University), and T. Torimoto (Department of Crystalline Materials Science, Graduate School of Engineering, Nagoya University) Break Cellulose-Chitosan-Keratin Composite Materials: Synthesis, Immunological and Antibacterial Properties – M. Rosewald, F. Y. S. Hou, T. M. Mututuvari, A. Harkins, and C. D. Tran (Marquette University) Laser Induced Natural Fiber Welding of Cellulosic Substrates – E. K. Brown, K. Dennis (U. S. Naval Academy), L. M. Haverhals (Bradley University), K. D. Sweely (U.S. Naval Academy), H. C. De Long (Air Force Office of Scientific Research), and P. C. Trulove (U. S. Naval Academy) The Utilization of Ionic Liquid Technology for the Degradation of Biopolymers – W. M. Reichert, T. Goodie, A. M. Pischek, A. C. Stenson, and J. Gayton (University of South Alabama) Natural Fiber Welded Composite Yarns – E. K. Brown, D. P. Durkin (U. S. Naval Academy), E. T. Fox (U.S. Naval Academy), L. M. Haverhals (Bradley University), K. D. Sweely (U.S. Naval Academy), H. C. De Long (Air Force Office of Scientific Research), and P. C. Trulove (U. S. Naval Academy) Ionic Liquid-Based Solvents for Natural Fiber Welding: Impact of Solvent System Composition – E. K. Brown (U. S. Naval Academy), L. M. Haverhals (Bradley University), D. M. Fox (American University), H. C. De Long (Air Force Office of Scientific Research), and P. C. Trulove (U. S. Naval Academy)

167

Wednesday, October 8


H7

Oxygen Reduction Reactions

14:40

1533

15:00

1534

15:20

1535

Physical and Analytical Electrochemistry / Battery / Energy Technology / High Temperature Materials Expo Center, 1st Floor, Universal 14, Moon Palace Resort

Oxygen Reduction Reactions VIII – 08:00 – 09:40 Co-Chairs: Johna Leddy and Deborah J Jones 08:00

08:40

09:20

1525

1526

1527

Novel Non-Carbon Support Compositions and Architectures: Elaboration, Characterisation, Integration and Fuel Cell Testing – D. J. Jones (University Montpellier 2, ICGM, Aggregates, Interfaces and Materials for Energy, CNRS Montpellier, France), J. Roziere (ICGM, Aggregates, Interfaces and Materials for Energy, CNRS Montpellier, France), S. Cavaliere (Institut Charles Gerhardt, Equipe AIME, Université Montpellier 2), and S. Subianto (ICGM Aggregates, Interfaces and Materials for Energy, CNRS Montpellier) Catalysis of the Oxygen Reduction Reaction: Thin Layer Sonoelectrochemistry – C. G. Duda and J. Leddy (University of Iowa) Recent Progress in New Nanocatalysts for Oxygen Reduction Reaction – S. Guo (Los Alamos National Laboratory)

Wednesday, October 8

Oxygen Reduction Reactions IX – 10:00 – 12:00 Co-Chairs: Helmut Baltruschat and Piotr Zelenay 10:00

1528

10:40

1529

11:20

11:40

1530

1531

Model Systems and Modeling of NonPrecious Metal Oxygen Reduction Catalysts – U. Martinez, E. F. Holby, G. M. Purdy, G. Gupta, A. Mohite, G. Wu, H. T. Chung, A. M. Dattelbaum, and P. Zelenay (Los Alamos National Laboratory) An Efficient Silver-Metal Oxide Hybrid Bifunctional Catalyst for Alkaline AirElectrodes: DEMS and RRDE Study – H. Baltruschat, H. M. A. Amin, L. Zan (University of Bonn), S. Ayata (Dokuz Eylul Univ, Fac Sci , Dept Chem, Kaynaklar Campus, TR-35160 Izmir, Turkey), and M. Soltani (University of Bonn) DFT Study of Oxygen Reduction Reaction on Pt-Zr Catalysts – B. V. Merinov, H. C. Tsai (California Institute of Technology), T. H. Yu (California State University, Long Beach), and W. A. Goddard III (California Institute of Technology) Mediation of the Oxygen Reduction in Non-Aqueous Lithium-Air Batteries – L. Yang, N. Garcia-Araez, and J. R. Owen (University of Southampton)

Oxygen Reduction Reactions X – 14:00 – 17:00 Co-Chairs: Pawel J. Kulesza, Robert A. Mantz, and Gautam Gupta 14:00

168

1532

Highly Tunable and Ordered GrapheneOxide-Based Materials for Energy Applications – U. Martinez, A. Mohite, G. M. Purdy, A. M. Dattelbaum, P. Zelenay, and G. Gupta (Los Alamos National Laboratory)

15:40 16:00 1536

16:20

1537

16:40

1538

H8

Nitrogen-Containing Carbon Nanostructures (CNx) Iron-NitrogenCarbon (Fe-N-C) as Non-Noble Metal Catalysts for Oxygen Reduction Reaction (ORR) in Acidic Media – U. S. Ozkan, K. Mamtani, D. Singh, J. Tian (The Ohio State University), and J. T. Miller (Argonne National Laboratory) Preparation of TaOx by Electrochemical Technique and Its Application to Electrocatalytic Oxygen Reduction – Z. Awaludin, M. Safuan, X. Ye, T. Okajima, and T. Ohsaka (Tokyo Institute of Technology) Pt-Lanthanide Alloys for Oxygen Reduction: Relating Active Surface Phase and Catalytic Performance – P. Malacrida, M. Escudero-Escribano, A. VerdaguerCasdevall (Technical University of Denmark), U. G. Vej-Hansen, J. Rossmeisl (Technical University of Denmark (DTU)), I. E. L. Stephens, and I. Chorkendorff (Technical University of Denmark) Break ORR Activity for Pt-Ni Nanoparticles on HOPG Prepared by Arc Plasma Deposition – N. Todoroki, T. Kato, S. Takahashi, and T. Wadayama (Graduate School of Environmental Studies,Tohoku University) Oxygen Reduction Reaction at MultiCopper Complexes Investigated by Modified Electrode and In Situ XAFS – I. Yagi (FC-Cubic TRA, Hokkaido University), M. Shibata, K. Kimijima, H. Notsu, K. Ogino, K. Inokuma (FCCubic TRA), N. Oyaizu, H. Uehara, S. Takakusagi, and K. Asakura (Hokkaido University) Separating Electron Transfer and Product Nucleation Sites on a Model Li-O2 Battery Cathode to Explore Proximity Relationships for ORR in Aprotic Organic Electrolytes – K. R. Zavadil and K. L. Harrison (Sandia National Laboratories)

Systems Electrochemistry

Physical and Analytical Electrochemistry / Energy Technology / Industrial Electrochemistry and Electrochemical Engineering Expo Center, 1st Floor, Universal 6, Moon Palace Resort

Dynamical Systems in Practical Applications – 08:00 – 09:30 Co-Chair: Istvan Z Kiss 08:00

08:20

1539

Systems Electrochemistry – H. Varela (Institute of Chemistry of São Carlos, University of São Paulo) and I. Z. Kiss (Saint Louis University) 1540 Keynote: In-Situ Visualization of NonLinear Phenomena during Metastable Pitting Corrosion on Stainless Steel – H. H. Rotermund (Dalhousie University, Halifax)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1541

The Electro-Oxidation of H2, CO in a Model PEM Fuel Cell: Oscillations, Chaos, Pulses – S. Kirsch (Volkswagen AG, Max Planck Institute for Dynamics of Complex Technical Systems), R. HankeRauschenbach (Max Planck Institute for Dynamics of Complex Technical Systems), and K. Sundmacher (Max Planck Institute for Dynamics of Complex Technical Systems, Otto-von-Guericke University Magdeburg, Process Systems Engineering)

Complexity in Multi-scale Systems – 10:00 – 12:00 Co-Chair: Hamilton Varela 10:00

1542

10:40

1543

11:00

1544

11:40

1545

Porosification of Silicon from the Viewpoint of Nonlinear Dynamics – K. Fukami (Department of Materials Scinence and Engineering, Kyoto University) Multi-Physics Modeling of Electrochemical Conversion of Carbon Dioxide to Formic Acid – S. Jain, C. Georgopoulou, A. Agarwal (DNVGL), E. Rode, N. Sridhar (Det Norske Veritas (USA), Inc.), and N. Kakalis (DNVGL) Electrochemical Regulation of the Cyanobacterial Circadian Oscillation – S. Nakanishi (The University of Tokyo) and K. Hashimoto (University of Tokyo) Electrochemistry of Inorganic Precipitates Formed in Self-Organizing Chemical Systems – L. M. Barge (NASA Astrobiology Institute) and M. J. Russell (Jet Propulsion Laboratory / California Institute of Technology)

Kinetics, Oscillations, and Control – 14:00 – 17:00 Co-Chair: Shuji Nakanishi 14:00

1546

14:20

1547

14:40

1548

15:00

1549

15:20

1550

Coupling Chemo-Mechanical Oscillators – P. Parmananda (Indian Institute of Technology Bombay) Electrochemical Micro-Oscillator Networks – Y. Jia (Saint Louis Unviersity) and I. Z. Kiss (Saint Louis University) Construction of Arnold Tongue Structures for Coupled Periodic Oscillators – F. Montoya, M. A. Rivera, J. Escalona (Universidad Autónoma del Estado de Morelos), and P. Parmananda (Indian Institute of Technology Bombay) Induced Coherence Resonance in an Electrochemical System – R. RicoMartínez (Instituto Tecnológico de Celaya), M. Calderón-Ramírez (Insituto Tecnológico de Celaya), E. RamírezÁlvarez (Universidad Autonóma del Estado de Morelos), and P. Parmananda (Indian Institute of Technology Bombay) Rotational Waves in Rings of Electrochemical Oscillators – M. L. Sebek and I. Z. Kiss (Saint Louis University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

15:40

1551

16:00

1552

16:20

1553

16:40

1554

Electrochemical Dissolution in the Presence of Time Delayed Feedback – L. Organ (Yeditepe University) Synergy in the Hydrazine Assisted ElectroOxidation of Formic Acid – E. G. Machado and H. Varela (Institute of Chemistry of São Carlos, University of São Paulo) Electrochemical and Chemical Mechanistic Aspects of Temporal and Spatiotemporal Instabilities in the Hydrogen Peroxide – Thiocyanate – Copper(II) Homogeneous Oscillator – M. Orlik (The University of Warsaw, Faculty of Chemistry) Kinetic Resistance: Concept for Elecrochemical and Catalytic Kinetics – G. S. Yablonsky (Parks College of Engineering, Aviation and Technology, Saint Louis University, St. Louis, USA)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort H8 Poster Session – 18:00 – 20:00 •

1555

1556

1557

1558

Spatiotemporal Patterns Formed on p-Type Silicon Electrodes during Electrochemical Dissolution – Y. Suzuki (Department of Materials Science and Engineering, Kyoto University), T. Urata (Kyoto University), K. Fukami (Department of Materials Scinence and Engineering, Kyoto University), A. Kitada (Department of Materials Science and Engineering, Kyoto University), and K. Murase (Department of Materials Scinence and Engineering, Kyoto University) Mechanism of Potential Oscillation Induced by Na2so4 and K2so4 in H2O2H2so4-Pt System – Y. Mukouyama, M. Hasegawa (Tokyo Denki University), and S. Nakanishi (The University of Tokyo) Effect of Hydration Property of Insulative Surfaces on Polypyrrole Thin Film Formation over the Surfaces – A. Koyama (Department of Materials Science and Engineering, Kyoto University), K. Fukami (Department of Materials Scinence and Engineering, Kyoto University), T. Yamauchi (Department of Advanced Materials Science and Technology, Niigata University), N. Nishi, T. Sakka (Kyoto University), A. Kitada (Department of Materials Science and Engineering, Kyoto University), and K. Murase (Department of Materials Scinence and Engineering, Kyoto University) Potential Oscillations in a PEMFC with a Pd/C Anode and Fed with H2/CO – J. A. Nogueira, P. P. Lopes, and H. Varela (IQSC-USP)

169

Wednesday, October 8

09:00


M1

Nanocarbon Fundamentals and Applications from Fullerenes to Graphene

11:20

1566

Nanocarbons / Dielectric Science and Technology / Physical and Analytical Electrochemistry / SMEQ Expo Center, 2nd Floor, Delta Room, Moon Palace Resort

Nanocarbon Fundamentals and Applications I – 08:40 – 11:40 Co-Chairs: R. Bruce Weisman and Steven Stevenson 08:40

1559

09:00

1560

Wednesday, October 8

09:20

1561

09:40 10:00 1562

10:20

1563

10:40

1564

11:00

1565

170

A Metal-Ion Adsorbent Based on Composite of Graphene Oxide/Poly (1-(3-aminopropyl) Pyrrole) – H. Qin, T. Gong (SKKU Advanced Institute of Nano Technology (SAINT)), Y. Cho (Department of Mechanical Engineering, SungKyunKwan University), C. Lee (SKKU Advanced Institute of Nano Technology (SAINT)), and T. Kim (Sungkyunkwan University) New Spectroscopic Methods for Characterizing Single-Walled Carbon Nanotubes – R. B. Weisman, J. K. Streit, S. M. Bachilo, and S. Ghosh (Rice University) EIS Study of the MWCNT Effect in MWCNT@TiO2 Anodes for Li‑ion Batteries – P. Acevedo-Peña (Instituto de Energías Renovables, Universidad Nacional Autónoma de México, 62580 Temixco, México), M. Haro (Photovoltaics and Optoelectronic Devices Group, Departament de FÄ±Ì sica, Universitat Jaume I, 12071 CastelloÌ , Spain), M. E. Rincón (Instituto de Enegías Renovables - Universidad Nacional Autónoma de México), J. Bisquert, and G. García-Belmonte (Photovoltaics and Optoelectronic Devices Group, Departament de Fı́sica, Universitat Jaume I, 12071 Castelló, Spain) Break Controlled CVD Growth of Carbon Nanotubes on Monolayer Graphene Substrates – Y. Kim, K. Kumar (Stevens Institute of Technology), F. T. Fisher (Stevens Institute of Techology), and E. H. Yang (Stevens Institute of Technology) Fabrication and Characterization of Conductive Transparent Film Based on Carbon Nanotube for Optoelectronic Devices – T. M. Abdel-Fattah and T. Dushatinski (Christopher Newport University) Highly Parallelized Carbon Nanotubes for Field-Effect Device Applications – M. Keyn and U. Schwalke (Institute for Semiconductor Technology and Nanoelectronics, Technische Universität Darmstadt) Selective Precipitation Strategies for Isolating Metallofullerenes – S. Stevenson (Indiana-Purdue University at Fort Wayne)

Carbon Nitrides: New Electroactive Materials for Energy Conversion and Storage Applications – A. B. Jorge Sobrido (University College London UCL), N. Mansor, R. Jervis (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK), F. Corà (Department of Chemistry, University College London, London WC1H 0AJ, UK), C. Gibbs (Electrochemical Innovation Lab, University College London, London WC1E 7JE, UK), P. F. McMillan (Department of Chemistry, University College London, London WC1H 0AJ, UK), and D. J. L. Brett (Electrochemical Innovation Lab, Department of Chemical Engineering, University College London, Torrington Place, London, WC1E 7JE, United Kingdom)

Nanocarbon Fundamentals and Applications II – 14:00 – 17:00 Co-Chairs: Steven Stevenson and R. Bruce Weisman 14:00

1567

14:20

1568

14:40

1569

15:00

1570

15:20

Perylenediimide-Graphene DonorAcceptor Nanoensembles: Synthesis, Characterization and Photophysics – N. Karousis (Theoretical and Physical Chemistry Institute, National Hellenic Research Foundation), L. Martin-Gomis (Instituto de Bioingenieria-Universidad Miguel Hernandez, Elche, Spain), K. Ohkubo (Osaka University), T. Hasobe (Department of Chemistry, Faculty of Science and Technology, Keio University), A. Sastre-Santos (División de Química Orgánica Instituto de Bioingeniería Universidad Miguel Hernández Edificio Vinalopó, Avda. Universidad s/n), S. Fukuzumi (Osaka Prefecture University), and N. Tagmatarchis (Theoretical and Physical Chemistry Institute, National Hellenic Research Foundation) Controllable Phosphorus Doped Graphene Field Effect Transistor Using Phosphosilicate-Glass Films – J. S. Yoon (Samsung Electronics Co., Ltd, Sungkyunkwan University) Improved Bilayer Graphene Transistors for Applications in Nanoelectronics – U. Schwalke (Institute for Semiconductor Technology and Nanoelectronics, Technische Universität Darmstadt) and P. Wessely (Technische Universität Darmstadt) Graphene-Based Hybrid Materials Incorporating Multichromophores – S. P. Economopoulos (Theoretical and Physical Chemistry Institute - National Hellenic Research Foundation) and N. Tagmatarchis (Theoretical and Physical Chemistry Institute, National Hellenic Research Foundation) Break

Meeting Program l October 5-9, 2014 l Cancun, Mexico


16:00

16:20

16:40

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Improved Resistive Memory Switching Characteristics of Gold Nanoparticles Embedded Graphene Oxide – G. Khurana (University of Puerto Rico, Rio Piedras), P. Misra (University of Puerto Rico), and R. S. Katiyar (Department of Physics, University of Puerto Rico-Rio Piedras) Processing of 2D Layered Materials for Supercapacitors Applications – V. Nicolosi (Chemistry school, Physics School, CRANN & AMBER,Trinity College Dublin), B. Mendoza, J. Cohelo (Trinity College Dublin), S. O’Brien (Physics school, CRANN,Trinity College Dublin), H. Pettersson (Physics School, Trinity College Dublin), E. McGuire, H. Nerl, E. Doherthy, E. Long, J. Barco, and J. Coleman (Trinity College Dublin) Study of Electrochemical Behavior of Hybrid Materials Based on GO/ PMo12/Conducting Polymer Obtained By Interfacial Polymerization – J. M. Baas-López, C. García- Chan (Yucatan Center for Scientific Research), A. K. Cuentas-Gallegos (Instituto de Energías Renovables-UNAM), and D. Pacheco (Yucatan Center for Scientific Research) Surrounding Media Sensitive Photoluminescence of Boron-Doped Graphene Quantum Dots – L. Fan (Beijing Normal University)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort

P1

Atomic Layer Deposition Applications 10

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 16, Moon Palace Resort

New Materials and Processes – 08:00 – 09:40 Co-Chairs: O. van der Straten and Thomas Henke 08:00

1624

08:40

1625

09:20

1626

Energy Applications I – 10:00 – 11:40 Co-Chairs: F. Roozeboom and Andrew G. Scheuermann 10:00

1627

10:40

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11:00

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Nanocarbons General Poster Session – 18:00 – 20:00 •

1575

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MWCNT TiO2 Composite Films for Li Ion Batteries Anodes with Improved Rate Capability – P. Acevedo-Peña, J. C. CalvaYañez (Instituto de Energías Renovables, Universidad Nacional Autónoma de México), and M. E. Rincón (Instituto de Enegías Renovables - Universidad Nacional Autónoma de México) Synthesis and Characterization of Graphene-Polyaniline Composites Preparated in Site for Fuel Cell Applications – E. Pereyra (CIICAp), C. Menchaca (Universidad Autonoma del Estado de Morelos), U. Cano (IEE), L. Albañil, R. Guardian, and J. Uruchurtu (CIICAp) EIS Evaluation and Synthesis Nylon/ Graphene Oxide Electrospun Composite Coating – C. Menchaca, C. García (Universidad Autonoma del Estado de Morelos), M. A. García (UAM-Iztapalapa, Departmento de Química), and J. Uruchurtu (CIICAp) Structural and Electronic Properties of Carbon-Nanotube/Graphene Junction: A First-Principles Study – B. Akdim and R. Pachter (Air Force Reseach Lab) Direct Hybridization of Graphene and Metal Oxide Nanoparticles for High Performance Electrochemical Supercapacitors – H. Park and T. H. Han (Hanyang University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Heteroleptic Precursors for Atomic Layer Deposition – J. Niinistö, T. Blanquart, S. Seppälä, M. Ritala, and M. Leskelä (University of Helsinki) Design, Synthesis and ALD Assessment of Organometallic Precursors for Semiconductor Applications – C. Dussarrat (Air Liquide Laboratories) Thin-film Deposition of Silicon Nitrides and Oxides from Trihydridosilanes – B. Arkles, Y. Pan (Gelest Inc.), and A. Kaloyeros (College of Nanoscale Science and Engineering, The University at Albany-SUNY)

Doping Mechanism in Transparent Conductive ZnO Films Grown by Atomic Layer Deposition – D. J. Lee (Brown University), J. Y. Kwon (Yonsei University), S. H. Kim (Yeungnam University), H. M. Kim (Seoul Nationl University), J. Xu (Brown University), and K. B. Kim (Seoul National University) Tuning Photoresponse of Ultrathin ZnO Films Using Few Angstrom Al2O3 Overlayers – F. Wu Sr., Y. Myung, and P. Banerjee (Washington University in St. Louis) Selective-Area Atomic Layer Deposition of Copper Nanostructures for Direct ElectroOptical Solar Energy Conversion – B. G. Willis, J. Qi, X. Jiang (University of Connecticut), J. Chen, G. J. Weisel, and D. T. Zimmerman (The Pennsylvania State University)

Energy Applications II – 14:00 – 15:20 Co-Chairs: O. van der Straten and Parag Banerjee 14:00

1630

14:20

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Enhanced Visible-Light Photoelectrochemical Performance of Titana Nanotubes Modified by Atomic Layer Deposited Cobalt Oxide – B. Huang, Y. Wen, B. Shan (State Key Laboratory of Material Processing and Die &Mould Technology, School of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, Hubei, People’s Republic of China), and R. Chen (State Key Laboratory of Digital Manufacturing Equipment and Technology, School of Mechanical Science and Engineering, Huazhong University of Science and Technology) Electrical Properties of High Mobility Ultrathin Amorphous Indium Zinc Oxide Deposited by Atomic Layer Deposition – Y. H. Cho (Seoul National University), D. J. Lee (Brown University), S. Y. Cho, H. M. Kim, and K. B. Kim (Seoul National University) 171

Wednesday, October 8

15:40


14:40

1632

The Effect of SPA-SiO2 Tunnel Oxide Thickness for Metal-Insulator-Silicon Photoelectrochemical Cells – A. G. Scheuermann, D. Q. Lu (Stanford University), T. Ito (Stanford University, Tokyo Electron Ltd.), C. E. D. Chidsey, and P. C. McIntyre (Stanford University)

Plasmonics/Closing Remarks – 15:20 – 16:50 Co-Chairs: J. W. Elam and F. Roozeboom 15:20

16:00

1633

1634

16:40

P3

Self Assembled Metamaterials Formed via Plasma Enhanced ALD of Ag Thin Films – S. M. Prokes (Naval Research Lab) and O. J. Glembocki (U.S. Naval Research Laboratory, 4555 Overlook Ave, S.W., Washington, D.C., USA) Plasmonics and Metamaterials with Transparent Conducting Oxides – O. L. Muskens, M. Abb, Y. Wang, C. H. de Groot, H. Chong (University of Southampton), and B. Sepulveda (Research Center on Nanoscience and Nanotechnology CIN2(CSIC)) Concluding Remarks

Wednesday, October 8

08:40

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10:40

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11:00

1665

172

12:20

P5

Invited; Positron Annihilation Spectroscopy on Open-Volume Defects in Group IV Semiconductors – J. Slotte, F. Tuomisto, J. Kujala, A. M. Holm, N. Segercrantz, S. Kilpeläinen, K. Kuitunen (Department of Applied Physics, Aalto University), E. Simoen (imec vzw), F. Gencarelli, and Y. Shimaru (Imec) Invited; Synchrotron Radiation Based X-ray Microdiffraction of Advanced Semiconductor Materials – A. Sakai (Osaka University)

Invited; Single Dislocations as Nanostructure Devices: Physics and Applications – M. Reiche (Max Planck Institute of Microstructure Physics), M. Kittler (Joint Lab IHP/BTU), H. Uebensee (CIS Research Institute of Microsensorics and Photovoltaics), E. Pippel, and W. Erfurth (Max Planck Institute of Microstructure Physics) Temperature Dependent Young’s Modulus of Si and Ge – J. Vanhellemont (Ghent University), A. K. Swarnakar, and O. Van der Biest (KU Leuven) Invited; Nature of Point Defects at HighMobility Semiconductor/Interfaces Probed by Electron Spin Resonance: Thermal GaAs/GaAs-Oxide Structures – A. Stesmans, S. Nguyen (Department of Physics, University of Leuven), and V. V. Afanas’ev (University of Leuven)

Invited; Light Induced Degradation in Compensated B-Doped Czochralski Silicon – D. Yang (Zhejiang University, State Key Lab of Silicon Materials) Concluding Remarks

Processing Materials of 3D Interconnects, Damascene, and Electronics Packaging 6

Electronics and Photonics / Dielectric Science and Technology / Electrodeposition Expo Center, 1st Floor, Universal 13, Moon Palace Resort

Fundamentals in Electrodeposition II – 07:40 – 10:00 Co-Chairs: Masanori Hayase and Rohan Akolkar 07:40

1699

08:00

1700

08:20

1701

08:40

1702

09:00

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09:20

1704

Electronics and Photonics Expo Center, 1st Floor, Universal 17, Moon Palace Resort

Point and Extended Defects – 10:00 – 12:40 Co-Chairs: Eddy Simoen and Andre Stesmans 10:00

1666

High Purity and High Mobility Semiconductors 13

Characterization – 08:00 – 09:20 Co-Chairs: Andre Stesmans and Eddy Simoen 08:00

11:40

Electrodeposited Copper Wire for Transparent Conductive Film – K. Kondo, Y. Ikeda, M. Yokoi, N. Okamoto, and T. Saito (Osaka Prefecture University) Applying the Co-Injection Test to Extract Difficult to Measure Process Parameters – L. Boehme and U. Landau (Case Western Reserve University) Development of Glyoxylic Acid Based Electroless Copper Deposition on Ruthenium – F. Inoue (Tohoku University/ IMEC), H. Philipsen, M. van der Veen, S. Armini, S. Van Huylenbroeck, H. Struyf (IMEC), S. Shingubara (Kansai University), and T. Tanaka (Tohoku University) Cu Displacement Plating on Electroless Plated CoWB Layer on SiO2 and Its Adhesion Property – K. Ohta (Kansai University.), F. Inoue (Tohoku University/ IMEC), T. Shimizu, and S. Shingubara (Kansai University) Glyoxylic Acid as Reducing Agent for Electroless Copper Deposition on Cobalt Liner – F. Inoue (Tohoku University/ IMEC), H. Philipsen, M. van der Veen, S. Van Huylenbroeck, S. Armini, H. Struyf (IMEC), S. Shingubara (Kansai University), and T. Tanaka (Tohoku University) Stability Evaluation of Non-Agglomerated Pd Nanoparticle Catalysts for Electroless Deposition – N. Nakamura, J. Taniuchi, T. Sone, K. Sasaki (Tanaka Kikinzoku Kogyo K.K.), F. Inoue (Tohoku University), T. Shimizu, and S. Shingubara (Kansai University)

Copper Damascene – 10:20 – 12:00 Co-Chairs: Wei-Ping Dow and F. Roozeboom 10:20

1705

Impurity in the Electroplated Sub-50nm Cu Lines – Q. Huang (IBM, T. J. Watson Research Center), A. Avekians (IBM T. J. Watson Research Center), S. Ahmed (IBM Semiconductor Research & Development Center), C. Parks (IBM Semiconductor Research and Development Center), B. Baker-O’Neal (IBM, T. J. Watson Research Center), S. Kitayaporn (IBM T.J. Watson Research Center), A. Sahin (IBM, T. J. Watson Research Center), Y. Sun (IBM T. J. Watson Research Center), and T. Cheng (IBM Semiconductor Research & Development Center) Meeting Program l October 5-9, 2014 l Cancun, Mexico


1706

11:00

1707

11:20

1708

11:40

1709

Effect of Flow and Wafer Rotation on the Metallization of Copper Interconnects – L. Boehme and U. Landau (Case Western Reserve University) Electroless Deposition of Cu-Mn Alloy – L. Yu and R. Akolkar (Case Western Reserve University) Barrier Metal Slurry for Low Defect Copper Damascene Chemical Mechanical Polishing – H. Kim, K. Seo, J. Moon, H. Kim, and H. Hwang (Memory Clean/CMP Technology Team, Samsung Electronics) Case Study of Early Detection of Iron Contamination in Copper Damascene Plating Process by In-Situ Electrochemical Sensor – A. Jaworski, H. Wikiel, K. Wikiel (Technic, Inc.), P. Holverson, and A. Nelson (Texas Instruments, Inc.)

P6

Semiconductor Wafer Bonding 13: Science, Technology, and Applications

Electronics and Photonics Expo Center, 1st Floor, Universal 9, Moon Palace Resort

Other Wafer Bonding Applications – 07:50 – 09:20 Co-Chairs: Helmut Baumgart and Tadatomo Suga 07:50 08:00 1745

Electronics Packaging – 14:00 – 15:40 Co-Chairs: S. Mathad and Shoso Shingubara 14:00

14:20

1710

1711

14:40

1712

15:00

1713

15:20

1714

Electrodeposition and Characterisation of Novel Ni-NbOx Composite Coatings as a Diffusion Barrier for Liquid Solder Interconnects - Part II: Diffusion Barrier Performance – J. Wang, G. D. Wilcox (Department of Materials, Loughborough University, UK), R. J. Mortimer (Department of Chemistry, Loughborough University, UK), C. Liu (School of Mechanical and Manufacturing Engineering, Loughborough University, UK), and M. A. Ashworth (Department of Materials, Loughborough University, UK) Comparison of Cu-Sn Compound Formation Between Snag and Pure Sn Solder Bumps by EBSD – U. H. Lee (Samsung Electronics, Thin Film Technology Team), H. J. Lee, S. H. Kim, C. M. Park, H. K. Shin (Department of Materials Science and Engineering Dong-A University), J. Y. Bae (Samsung Electronics, Thin Film Technology Team), and J. Won (Thin film technology team, Memory Division, Samsung electronics) High Sensitivity, Positive Tone, Low-k Polynorbornene Permanent Dielectric for Electronics Packaging – B. K. Mueller, J. Schwartz, A. Sutlief, and P. A. Kohl (Georgia Institute of Technology) On the Fabrication of Backside Illuminated Image Sensors: Bonding Oxide, Edge Trimming and CMP Rework Routes – C. Cavaco, L. Peng, F. Sebaai, G. Verbinnen, J. Visker, J. Olmen, D. S. Tezcan, and H. Osman (Imec) Advanced Process Control of Nickel Electrodeposition for Packaging in Semiconductor Industry – E. Shalyt, J. Wang, V. Parekh, and M. MacEwan (ECI Technology)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

08:40

1746

09:00

1747

Introductory Remarks Invited: Direct Bonding: A Key Enabler for 3D Monolithic Integration – L. Brunet (CEA-LETI MINATEC Campus), P. Batude (CEA, LETI, MINATEC Campus), F. Fournel, L. Benaissa, C. FenouilletBeranger (CEA-LETI MINATEC Campus), L. Pasini (STMicroelectronics), F. Deprat, B. Previtali, F. Ponthenier (CEALETI MINATEC Campus), A. Seignard (CEA, LETI, MINATEC Campus), C. Euvrard-Colnat (CEA-LETI MINATEC Campus), M. Rivoire, P. Besson, C. Arvet (STMicroelectronics), E. Beche (CEA, Leti, Minatec Campus), O. Rozeau, O. Billoint, O. Turkyilmaz (CEA-LETI MINATEC Campus), F. Clermidy, T. Signamarcheix (CEA, LETI, MINATEC Campus), and M. Vinet (CEA-LETI MINATEC Campus) Three-Dimensional Integration of Fully Depleted Silicon-on-Insulator Transistor Substrates for CMOS Image Sensors Using Au/SiO2 Hybrid Bonding and XeF2 Etching – K. Hagiwara, M. Goto, H. Ohtake, Y. Iguchi (NHK Science and Technology Research Laboratories), T. Saraya, H. Toshiyoshi, E. Higurashi, and T. Hiramoto (The University of Tokyo) Development of Materials Integration for Laser Gain Media: Single Crystals and Ceramic (Polycrystalline) Materials and Applications – J. McKay, T. Bai (UCLA), and M. S. Goorsky (University of California, Los Angeles)

Low Temperature Wafer Bonding – 10:00 – 12:00 Co-Chairs: Mark Goorsky and Takehito Shimatsu 10:00

1748

10:20

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Room-Temperature Wafer Direct Bonding Using Ne-Beam Surface-Activation – H. Takagi (National Institute of Advanced Industrial Science and Technology (AIST)), Y. Kurashima (National institure of Advanced Industrial Science and Technology (AIST)), and A. Maeda (AIST) Surface Preparation of Cu-Cu NonThermal Compression Bonding for Wafer-to-Wafer 3D Stacking – D. Kwon (LSI Technology Development Team, System LSI Division, Samsung Electronics Co., Ltd.), Y. U. Song (LSI Technology Development Team, System LSI Division, Samsung Electronics Co.,Ltd), P. Kang (Process Development Team, Semiconductor R&D Center,Samsung Electronics Co., Ltd), T. Oh, C. R. Moon (LSI Technology Development Team, System LSI Division, Samsung Electronics Co.,Ltd), and D. Lee (LSI Technology Development Team, System LSI Division, Samsung Electronics Co., Ltd) 173

Wednesday, October 8

10:40


10:40

1750

11:00

1751

11:20

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11:40

1753

Combined Surface-Activated Bonding (SAB) Technologies for New Approach to Low Temperature Wafer Bonding – R. He, M. Fujino (The University of Tokyo), A. Yamauchi (Bondtech Co., Ltd.), and T. Suga (The University of Tokyo) Monolithic Thin Wafer Stacking Using Low Temperture Direct Bonding – J. Burggraf, H. Wiesbauer, J. Bravin, and V. Dragoi (EV Group) Novel Surface Preparation Methods for Covalent and Conductive Bonded Interfaces Fabrication – C. Floetgen, N. Razek, V. Dragoi, and M. Wimplinger (EV Group) Enhancement of Bonding Strength for Nitrogen-Plasma Actived Low Temperature Si3N4/Si3N4 Wafer Bonding by Hydrofluoric Pre-dip – F. S. Lo, C. C. Chiang, and T. H. Lee (Dept. of Mechanical Engineering, National Central University)

16:20

1759

16:40

P7

SiGe, Ge, and Related Compounds: Materials, Processing, and Devices 6 Electronics and Photonics Expo Center, 1st Floor, Universal 8, Moon Palace Resort

Related Compounds 1 – 08:00 – 09:40 Co-Chairs: Pouya Hashemi and M. Bauer 08:00

1807

08:40

1809

09:10

1810

Metal Bonding and 3D-Integration – 14:00 – 17:00 Co-Chairs: Roy Knechtel and Mark Goorsky 14:00

1754

1755

15:20

1756

Wednesday, October 8

14:40

15:40

16:00

174

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1758

Invited: Room Temperature Bonding Using Thin Metal Films (Bonding Energy and Technical Potential) – T. Shimatsu (FRIS, Tohoku University, RIEC, Tohoku University), M. Uomoto, and H. Kon (FRIS, Tohoku University) Invited: Reactive Bonding with Integrated Reactive and Nano Scale Energetic Material Systems (iRMS): State-of-theArt and Future Development Trends – J. Braeuer, J. Besser (Fraunhofer Institute for Electronic Nanosystems (ENAS)), S. Hertel (Fachhochschule Zwickau), R. Masser (Chemnitz University of Technology), W. Schneider (Microelectronic Packaging Dresden GmbH), M. Wiemer (Fraunhofer Institute for Electronic Nanosystems (ENAS)), and T. Gessner (Fraunhofer Institute for Electronic Nano Systems, Chemnitz University of Technology) Modeling and Integration Phenomena of metal-metal direct bonding technology – L. Di Cioccio (CEA/LETI minatec campus), F. Baudin (MINATEC), V. Delaye (CEA-LETI), P. H. Jouneau (CEA), T. Signamarcheix (CEA, LETI, MINATEC Campus), F. Rieutord (CEA, INAC), and P. Gergaud (CEA, LETI Minatec campus) Voiding Phenomena in Copper-Copper Bonded Structures: Role of Creep – P. Gondcharton, B. Imbert (CEA, LETI, MINATEC Campus), L. Benaissa (CEALETI MINATEC Campus), and M. Verdier (CNRS, SIMaP) Formic Acid Treatment with Pt Catalyst for Cu Direct Bonding at Low Temperature – T. Suga (The University of Tokyo)

Optimization of Low Temperature CuCu Wafer Bonding Using Advanced Analytical Methods – B. Rebhan (EV Group, Christian Doppler Laboratory for Microscopic and Spectroscopic Material Characterization), M. Wimplinger (EV Group), and K. Hingerl (Center of Surfaceand Nanoanalytics, Johannes Kepler University, Christian Doppler Laboratory for Microscopic and Spectroscopic Material Characterization) Concluding Remarks

Ge Condensation Using Rapid Thermal Oxidation for SGOI Substrate Preparation – O. Gourhant, C. Pribat, D. Barge (STMicroelectronics), V. Mazzocchi, F. Andrieu (CEA, LETI), F. Abbate, M. Juhel, C. Gaumer, E. Baylac, A. Pofelski, M. Bidaud, and G. Serventon (STMicroelectronics) Wrinkling Graphene with Bacteria and Functionalization of MoS2 for Electronic Applications – D. Briggs, S. Deng, and V. Berry (University of Illinois at Chicago) Thin Epitaxial Film of Ge and III-V Directly Bonded onto Si Substrate – T. Maeda (AIST), E. Mieda (National Institute of Advanced Industrial Science and Technology (AIST)), H. Ishii, T. Itatani, H. Hattori, T. Yasuda, A. Maeda (AIST), Y. Kurashima, H. Takagi (National Institute of Advanced Industrial Science and Technology (AIST)), T. Aoki, T. Yamamoto, O. Ichikawa, T. Osada (Sumitomo Chemical), T. Takada, M. Hata (Sumitomo Chemical Co., Ltd.), J. Yugami, A. Ogawa, T. Kikuchi, and Y. Kunii (Hitachi Kokusai Electric Inc.)

Joint FET and Strain 2: Tunnel FETs and Strained Bulk and SOI “Finned” FETs – 10:25 – 12:05 Co-Chairs: Atsushi Ogura and Y. Yee Chia 10:25

1815

10:55

1816

11:15

1817

Strained SiGe on Insulator FinFETs: a P-FET Candidate for 10nm Node – P. Hashemi, K. Balakrishnan, A. Majumdar, S. Engelmann, M. Hopstaken, W. Kim, J. A. Ott, E. Leobandung, and D. G. Park (IBM T.J. Watson Research Center) Atomistic Modeling of Strained SiGe Nanofins – S. T. Dunham, H. Lai, and R. Chen (University of Washington) SOI and Bulk FinFET Alternatives from the Perspective of Strain Engineering – I. V. Peidous, C. Lottes, and C. Jost (SunEdison Semiconductor, Ltd.)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1818

Challenges and Opportunities in the Design of Tunnel FETs: Materials, Device Architectures, and Defects – D. Esseni (University of Udine), M. G. Pala (IMEPLAHC, Grenoble-INP), A. Revelant, P. Palestri, L. Selmi (University of Udine), M. Li, G. Snider, D. Jena, and H. G. Xing (University of Notre Dame)

Epitaxy 1: Low-dimensional Epitaxial Systems – 14:55 – 16:45 Co-Chairs: Alois Lugstein and C. Merckling 14:55

1822

15:25

1823

15:45

1824

16:05

1825

Expo Center, 1st Floor, Universal 7, Moon Palace Resort Joint Epitaxy & Related Compounds 1: III-V Compounds – 10:25 – 12:05 Co-Chairs: A. Hikaviv and Masahiko Hata 10:25

10:45

11:15

11:45

1811

1812

1813

1814

Influence of Trench Width on III-V Nucleation during InP Selective Area Growth on Patterned Si(001) Substrate – S. Jiang (IMEC, K.U.Leuven), C. Merckling, A. Moussa, W. Guo, N. Waldron, M. Caymax (IMEC), W. Vandervorst (IMEC, KU Leuven), M. Seefeldt (K.U.Leuven), and M. Heyns (IMEC, KU Leuven) Selective-Area Metal Organic Vapor-Phase Epitaxy of III-V on Si: What About Defect Density? – C. Merckling, N. Waldron (IMEC), S. Jiang (KU Leuven, IMEC), W. Guo, K. Barla (IMEC), M. Heyns (IMEC, KU Leuven), N. Collaert, A. Thean (IMEC), and W. Vandervorst (IMEC, KU Leuven) Monolithic Integration of InP Based Structures on Silicon for Optical Interconnects – H. Kataria, W. Metaferia (KTH-Royal Institute of Technology), C. Junesand (Epiclarus AB), Y. T. Sun, and S. Loududoss (KTH-Royal Institute of Technology) Fabrication of Relaxed Germanium on Insulator via Room Temperature Wafer Bonding – A. Asadollahi, T. Zabel, G. Roupillard, H. H. Radamson, P. E. Hellström, and M. Östling (KTH Royal Institute of Technology)

Expo Center, 1st Floor, Universal 8, Moon Palace Resort Emerging Devices and Applications 1: Quantum Effects/Spintronics – 13:20 – 14:40 Co-Chairs: Daniel R. Ward and Antonio Samarelli 13:20

1819

13:50

1820

14:10

1821

Spin Transport in Germanium – R. K. Kawakami (The Ohio State University, University of California, Riverside) Spin Transport in Ge Nanowires for Diluted Magnetic Semiconductor-Based Nonvolatile Transpinor – J. Tang, T. Nie, and K. L. Wang (University of California, Los Angeles) Germanium at the Atomic Scale – J. E. Goldberger (The Ohio State University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Three-Dimensional Epitaxial Si1-XGex, Ge and SiC Crystals on Deeply Patterned Si Substrates – H. von Känel (ETH Zürich), F. Isa (ETH Zürich, Politecnico di Milano), C. V. Falub, E. J. Barthazy, E. Müller Gubler (ETH Zürich), D. Chrastina, G. Isella (Politecnico di Milano), T. Kreiliger, A. G. Taboada (ETH Zürich), M. Meduna (Masaryk University), R. Kaufmann, A. Neels, A. Dommann (EMPA), P. Niedermann (CSEM Neuchâtel), F. Mancarella (CNR-IMM Bologna), M. Mauceri, M. Puglisi (Epitaxial Technology Center Catania), D. Crippa (LPE Milano), F. La Via, R. Anzalone, N. Piluso (IMMCNR Catania), R. Bergamaschini, A. Marzegalli, and L. Miglio (Università di Milano Bicocca) Lateral Gemanium Growth for Local GeOI Fabrication – Y. Yamamoto, M. A. Schubert, C. Reich (IHP), and B. Tillack (IHP, Technische Universität Berlin) Morphological Instability of High Ge Percent SiGe Films Grown by Ultra-High Vacuum Chemical Vapor Deposition – J. Hart, R. Hazbun (University of Delaware), J. Nakos, D. Siegel, C. Funch (IBM Microelectronics Division), J. Kolodzey (University of Delaware), and D. L. Harame (IBM Microelectronics Division) Use of a Purged FOUP to Improve H-Terminated Silicon Surface Stability Prior to Epitaxial Growth – K. Wostyn (IMEC), D. Rondas, K. Kenis, R. Loo (imec vzw), A. Y. Hikavyy (IMEC), B. Douhard, P. W. Mertens, F. Holsteyns (imec vzw), S. De Gendt (imec vzw, University of Leuven), L. D’Urzo, and L. Van Autryve (Entegris)

Workshop on Next Generation Devices – 18:00 – 20:30 Co-Chair: Krishna C. Saraswat

Q2

Fundamentals and Applications of Microfluidic and Nanofluidic Devices 2 Electronics and Photonics / Physical and Analytical Electrochemistry Expo Center, 1st Floor, Universal 10, Moon Palace Resort

Droplets, Boundary Effects and Particulate Flows – 08:05 – 12:00 Co-Chairs: Shizhi Qian and Guoqing Hu 08:05 08:10 1936

08:50

1937

Introductory Remarks Continuous Electrokinetic Separation of Particles Via Wall-Induced Non-Inertial Lift – X. Lu and X. Xuan (Department of Mechanical Engineering, Clemson University) Simulation of the Cell Electrofusion Chip – X. Han (Key Laboratory of Biorheological Science and Technology (Chongqing University), Ministry of Education, Chongqing University, Chongqing), J. Yang, N. Hu, and Y. J. Liao (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) 175

Wednesday, October 8

11:35


09:10

1938

Wednesday, October 8

09:30 10:00 1939

10:40

1940

11:00

1941

11:20

1942

11:40

1943

Electrokinetic-Flow Driven Rectification of Ion Current in a Tunable Polymer Nanopore – L. H. Yeh, M. J. Huang (Department of Chemical and Materials Engineering, National Yunlin University of Science and Technology), and S. Qian (Old Dominion University) Break Deformation and Approaching of Droplet Pair in a Microchannel under AC Electric Fields – X. Chen, C. Xue, and G. Hu (Institute of Mechanics) Electrokinetic Trapping and Patterning of Colloidal Particles in Asymmetric Ratchet Microchannels – A. Kale (Clemson University), X. Lu (Department of Mechanical Engineering, Clemson University), S. Patel (Clemson University), and X. Xuan (Department of Mechanical Engineering, Clemson University) Influence of Lipid Droplet Dripping on the Formation of Lipid Film and Liposomes – W. M. Li, J. Yang (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University), H. Y. Luo, Y. J. Liao (Key Laboratory of Biorheological Science and Technology (Chongqing University), Ministry of Education, Chongqing University, Chongqing 400030, China), and N. Hu (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) Surface Charge Properties of Nanoparticle: Size Dependency and Boundary Effect – S. Atalay (Old Dominion University), A. Beskok (Southern Methodist University), and S. Qian (Old Dominion University) Simulation on the Microelectrode of Cell Electrofusion Chip – H. Xianwei (Ministry of Education)

15:20

1947

15:40

1948

Short Summaries of Posters – 16:15 – 17:00 Co-Chairs: Helmut Baumgart, Ali Beskok, J. P. Hsu, S. W. Joo, Ashutosh Sharma, Shizhi Qian, and Petr Vanýsek Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Q2 Poster Session – 18:00 – 20:00 •

1949

1950

1951

1952

Microfluidic Devices and Processes – 14:00 – 16:00 Co-Chairs: Helmut Baumgart and Chien-Hung Wu 14:00

1944

14:40

1945

15:00

1946

176

Centrifugation and NegativeDielectrophoresis Assisted Cell Separation Method – X. Han (Key Laboratory of Biorheological Science and Technology (Chongqing University), Ministry of Education, Chongqing University, Chongqing), J. Yang, N. Hu, and Y. J. Liao (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) Size-Based Separation of Particles and Biological Cells Using Surface Acoustic Waves – Y. Ai (Singapore University of Technology and Design) Synthesis and Characterization of Silver-Doped TiO2 Nanotubes on DyeSensitized Solar Cells – C. H. Wu (Dept. of Electronics Eng., Chung Hua Univ., Hsinchu, Taiwan, R.O.C.), K. S. Lin, and C. H. Yang (Dept. of Chemical Eng. and Materials Science/Fuel Cell Center, Yuan Ze University, Chung-Li, Taiwan, ROC)

Micro-Fabrication of a Compact AirBreathing Microfluidic Fuel Cell and Its Electrochemical Evaluation for Formic Acid and Glucose – U. Chávez Sr., A. Dector Sr., A. Moreno Sr. (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), and L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica) Design and Performance of Microdevices for High-Efficiency Sterilization of Bacteria – J. Yang, H. Y. Luo, N. Hu, Y. J. Liao (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University), and L. Zeng (Key Laboratory of Biorheological Science and Technology (Chongqing University), Ministry of Education, Chongqing University, Chongqing)

Electroformation of Guvs on Microchip with Coplanar Microelectrodes – Q. Wang, J. Yang, Y. J. Liao, N. Hu, and H. Y. Luo (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) Simulation and Experimental Studies of the Impact of EOF on the Electroformation of GUVs – Q. Wang, J. Yang, N. Hu, Y. J. Liao, and H. Y. Luo (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) Study on Processing Technique of 3-D PDMS-Ag Composite Microelectrodes Integrated in Microfluidic Systems – F. Jiang, X. L. Zheng, L. Chen, D. Y. Zhang, N. Hu, Y. J. Liao, and H. Y. Luo (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) Design of a Microfluidic Chip System Based on Magnetoelastic Sensors for Blood Coagulation Measurement – X. Chen, J. Yang, N. Hu, H. Y. Luo, X. M. Gao, L. J. Song, and Y. J. Liao (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1953

1954

Q3

1955

Electroformation on 3D Chip with “Holes” and “Inlands” – Q. Wang, J. Yang, N. Hu, Y. J. Liao, and H. Y. Luo (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) Study on a Microchip-Integrated Hemorrheology Analysis System – L. Chen, X. L. Zheng, N. Hu, F. Jiang, B. W. Lin, J. Yang, Y. J. Liao, and H. Y. Luo (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University) Design and Fabrication of Ag / AgCl Reference Electrode Based on PDMS Conductive Composite Material – L. Chen, X. L. Zheng, N. Hu, F. Jiang, F. Zheng, H. Y. Luo, J. Yang, and Y. J. Liao (State Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University)

GaN and SiC Power Technologies 4

Electronics and Photonics / Dielectric Science and Technology Expo Center, 1st Floor, Universal 20, Moon Palace Resort

10:50

1997

Closing Remarks – 11:10 – 11:30 Co-Chairs: Krishna Shenai and Mietek Bakowski

Q4

Low-dimensional Nanoscale Electronic and Photonic Devices 7

Electronics and Photonics / Dielectric Science and Technology / Sensor Expo Center, 1st Floor, Universal 19, Moon Palace Resort

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part VI – 08:30 – 11:40 Co-Chairs: Jr-Hau He and Guihua Yu 08:30

2021

09:00

2022

09:30 10:00 2023

GaN Materials and Devices – 08:20 – 09:40 Co-Chairs: Mietek Bakowski and N. Ohtani 08:20

08:40

09:00

09:20

1991

1992

1993

1994

Investigation on Polarization Induced Electro-Optical Property of GaN LED Using TEM-EBIC Combined with Cathodoluminescenc – M. H. Sheen, S. D. Kim, and Y. Kim (Seoul National University) Improvement of GaN Deep Etched Surface State by Fluorination Dedicated to Power Devices – N. Gosset (GREMI CNRS-Université d’Orléans), J. Ladroue (STMicroelectronics), T. Tillocher (GREMI CNRS/Université d’Orléans), P. Lefaucheux (GREMI CNRSUniversité d’Orléans), M. Boufnichel (STMicroelectronics), and R. Dussart (GREMI CNRS-Université d’Orléans) Study of Ti-Rich and Al-Rich Contact Metallization for AlGaN/GaN HEMT Power Devices – D. Bertrand, M. Fayolle (CEA-LETI), E. Blanquet (SIMaP), A. Torres (CEA-LETI), and F. Volpi (SIMaP) Characterization of GaN Switches for Solar Invertors – T. Gachovska, N. Radimov, C. Gerolami (Solantro Semiconductor Corp.), R. Orr (aSolantro Semiconductor Corp.), J. L. Hudgins (University of Nebraska), and K. Shenai (Argonne National Laboratory)

10:30

2024

11:00

2025

11:20

2026

1995

10:30

1996

Accurate Estimation of Switching Losses in SiC Power Mosfets – K. Shenai (Argonne National Laboratory) High-Heat-Resistance Polymers for SiC Power Modules – A. Takahashi (Yokohama National University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Templated Shadowing-Growth for Photonics and Plasmonics – M. Suzuki (Kyoto University) Pushing the Limits of Plasmonic Nanoantenna Design Using New Materials and Nanofabrication Tools – O. L. Muskens (University of Southampton) Break Crystalline Submicrometer Spherical Particles with High Refractive Index for Optical Applications – N. Koshizaki (Hokkaido University) and Y. Ishikawa (National Institute of Advanced Industrial Science and Technology) Large-Area, Cost-Effective Nanoplasmonic Structures and Their Applications – D. Choi (Kyung Hee University) Photoacoustic Drive of Microfluid Using Au/SiO2 Heterostructured Nanorods Array – K. Namura (Kyoto University, J S P S Research Fellow), K. Nakajima, K. Kimura (Kyoto University), and M. Suzuki (Department of Micro Engineering, Kyoto University, Kyoto, Japan) All Printable ZnO Nanowire Photodetectors with Ultra-High Detectivity – X. Liu, L. Gu, Q. Zheng, J. Wu, Y. Long, and Z. Fan (Hong Kong University of Science and Technology)

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part VII – 14:00 – 16:00 Co-Chairs: Naoto Koshizaki and Sang-Woo Kim 14:00

2027

14:30

2028

15:00

2029

SiC Materials and Power Devices – 10:10 – 11:10 Co-Chairs: Aris Christou and Liping Guo 10:10

Full Epitaxial Trench Type Buried Grid SiC JBS Diodes – S. A. Reshanov, A. Schöner, W. Kaplan, A. Zhang (Ascatron AB), J. K. Lim, and M. Bakowski (Acreo Swedish ICT)

Flexible Nanocone Anti-Reflection Films for High-Efficiency Photovoltaics – Z. Fan, Q. Lin, K. H. Tsui, Q. Zhang, and H. Fu (Hong Kong University of Science and Technology) Chemically Integrated Hybrid 2-D Materials for Flexible Energy Storage Devices – G. Yu (The University of Texas at Austin, Texas Materials Institute) Growth of High-Quality Arbitrary-Shape Compound Semiconductors on NonEpitaxial Substrates for Photovoltaic and Optoelectronic Device Applications – R. Kapadia (University of Southern California)

177

Wednesday, October 8


15:30

2030

Optimal BaTiO3 BaTiO3 Cluster Formation for High Performance Piezoelectric Nanogenerators – S. H. Shin (Chungnam National University), M. H. Lee (Kyung Hee University), and J. Nah (Chungnam National University)

Low-dimensional Nanoscale Electronic and Photonic Devices 7 Part VIII – 16:20 – 17:50 Co-Chairs: Junghyo Nah and Wei David Wei 16:20

2031

16:50

2032

17:20

2033

Q5

Solar Water Splitting Photoelectrodes Utilizing Oxide 2-Dimensional Electron Gas and Plasmonic Nanoparticles – H. W. Jang (Seoul National University) Atomic-Level Tailoring LithiumIntercalation Hosts for Stable Rechargeable Magnesium Ion Cathodes – Y. Yao (University of Houston) 1D Photonic and Electrochromic Nanomaterials Application – E. Redel (Karlsruhe Institute of Technology)

Nonvolatile Memories

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 5, Moon Palace Resort

STTMRAM-1 – 14:00 – 15:20 Co-Chairs: Yoshishige Suzuki and Kungwon Rhie 14:00

2038

14:30

2039

14:50

2040

Emerging Nonvolatile Memories – 15:40 – 17:20 Co-Chairs: Takasumi Ohyanagi and Hisashi Shima 15:40

2041

16:10

2042

16:40

2043

17:00

2044

ReRAM-1 – 10:00 – 12:00 Co-Chairs: Shoso Shingubara and Gennadi Bersuker

Wednesday, October 8

10:00 10:10 2034

10:50

11:20

11:40

178

2035

2036

2037

Welcoming Remarks Atomic Scale and Interface Interactions in Redox-Based Resistive Switching Memories – I. Valov (Research Centre Juelich), S. Tappertzhofen (Institut fuer Werkstoffe der Elektrotechnik II), J. van den Hurk (Institut der Werkstoffe der Elektrotechnik 2), E. Linn (Institut fuer Werkstoffe der Elektrotechnik II), R. Waser (Electronic Materials), and S. Menzel (Research Centre Juelich) Elucidating the Origin of Resistive Switching in Ultrathin Hafnium Oxides through High Spatial Resolution Tools – Y. Shi, Y. Ji, F. Hui (Soochow University), V. Iglesias, M. Porti, M. Nafria, E. Miranda (Universitat Autonoma de Barcelona), G. Bersuker (SEMATECH), and M. Lanza (Soochow University) In Situ Analysis of Filaments in Oxides Thin Film Reram, SrTiO3, NiO/TiO2, by TEM – D. H. Kwon (Seoul National University), S. B. Lee (Oak Ridge National Laboratory), C. S. Kang, S. J. Song, H. L. Cho, S. J. Kang, W. Son, K. H. Oh, C. S. Hwang (Seoul National University), T. W. Noh (IBS, Seoul National University), and M. Kim (Seoul National University) Anisotropic magnetoresistance of ferromagnetic conductive filament in resistive switching memory – S. Otsuka, Y. Hamada (Graduate School of Science and Engineering, Kansai University), T. Shimizu, and S. Shingubara (Kansai University)

Challenging Issues for Terabit-Level Perpendicular STT-MRAM – J. G. Park (Hanyang University) Effect of Tungsten Seed Layer on Perpendicular Magnetic Anisotropy for Co2FeAl Full-Heusler Half-Metal Based Perpendicular Magnetic Tunnel Junctions – M. S. Jeon, J. U. Baek (Hanyang University), Y. Takemura (SUMCO Corporation), and J. G. Park (Hanyang University) Voltage Control of Magnetization and Its Chemical Properties – Y. Suzuki (CREST, JST, Osaka University), F. Bonell (Osaka University, CRET, JST), Y. Shiota, S. Miwa (Osaka University, CREST, JST), T. Nozaki (Spintronics research center, AIST, CREST, JST), and T. Shinjo (Osaka University)

Non-Equilibrium Transport Theory Applied to Nano Electronics Problems – Y. Asai and H. Nakamura (Nanosystem Research Institute (NRI), National Institute of Advanced Industrial Science and Technology (AIST)) Electric-Field-Induced Ultralow Power Switching in Superlattice Phase Change Materials – T. Shintani, S. Soeya (Institute of Advanced Industrial Science and Technology, Central Research Laboratory, Hitachi, Ltd.), and T. Saiki (Keio University) Non-Melting Phase Change Memory – Topological-Switching RAM (TRAM) – T. Ohyanagi, M. Kitamura, M. Tai, M. Kinoshita, T. Morikawa, K. Akita, and N. Takaura (Low-power Electronics Association & Project) Semiconductor-Based Magnetic Switching Device – S. Joo (KRISS), B. Lee (Inha University), and K. Rhie (Korea University)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Nonvolatile Memories Poster Session – 18:00 – 20:00 Co-Chair: Shoso Shingubara •

2045

2046

Effect of Selenium Doping on GeSb for Phase Change Memory Applications – D. H. Ko, J. H. Kim, D. S. Byeon (Department of Materials Science and Engineering, Yonsei University), and J. H. Park (Process Development team, semiconductor R&D Division, Samsung Electronics Co., Ltd) Charge Trapping Properties of Silicon Carbonitride Storage Layers for Nonvolatile Memories – K. Kobayashi, S. Naito, S. Tanaka, and Y. Ito (Tokai University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


2047

2048

2049

Q7

Study on Oxide Thickness Dependence of Current-Voltage Characteristics for HfOx Based Reram Device – Y. Hamada, S. Otsuka (Graduate School of Science and Engineering, Kansai University), T. Shimizu, and S. Shingubara (Kansai University) Ovonic Threshold Switching Selection Device Based on Chalcogenide ZnTe for Cross-Point ReRAM Device – Y. Kim, Y. Min, J. Lee (Department of Materials Science and Engineering, Yonsei University), and H. Sohn (Department of Materials Science and engineering, Yonsei University) Effect of Valence State of Doping Materials on Resistance Switching Characteristics of Doped HfO2 Films – K. Lee (Department of Materials Science and engineering, Yonsei University), Y. J. Kim (Department of Materials Science and Engineering, Yonsei University), J. I. Kim, T. H. Kim (Department of Materials Science & Engineering, Yonsei University.), and H. Sohn (Department of Materials Science and engineering, Yonsei University)

Semiconductors, Dielectrics, and Metals for Nanoelectronics 12

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 18, Moon Palace Resort

Photonics and Dielectrics – 10:00 – 11:40 Co-Chairs: K. Kita and Samares Kar 10:00

2108

10:30

2109

11:00 11:05 11:30 11:35

Enhanced Energy Harvesting Scheme Utilizing Hierarchical Nanostructures – Y. L. Chueh (Dept. of Materials Scence and Engineering, National Tsing Hua University) Radial Epitaxy of Silicon for Optoelectronic Applications – J. Yoo (Los Alamos National Laboratory), S. A. Dayeh (University of California San Diego), N. Bartelt (Sandia National Laboratories), and S. T. Picraux (Los Alamos National Laboratory) Introduction to Poster Paper 41274 Break Introduction to Poster Paper 38941 Introduction to Poster Paper 39704

Memory – 13:30 – 16:45 Co-Chairs: Daniele Ielmini and Blanka Magyari-Kope 13:30

14:00

2111

2112

Investigation of Frenkel-Pair Formation in HfO2 and Its Influence on Oxram Memory Reliability – E. Vianello, P. Blaise, B. Traoré, K. Xue (CEA Leti), L. Fonseca (Center for Semiconductor Devices, University of Campinas), G. Molas (CEA Leti), B. de Salvo, L. Perniola (CEALETI), and Y. Nishi (Stanford University) Memory and Logic Electronics Based on Nanoscale Resistive Switches (Memristors) – W. Lu (University of Michigan)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

14:30

2113

15:00 15:10 2114

15:40

2115

16:10

2116

16:40

Resistive Switching Characteristics and Controllable Quantized Conductance in Single-Crystal Anatase TiO2 on Si (001) – E. T. Yu, C. Hu, M. D. McDaniel, A. B. Posadas, A. A. Demkov, and J. G. Ekerdt (University of Texas at Austin) Break The Interplay Between Electronic and Ionic Transport in the Resistive Switching Process of Random Access Memory Devices – B. Magyari-Kope, L. Zhao (Stanford University), K. Kamiya (Kanagawa Institute of Technology), M. Y. Yang (University of Tsukuba), M. Niwa (Tohoku University), K. Shiraishi (Nagoya University), and Y. Nishi (Stanford University) Ferroelectric HfO2-Based Materials and Devices: Assessment of Current Status and Future Prospects – J. Müller, P. Polakowski (Fraunhofer IPMS-CNT), S. Müller, and T. Mikolajick (NaMLab gGmbH) Stress-Induced Asymmetric Switching and Filament Instability in Electrochemical Memories – D. Ielmini, S. Ambrogio, and S. Balatti (Politecnico di Milano) Introduction to Poster Paper 41593

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Q7 Poster Session: Semiconductors, Dielectrics, and Metals for Nanoelectronics 12 – 18:00 – 20:00 •

2117

2118

2119

2120

The Study of Charge Trapping in Mahas Memory Structure with Various HfO2 Trap Layer Thicknesses – H. Na (Department of Materials Science and Engineering, Yonsei University), J. Oh, K. Lee, and H. Sohn (Department of Materials Science and engineering, Yonsei University) Fabrication and Physical Properties of Thin Films TiNx for Infrared Absorption – B. Jiang (Nanjing University of Science and Technology), T. Dong (Buskerud-Vestfold University College-HBV), Y. He (Nanjing University of Science and Technology), Z. Yang (Buskerud-Vestfold University College-HBV), Y. Su (Nanjing University of Science and Technology), and K. Wang (Buskerud and Vestfold University College) Comparison of O2 Plasma Treatment on Porous Low Dielectric Constant Material in Sidewall and Bottom of Trench Structure – Y. L. Cheng, B. H. Lin, and W. S. Haung (National Chi-Nan University) Fabrication and Characteristic of Wrinkled Stiff Thin Films on Elastomeric Substrates by Surface Treatments – S. C. Lim, J. B. Koo, C. W. Park, J. Y. Oh, S. W. Jung, B. S. Na, S. S. Lee, and H. Y. Chu (Electronics and Telecommunications Research Institute (ETRI))

179

Wednesday, October 8


2121

2122

Characteristics of Inkjet-Printed Separators in Graphene Based Supercapacitors – Y. S. Yang, I. K. You, S. H. Hong, and H. G. Yun (Electronics and Telecommunications Research Institute) SURMOFs as Ultra-low k Dielectric Thin Films – E. Redel (Karlsruhe Institute of Technology)

Thin Film Transistors 12 (TFT 12)

and Photonics Q10 Electronics Expo Center, 1st Floor, Universal 4, Moon Palace Resort Applications I – 08:30 – 11:20 Co-Chairs: Yukiharu Uraoka and Sanghun Jeon 08:30

09:00

1929

1930

Wednesday, October 8

09:30 09:50 1931

10:20

1932

10:50

1933

Pedagogical Approach for Higher Education in Microelectronics and Nanotechnologies in France: Specific Actions on the Thin Film Technologies – O. Bonnaud (GIP-CNFM), T. MohammedBrahim (University Rennes 1, CCMOCNFM), and A. Bsiesy Sr. (CIME Nanotech - Grenoble INP) Thin Film Transistors as Driving Devices for Attached Devices – Y. Kuo (Texas A&M University) and G. W. Chang (National Chiao Tung University, Texas A&M University) Break Flexible Sensors Based on LowTemperature Polycrystalline Silicon Thin Film Transistor Technology – G. Fortunato, L. Maiolo, F. Maita, A. Minotti (IMMCNR), S. Mirabella, V. Strano (MATIS IMM-CNR), G. Metta, D. Ricci (RBCS, Italian Institute of Technology), and A. Pecora (IMM-CNR) Nano-Crystalline Oxide Semiconductor Materials for Display and Semiconductor Device Applications – S. Jeon (Display and Semiconductor Physics, Korea University) High-Performance Biosensors Based on Solution-Gated Thin Film Transistors – F. Yan (The Hong Kong Polytechnic University)

R1

Luminescence and Display Materials: Fundamentals and Applications (in Honor of Hajime Yamamoto)

Luminescence and Display Materials Sunrise, 2nd Floor, Star Ballroom 4 & 5, Moon Palace Resort Luminescence and Display Materials: Fundamentals and Applications (in Honor of Hajime Yamamoto) I – 08:10 – 11:20 Co-Chairs: U. Happek and Anant A. Setlur 08:10

2154

08:40

2155

09:00

2156

09:20

2157

09:40 10:00 2158

Applications II – 14:00 – 16:00 Co-Chairs: Yue Kuo and Mamoru Furuta 14:00

1934

14:30

1935

14:50 15:50

180

Hybrid Nonvolatile Memory Devices with Ferroelectric Copolymers Based on ZnO Nanowire Field Effect Transistors – Y. T. Chun and D. Chu (University of Cambridge) Nonvolatile Memory Device Using Mobile Protons via Insertion Hydrogen Neutral Beam Treatment Process between SiO2 Deposition Processes at Room Temperature – J. N. Jang (Display and Semiconductor Physics, Korea University, Center for Advanced Photonic Materials, Korea University), D. H. Lee, S. Jeon, J. Park, and M. Hong (Display and Semiconductor Physics, Korea University) Panel Discussion Concluding Remarks

10:20

2159

10:40

2160

11:00

2161

Lattice Strain Control Luminescence of Phosphors for LEDs – R. S. Liu (Department of Chemistry, National Taiwan University) Single-Component White Emitting Silicate Glass Triply Activated by Ce3+/Tb3+/Mn2+ for Organic-Resin-Free White LEDs – X. Zhang, J. Wang, and Q. Su (Sun Yat-sen University) Microreactor System with in-Situ pH Monitor for Synthesizing YVO4: Bi, Eu Nanophosphor – T. Ishigaki (Electronic Display Research Center, Tottori University), R. Sakata, K. Yamashina (Graduate School of Engineering, Tottori Univ.), H. Okura (Merck), R. Komiyama, H. Miyashita, S. S. Lee (Graduate School of Engineering, Tottori Univ.), and K. Ohmi (Graduate School of Engineering, Tottori Univ., Electronic Display Research Center, Tottori Univ.) Growth and Structural Analysis of Silicate Phosphor Single Crystal Using Gas Phase Method – S. Hasegawa, S. W. Kim, K. Uematsu, T. Ishigaki, K. Toda, M. Sato (Niigata University), T. Masaki, D. H. Yoon (Sungkyunkwan University), J. Koide, M. Toda, and Y. Kudo (N-Luminescence Corporation) Break Crystallographic and Luminescent Characteristics of New Blue Phosphor (Sr,Ba)Al2Si3O4N4:Eu2+ – R. Yoshimatsu (Denki Kagaku Kogyo Kabushiki Kaisya, Guraduate School of Engineering, Tottori university), S. Funahashi (National Institute for Material Science), S. Yamada (Denki Kagaku Kogyo kabushiki Kaisya), N. Hirosaki (National Institute for Materials Science), T. Ishigaki (Tottori University Electronic Display Reseach Center), and K. Ohmi (Electronic Display Research Center, Tottori Univ., Graduate School of Engineering, Tottori Univ.) Optical Spectroscopy of Ce3+, Eu3+ and Pr3+ in (M2+)9M3+(PO4)7 (M2+=Ca, Sr) (M3+=Al, Ga, In, Sc, Y, Lu, Gd, La) – S. J. Camardello (GE, University at Albany), A. Srivastava (GE), and P. Toscano (University at Albany) Comparative Systematic Study of Covalent Effects for the Cr3+-, Mn4+- and Ni2+-Doped Optical Materials – A. M. Srivastava (GE) and M. G. Brik (University of Tartu) White-Light Emission from Sputter Deposited TiOx Thin Film on Si Wafer – C. C. Lin, Y. Kuo (Texas A&M University), and X. Zhang (Xi’an Jiaotong University) Meeting Program l October 5-9, 2014 l Cancun, Mexico


14:00

2162

14:20

2163

14:50

2164

15:10

2165

15:40 16:00 2166 16:20

2167

16:40

2168

Plasma Enhanced Electrochemical Preparation for Photo-Luminescent Metal Oxide Films on Al Foil – E. H. Kang (Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University) and S. H. Hong (Department of Materials Science and Engineering, Seoul National University) A Universal Approach to the Fast Discovery of New Nitride Phosphors – R. J. Xie, T. Takeda (National Institute for Materials Science), S. Funahashi (National Institute for Material Science), T. Suehiro, and N. Hirosaki (National Institute for Materials Science) Emission of White Light from Doped and Undoped Oxide Nanopowders – G. Bilir (Istanbul Technical University), G. Ozen (Department of Physics Istanbul Technical University), J. Collins (Wheaton College), and B. Di Bartolo (Department of Physics, Boston College) Gas-Reduction—Nitridation Synthesis of Nitride Phosphors for Solid-State Lighting – T. Suehiro, R. J. Xie, and N. Hirosaki (National Institute for Materials Science) Break Properties of Garnet Ceramic Scintillators – A. A. Setlur, J. Murphy, and R. Lyons (GE Global Research) Design Concept of Red and Yellow Emitting Novel Oxide Phosphors – K. Toda (Niigata University) One STEP Synthesis of Pure Cubic and Monoclinic HfO2 Nanoparticles: Effects of Temperature and Ambient on the Photoluminescent Properties – P. Rauwel, A. Galeckas (University of Oslo, Dept. of Physics and SMN), and E. Rauwel (University of Oslo, Dept. of Chemistry and SMN, Tallinn University of Technology, Tartu College)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort R1 Poster Session – 18:00 – 20:00 •

2169

Development of Short Time Period Evaluation Technique for Determining Quality of LED Package – K. Shigyo (Mitsubishi Electric Corporation, Manufacturing Engineering Center) and S. Sakai (Mitsubishi Electric Corporation)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

2170

Luminescent Characteristics of Fluorescent Organic Pigments Doped Recycled Polyethylene Thin Films Deposited by Ultrasonic Spray Technique at Low Temperature – G. AlarconFlores, R. I. Sanchez-Alarcon (Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada del Instituto Politécnico Nacional), S. Carmona-Tellez (CINVESTAV-IPN), M. A. AguilarFrutis, M. P. Campos-Arias (Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada del Instituto Politécnico Nacional), and C. Falcony (Centro de Investigación y Estudios Avanzados, Instituto Politécnico Nacional, Departamento de Física) 2171 Li+ Co-Doping Effect on the Photoluminescence Time Decay Behavior of Y2O3: Er3+ Films – A. Meza.Rocha (Centro de Investigación y de Estudios Avanzados del IPN, Departamento de Física.), E. Huerta (Programa de Doctorado en Nanociencias y Nanotecnología, CINVESTAV IPN, Av. IPN 2508, México DF, 07360 México), E. ZaletaAlejandre (Centro de Investigación y de Estudios Avanzados del IPN, Departamento de Física), and C. Falcony (Centro de Investigación y Estudios Avanzados, Instituto Politécnico Nacional, Departamento de Física) 2172 Transient Electroluminescence Measurement on Organic Light-Emitting Diodes (OLED) of Mutilayer ElectronInjection Structure – C. Y. Gao, Y. C. Chen (National Sun Yat-sen University), D. W. Chou (Air Force Institute of Technology), C. H. Chen, and C. J. Huang (National University of Kaohsiung) 2173 Oxide Materials with Near Ultra Violet Broadband Absorption for Potential Photovoltaic Applications – F. González (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Ingeniería de Procesos e Hidráulica), G. López-Pacheco (Instituto de Investigaciones en Materiales, Universidad Nacional Autónoma de México), G. Santillán-Reyes, R. LópezJuárez (Instituto de Investigaciones en Materiales, Universidad Nacional Autónoma de México), and E. Barrera (Universidad Autónoma MetropolitanaIztapalapa. Departamento de Ingeniería de Procesos e Hidráulica) 2174 CdSe Nanorods Synthesis By Chemical Bath Deposition – A. G. Rojas Hernández, A. L. Leal Cruz (Universidad de Sonora), C. V. Velázquez Mendoza (Universidad de Colima), A. V. Marquina, R. G. Fuentes, D. B. Mendoza, A. G. Juárez (Universidad de Sonora), I. E. Zaldívar Huerta (Instituto Nacional de Astrofísica, Óptica y Electrónica), L. A. Garcia Delgado, and T. M. Piters Droog (Universidad de Sonora)

181

Wednesday, October 8

Luminescence and Display Materials: Fundamentals and Applications (in Honor of Hajime Yamamoto) II – 14:00 – 17:00 Co-Chairs: U. Happek and Anant A. Setlur


Z2

Energy Water Nexus

All Divisions / Interdisciplinary Science and Technology Subcommittee Expo Center, 2nd Floor, Universal Ballroom, Moon Palace Resort

14:50

2300

15:20

2301

Membrane Separation and Capacitive Deionization – 08:00 – 09:30 Co-Chairs: Suzana Pereira Nunes and Paul Natishan 08:00

2291

08:30

2292

09:00

2293

Membrane Design for Water Separation Technologies – S. P. Nunes (King Abdullah University of Science and Technology) Electrically Conducting Membranes - Challenges and Opportunities – D. Jassby (University of California, Riverside) Bi-Directional DC/DC Converter Coupled with Capacitive Deionization for Efficient Desalination – A. Omosebi (University of Kentucky), X. Gao (Center for Applied Energy Research, University of Kentucky, Lexington, Kentucky 40511, USA), J. Landon, K. Liu (University of Kentucky Center for Applied Energy Research), A. M. Cramer, and Z. Li (University of Kentucky)

Electrochemical Disinfection and Water Quality Sensing – 10:00 – 12:00 Co-Chairs: Carl Hensman and Brian R. Stoner

Wednesday, October 8

10:00

2294

10:20

2295

10:40

2296

11:00

2297

PV-Powered Electrochemical Toilet Wastewater Treatment with Hydrogen Gas Cogeneration: Field Application – C. Cid, M. Hoffmann (California Institute of Technology), K. Cho (Korea Institute of Science and Technology), Y. Qu, A. Aryanfar, D. Kwon, and C. Finke (California Institute of Technology) Electrochemical Disinfection of Liquid Human Waste for Developing World Application – T. Rogers (RTI International), K. Jackson, M. Flynn (NASA, Mountain View, CA), B. R. Stoner (Duke University), and B. R. Rowe (RTI International) Electrochemical Oxidation of Phenol Using Boron-Doped Diamond Electrodes – C. M. Hangarter, W. E. O’Grady (Excet, Inc.), B. R. Stoner (RTI International), and P. Natishan (Naval Research Laboratory) Water Quality and Water Toxicity Sensing – S. D. Minteer (The University of Utah)

Bio- and Photo-electrocatalysis – 14:00 – 18:00 Co-Chairs: Brian R. Stoner and Paul Natishan 14:00

2298

14:30

2299

182

(High Temperature Materials Division Outstanding Achievement Award) Semiconducting Properties and Defect Disorder of Indium-Doped Titanium Dioxide – J. Nowotny and T. Bak (University of Western Sydney (UWS)) Disinfection of Liquid Human Waste through Photoelectrochemical Treatment – Q. Peng, A. S. Raut, I. A. Cordova, C. B. Parker, J. J. Amsden (Duke University), B. R. Stoner (RTI International), and J. T. Glass (Duke University)

15:50 16:10 2302

16:40

2303

17:10

2304

Z3

Two Peas in a Pod: Sustainable Electrochemical Solutions for Waste and Water Reuse – G. Reguera (Michigan State University) The Right Tool for the Job: Genetic, Genomic, and Evolutionary Studies of Organisms Suited for Industrial Strength Bioelectrocatalysis – D. R. Bond (University of Minnesota Biotechnology Institute) Break Enrichment of Novel Electroactive Bacteria from Sediments via Potentiostatic Growth – L. Doyle (Nanyang Technological University), S. Wuertz (Nanyang Technological University, University of California, Davis), and E. Marsili (Nanyang Technological University, Dublin City University) Electron and Ionic Transport in Microbial Anode Respiration and Their Importance in Microbial Electrochemical Cell Applications – S. Popat, P. Parameswaran, and C. Torres (Arizona State University) Biofilms in Water-Energy-Nexus – H. Beyenal (The Gene and Linda Voiland School of Chemical Engineering and Bioengineering, Washington State University, Pullman, WA)

Nanotechnology General Session

All Divisions / Interdisciplinary Science and Technology Subcommittee Expo Center, 2nd Floor, Gama Room, Moon Palace Resort

Nanotechnology General Session I – 08:00 – 09:40 Co-Chairs: O. M. Leonte and Petra Granitzer 08:00

2305

08:20

2306

08:40

2307

09:00

2308

Growth and Features of TiO2 Nanotubes Surfaces on Industrial Titanium by Anodizing in Organic Medium – I. Zamudio-Torres, J. J. Perez-Bueno, and Y. Meas-Vong (CIDETEQ) Assessment of Cytocompatibility and Magnetic Properties of Nanostructured Silicon Loaded with Superparamagnetic Iron Oxide Nanoparticles – P. Granitzer, K. Rumpf (Karl Franzens University Graz), Y. Tian, J. Coffer, G. Akkaraju (Texas Christian University Fort Worth), P. Poelt (University of Technology Graz), and M. Reissner (Vienna University of Technology) Morphology Controlled Magnetic Interactions of Porous Silicon Embedded Nanostructures – K. Rumpf, P. Granitzer (Karl Franzens University Graz), N. Koshida (Tokyo University of Agriculture and Technology), P. Poelt (University of Technology Graz), and H. Michor (Vienna University of Technology) Effect of Metal Thickness and Pattern Size on Micro-Scale Metal-Assisted Chemical Etching on Silicon – K. Choi, Y. Song, and J. Oh (School of Integrated Technology, Yonsei University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


2309

The Morphology and Electrochemical Properties of Pt and GDC Nano Composite Films Using Co-Sputtering Method – Y. H. Lee (Seoul National University, School of mechanical and aerospace engineering), S. W. Cha (Mechanical and aerospace engineering department, Seoul National University), G. Y. Cho (School of mechanical and aerospace engineering, Seoul national university), S. Ji (Graduate School of Convergence Science and Technology (GSCST), Seoul National University), J. Park (Seoul National University, School of mechanical and aerospace engineering), and I. Chang (Graduate School of Convergence Science and Technology, Seoul National University)

12:00

2315

12:20

2316

Nanotechnology General Session II – 10:00 – 12:40 Co-Chairs: O. M. Leonte, K. Rumpf, and Taketomo Sato 10:00 10:20 2310

10:40

11:00

2311

2312

11:20

2313

11:40

2314

Welcoming Remarks Antirefletive Characteristics of Disordered GaAs Subwavelength Structures Realized By Metal-Assisted Chemical Etching Using Thermally Dewetted Au Catalytic Nanoparticles – Y. Song, K. Choi, and J. Oh (School of Integrated Technology, Yonsei University) Electrochemical Formation of GaN Porous Structures Under UV-Light Irradiation for Photoelectrochemical Application – T. Sato, A. Watanabe, Y. Kumazaki, and Z. Yatabe (Hokkaido University) Ultrastable Surfactant Free Silver Nanoparticles Study for Application in Green Housing and Cancer Treatment – E. Rauwel (Tallinn University of Technology, Tartu College, University of Oslo, Dept. of Chemistry and SMN), S. Küünal (Tallinn University of Technology, Tartu College), P. Rauwel (University of Tartu, Dept. of Physics), M. Guha (University of Tartu, Faculty of Medicine, Departement of General and Molecular Pathology), S. Kutti (Tallinn University of Technology, Tartu College), and D. Wragg (University of Oslo, Dept. of Chemistry and SMN) Real-Time FET-Based Biosensor Using the Wet Cyclone Air Sampler – G. W. Sung (Sungkyunkwan University), C. Ahn (Sungkyunkwan University(SKKU) Advanced Institute of Nanotechnology (SAINT)), and T. Kim (Sungkyunkwan University) Synthesis and Evaluation of Pd/C and PdAg/C Catalysts Prepared by Polyol Process and Reverse Micelles Methods for Ethanol Oxidation Reaction – A. J. Armenta-González, L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), R. Carrera-Cerritos (Universidad de Guanajuato, División de Ciencias Naturales y Exactas), M. GuerraBalcázar, and J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Correlation Between Theoretical Data and Experimental Propierties of Selective PtAg Core-Shell Nanoparticles for Oxygen Reduction Reaction – F. M. Cuevas-Muñiz (Centro de Investigación y Desarrollo en Tecnología Electroquímica), O. Téllez–Vázquez, R. Esparza (Centro de Física Aplicada y Tecnología Avanzada, UNAM), J. Ledesma-García (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro), L. G. Arriaga (Centro de Investigación y Desarrollo Tecnológico en Electroquímica), and M. Guerra-Balcázar (División de Investigación y Posgrado, Facultad de Ingeniería, Universidad Autónoma de Querétaro) Use of Langmuir Blodgett Thin Films in Tunnel Diodes for Energy Harvesting or Sensing Applications – S. Sharma, E. Stefanakos, Y. Goswami (Clean Energy Research Center, University of South Florida), A. Hoff (University of South Florida), and M. Ram (Clean Energy Research Center, University of South Florida)

Expo Center, 1st Floor, Left, Center, and Right Foyers, Moon Palace Resort Nanotechnology Poster Session – 18:00 – 20:00 •

2317

2318

2319

Aqueous Phase Synthesis of CuIn Alloy Nanoparticles and Its Application for CIGS Solar Cell – H. Takahashi, H. Fujiki, S. Yokoyama, and K. Tohji (Tohoku University) Gas Permeation Property of PolyimidePoly(ethylene glycol) Copolymer Membranes – S. Y. Nam (Department of Materials Engineering and Convergence Technology, Gyeongsang National University), J. Park (Gyeongsang national university), and D. Kim (404-422 functional nano polymer lab. 501 jinjudaero, gyeongsang national university) Boron Doped Nanocrystalline Diamond Grown on Reticulated Vitreous Carbon: Morphological, Structural, and Electrochemical Characterizations – S. S. Oishi (Instituto Nacional de Pesquisas Espaciais), E. C. Botelho (Sao Paulo State University - UNESP/Guaratingueta), M. C. Rezende (Instituto de Ciência e Tecnologia-ICT/UNIFESP), M. R. Baldan, and N. G. Ferreira (Instituto Nacional de Pesquisas Espaciais)

183

Wednesday, October 8

09:20


Thursday, October 9

184

2320

2321

Electrochemical Study of the Effect of Adsorbates and Precursors in the Synthesis of Well-Defined Platinum Nanoparticles Using Water-in-Oil Microemulsion – R. A. Martínez-Rodríguez (University of Puerto Rico, Río Piedras Campus, Institute of Electrochemistry, University of Alicante), F. J. Vidal-Iglesias (Institute of Electrochemistry, University of Alicante), J. Solla-Gullón (Instituto de Electroquímica, Universidad de Alicante), V. Montiel (Institute of Electrochemistry, University of Alicante, Apdo 99, 03080 Alicante, Spain), C. R. Cabrera (University of Puerto Rico at Rio Piedras), and J. Feliu (Instituto de Electroquímica, Universidad de Alicante) NiO-SDC Mixed Ionic Electronic Conducting Anode for Low Temperature Thin Film SOFCs – G. Y. Cho (School of mechanical and aerospace engineering, Seoul national university), S. W. Cha (Mechanical and Aerospace Engineering, Seoul National University), Y. H. Lee (Seoul National University, School of mechanical and aerospace engineering), T. Park (Mechanical and Aerospace Engineering, Seoul National University), and S. Noh (School of mechanical and aerospace engineering, Seoul national university)

Thursday, October 9

A2

Batteries Beyond Lithium Ion

Battery / Energy Technology Sunrise, 2nd Floor, Galactic Ballroom 1, Moon Palace Resort

Na-Ion Battery II – 08:00 – 12:00 Co-Chairs: Christopher S. Johnson and Yangchuan Xing 08:00

147

Invited: Structural Factors Influencing the Electrochemistry of Lepidocrocite Titanate Anodes for Sodium Ion Cells – M. Doeff, M. Shirpour, S. Engelke (Lawrence Berkeley National Laboratory), M. Asta (University of California-Berkeley), and I. Markus (Lawrence Berkeley National Laboratory, Materials Sciences Department, University of California at Berkeley) 08:30 148 Electrochemical Activity of P2 Structured Na-M-O Cathode for Sodium Ion Batteries – C. Y. Yu and S. T. Myung (Sejong University) 08:50 149 NaCrO2-Based Batteries: Effects of Processing – M. Sawicki and L. Shaw (Illinois Institute of Technology) 09:10 150 Synthesis and Electrochemical Characterization of P2- and O3-Phase Na2/3Fe1/2Mn1/2O2 Layered Oxide – M. H. Han, B. Acebedo, E. C. Gonzalo (CIC EnergiGUNE), and T. Rojo (Universidad del Pais Vasco (UPV), CIC energiGUNE) 09:30 Break 09:50 151 Structural and Electrochemical Studies on NaFe1-XCoxO2 for Na-Ion Batteries – K. Kubota (Tokyo University of Science, ESICB-Kyoto University), H. Yoshida (Tokyo University of Science), N. Yabuuchi (Tokyo University of Science, ESICB-Kyoto University), H. Shiiba (Nagoya Institute of Technology), M. Nakayama (Unit of Elements Strategy Initiative for Catalysts & Batteries (ESICB), Kyoto University, Nagoya Institute of Technology), and S. Komaba (Tokyo University of Science, ESICBKyoto University) 10:10 152 Invited: Recent Developments in Na-Ion Battery Materials – M. N. Obrovac (Dept. of Chemistry, Dalhousie University) 10:40 153 Understanding the Structural Evolution of the New Iron-Based Mixed-Phosphate Na4-XFe3(PO4)2(P2O7) in a Na Rechargeable Battery – H. Kim, I. Park (Seoul National University), S. Lee (Korea Atomic Energy Research Institute), H. Kim (Sungkyunkwan University), K. Y. Park, Y. U. Park, H. Kim, J. Kim, H. D. Lim (Seoul National University), W. S. Yoon (Department of Energy Science, Sungkyunkwan University), and K. Kang (Seoul National University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


154

11:20

155

11:40

A3

156

Reversible Conversion Reaction of Tin Monosulfide/Graphene Nanocomposite As a Negative Electrode Material for Na-Ion Battery – J. H. Kim, Y. H. Jung, and D. K. Kim (Korea Advanced Institute of Science and Technology) Charging-Discharging Phenomena on P2-Na2/3Co2/3Mn1/3O2 Observed by X-ray Absorption Spectroscopy – B. J. Hwang (National Synchrotron Radiation Research Center, National Taiwan University of Science and Technology), J. H. Cheng (National Taiwan University of Science and Technology), C. J. Pan (National Taiwan University of Science and Technology, Taiwan), J. F. Lee, J. M. Chen (National Synchrotron Radiation Research Center), M. Guignard, C. Delmas (CNRS, Université de Bordeaux, ICMCB), and D. Carlier (ICMCB-CNRS, Université de Bordeaux; RS2E, Réseau Français sur le Stockage Electrochimique de l’Energie) Kröhnkite Na2M(SO4)2.2H2O (M = 3d metals) Family of Sulphate Cathodes for Sodium-Ion Batteries – P. Barpanda (Indian Institute of Science), G. Oyama (The University of Tokyo), C. D. Ling (The University of Sydney), and A. Yamada (The University of Tokyo)

Electrochemical Capacitors: Fundamentals to Applications

215

10:40

216

11:00

217

11:20

A5

211

08:50

212

09:10

213

09:30 10:00 214

Invited: Water Based AC/AC Supercapacitors Reaching the Performance of Systems in Organic Electrolyte – F. Béguin (Institute of Chemistry and Technical Electrochemistry, Poznan University of Technology,), E. Frackowiak (Poznan University of Technology), and Q. Abbas (Institute of Chemistry and Technical Electrochemistry, Poznan University of Technology,) Aqueous Hybrid Supercapacitor Using Protected Pre-Lithiated Carbon Anode – W. Sugimoto, S. Makino, and W. Shimizu (Shinshu University) Designing Knitted Architectures for Applications in Electrochemical Capacitors – K. Jost (A.J. Drexel Nanomaterials Institute, Mat. Sci. and Eng. Dept., Drexel University), G. Dion (Shima Seiki Haute Technology Laboratory, Drexel University), and Y. Gogotsi (Dept of Mat. Sci. and Eng., Drexel University) Break Development of a Coupled Electrical, Thermal and Degradation Supercapacitor Model for Automotive Applications – W. Sarwar, M. Marinescu (Imperial College London), N. Taylor (Jaguar Landrover), and G. Offer (Imperial College London)

Battery Sunrise, 2nd Floor, Galactic Ballroom 2, Moon Palace Resort

Applied Research – 08:00 – 12:20 Co-Chairs: Partha P. Mukherjee and Zhonghua Lu 08:00

437

08:20

438

08:40

439

09:00

440

09:20

441

09:40 Meeting Program l October 5-9, 2014 l Cancun, Mexico

A Low-Cost Substrate-Integrated LeadCarbon Hybrid Ultracapacitor with an Organic Metal – A. Banerjee (Indian Institute of Science, Bangalore) and A. K. Shukla (Solid State and Structural Chemistry Unit, Indian Institute of Science) On-Chip Micro-supercapacitors Based on Nanoporous-Gold/ MnO2 Hybrid Electrodes – Z. Zeng, H. Zhou, X. Long, and Z. Hu (Department of Physics, Shanghai University) High Voltage AC/AC Capacitors Using the Carbon/Iodine Interface in Ionic Liquid Electrolyte – E. Frackowiak (Poznan University of Technology), F. Béguin (Institute of Chemistry and Technical Electrochemistry, Poznan University of Technology,), and P. Skowron (Poznan University of Technology) Concluding Remarks

Lithium-Ion Batteries

Battery / Physical and Analytical Electrochemistry / Dielectric Science and Technology Sunrise, 2nd Floor, Star Ballroom 1, Moon Palace Resort

Device II – 08:10 – 11:25 Co-Chairs: François Béguin and Wataru Sugimoto 08:10

10:20

In-Situ Electrochemical Studies of Li-Ion Start-Stop Vehicle Batteries through a Novel Cell Design – J. Wang, E. Sherman, S. Soukiasian, J. Graetz (HRL Laboratories LLC), H. Tataria (General Motors, Global Battery Systems Engineering), and M. W. Verbrugge (General Motors, R&D Center) Differential Thermal Voltammetry for Tracking of Degradation in Lithium-Ion Batteries – Y. Merla, B. Wu, V. Yufit, R. Martinez-Botas, N. P. Brandon, and G. Offer (Imperial College London) A Long-Life 3-Stack 12 V Dry Polymer Battery Using LiNi1/3Mn1/3Co1/3O2 and Graphite – Y. Kobayashi, K. Shono (Materials Science Research Laboratory, Central Research Institute of Electric Power Industry), T. Kobayashi (Central Research Institute of Electric Power Industry), M. Tabuchi (DAISO CO., LTD.), and H. Miyashiro (Central Research Institute of Electric Power Industry) Recycling of LIB: A New Separation Process for Lithium Ion Electrodes and Electrode Production Scraps – C. Hanisch (Institute for Particle Technology, TU Braunschweig, Lion Engineering GmbH), A. M. Stieger (Lion Engineering GmbH), T. Loellhoeffel (TU Braunschweig), J. Diekmann, W. Haselrieder (Institute for Particle Technology, TU Braunschweig, Lion Engineering GmbH), and A. Kwade (Institute for Particle Technology, TU Braunschweig) The Effect of Intentionally Added Water on Gas Evolution in Li-Ion Pouch Cells – D. Xiong (Dalhousie University - Department of Chemistry), R. Petibon, J. C. Burns, and J. Dahn (Dalhousie University) Break 185

Thursday, October 9

11:00


10:00

442

443

10:40

444

11:00

445

11:20

446

11:40

447

12:00

448

Thursday, October 9

10:20

186

3M Lithium Ion Battery Material and Solution for EV and Energy Storage Application – Z. Lu (3M Electronic Market Material Division) Real Time Estimation of the State of Health of Dynamic Power Profiles Application to Li-Ion Batteries – A. AL Rahal AL Orabi, K. Mamadou, T. Delaplagne (French Alternative Energies and Atomic Energy Commission (CEA)), R. Blonbou (Université des Antilles et de la Guyane (UAG)), and Y. Bultel (LEPMI) Measurements of SOH Using Stack Stress – J. Cannarella and C. B. Arnold (Princeton University) Thermal Management for High-Capacity Large Format Li-Ion Cells – S. Pannala, H. Wang (Oak Ridge National Laboratory), K. Kepler (Farasis Energy, Inc.), and S. Allu (Oak Ridge National Laboratory) Electromechanical Behavior of LargeFormat Prismatic Lithium-Ion Batteries – H. N. Chu and C. W. Monroe (University of Michigan) Analysis of Mechanical Degradation in Lithium-Ion Battery Electrodes – P. Barai (Texas A&M University), V. P. Schulz (Baden-Wuerttemberg Cooperative State University Mannheim), and P. P. Mukherjee (Texas A&M University) Sputtered Thin Films for Lithium Ion Microbatteries: Recent Results on TiN Lithium Barrier Diffusion Layer, Au Negative and C-LiFePO4 Positive Electrodes – E. Eustache (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France, Institut des Matériaux Jean Rouxel, CNRS UMR 6502), J. Freixas (IEMN), O. Crosnier (CNRS-IMN), P. Tilmant (Institut d’Electronique, de Microélectronique et de Nanotechnologie, CNRS UMR 8520 – Université de Lille 1 Sciences et Technologies), D. Yarekha (IEMN), P. Roussel (UCCS), N. Rolland (IEMN UMR CNRS 8520), T. Brousse (Institut des Matériaux Jean Rouxel, CNRS, Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), and C. Lethien (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France, Institut d’Electronique, de Microélectronique et de Nanotechnologie, CNRS UMR 8520 – Université de Lille)

Sunrise, 2nd Floor, Galactic Ballroom 7, Moon Palace Resort Progress in Anodes II – 08:10 – 12:20 Co-Chairs: Gao Liu and Yi Cui 08:20

449

08:40

450

09:00

451

09:20

452

09:40 10:00 453

10:20

454

10:40

455

Composite NiO-NiSe Thin Film Fabricated by Pulse Laser Deposition as a New Anode of Lithium Ion Batteries – Y. Cui (China Academy of Engineering Physics), H. Dai (Department of Chemistry and Laser Chemistry Institute, Fudan University), X. Liu (China Academy of Engineering Physics), and Z. Fu (Department of Chemistry and Laser Chemistry Institute, Fudan University) Application of Stabilized Lithium Metal Powder (SLMP®) in Graphite Anode – a High Efficient Prelithiation Method for Lithium-Ion Batteries – Z. Wang, Y. Fu, V. Battaglia, and G. Liu (Lawrence Berkeley National Laboratory) Facile Synthesis of a Carbon Encapsulated Metal Oxide Nanocomposite and Its Application As Conversion Anode Material for Lithium Ion Batteries – S. Ren (Institute of Nanotechnology (INT), Karlsruhe Institute of Technology (KIT)), X. Zhao (Institute of Nanotechnology (INT), Karlsruhe Institute of Technology (KIT), College of Materials Science and Engineering, Nanjing University of Technology), R. Chen (Institute of Nanotechnology, Karlsruhe Institute of Technology (KIT)), and M. Fichtner (Helmholtz Institute Ulm (HIU), Karlsruhe Institute of Technology (KIT)) An Innovative and Environmentally Friendly Lithium Ion Battery Configuration for High Power Applications with Nano-Sized ZnFe2O4-C As Anode Active Material – A. Varzi, D. Bresser (Helmholtz Institute Ulm, Karlsruhe Institute of Technology, Institute of Physical Chemistry & MEET, University of Münster), J. von Zamory, F. Müller (Institute of Physical Chemistry & MEET, University of Münster, Helmholtz Institute Ulm, Karlsruhe Institute of Technology), and S. Passerini (Helmholtz Institute Ulm, Karlsruhe Institute of Technology, Institute of Physical Chemistry, University of Muenster) Break Influence of Doping, Surface Area, and Porosity of Nanostructure Electrodes in Lithium-Ion Batteries – E. M. Stuve and G. Cao (University of Washington) Comparative Electrochemical Study of Metal Oxalate As Anode for Lithium Batteries – H. J. Oh, S. J. Kim, and S. T. Myung (Sejong University) Low Voltage Anodes for Lithium-Ion Batteries – S. J. Clark (University of St Andrews), A. R. Armstrong (University of St. Andrews), and P. G. Bruce (University of Oxford)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


11:20

456

457

11:40

458

12:00

459

Characterization and Electrochemical Properties of Graphene / Silicon Grafted Composite Materials for Applications in Lithium-Ion Battery – M. Weissmann (IMN - CNRS - Nantes), O. Crosnier (CNRS-IMN, Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), B. Lestriez (Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459), B. Humbert (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France.), D. Guyomard (Institut des Matériaux Jean Rouxel (IMN), University of Nantes, CNRS, Nantes, France. Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, France), C. Agnes (Institut Nanosciences et Cryogenie (INAC), CEA, France), F. Duclairoir, G. Bidan (INAC CEA - Grenoble), and T. Brousse (Institut des Matériaux Jean Rouxel, CNRS) Graphite Particle Cracking as a Failure Mode during Li-Ion Battery Cycling – K. Takahashi (Toyota Motor Corporation) and V. Srinivasan (Lawrence Berkeley National Laboratory) Carbon-Rich Silicon Oxycarbide - a Promising Anode Material: Recent Findings Related to Microstructural, Electrochemical and Electroanalytical Characterization – J. Kaspar, M. GraczykZajac, and R. Riedel (Technische Universität Darmstadt, Institut für Materialwissenschaften, Disperse Feststoffe) Electrochemical Performance of Sn/SnO2 Nanoparticles Encapsulated in Carbon Matrix Derived from Plant Polysaccharides – A. Chojnacka (Faculty of Chemistry, Jagiellonian University), M. Molenda, and R. Dziembaj (Jagiellonian University, Faculty of Chemistry)

14:20

462

14:40

463

15:00

464

15:20

465

15:40 16:00 466

Sunrise, 2nd Floor, Galactic Ballroom 2, Moon Palace Resort Advanced Characterization II – 13:30 – 18:40 Co-Chairs: Yoshiharu Uchimoto and Shirley Meng 13:30

460

14:00

461

In Operando Analysis of Cathode Reaction By Synchrotron X-Ray Absorption and Diffraction – Y. Uchimoto, Y. Orikasa (Graduate School of Human and Environmental Studies, Kyoto University), H. Arai, and Z. Ogumi (Office of SocietyAcademia Collaboration for Innovation, Kyoto University) In-Situ X-Ray Imaging Study on the Cross-Sectional Distribution of Li-Ion Concentration in Electrolyte of Li-Ion Battery – H. Yamashige (Toyota Motor Corp.), N. Furuta, M. Mukouyama, K. Kawamura, H. Ota (Nippon Soken, Inc.), T. Nonaka, and H. Kawaura (Toyota Central R&D Labs., Inc.)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

16:20

467

Failure Mode Analysis of Li-Ion Batteries Using in-Situ Scanning Electron Microscopy – P. Hovington (IREQ), M. Lagacé (Institut de Recherche d’HydroQuébec), H. Marceau (Institut de recherche d’Hydro-Québec (IREQ)), D. Clément (IREQ), M. Dontigny, J. Trottier (Institut de Recherche d’Hydro-Québec), A. Guerfi (IREQ), A. Mauger (Institut de Minéralogie, de Physique des Matériaux et de Cosmochimie (IMPMC), UPMC Université Paris 6, 4 place Jussieu, 75005 Paris, France), C. M. Julien (Sorbonne Universités, UPMC Univ. Paris 6, PHENIX, UMR 8234, 4 place Jussieu, 75005 Paris, France), and K. Zaghib (IREQ) Structural Stability in the Initial Discharge Process of the Li-Rich Solid Solution Cathode Material Li7/6Mn3/6Ni1/6Co1/6O2 using Neutron and Synchrotron X-Ray Sources – Y. Idemoto, R. Yamamoto, N. Ishida, and N. Kitamura (Tokyo University of Science) A Study on Chemical Defect of Li1-XFe0.5YMn0.5-YPO4 related to the Electrochemical Behavior Using Synchrotron Based X-Ray Techniques – Y. Kim, J. Yoo, K. Palanisamy, D. Jang, M. Jeong, J. Yoon (Department of Energy Science, Sungkyunkwan University), N. H. Lee (Research & Technology Center, Umicore Korea Limited), and W. S. Yoon (Department of Energy Science, Sungkyunkwan University) Understanding the Surface Structure of LiNi0.45Mn1.55O4 Spinel Cathodes with Aberration-Corrected HAADF STEM – C. D. Amos, J. Song, P. J. Ferreira, and J. B. Goodenough (The University of Texas at Austin) Break In Situ Measurement of Temperature Distribution in Cylindrical Li-Ion Cells – G. Zhang, L. Cao, S. Ge (Electrochemical Engine Center (ECEC) and Department of Mechanical & Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802), C. Y. Wang (EC Power, Electrochemical Engine Center (ECEC) and Department of Mechanical & Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802), C. E. Shaffer (EC Power), and C. D. Rahn (Department of Mechanical & Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802) 3D Imaging and in‑operando Tracking of Battery Electrode Microstructures – F. Tariq, V. Yufit (Imperial College London), D. Eastwood (University of Manchester), B. Wu, Y. Merla (Imperial College London), M. Biton (Imperial College), G. Cui (Imperial College London), K. Freedman, E. Peled, D. Golodnitsky (Tel Aviv University), P. Lee (University of Manchester), and N. P. Brandon (Imperial College London) 187

Thursday, October 9

11:00


16:40 17:00

17:20

17:40

18:00

18:20

Thursday, October 9

A7

468

Microstructure Evolution in Lithium-Ion Battery Electrode Processing – Z. Liu and P. P. Mukherjee (Texas A&M University) 469 Multinuclear Solid-State NMR Studies of Cathode Materials for Lithium and Sodium Ion Batteries – D. L. Smiley, M. Tessaro, and G. R. Goward (McMaster University) 470 Electron Microscopy Study of Structure and Defects in Li-Rich Layered Oxide – A. K. Shukla (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory), Q. Ramasse (SuperSTEM), A. Darbal (AppFive), P. P. Das (NanoMEGAS), J. Mendoza, S. Estrade (University of Barcelona), C. Ophus (National Center of Electron Microscopy, Lawrence Berkeley National Laboratory), H. Duncan (Kinestral Technologies), G. Chen (Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory), S. Nicolopoulos (NanoMEGAS), and L. Yedra (University of Barcelona) 471 Determination of the Voltage-Dependence of Parasitic Heat Flow in Lithium Ion Cells Using Isothermal Microcalorimetry – L. Downie (Dalhousie University) and J. Dahn (Dalhousie University - Dept. of Physics and Atmospheric Science) 472 Electrochemical in-Situ Raman Spectroscopic Studies of Highly-Cycled Li(Ni/Co/Mn)O2 Cathode Cells – T. Awatani (NISSAN ARC Ltd.), R. Kitano, T. Baba (NISSAN ARC Ltd), and H. Imai (NISSAN ARC Ltd.) 473 Study of the Consumption of Vinylene Carbonate in LiNi0.3Mn0.3Co0.3O2/Graphite Cells By Gas Chromatography Coupled with Mass Spectrometry (GC-MS) – R. Petibon (Dalhousie University) and J. Dahn (Dalhousie University - Dept. of Physics and Atmospheric Science)

10:40

544

11:00

545

11:20

546

D1

540

09:00

541

Lithium Ion Solvation and Diffusion in Bulk Organic Battery Electrolytes from First Principles Molecular Dynamics – M. T. Ong, V. Lordi, E. W. Draeger, and J. E. Pask (Lawrence Livermore National Laboratory) Computational Modeling of Electrolyte/ Cathode Interface for Li-Ion Batteries – M. Olguin (Army Research Laboratory), O. Borodin, and T. R. Jow (U.S. Army Research Laboratory)

Solid Electrolytes – 10:00 – 11:40 Co-Chairs: Wesley Henderson, Bugga V. Ratnakumar, and T. Richard Jow 542

Co-Sinterable Lithium Garnet-Type Oxide Electrolyte with Cathode for All-SolidState Lithium Ion Battery – S. Ohta, Y. Kihira, and T. Asaoka (Toyota Central R&D Labs., Inc.)

Stable Lithium Electrodeposition in Liquid and Nanoporous Solid Electrolytes – Y. Lu (Cornell University) Electroactive Polymer Based Porous Membranes for Energy Storage Applications – C. M. Costa and S. Lanceros-Méndez (Centro/Departamento de Física, Universidade do Minho, 4710057 Braga, Portugal) Synthesis and Characterization of Poly (ethylene glycol) Methacrylate with Sulfobetaine Pendants and Its Application as the Polymer Electrolyte – J. Cardoso, G. Guzman, D. Nava (Universidad Autónoma Metropolitana (Departamento de Física)), and I. González (Universidad Autónoma Metropolitana-Iztapalapa. Departamento de Química) Organization of the Polymeric Electrolytes Doped with Enantiomerically Pure Salts: Role of the Substituents of the Assymetric Carbon – P. Jankowski, A. Gajewska, M. Poterala, M. Piszcz, G. Z. Zukowska, and M. J. Kalita (Warsaw Technical University, Faculty of Chemistry)

Electrodeposition for Energy Applications 3

Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 12, Moon Palace Resort

Photovoltaic Materials and Solar Cells – 08:00 – 12:30 Co-Chairs: Luca Magagnin and Miomir Vukmirovic 08:00

838

Battery Sunrise, 2nd Floor, Star Ballroom 7, Moon Palace Resort

08:30

188

543

Nonaqueous Electrolytes

Electrolyte Modeling – 08:30 – 09:30 Co-Chairs: Mitchell T. Ong and Marco Olguin

10:00

10:20

08:20

839

08:40

840

09:20

841

09:40

Electrochemical Deposition of Mo-Se Thin Films – R. Kowalik, K. Mech, P. Zabinski (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), M. Wróbel (AGH University of Science and Technology, Faculty of Metals Engineering and Industrial Computer Science, al. A. Mickiewicza 30, 30-059 Krakow), and T. Tokarski (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) Study on Cupric Lactate Complexes in Electrodeposition of <111>-Oriented Copper(I) Oxide – Y. Seki, A. Kitada (Department of Materials Science and Engineering, Kyoto University), K. Fukami, and K. Murase (Department of Materials Scinence and Engineering, Kyoto University) Improving Photoelectrochemical Performance of TiO2 Nanotubes by Passivation of Trap States with H/Li Intercalation – L. K. Tsui and G. Zangari (University of Virginia) Electrochemical Deposition of Highly Efficient Cztsse Thin Film Solar Cells – J. Y. Kim (Korea Institute of Science and Technology) Break

Meeting Program l October 5-9, 2014 l Cancun, Mexico


842

10:10

843

10:30

844

10:50

845

11:30

846

11:50

847

12:10

848

Long Term Degradation of the Crystalline Silicon Solar Cells with Electroplated Cu Grids – Q. Huang (IBM, T. J. Watson Research Center) Fabrication of a Complete Photovoltaic CIGS Device by Electrodeposition – M. A. Saeed and U. Landau (Case Western Reserve University) Electrochemical Synthesis of Composites Based on Polythiophenes and Carbon Materials for Use in Photovoltaic Systems – G. Hernández-Moreno, S. GutiérrezGranados (Universidad de Guanajuato), B. A. Frontana-Uribe (Centro conjunto de investIgación en química sustentable UAMEX UNAM), and J. L. MaldonadoRivera (Centro de Investigaciones en Óptica A.C.) Electrodeposition of CZTS Thin Films for Solar Cells – M. I. Khalil, R. Bernasconi, S. Ieffa, and L. Magagnin (Politecnico di Milano) Study on the Performance of a Cobalt Complex as Redox Couple in DSSCs Based on ZnO Thin Films Obtained by Electrochemical Methods and Effect of Passivation of Recombination Paths at the Metal Oxide Surface on the Solar Cell Parameters – E. J. Canto Aguilar (CINVESTAV-IPN Mérida) and G. Oskam (Cinvestav-Mérida) Mechanism for the Growth of Thin Films of WO3 and Bronzes from Suspensions of WO3 Nanoparticles – A. J. Martín, C. Maffiotte, and A. M. Chaparro (CIEMAT) Characterization and Reaction Mechanisms of Gold-Doped Anatase TiO2 Nanotube Arrays Using Anodic Oxidation for Dye-Sensitized Solar Cells – K. S. Lin (Department of Chemical Engineering & Materials Science, Yuan Ze University), C. H. Wu (Dept. of Electronics Eng., Chung Hua Univ., Hsinchu, Taiwan, R.O.C.), and Y. S. Hsieh (Department of Chemical Engineering & Materials Science, Yuan Ze University)

14:40

15:20

15:40

F3

851

Electrochemical Studies of the Lithium Deposition on Au(111) from a Piperidinium-Based Ionic Liquid – C. Berger and T. Jacob (Institute of Electrochemistry) 852 LiCoO2 Thin Film Deposition Using a Low-Temperature ElectrochemicalHydrothermal Route – T. Azib, F. Lecras, and H. Porthault (CEA/LETI/DCOS) 853 Controllable Fabrication of Nanostructured Sn-TiO2 Composite Films on Cu Sheets as Anode Materials for Lithium-Ion Battery – S. Z. Kure-Chu, A. Sato, and H. Yashiro (Iwate University)

Polymer Electrolyte Fuel Cells 14 (PEFC 14)

Industrial Electrochemistry and Electrochemical Engineering / Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Sunrise, 2nd Floor, Galactic Ballroom 8, Moon Palace Resort

E3-1. Ion Transport in Alkaline Media II – 08:00 – 11:20 Co-Chairs: Jens Oluf Jensen and Kimio Yoshimura 08:00

1278

08:40

1279

09:00

1280

09:20

1281

Energy Storage – 14:00 – 16:00 Co-Chairs: Natasa Vasiljevic and Stanko Brankovic 14:00

14:20

849

850

Electrodeposition of Nanoscale Manganese Oxide for Electrochemical Energy Storage Devices – M. P. Clark, D. G. Ivey (University of Alberta), and W. Qu (Energy, Mining and Environment, National Research Council, Vancouver, Canada) Zinc Dendrite Growth and Control: In Situ Techniques for Visualizing Microand Nano-Scale Morphology – J. W. Gallaway, A. Gaikwad, D. Turney, D. Desai, S. Banerjee (CUNY Energy Institute at the City College of New York), B. J. Hertzberg, D. A. Steingart (Department of Mechanical and Aerospace Engineering, Princeton University), Y. C. K. ChenWiegart, K. Evans-Lutterodt, J. Wang, and C. Erdonmez (Brookhaven National Laboratory)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

09:40 10:00 10:20

1282

Invited: A Stability Study of Alkali Doped PBI Membranes for Alkaline Electrolyzer Cells – J. O. Jensen, D. Aili (Technical University of Denmark), M. K. Hansen (Siemens), Q. Li, N. J. Bjerrum, and E. Christensen (Technical University of Denmark) Synthesis and Characterization of Highly Cross-Linked Anion Exchange Pore-Filling Membrane for High Performance SolidState Alkaline Fuel Cells – S. Miyanishi (Chemical Resorces Laboratory Tokyo Institute of Technology, Japan Science and Technology CREST), G. S. Sailaja (Chemical Resorces Laboratory Tokyo Institute of Technology, Japan science and technology CREST), I. Atsushi (Chemical Resorces Laboratory Tokyo Institute of Technology), and T. Yamaguchi (Japan Science and Technology CREST, Chemical Resorces Laboratory Tokyo Institute of Technology) Perfluorinated Ionomers for Alkaline Membrane Fuel Cells – D. S. Kim (Los Alamos National Laboratory), S. D. Yim (Korea Insititue of Energy Research (KIER)), K. S. Lee, H. T. Chung (Los Alamos National Laboratory), Y. K. Choe (AIST), and Y. S. Kim (Los Alamos National Laboratory) Evaluation of Cation and Backbone Chemistries for Electrospun and Crosslinked Nanofiber Composite Anion Exchange Membranes – A. M. Park, R. Wycisk, F. E. Turley, and P. N. Pintauro (Vanderbilt University) Intermission PEFC 14 Poster Awards in room of Section D3-1 “Hybrid” Anion-Exchange-Membranes for Direct Ethanol Fuel Cells – L. Sun, J. Guo (IUPUI), and R. Chen (Indiana University Purdue University Indianapolis)

189

Thursday, October 9

09:50


10:40

1283

11:00

1284

Alkaline Durable 2-Methyl-1Vinylimidazolium-Based Anion Exchange Membranes Prepared by Radiation-Induced Grafting for Hydrazine Hydrate Fuel Cells – K. Yoshimura, H. Koshikawa, T. Yamaki, Y. Maekawa (Quantum Beam Science Directorate, Japan Atomic Energy Agency), H. Shishitani, S. Yamaguchi, and H. Tanaka (Daihatsu Motor Co., Ltd.) Influences of Structural Differences of Layered Double Hydroxides on Their Hydroxide Ion Conductivities – K. Miyazaki (Graduate School of Engineering, Kyoto University, JST PREST), Y. Asada, T. Fukutsuka, T. Abe (Graduate School of Engineering, Kyoto University), and L. Bendersky (NIST)

10:20

1273

10:40

1274

11:00

1275

11:20

1276

11:40

1277

Sunrise, 2nd Floor, Star Ballroom 8, Moon Palace Resort D3-1. Cathode Contamination & Non-PGM Catalysts I – 08:00 – 12:00 Co-Chairs: Jean St-Pierre and Shigenori Mitsushima 08:00

1268

08:20

1269

Thursday, October 9

08:40

09:00

09:20

1270

1271

1272

09:40 10:00

190

Contamination and Recovery of PEMFC Cathodes with Organohalides: Chlorobenzene and Bromomethane – Y. Zhai (Hawaii Natural Energy Institute, University of Hawaii - Manoa), O. A. Baturina (Naval Research Laboratory), D. E. Ramaker (George Washington University), J. St-Pierre (Hawaii Natural Energy Institute, University of Hawaii Manoa), and K. Swider-Lyons (U.S. Naval Research Laboratory) Effect of Organic Model Compound Contaminants on Platinum Catalysts – J. M. Christ (Colorado School of Mines), K. C. Neyerlin (National Renewable Energy Laboratory), R. M. Richards (Colorado School of Mines), and H. N. Dinh (National Renewable Energy Laboratory) Deactivation and Recovery of Pt/C with Commercial Glycol-Based Coolants in Rotating Disk Electrodes and Membrane Electrode Assemblies – B. D. Gould (Naval Research Laboratory), Y. Garsany (EXCET Inc.), and K. Swider-Lyons (U.S. Naval Research Laboratory) PEMFC Cathode Contamination Evaluation with Membrane Conductivity Cell, CA, CP, CV, EIS, GC/MS and ISE - Acetonitrile – Y. Zhai, J. St-Pierre, and J. Ge (Hawaii Natural Energy Institute, University of Hawaii - Manoa) Determination of Oxygen-ReductionReaction Active Sites of Niobium Oxide-Based Cathodes Used for Polymer Electrolyte Fuel Cells – M. Arao, T. Asada, K. Kubobuchi, M. Mogi, M. Matsumoto (NISSAN ARC Ltd.), A. Ishihara, K. I. Ota (Yokohama National University), and H. Imai (NISSAN ARC Ltd.) Intermission PEFC14 Poster Awards

Improvement of the Electrocatalytic Activity of Zirconium Oxide-Based Catalyst for ORR – Y. Okada (Green Hydrogen Research Center, Yokohama National University), A. Ishihara (Yokohama National University), M. Arao, M. Matsumoto, H. Imai (NISSAN ARC Ltd.), Y. Kohno, K. Matsuzawa, S. Mitsushima, and K. I. Ota (Yokohama National University) Oxygen Reduction Reaction Sites and Electron Conduction Mechanism of ZrOxide-Based Catalyst:Soft X-Ray SR-XPS and First-Principles Calculations – M. Mogi, K. Kubobuchi, M. Matsumoto, T. Asada, Y. Takahashi, M. Arao, K. Kamiguchi (NISSAN ARC Ltd.), A. Ishihara (Yokohama National University), N. Uehara, Y. Okada (Green Hydrogen Research Center, Yokohama National University), K. I. Ota (Yokohama National University), T. Mizoguchi, K. Yaji, A. Harasawa (The University of Tokyo), and H. Imai (NISSAN ARC Ltd.) Possibility of Oxide-Based Electrocatalyst toward Oxygen Reduction Reaction as Non Pt Cathode for PEFC – A. Ishihara (Yokohama National University), N. Uehara, Y. Okada, T. Hayashi (Green Hydrogen Research Center, Yokohama National University), M. Hamazaki (Yokohama National University), H. Imai, M. Matsumoto, M. Arao (NISSAN ARC Ltd.), Y. Ohgi (Kumamoto Industrial Research Institute), Y. Kohno, K. Matsuzawa, S. Mitsushima, and K. I. Ota (Yokohama National University) Oxygen Reduction Reaction Activity of Aluminum-Doped Hafnium Oxynitride in Acid Media – M. Chisaka (Depertment of Electronics and Information Technology, Hirosaki University) and H. Muramoto (Toyohashi University of Technology) Development of Pt-Free Carbon-Based Catalyst for PEFC Cathode Prepared from Polyacrylonitrile – M. Chokai, T. Daidou (Technology Innovation Center, Teijin Ltd.), and Y. Nabae (Tokyo Institute of Technology)

Sunrise, 2nd Floor, Jupiter 1 & 2, Moon Palace Resort A3-1. Imaging – 08:40 – 11:40 Co-Chairs: Shohji Tsushima and Toshikazu Kotaka 08:40

1285

09:20

1286

Invited: Advances in Structural Characterization of PEM Fuel Cell Catalyst Layers By Soft X-Ray Scanning Transmission Microscopy – D. Susac, V. Berejnov, M. S. Saha (Automotive Fuel Cell Cooperation Corp.), V. Lee, M. West, A. P. Hitchcock (McMaster University), and J. Stumper (Automotive Fuel Cell Cooperation Corporation) In Situ Soft X-ray Visualization of Liquid Water Distribution in a PEMFC with VGCF-Modified MPL – T. C. Jao, P. Deevanhxay, S. Tsushima, and S. Hirai (Tokyo Institute of Technology) Meeting Program l October 5-9, 2014 l Cancun, Mexico


10:20 10:40

1288

11:00

1289

11:20

1290

Break A New Pore Filling Technology Used for the FIB/SEM Analysis of the Pore Morphology of PEFC Catalyst Layer Cross-Section – S. Ghosh, H. Ohashi (Chemical Resources Laboratory Tokyo Institute of Technology), Y. Oshiba (Chemical Resorces Laboratory Tokyo Institute of Technology), H. Tabata (Chemical Resources Laboratory Tokyo Institute of Technology), and T. Yamaguchi (Chemical Resorces Laboratory Tokyo Institute of Technology) PEFC 14 Poster Awards in room of Section D3-1 Investigation of Interfacial Water Transport at the Gas Diffusion Media by Neutron Radiography – T. Kotaka, Y. Tabuchi (Nissan Motor CO., LTD.), U. Pasaogullari (Department of Mechanical Engineering, University of Connecticut), and C. Y. Wang (The Pennsylvania State University) High-Resolution Mapping of the PFSA Polymer Distribution in PEFC Electrode Layers – R. J. Koestner (General Motors Powertrain Engineering), D. A. Cullen (Oak Ridge National Laboratory), R. Kukreja (General Motors), S. Minko (University of Georgia, Chemistry department), H. M. Meyer III (ORNL), Z. Liu (General Motors Global Research & Development Center), and K. L. More (Oak Ridge National Laboratory) Cross-Sectional Visualization of Liquid Water Behavior and Evaluation of Wettability Effect in Cathode Channel of an Operating PEFC – K. Nishida, T. Muranishi, Y. Ishizaki (Kyoto Institute of Technology), S. Tsushima, and S. Hirai (Tokyo Institute of Technology)

11:20

1294

11:40

1295

Sunrise, 2nd Floor, Jupiter 1 & 2, Moon Palace Resort A3-2. Durability – 14:00 – 16:00 Co-Chairs: John William Van Zee and Maren Rastedt 14:00

1296

14:20

1297

14:40

1298

15:00

1299

15:20

1300

15:40

1301

Sunrise, 2nd Floor, Galactic Ballroom 4, Moon Palace Resort C3-1 Novel Membrane Developments – 10:00 – 12:00 Co-Chairs: Patric Jannasch and Peter N. Pintauro 10:00 10:20

10:40

1291

1292

PEFC 14 Poster Awards in room of Section D3-1 Hybrid Electrolyte Membranes Based on Sulfonated Poly (arylene ether sulfone ketone) Multiblock Copolymer for PEMFC Operating at Elevated Temperatue under Low Humidity – S. Shanmugam, K. B. Lee, K. Ketpang, S. Lee, and D. H. Lee (DGIST) Evaluation of the Electrospun Inorganic/ Organic Composite Membrane for High Temperature PEMFC – Y. G. Shul, J. H. Park (Yonsei University), C. M. Lee (Kyushu university), H. J. Hwang (Yonsei university), and Y. K. Jeon (Yonsei University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Graphene Oxide Membrane Fuel Cells: A New Class of Ionic Conductors – T. Bayer (Department of Mechanical Engineering, Kyushu University, International Institute for Carbon-Neutral Energy Research (WPI-I2CNER), Kyushu University), S. R. Bishop, M. Nishihara (International Institute for Carbon-Neutral Energy Research (WPI-I2CNER), Kyushu University), K. Sasaki (Kyushu University, Department of Mechanical Engineering, Kyushu University), and S. M. Lyth (Kyushu University) Pore–Filling and Thermally Cross–Linked Polyethersulfone Membranes with High Ion Exchange Capacity and Thermal Stability for PEFCs – S. Ando (Tokyo Institute of Technology, Kanagawa Academy of Science and Technology), D. Arima (Tokyo Institute of Technology), H. Kuroki (Tokyo Institute of Technology, Kanagawa Academy of Science and Technology), H. Ohashi (Chemical Resources Laboratory Tokyo Institute of Technology), S. Yao (Fukuoka University), and T. Yamaguchi (Tokyo Institute of Technology, Kanagawa Academy of Science and Technology)

An Isothermal Model for Predicting Performance Loss in PEMFCs Due to Contamination Mechanisms – H. S. Cho and J. W. Van Zee (University of Alabama) Fatigue Testing of Fuel Cell Membranes: Comparison of In-Situ and Ex-Situ Techniques – A. S. Alavijeh, R. MH Khorasany, Z. Nunn (Simon Fraser University), M. Lauritzen (Ballard Power Systems), and E. Kjeang (Simon Fraser University) Tracking the Water-Uptake Behavior of Fuel Cell Membranes during Accelerated Stress Testing – S. V. Venkatesan, C. Lim, S. Holdcroft, and E. Kjeang (Simon Fraser University) The Effect of Cyclic Hygrothermal Loading on the Mechanical Fatigue Durability of PEM Fuel Cells – R. M.H. Khorasany, Y. Singh, A. S. Alavijeh, E. Kjeang, G. Wang, and N. Rajapakse (Simon Fraser University) The Design of PEMFC MEAs with Improved Tolerance to Start up / Shut Down Events – R. O’Malley (Johnson Matthey Fuel Cells) Impact of Load Cycling at High Current Densities on the Degradation Behavior of Membrane-Electrode-Assemblies – M. Rastedt, D. Schonvogel, and P. Wagner (NEXT ENERGY • EWE Research Centre for Energy Technology)

191

Thursday, October 9

09:40 10:00 1287


Sunrise, 2nd Floor, Star Ballroom 8, Moon Palace Resort

17:00

1310

17:20

1311

17:40

1312

D3-2. Non-PGM Catalysts II – 14:00 – 18:00 Co-Chairs: Piotr Zelenay and Alexey Serov

Thursday, October 9

14:00

1302

Defective Nitrogen-Doped Graphene Foam: Clarifying the Role of Nitrogen in Non-Precious ORR Catalysts – S. M. Lyth (Kyushu University), J. Liu (Faculty of Engineering, Kyushu University), K. Sasaki (Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University), and T. Daio (Kyushu University) 14:20 1303 Structure-to-Property Relationships in Non-Platinum Group Fuel Cell Catalysts at the Mesoscale – M. J. Workman, A. Serov (University of New Mexico), P. Atanassov, and K. Artyushkova (University of New Mexico, Center for Emerging Energy Technologies) 14:40 1304 Transport Model for Non-PGM Cathodes in Proton-Exchange Membrane Fuel Cells – N. Leonard (Michigan State University), A. Serov, M. J. Workman (University of New Mexico), P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies), and S. Calabrese Barton (Michigan State University) 15:00 1305 Modeling Hierarchical Non-Precious Metal Catalyst Cathodes for PEFCs Using MultiScale X-ray CT Imaging Data – S. Komini Babu (Carnegie Mellon University), H. T. Chung, G. Wu, P. Zelenay (Los Alamos National Laboratory), and S. Litster (Mechanical Engineering, Carnegie Mellon University) 15:20 1306 Thin-Film Non Precious Metal Catalysts for Oxygen Reduction Reaction – U. Martinez, T. L. Williamson (Los Alamos National Laboratory), K. Artyushkova (University of New Mexico, Center for Emerging Energy Technologies), G. M. Purdy, J. H. Dumont, N. Mack, A. M. Dattelbaum, A. Mohite, G. Gupta, and P. Zelenay (Los Alamos National Laboratory) 15:40 1307 A Versatile Preparation of Highly Active ZIF-Based Non-PGM Catalysts through Solid State Synthesis – D. Zhao (National Univeristy of Singapore), J. Shui, L. Grabstanowicz, and D. J. Liu (Argonne National Lab) 16:00 Intermission 16:20 1308 Niobium Carbide Based Catalyst Supports for PEMFC Cathodes – Y. Nabil-Moreau, S. Cavaliere, D. Jones, J. Roziere (ICGM, Aggregates, Interfaces and Materials for Energy, CNRS Montpellier, France), G. Hards, J. Sharman, and I. Harkness (Johnson Matthey) 16:40 1309 Fe-N3 Defect As a Possible Active Site in Pyrolyzed ORR Electrocatalysts – B. Kiefer (New Mexico State University), S. Kabir (University of New Mexico), K. Artyushkova, and P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies)

192

H6

Experimental “Materials Genomics” for Elucidation of Active Sites of M-N-C NonPGM Electrocatalysts – K. Artyushkova, A. Serov (University of New Mexico, Center for Emerging Energy Technologies), M. S. Rojas Carbonell (University of New Mexico), and P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies) New Generation of Highly Active NonPGM ORR Catalysts – A. Serov, K. Artyushkova (University of New Mexico, Center for Emerging Energy Technologies), G. McCool (Pajarito Powder, LLC), B. Halevi (Pajarito Powder), and P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies) Non-PGM Membrane Electrode Assemblies: Optimization for Performance – S. Stariha, A. Serov, B. Halevi (University of New Mexico), and P. Atanassov (University of New Mexico, Center for Emerging Energy Technologies)

Molten Salts and Ionic Liquids 19

Physical and Analytical Electrochemistry / Electrodeposition / Energy Technology Expo Center, 1st Floor, Universal 3, Moon Palace Resort

Special Session Honoring Charles Hussey – 09:00 – 12:00 Co-Chair: Robert A. Mantz 09:00

1484

09:40 10:00 1485

10:20

1486

11:00

1487

The Structure of Electrodeposited Aluminum Alloys from Chloroaluminate Ionic Liquids: Let’s Not Ignore the Temperature – G. R. Stafford (National Institute of Standards and Technology), T. Tsuda (Department of Applied Chemistry, Graduate School of Engineering, Osaka University), and C. L. Hussey (University of Mississippi) Break Optimization of the Galvanostatic Pulse Plating of Al Metal in Room-Temperature Chloroaluminate Ionic Liquids – L. H. Chou and C. L. Hussey (University of Mississippi) A Strategy for Making Metal-Containing Ionic Liquids and Their Applications in Electrochemical Deposition – S. Dai (Department of Chemistry, University of Tennessee, Chemical Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831) Electrodeposition of Al-W-Mn Alloy from Lewis Acidic AlCl3−1-Ethyl-3Methylimidazolium Chloride Ionic Liquid – T. Tsuda (Department of Applied Chemistry, Graduate School of Engineering, Osaka University), Y. Ikeda (Graduate School of Engineering, Osaka University), S. Kuwabata (Department of Applied Chemistry, Graduate School of Engineering, Osaka University), G. R. Stafford (National Institute of Standards and Technology), and C. L. Hussey (University of Mississippi)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


1488

Inkjet Printing Ionic Liquids for the Fabrication of Surface Structures on Biopolymer Substrates – K. D. Sweely, E. T. Fox (U.S. Naval Academy), E. K. Brown (U. S. Naval Academy), L. M. Haverhals (Bradley University), H. C. De Long (Air Force Office of Scientific Research), and P. C. Trulove (U. S. Naval Academy)

Expo Center, 1st Floor, Universal 1, Moon Palace Resort Bredig Awards Dinner – 18:00 – 21:00 Co-Chair: Paul C. Trulove 18:00 20:00 20:20 1498

Nuclear and Rare Earth Chemistry – 14:00 – 18:00 Co-Chair: Luke M. Haverhals 14:00

14:40

15:00

1489

1490

1491

15:20 15:40 1492 16:20

1493

16:40

1494

17:00

1495

17:20

1496

17:40

1497

An Overview of the REFINE Project --The Sustainable Reduction of Spent Fuel Vital in a Closed Loop Nuclear Energy Cycle – D. Hu, A. Stevenson, and G. Z. Chen (University of Nottingham) Separation of Dy from Nd-Fe-B Magnet Scraps Using Molten Salt Electrolysis – H. Konishi, H. Ono, E. Takeuchi (Graduate School of Engineering, Osaka University), T. Nohira (Graduate School of Energy Science, Kyoto University), and T. Oishi (National Institute of Advanced Industrial Science and Technology) Selective Formation of Rare Earth-Nickel Alloys Via Electrochemical Reactions in NaCl-KCl Molten Salt – K. Yasuda (Graduate School of Energy Science, Kyoto University, Environment, Safety and Health Organization, Kyoto University), K. Kondo, S. Kobayashi, T. Nohira, and R. Hagiwara (Graduate School of Energy Science, Kyoto University) Break Recovery and Electrowinning of Strategic Critical Materials from Molten Salts – A. M. Martinez (SINTEF) Electrochemical Fluorination of Uranium to UF6 – M. J. Martinez-Rodriguez, L. C. Olson, J. R. Gray, and B. L. Garcia-Diaz (Savannah River National Laboratory) Efficient Rare Earth Separation Technology – K. D. Jayne (Reactive Innovations, LLC), D. Hatchett (University of Nevada, Las Vegas), K. Boutin, and M. C. Kimble (Reactive Innovations, LLC) Electrorefining Process for the Treatment of Zr-Alloy Cladding Hull Wastes Generated from Used Nuclear Fuels – C. H. Lee, Y. L. Lee, M. K. Jeon, Y. T. Choi, K. H. Kang, G. I. Park (Korea Atomic Energy Research Institute), and K. T. Park (Korean Institute of Industrial Technology) Solid Oxide Membrane for Reduction of Ce0.8Gd0.2O2 and TiO2 in LiCl-Li2O – L. C. Olson, B. L. Garcia-Diaz (Savannah River National Laboratory), and K. Brinkman (Clemson University) An Electrochemical and Spectroelectrochemical Study of Ln(II) (Ln = Sm, Eu, Yb) Species in NaCl-2CsCl Melt – V. A. Volkovich, A. B. Ivanov, A. A. Sobolev, B. D. Vasin (Ural Federal University), and T. R. Griffiths (Redston Trevor Consulting Ltd.)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

P7

Dinner Introductory Remarks (Max Bredig Award in Molten Salt & Ionic Liquid Chemistry) Molten Salts and Ionic Liquids: Where Have We Been and Where Are We Going? An Electrochemist’s Perspective – C. L. Hussey (University of Mississippi)

SiGe, Ge, and Related Compounds: Materials, Processing, and Devices 6 Electronics and Photonics Expo Center, 1st Floor, Universal 8, Moon Palace Resort

GeSn Session 1: GeSn Epitaxy 1 – 08:00 – 09:50 Co-Chair: Benjamin Vincent 08:00

08:30

08:50

09:10

09:30

1826 Ge1-xSnx Optical Devices: Growth and Applications – Y. Shimura (IMEC, FWO Pegasus Marie Curie Fellow), W. Wang (IMEC), W. Vandervorst (KU Leuven, IMEC), F. Gencarelli (IMEC, KU Leuven), A. Gassenq, G. Roelkens (Ghent University), A. Vantomme (KU Leuven), M. Caymax, and R. Loo (IMEC) 1827 Growth Studies of Doped SiGeSn/ Strained Ge(Sn) Heterostructures – S. Wirths (Forschungszentrum Juelich), Z. Ikonic (University of Leeds), N. von den Driesch, G. Mussler (Forschungszentrum Juelich), U. Breuer (Northern Illinois University, Forschungszentrum Juelich), A. Tiedemann, P. Bernardy, B. Holländer, T. Stoica (Forschungszentrum Juelich), J. M. Hartmann (CEA, LETI, University of Grenoble - Alpes), D. Grützmacher, S. Mantl, and D. Buca (Forschungszentrum Juelich) 1828 Ge1-xSnx Epitaxial Growth on Ge Substrate by MOCVD – K. Suda, S. Ishihara, N. Sawamoto (Meiji University), H. Machida, M. Ishikawa, H. Sudoh (Gasphase Growth Ltd.), Y. Ohshita (Toyota Technological Institute), and A. Ogura (Meiji University) 1829 CVD Growth of GeSnSiC Alloys Using Disilane, Digermane, Tin Tetrachloride and Methylsilane – M. Noroozi, A. Abedin (KTH Royal Institute of Technology), M. Moeen (Integrated devices and circuits department, KTH Royal Institute of Technology), M. Östling, and H. H. Radamson (KTH Royal Institute of Technology) 1830 Growth and Characterization of Epitaxial Ge1-XSnx Alloys and Heterostructures Using a Commercial CVD System – J. Margetis (ASM America), S. A. Ghetmiri, W. Du, B. R. Conley, A. Mosleh (University of Arkansas), R. Soref, G. Sun (University of Massachusetts Boston), L. Domulevicz (Wilkes University), H. A. Naseem, S. Q. Yu (University of Arkansas), and J. Tolle (ASM America) 193

Thursday, October 9

11:20


Expo Center, 1st Floor, Universal 11, Moon Palace Resort

Expo Center, 1st Floor, Universal 11, Moon Palace Resort

Optoelectronics 2: Photodetection – 08:20 – 09:40 Co-Chair: Gianlorenzo Masini

Optoelectroncis 3: Systems – 10:05 – 11:35 Co-Chair: Gianlorenzo Masini

08:20

1831

08:40

1832

09:10

1833

Si Waveguide-Integrated High-Speed Ge Photodetector – J. Fujikata, M. Miura, M. Noguchi (PECST, PETRA), and Y. Arakawa (PECST, Univ. of Tokyo) Waveguide Germanium PIN Photodiodes for Optical Communication Applications – L. Vivien (University of Paris-Sud), L. Virot (University of Grenoble - Alpes, University of Paris-Sud), J. M. Hartmann, J. M. Fédéli (CEA, LETI, University of Grenoble - Alpes), D. Marris-Morini, E. Cassan (University of Paris-Sud), C. Baudot, and F. Boeuf (STMicroelectronics) Fabrication of Pure-GaB Ge-on-Si Photodiodes for Well-Controlled 100-pALevel Dark Currents – A. Sammak (TUDelft), M. Aminian (EPFL), L. Qi, W. B. de Boer (TUDelft), E. Charbon (EPFL, TUDelft), and L. K. Nanver (TUDelft)

Expo Center, 1st Floor, Universal 8, Moon Palace Resort

10:05

1838

10:25

1839

10:55

1840

11:15

1841

GeSn Session 2: GeSn Epitaxy 2 – 10:05 – 11:35 Co-Chair: Benjamin Vincent 10:05

Thursday, October 9

10:35

1834

1835

10:55

1836

11:15

1837

Epitaxial Growth of GeSn Layers on (001), (110), and (111) Si and Ge Substrates – O. Nakatsuka, N. Taoka, T. Asano, T. Yamaha, M. Kurosawa, W. Takeuchi, and S. Zaima (Nagoya University) Characterization of Ge1-x-ySixSny Ternary Alloys – Comparison of UHV-CVD and Gas Source MBE Growth – B. Claflin, A. Kiefer (Air Force Research Laboratory, Sensors Directorate), R. Beeler (Department of Chemistry and Biochemistry, and Department of Physics, Arizona State University), Z. Q. Fang (Wright State University), and G. Grzybowski (Solid State Scientific Corporation) Virtual Substrate Technology for Ge1XSnX Heteroepitaxy on Si Substrates – K. Kostecki, M. Oehme, R. Koerner (University of Stuttgart), D. Widmann (Institute for Semiconductor Engineering), M. Gollhofer, S. Bechler (University of Stuttgart), G. Mussler, D. Buca (Forschungszentrum Juelich), E. Kasper, and J. Schulze (University of Stuttgart) Low Temperature Geometrically Confined Growth of Pseudo Single Crystalline GeSn on Amorphous Layers for Advanced Optoelectronics – H. Li, J. Brouillet, A. Salas, I. Chaffin, X. Wang, and J. Liu (Dartmouth College)

Expo Center, 1st Floor, Universal 7, Moon Palace Resort Strain 2 – 12:50 – 13:40 Co-Chairs: Atsushi Ogura and Seiichi Miyazaki 12:50

1847

13:20

1848

High Ge Content SiGe Thin Films: Growth, Properties and Integration – A. Y. Hikavyy, E. Rosseel, S. K. Dhayalan, L. Witters, H. Mertens, H. Bender, P. Favia, and R. Loo (IMEC) Evaluation of Anisotropic Biaxial Stress in Thin Strained-SiGe Layer Using Surface Enhanced Raman Spectroscopy – S. Yamamoto (School of Science and Technology, Meiji University), D. Kosemura (Meiji University), S. N. C.M.Yusoff, T. Kijima, R. Imai, K. Takeuchi, R. Yokogawa (School of Science and Technology, Meiji University), K. Usuda (National Institute of Advanced Industrial Science and Technology (AIST)), and A. Ogura (Meiji University)

Expo Center, 1st Floor, Universal 8, Moon Palace Resort GeSn Session 3: GeSn Devices and Characterization – 12:50 – 14:40 Co-Chairs: Benjamin Vincent and Y. C. Yeo 12:50

194

Silicon-Germanium-Silica Monolithic Photonic Integration Platform for HighPerformance Optical Data Communication Systems – K. Yamada, T. Tsuchizawa, H. Nishi, R. Kou, T. Hiraki, K. Takeda, H. Fukuda, K. Okazaki (NTT Corporation), Y. Ishikawa, K. Wada (The University of Tokyo), and T. Yamamoto (NTT Corporation) Photonic Interconnection Made by a Ge/SiGe MQW Modulator Connected to a Ge/SiGe MQW Photodetector through a SiGe Waveguide – J. Frigerio (Politecnico di Milano), P. Chaisakul (Institut d’Electronique Fondamentale), D. Marris-Morini (University of Paris-Sud), M. S. Rouifed (Institut d’Electronique Fondamentale), S. Cecchi, D. Chrastina, G. Isella (Politecnico di Milano), and L. Vivien (University of Paris-Sud) Post-Growth Laser Annealing for HighPerformance Ge Photodiodes on Si – Y. Kawamata, S. Nagatomo, K. Fukuda (The University of Tokyo), Y. Izawa (Tokyo Electron Miyagi Limited), S. Hoshino (Tokyo Electron Limited), and Y. Ishikawa (The University of Tokyo) The Dual-Heterojunction Ge on Si Photodetector – S. Sahni, N. K. Hon, and G. Masini (Luxtera)

1842

Germanium-Tin P-Channel Field-Effect Transistor with Low-Temperature Si2H6 Passivation – X. Gong, Y. Yang, P. Guo, W. Wang, R. Cheng, L. Wang, E. S. Tok, and Y. C. Yeo (National University of Singapore) Meeting Program l October 5-9, 2014 l Cancun, Mexico


1843

13:40

1844

14:00

14:20

1845

1846

Optical and Electronic Propreties of GeSn and GeSiSn Heterostructures and Nanowires – A. Attiaoui and O. Moutanabbir (Department of Engineering Physics, École Polytechnique de Montréal) Stability of Pseudomorphic and Compressively Strained Ge1-XSnx Thin Films under Rapid Thermal Annealing – B. R. Conley, A. Mosleh, S. A. Ghetmiri, W. Du (University of Arkansas), G. Sun, R. Soref (University of Massachusetts Boston), J. Margetis, J. Tolle (ASM America), H. A. Naseem, and S. Q. Yu (University of Arkansas) Investigation on the Formation and Propagation of Defects in GeSn Thin Films – A. Mosleh, M. Benamara, S. A. Ghetmiri, B. R. Conley (University of Arkansas), M. A. Alher (University of Karbala, Karbala, Iraq), W. Du (University of Arkansas), G. Sun, R. Soref (University of Massachusetts Boston), J. Margetis, J. Tolle (ASM America), S. Q. Yu, and H. A. Naseem (University of Arkansas) In Situ Studies of Germanium-Tin and Silicon-Germanium-Tin Thermal Stability – J. H. Fournier-Lupien, D. Chagnon (Department of Engineering Physics, École Polytechnique de Montréal), P. Lévesque (Department of Chemistry, Université de Montréal), A. A. AlMutairi (Department of Engineering Physics, École Polytechnique de Montréal), S. Wirths (Forschungszentrum Juelich), E. Pippel (Max Planck Institute of Microstructure Physics), G. Mussler (Forschungszentrum Juelich), J. M. Hartmann (University of Grenoble - Alpes), S. Mantl, D. Buca (Forschungszentrum Juelich), and O. Moutanabbir (Department of Engineering Physics, École Polytechnique de Montréal)

14:20

1851

Expo Center, 1st Floor, Universal 8, Moon Palace Resort Epitaxy 2: Si/SiGe Epitaxial Growth – 14:55 – 17:25 Co-Chairs: Yuji Yamamoto and A. Hikaviv 14:55

1852

15:15

1853

15:35

1854

15:55

1855

16:15

1856

17:05

1858

Expo Center, 1st Floor, Universal 11, Moon Palace Resort Emerging Devices and Applications 2: Quantum Effects – 13:30 – 14:50 Co-Chairs: Joshua E. Goldberger and Roland Kenji Kawakami 13:30

14:00

1849

1850

Integrating Classical Semiconductor Devices with Si/Sige Quantum Dots – D. R. Ward, R. H. Foote (University of Wisconsin-Madison), J. K. Gamble (Sandia National Laboratories), D. E. Savage, M. G. Lagally, S. N. Coppersmith, and M. A. Eriksson (University of WisconsinMadison) Characterization of Electron Emission from High Density Self-Aligned Si-Based Quantum Dots by Conducting-Probe Atomic Force Microscopy – D. Takeuchi, K. Makihara (Graduate School of Engineering, Nagoya University), A. Ohta (Nagoya University), M. Ikeda (Hiroshima University), and S. Miyazaki (Graduate School of Engineering, Nagoya University)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

The Thermoelectric Properties of Ge/ SiGe Based Superlattices: from Materials to Energy Harvesting Modules – A. Samarelli, L. Ferre Llin (University of Glasgow), S. Cecchi, J. Frigerio (Politecnico di Milano), T. Etzelstorfer (Johannes Kepler Universität), E. Müller Gubler (ETH Zürich), J. Stangl (Johannes Kepler Universität), D. Chrastina, G. Isella (Politecnico di Milano), and D. Paul (University of Glasgow)

Very Low Temperature (Cyclic) Deposition / Etch of In-Situ Raised Sources and Drains – J. M. Hartmann (CEA, LETI), V. Benevent, A. André, C. Sirisopanaporn, M. Veillerot (CEA, LETI, Grenoble, France), M. P. Samson (STMicroelectronics, Crolles, France), and S. Barraud (CEA, LETI, Grenoble, France) Selective Epitaxial Si:P Film for nMOSFET Application: High Phosphorous Concentration and High Tensile Strain – X. Li, A. Dube, Z. Ye, S. Sharma, Y. Kim, and S. Chu (Applied Materials) Investigation of Growth Mechanism and Role of H2 in Very Low Temperature Si Epitaxy – A. Mosleh, S. A. Ghetmiri, B. R. Conley (University of Arkansas), H. H. Abu-Safe (German-Jordanian University), M. Benamara, Z. Waqar, S. El-Ghazaly, S. Q. Yu, and H. A. Naseem (University of Arkansas) Characterization of Epitaxial Si:C:P and Si:P Layers for Source/Drain Formation in Advanced Bulk FinFETs – E. Rosseel (IMEC), H. B. Profijt (ASM Belgium), A. Y. Hikavyy (IMEC), J. Tolle (ASM America), S. Kubicek, G. Mannaert (imec), C. L’abbe, K. Wostyn (IMEC), N. Horiguchi, T. Clarysse, B. Parmentier (imec), S. Dhayalan, H. Bender (IMEC), J. W. Maes (ASM Belgium), S. Mehta (ASM America), and R. Loo (IMEC) Evaluation of the Si0.8Ge0.2-on-Si Epitaxial Quality by Inline Surface Light Scattering: A Case Study on the Impact of Interfacial Oxygen – K. Wostyn (IMEC), K. Kenis, D. Rondas (imec vzw), R. Loo, A. Y. Hikavyy (IMEC), S. Dhayalan (imec), B. Douhard, P. W. Mertens, F. Holsteyns, S. De Gendt (imec vzw), G. Simpson, G. Bast, and K. Swaminathan (KLA-Tencor) Material Studies on Si:C Epitaxial Films Grown by CVD – S. Dhayalan (K.U.Leuven, IMEC), R. Loo (imec vzw), E. Rosseel (Imec), A. Y. Hikavyy (IMEC), Y. Shimura (FWO Pegasus Marie Curie Fellow), T. Nuytten, O. Richard (imec), H. Bender (IMEC), B. Douhard (imec vzw), and W. Vandervorst (IMEC)

195

Thursday, October 9

13:20


Q5

Nonvolatile Memories

Dielectric Science and Technology / Electronics and Photonics Expo Center, 1st Floor, Universal 5, Moon Palace Resort

Flash Memories – 14:00 – 15:20 Co-Chairs: Kiyoteru Kobayashi and Zia Karim 14:00

2054

14:30

2055

15:00

2056

ReRAM-2 – 10:00 – 11:50 Co-Chairs: Hisashi Shima and Blanka Magyari-Kope 10:00

2050

10:30

2051

11:00

2052

11:30

2053

Development, Characterization, and Modeling of a TaOx Reram for a Neuromorphic Accelerator – M. J. Marinella, P. R. Mickel, A. J. Lohn, D. R. Hughart, R. Bondi, D. Mamaluy, H. P. Hjalmarson, J. E. Stevens, S. Decker, R. T. Apodaca, B. Evans, J. B. Aimone, F. Rothganger, C. D. James, and E. P. DeBenedictis (Sandia National Laboratories) Progresses in Modeling HfOx RRAM Operations and Variability – L. Larcher (Università di Modena e Reggio Emilia), O. Pirrotta, F. M. Puglisi, A. Padovani, P. Pavan, and L. Vandelli (University of Modena and Reggio Emilia) Reason and Role of Atomic Layer Deposition for PCRAM and ReRAM Films – Z. Karim (AIXTRON Inc), K. Song, L. Yang, and B. Lu (AIXTRON, Inc) Implications of Lower Zero-Field Activation Energy of Dielectric in Al2O3/ HfO2 Bi-layer Dielectric RRAM Forming Process – B. Sarkar, B. Lee (North Carolina State University), and V. Misra (Nanosystems Engineering Research Center (NERC) for Advanced SelfPowered Systems of Integrated Sensors and Technologies (ASSIST))

Multilevel Cell Nonvolatile Memory with Field-effect Transistor Using Crystalline Oxide Semiconductor – T. Matsuzaki, T. Onuki, S. Nagatsuka, H. Inoue, T. Ishizu, H. Miyairi, M. Sakakura, T. Atsumi, Y. Shionoiri, K. Kato, T. Okuda, Y. Yamamoto, J. Koyama, and S. Yamazaki (Semiconductor Energy Laboratory Co., Ltd.) Defect Generation Mechanism and Its Impact on Reliability Properties in MONOS Devices – S. Fujii, H. Kusai, K. Sakuma, and M. Koyama (Toshiba Corporation) Temperature Effect on Memory Functions of the nc-CdSe Embedded ZrHfO High-k MOS Device – S. Zhang and Y. Kuo (Texas A&M University)

STTMRAM-2 – 15:40 – 17:10 Co-Chairs: Yoshishige Suzuki and Kungwon Rhie 15:40

2057

16:10

2058

16:30

2059

Thursday, October 9

16:50

Materials and Physics Challenges for Spin Transfer Torque Magnetic Random Access Memories – O. Heinonen (Argonne National Laboratory, Northwestern University) Thermal Stability Enhancement of Cofeb Pinned Layer for Perpendicular-Magnetic Tunnel Junction with Multi-[Co/Pt] n-Synthetic-Anti-Ferro-Magnetic Layer – S. E. Lee, T. H. Shim, J. P. Hong, and J. G. Park (Hanyang University) Thermal Stability Enhancement for Perpendicular-Magnetic Tunnel Junctions Grown on Bcc Crystalline Seed-Layer – D. Y. Lee, M. S. Jeon, J. P. Hong, and J. G. Park (Hanyang University) Concluding Remarks

196

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

A

Aili, David...........................................1278 (F3, Thu) Aimone, James...................................2050 (Q5, Thu) Ajenifujah, Olabode............................ 196 (A3, Wed) Akabori, Sho....................................... 1162 (F3, Tue) Akatsu, Mitsuhiro............................. 1637 (P3, Mon) Akazawa, Muneki............................ 1928 (Q10, Tue) Akbashev, Andrew........................... 1600 (P1, Mon), .............................................................2245 (Z1, Tue) Akdim, Brahim................................ 1578 (M1, Wed) Akita, Kennichi................................. 2043 (Q5, Wed) Akita, Seiji.........................................2002 (Q4, Mon) Akita, Tomoki...................................... 237 (A4, Tue) Akiyama, Shinya.................................254 (A5, Mon) Akkaraju, Giri....................................2306 (Z3, Wed) Akolkar, Rohan..................................1707 (P5, Wed) Al-Jassem, Nasser............................... 778 (C2, Wed) Al-Kandari, Halema.............................930 (E2, Wed) Al-Kandari, Shekhah...........................930 (E2, Wed) Al-Kharafi, Faizah................................727 (C1, Tue) AL Rahal AL Orabi, Ayman................ 443 (A5, Thu) Al-Sawaf, Thualfiqar.......................... 1776 (P7, Tue) Alam, Md. Khorshed.........................1257 (F3, Wed) Alamgir, Faisal.....................................14 (A1, Mon), ................................ 819 (D1, Wed), 1386 (H2, Mon) Alarcon, Carlos................................... 303 (A5, Wed) Alarcón, G...........................................2215 (Z1, Tue) Alarcon-Flores, Gilberto................... 2170 (R1, Wed) Alarcón Molina, Luis............................772 (C2, Tue) Alatorre Ordaz, Martín.......................2253 (Z1, Tue) Alavijeh, Alireza.........1094 (F3, Tue), 1245 (F3, Wed), .....................................1297 (F3, Thu), 1299 (F3, Thu) Albañil, Loyda................................. 1576 (M1, Wed) Albert, Matthias.................................. 1616 (P1, Tue) Albrecht, Fabian.................................. 1607 (P1, Tue) Albrecht, Thomas................................ 1610 (P1, Tue) Aldana-González, Jorge..................... 504 (A6, Tue), .................................... 506 (A6, Tue), 776 (C2, Tue), ..................................835 (D1, Wed), 1900 (Q1, Tue) Alexeev, Alexander...............................637 (B1, Tue) Alfantazi, Akram.....................................77 (A2, Tue) Alia, Shaun..........................................1035 (F3, Sun) Aljaberi, Ahmed................................ 2274 (Z2, Mon) Alkis, Sabri.............1879 (P9, Tue), 2143 (Q9, Mon) Allabergenov, Bunyod....................... 596 (A8, Wed), .............................................................2268 (Z1, Tue) Allebrod, Frank..................................1235 (F3, Wed) Allen, Jan............................................. 307 (A5, Wed) Allen, Jeff............................................1027 (F3, Sun) Allen, Jeffrey.......................................1028 (F3, Sun) Allen, Jessica...........................................41 (A1, Tue) Allen, Joshua.............307 (A5, Wed), 512 (A7, Tue), ............................................................. 528 (A7, Wed) Allendorf, Mark................................. 2105 (Q7, Tue) Aller, Joshua........................................ 746 (C1, Wed) Allu, Srikanth................. 34 (A1, Tue), 38 (A1, Tue), ................................... 369 (A5, Wed), 445 (A5, Thu) Almaadeed, Mariam.............................706 (C1, Tue) Almazán-Ruiz, Francisco...................933 (E2, Wed), ...............................................................966 (E3, Tue) Almeida, Thiago.......... 1122 (F3, Tue), 1216 (F3, Wed) Almeraya, Facundo...............................777 (C2, Tue) Almeraya Calderon, Facundo..............718 (C1, Tue) AlMutairi, AbdulAziz.........................1846 (P7, Thu) Alonso, Gabriel..................................1214 (F3, Wed) Alonso, Juan........................................ 1003 (F2, Tue) Alonso-Lemus, Ivonne...................... 1080 (F3, Tue), .............................................................2257 (Z1, Tue) Alonso-Vante, Nicolas....................... 1507 (H7, Tue) Altaweel, Ayman................................ 1590 (N1, Tue) Altomare, Lina................................... 1403 (H2, Tue) Alvarez-Casillas, Cesar..................... 1371 (H1, Tue) Álvarez-Contreras, Lorena................ 816 (D1, Wed), ............................................................1213 (F3, Wed) Álvarez-Romero, Giaan.....................2216 (Z1, Tue), .............................................................2227 (Z1, Tue) Alves, Suellen......................................940 (E2, Wed)

Amanchukwu, Chibueze......................55 (A2, Mon) Amaral, Luis........................................ 1128 (F3, Tue) Ambrogio, Stefano............................ 2116 (Q7, Wed) Ambrozik, Stephen............................ 821 (D1, Wed), ...........................................................1385 (H2, Mon) Ameen, Mahmoud.............................. 1613 (P1, Tue) Amel, Alina........................................1266 (F3, Wed) Amendola, Roberta............................. 745 (C1, Wed) Amin, Hatem..................................... 1529 (H7, Wed) Aminian, Mahdi..................................1833 (P7, Thu) Amos, Charles...................................... 465 (A5, Thu) Amsden, Jason......... 507 (A6, Tue), 2299 (Z2, Wed) Amy, Gary...........................................2289 (Z2, Tue) An, Chang Yong................................ 1871 (P8, Mon) An, Jae Youn....................................... 430 (A5, Wed) An, Jihwan...................46 (A1, Tue), 1008 (F2, Wed) Anantram, M...................................... 1888 (Q1, Tue) Anaredy, Radhika..............................1428 (H6, Mon) Andersen, Charles...... 57 (A2, Mon), 630 (A9, Wed) Andersen, Hanne.......388 (A5, Wed), 428 (A5, Wed) Anderson, Shannon............................. 824 (D1, Wed) Anderson, Travis................................ 1980 (Q3, Tue) Andisheh-Tadbir, Mehdi....................1030 (F3, Sun), ................................1231 (F3, Wed), 1232 (F3, Wed) Ando, Hisanori....................................2240 (Z1, Tue) Ando, Shinji........................................1295 (F3, Thu) Ando, Yasunobu................................... 239 (A4, Tue) André, Agathe.....................................1852 (P7, Thu) Andrieu, Eric................726 (C1, Tue), 758 (C2, Tue) Andrieu, François..............................1807 (P7, Wed), ...........................................................2091 (Q7, Mon) Angell, C............................................ 1416 (H6, Sun) Angelo, Michael.................................. 1058 (F3, Tue) Aniel, Frederic.................................... 1794 (P7, Tue) Ankah, Genesis................................... 792 (C3, Wed) Annaka, Koji.......................................264 (A5, Mon) Anouti, Mérièm.................................... 514 (A7, Tue) Ansar, Asif..........................................1236 (F3, Wed) Anstrom, Joel...................................... 378 (A5, Wed) Anta, Juan........................................... 2066 (Q6, Tue) Antaño, Rene....................................... 782 (C2, Wed) antaño Lopez, Rene............................ 952 (E3, Mon) Anthony, John.................................... 1894 (Q1, Tue) Antoniadis, Dimitri............................. 1788 (P7, Tue) Anzalone, Ruggero............................1822 (P7, Wed) Aoki, Hiroyoshi................................... 1139 (F3, Tue) Aoki, Nana..........................................2217 (Z1, Tue) Aoki, Naoya.............1063 (F3, Tue), 1134 (F3, Tue), ...................................1135 (F3, Tue), 1143 (F3, Tue) Aoki, Tsutomu.....................................1015 (F3, Sun) Aoun, Nadia........................................ 1115 (F3, Tue) Aoyagi, Shigeo.................................... 345 (A5, Wed) Aoyama, Hiroyuki..............................2238 (Z1, Tue) Aoyama, Yusuke................................. 1159 (F3, Tue) Apblett, Christopher............................ 810 (D1, Tue) Aperador Chaparro, Willian................762 (C2, Tue), ............................................................ 1595 (N1, Tue) Apostolo, Marco........364 (A5, Wed), 813 (D1, Tue) Appiah, Williams................................ 415 (A5, Wed) Arachi, Yoshinori................................254 (A5, Mon) Arai, Hajime...........................................31 (A1, Tue), ...................................266 (A5, Mon), 460 (A5, Thu) Arai, Manabu....................................1959 (Q3, Mon) Arai, Susumu...........2185 (Z1, Tue), 2207 (Z1, Tue), ..................................2220 (Z1, Tue), 2225 (Z1, Tue) Araidai, Masaaki...............................2086 (Q7, Mon) Arakawa, Yasuhiko.............................1831 (P7, Thu) Araki, Takuto........................................ 992 (F2, Tue), ..................................1023 (F3, Sun), 1026 (F3, Sun)

Aarhaug, Thor.................................... 1439 (H6, Tue) Abb, Martina......................................1634 (P1, Wed) Abbas, Qamar...................................... 211 (A3, Thu) Abbate, Francesco..............................1807 (P7, Wed) Abd Rahman, Azilah.......................... 392 (A5, Wed) Abdel-Fattah, Tarek......................... 1476 (H6, Wed), ..............................1563 (M1, Wed), 2081 (Q6, Tue), ............................................................ 2082 (Q6, Tue) Abdel Nazeer, Ahmed...........................727 (C1, Tue) Abdulaziz, Rema................................ 1444 (H6, Tue) Abdullah, Aboubakr........706 (C1, Tue), 930 (E2, Wed) Abdullah, Ragab...................................727 (C1, Tue) Abe, Hideki............. 1129 (F3, Tue), 1215 (F3, Wed) Abe, Masayuki..................................... 174 (A3, Tue) Abe, Takeshi................... 32 (A1, Tue), 33 (A1, Tue), ................................... 233 (A4, Tue), 1284 (F3, Thu) Abe, Yuta.............................................. 174 (A3, Tue) Abedin, Ahmad...... 1775 (P7, Mon), 1829 (P7, Thu) Abermann, Stephan..........................2092 (Q7, Mon) Abidov, Amir............ 596 (A8, Wed), 2268 (Z1, Tue) Abo Elazm, A..................................... 2081 (Q6, Tue) Abraham, Daniel.................................. 288 (A5, Tue) Abraham, K.M..................................... 284 (A5, Tue) Abramov, Aleksandr.......................... 1465 (H6, Tue) Abreu Sepulveda, Maria.........................9 (A1, Mon) Abu-Lebdeh, Yaser...............................511 (A7, Tue) Abu-Safe, Husam................................1854 (P7, Thu) Acebedo, Begoña................................. 150 (A2, Thu) Acevedo-Peña, Prospero................ 1561 (M1, Wed), .......................................................... 1575 (M1, Wed) Achem Calahorra, Jamnie...................718 (C1, Tue), ......................................719 (C1, Tue), 749 (C2, Tue) Achutharaman, Raman....................... 1676 (P4, Tue) Acosta, Andres......................................766 (C2, Tue) Adachi, Motoaki.................................2179 (Z1, Tue) Adachi, Shinya.................................... 1059 (F3, Tue) Adam, Yara......................................... 1421 (H6, Sun) Adams, Brian...................................... 539 (A7, Wed) Adan, Marino......................................167 (A3, Mon) Adcock, Jamie.....................................483 (A6, Mon) Addi, Yassine...................................... 1373 (H1, Tue) Adkisson, James......1764 (P7, Mon), 1782 (P7, Tue) Adzic, Radoslav....... 818 (D1, Wed), 1066 (F3, Tue) Afanas’ev, Valeri................................ 2101 (Q7, Tue) Afanas’ev, Valery...... 1665 (P3, Wed), 2085 (Q7, Mon) Agar, Ertan........................................... 606 (A9, Tue) Agarwal, Arun................................... 1543 (H8, Wed) Agersted, Karsten.................................. 981 (F2, Tue) Aghighi, Mahmoudreza.....................1029 (F3, Sun), ........................................................... 1044 (F3, Mon) Agnes, Charles..................................... 456 (A5, Thu) Agnoli, Stefano...................................2254 (Z1, Tue) Agoppian, Paula.................................. 1648 (P3, Tue) Aguilar, Pedro Antonio....................... 744 (C1, Wed) Aguilar, Zaira.......................................926 (E2, Wed) Aguilar, Zoraida.................................. 667 (B1, Wed) Aguilar-Aguilar, Angelica....................639 (B1, Tue) Aguilar-Campuzano, Elivet..................768 (C2, Tue) Aguilar-Frutis, Miguel...................... 2170 (R1, Wed) Aguilar-Lira, Guadalupe.....................2227 (Z1, Tue) Aguirre, María.......................................640 (B1, Tue) Agular-Frutis, M.................................2215 (Z1, Tue) Ahlfield, John.................................... 1047 (F3, Mon) Ahluwalia, Rajesh..............................1201 (F3, Wed) Ahmed, Shafaat................................... 875 (D2, Tue), .................................. 877 (D2, Tue), 1705 (P5, Wed) Ahn, Chisung.......... 663 (B1, Wed), 2313 (Z3, Wed) Ahn, Hyeong-Gi................................. 353 (A5, Wed) Ahn, Snag Hyun.................................1238 (F3, Wed) Ahn, Yong Keon................................. 332 (A5, Wed) Ahrenholtz, Spencer........................... 588 (A8, Wed) Ai, Ye................................................. 1945 (Q2, Wed) Aihara, Yuichi...................................... 327 (A5, Wed) Aiken, Connor..................................... 296 (A5, Wed) Meeting Program l October 5-9, 2014 l Cancun, Mexico

Arana-Cuenca, Ainhoa.......................2180 (Z1, Tue) Arantes, Tatiane.................................. 1362 (H1, Tue) Arao, Masazumi.................................1036 (F3, Sun), .................................1272 (F3, Thu), 1273 (F3, Thu), ...........1274 (F3, Thu), 1275 (F3, Thu), 1520 (H7, Tue) Arce, Roxana.........................................640 (B1, Tue) 197


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Archer, Lynden.............79 (A2, Tue), 100 (A2, Wed) Arellano, Miguel.................................2221 (Z1, Tue) Arenas-Carmona, Rosita.................... 1119 (F3, Tue) Arés-Muzio, Oscar............................... 815 (D1, Tue) Argo, Mickey...................................... 329 (A5, Wed) Arias, Luz............................................ 956 (E3, Mon) Aricò, Antonino S............................... 1114 (F3, Tue) Arie, Takayuki...................................2002 (Q4, Mon) Arief, Richie........................................2207 (Z1, Tue) Arima, Daisuke...................................1295 (F3, Thu) Arima, Kenta........2093 (Q7, Mon), 2140 (Q9, Mon) Arisaka, Tomoko.................................2217 (Z1, Tue) Arisetty, Srikanth...............................1201 (F3, Wed) Arjona, Noé..............816 (D1, Wed), 823 (D1, Wed), ............................... 1213 (F3, Wed), 1317 (G1, Wed) Arkles, Barry......................................1626 (P1, Wed) Arkun, F.............................................. 1978 (Q3, Tue) Armand, Michel..................................219 (A4, Mon) Armenta-González, Angélica........... 1519 (H7, Tue), ............................................................2314 (Z3, Wed) Armini, Silvia.........1701 (P5, Wed), 1703 (P5, Wed) Armstrong, Anthony............................ 455 (A5, Thu) Arnold, Craig.......................................64 (A2, Mon), ................................... 444 (A5, Thu), 2256 (Z1, Tue) Arnold, David......................................902 (D3, Mon) Arnold, Johannes...............................1236 (F3, Wed) Arredondo, Jose..................................2195 (Z1, Tue) Arriaga, Luis............816 (D1, Wed), 823 (D1, Wed), ..................................1102 (F3, Tue), 1138 (F3, Tue), ...............................1197 (F3, Wed), 1213 (F3, Wed), .............................. 1237 (F3, Wed), 1316 (G1, Wed), ...............................1317 (G1, Wed), 1516 (H7, Tue), ...............................1519 (H7, Tue), 1947 (Q2, Wed), .................................2180 (Z1, Tue), 2190 (Z1, Tue), ............................... 2314 (Z3, Wed), 2315 (Z3, Wed) Arrington, Christian............................ 814 (D1, Tue), ............................................................. 920 (D3, Wed) Arthur, Timothy........108 (A2, Wed), 138 (A2, Wed) Artyushkova, Kateryna......................1303 (F3, Thu), .................................1306 (F3, Thu), 1309 (F3, Thu), .................................1310 (F3, Thu), 1311 (F3, Thu), ...............................1318 (G1, Wed), 1514 (H7, Tue), .............................................................2286 (Z2, Tue) Arugula, Mary............ 649 (B1, Tue), 665 (B1, Wed) Arvet, Christian..................................1745 (P6, Wed) Arvin, Charles...................................... 874 (D2, Tue) Aryanfar, Asghar................................2294 (Z2, Wed) Asa, Fujio............................................ 1685 (P5, Tue) Asada, Toshihiro......1272 (F3, Thu), 1274 (F3, Thu) Asada, Yuya.........................................1284 (F3, Thu) Asadollahi, Ali...................................1814 (P7, Wed) Asahi, Masafumi......1130 (F3, Tue), 1522 (H7, Tue) Asai, Yoshihiro.................................. 2041 (Q5, Wed) Asakimori, Yu..........1022 (F3, Sun), 2197 (Z1, Tue) Asakura, Kaoru.....................................61 (A2, Mon) Asakura, Kiyotaka............................ 1537 (H7, Wed) Asano, Katsunori..............................1959 (Q3, Mon) Asano, Takanori..................................1834 (P7, Thu) Asaoka, Takahiko................................. 542 (A7, Thu) Asari, Yusuke...................................... 334 (A5, Wed) Asazawa, Koichiro........1079 (F3, Tue), 1124 (F3, Tue) Asen, Ludwig.................................... 1469 (H6, Wed) Asfaw, Habtom...................................475 (A6, Mon) Åsheim, Henrik.................................. 1439 (H6, Tue) Ashworth, Mark.................................1710 (P5, Wed) Askari, Sadegh................................... 1584 (N1, Tue) Asta, Mark............................................ 147 (A2, Thu) Atalay, Selcuk................................... 1942 (Q2, Wed) Atanassov, Plamen.........810 (D1, Tue), 1121 (F3, Tue), .................................1303 (F3, Thu), 1304 (F3, Thu), .................................1309 (F3, Thu), 1310 (F3, Thu), .................................1311 (F3, Thu), 1312 (F3, Thu), ............................. 1318 (G1, Wed), 1321 (G1, Wed), ...............................1323 (G1, Wed), 1514 (H7, Tue), .................................2285 (Z2, Tue), 2286 (Z2, Tue), .............................................................2287 (Z2, Tue)

Atcitty, Stan.......................................1966 (Q3, Mon) Ates, Mehmet....................................... 284 (A5, Tue) Athayde, Amulya................................ 1676 (P4, Tue) Atsumi, Tomoaki................................2054 (Q5, Thu) Atsushi, Iijima.....................................1279 (F3, Thu) Attiaoui, Anis......................................1843 (P7, Thu) Audoit, Guillaume............................ 1722 (P6, Mon) Aune, Elizabeth.................................. 1434 (H6, Tue) Aureau, Damien.................................. 1881 (P9, Tue) Avdeev, Maxim................................... 110 (A2, Wed) Avekians, Alex......... 875 (D2, Tue), 1705 (P5, Wed) Avignone-Rossa, Claudio...................2278 (Z2, Tue) Avis, Christophe............................... 1917 (Q10, Tue) Aw, LikMing....................................... 745 (C1, Wed) Awadelkarim, Osama...........................683 (B2, Tue), ...........................................................2089 (Q7, Mon) Awaludin, Zaenal.............................. 1534 (H7, Wed) Awangku Metosen, Awangku Nabil.........181 (A3, Tue) Awatani, Tadashi.................................. 472 (A5, Thu) Ayache, Maurice.................................222 (A4, Mon) Ayana, Elias.......................................1964 (Q3, Mon) Ayata, Sevda...................................... 1529 (H7, Wed) Ayawanna, Jirachaya.......................... 600 (A8, Wed) Azib, Tahar........................................... 852 (D1, Thu) Aziz, Michael....................................... 610 (A9, Tue)

Baldan, Mauricio................................940 (E2, Wed), ................................1362 (H1, Tue), 1410 (H2, Tue), ............................................................2319 (Z3, Wed) Balderas, Patricia................................2255 (Z1, Tue) Balderas-Hernández, Patricia..............942 (E2, Wed) Balducci, Andrea...... 169 (A3, Mon), 534 (A7, Wed) Balke, Nina................195 (A3, Wed), 535 (A7, Wed) Ballard, Matt.........................................637 (B1, Tue) Ballesteros, Luis................................. 1896 (Q1, Tue) Balsara, Nitash......................................17 (A1, Mon) Baltazar, Juan............ 938 (E2, Wed), 956 (E3, Mon) Baltruschat, Helmut.......................... 1393 (H2, Tue), ........................................................... 1529 (H7, Wed) Banda-Alemán, Jorge........................ 1389 (H2, Tue) Bando, Yohe.............1022 (F3, Sun), 2201 (Z1, Tue) Banerjee, Anjan.................................... 215 (A3, Thu) Banerjee, Parag.........547 (A8, Sun), 594 (A8, Wed), ...............................1336 (H1, Mon), 1628 (P1, Wed) Banerjee, Sanjoy....... 124 (A2, Wed), 850 (D1, Thu) Banerjee, Sriya...........547 (A8, Sun), 594 (A8, Wed) Bang, S.-H.......................................... 1594 (N1, Tue) Banga, Dhego....................................... 814 (D1, Tue) Bano, Kiran........................................ 1395 (H2, Tue) Banta, Scott......................................... 871 (D2, Tue), ................................ 1323 (G1, Wed), 2290 (Z2, Tue) Bañuelos, Alan......................................639 (B1, Tue) Bañuelos, Jennifer................................943 (E2, Wed) Bao, Shuyu.......................................... 1730 (P6, Tue) Bao, Wenzhong...................................476 (A6, Mon) Baqué, Laura.......................................973 (F2, Mon), ................................. 1004 (F2, Tue), 1010 (F2, Wed) Barai, Pallab......................................... 447 (A5, Thu) Baranova, Elena................................. 1363 (H1, Tue) Baranton, Stève.................................. 1120 (F3, Tue), ..................................1121 (F3, Tue), 1512 (H7, Tue) Barbosa, Romeli.................................. 1141 (F3, Tue) Barcena-Soto, Maximiliano.............. 1371 (H1, Tue) Barco, Jesus...................................... 1572 (M1, Wed) Barge, David........... 1778 (P7, Tue), 1807 (P7, Wed) Barge, Laura...................................... 1545 (H8, Wed) Barla, Kathy............ 1613 (P1, Tue), 1812 (P7, Wed) Barnes, Alistair.................................... 146 (A2, Wed) Baron, Thierry................................... 1720 (P6, Mon) Barpanda, Prabeer.............................. 110 (A2, Wed), ................................... 156 (A2, Thu), 302 (A5, Wed) Barraud, Sylvain.................................1852 (P7, Thu) Barrera, Enrique..... 2173 (R1, Wed), 2219 (Z1, Tue) Barrera-Díaz, Carlos...........................941 (E2, Wed), ...................................942 (E2, Wed), 944 (E2, Wed), ..............................................................945 (E2, Wed) Barrios, Carlos...................................699 (C1, Mon), ......................................715 (C1, Tue), 724 (C1, Tue) Barrios, Jose.........................................944 (E2, Wed) Barsoum, Michel...... 194 (A3, Wed), 2246 (Z1, Tue) Bartelt, Norman................................. 2109 (Q7, Wed) Bartha, Johann..................................... 1616 (P1, Tue) Barthazy, Eszter.................................1822 (P7, Wed) Bashyam, Rajesh................................1251 (F3, Wed) Bast, Gerhard......................................1856 (P7, Thu) Baster, Dominika................................ 314 (A5, Wed) Basu, Soumendra........974 (F2, Mon), 996 (F2, Tue) Bates, Alex.......................................... 361 (A5, Wed) Battaglia, Vince............80 (A2, Tue), 450 (A5, Thu), ................................... 474 (A6, Mon), 613 (A9, Tue) Batude, Perrine...... 1720 (P6, Mon), 1745 (P6, Wed) Baturina, Olga..................................... 580 (A8, Tue), .................................. 589 (A8, Wed), 1268 (F3, Thu) Baudin, Floriane.................................1756 (P6, Wed) Baudot, Charles........1794 (P7, Tue), 1832 (P7, Thu) Baumgart, Helmut............................ 1601 (P1, Mon), ................................. 1620 (P1, Tue), 1621 (P1, Tue), ................................. 1622 (P1, Tue), 1623 (P1, Tue), ................................1718 (P6, Mon), 1872 (P8, Tue), ............................................................ 2083 (Q6, Tue) Bauwens, Filip................................... 1979 (Q3, Tue) Bayachou, Mekki..................................651 (B1, Tue)

198

B

Baas-López, José Martin................. 1573 (M1, Wed) Baba, Shotaro.................................... 1637 (P3, Mon) Baba, Takeshi....................................1338 (H1, Mon) Baba, Teruhisa...................................... 472 (A5, Thu) Babanova, Sofia............................... 1318 (G1, Wed), ............................. 1321 (G1, Wed), 1323 (G1, Wed), ..................................2285 (Z2, Tue), 2286 (Z2, Tue) Babich, V............................................. 1653 (P3, Tue) Baca, Ehren.......................................... 814 (D1, Tue) Bachilo, Sergei................................. 1560 (M1, Wed) Badar, Nurhanna................................. 355 (A5, Wed) Badot, Jean-Claude............................218 (A4, Mon), .............................................................226 (A4, Mon) Bae, Byung Seong........................... 1919 (Q10, Tue) Bae, Chulsung....................................1265 (F3, Wed) Bae, Hyung bin................................... 1131 (F3, Tue) Bae, Jong-yong..................................1711 (P5, Wed) Bae, Ki Yoon....................................... 375 (A5, Wed) Baek, Jong-Ung................................ 2039 (Q5, Wed) Baek, Seong-Ho........377 (A5, Wed), 410 (A5, Wed) Baek, Seul Gi...................................... 426 (A5, Wed) Baek, Seung-Wook............................ 2065 (Q6, Tue) Baerga-Ortiz, Abel.............................. 658 (B1, Wed) Baglio, Vincenzo................................. 1114 (F3, Tue) Bahauddin, Shah.................................. 564 (A8, Tue) Bahgat, Ahmed......................................706 (C1, Tue) Bahrami, Majid....................................15 (A1, Mon), .................................. 397 (A5, Wed), 1030 (F3, Sun) Bai, Tingyu.........................................1747 (P6, Wed) Baimpos, Theodoros............................713 (C1, Tue), ...........................................................1334 (H1, Mon) Bajars, Gunars..................................... 431 (A5, Wed) Bak, Tadeusz......................................2298 (Z2, Wed) Baker, David......... 1319 (G1, Wed), 1323 (G1, Wed) Baker-O’Neal, Brett............................ 875 (D2, Tue), ............................................................1705 (P5, Wed) Baklanov, Mikhail............................... 1689 (P5, Tue) Bakowski, Mietek............................1963 (Q3, Mon), ................................1986 (Q3, Tue), 1997 (Q3, Wed) Balakrishnan, Karthik........................1815 (P7, Wed) Balandin, Alexander.......................1912 (Q10, Mon) Balasubramanian, Mahalingam........... 279 (A5, Tue) Balatti, Simone.................................. 2116 (Q7, Wed) Balbuena, Perla....... 1516 (H7, Tue), 2257 (Z1, Tue) Balciunaite, Aldona............................ 1127 (F3, Tue), ..................................1173 (F3, Tue), 1174 (F3, Tue), .............1175 (F3, Tue), 1176 (F3, Tue), 1177 (F3, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Bayer, Thomas....................................1294 (F3, Thu) Baylac, Elise.......................................1807 (P7, Wed) Bayles, Robert.......................................752 (C2, Tue) Bazinski, Stephen......320 (A5, Wed), 344 (A5, Wed) Bazylak, Aimy....................................1025 (F3, Sun), ................................ 1045 (F3, Mon), 2259 (Z1, Tue) Beasley, Christopher...........................162 (A3, Mon) Beaudoin, Gregoire............................. 1794 (P7, Tue) Becerril, Elias.......................................944 (E2, Wed) Beche, Elodie................................... 1722 (P6, Mon), ................................. 1728 (P6, Tue), 1745 (P6, Wed) Bechler, Stefan.........1797 (P7, Tue), 1836 (P7, Thu) Beck, Faith..............................................1 (A1, Mon) Bedolla, Zaira.....................................1214 (F3, Wed) Beekley, Brett...................................... 1735 (P6, Tue) Beeler, Richard....................................1835 (P7, Thu) Béguin, François........ 211 (A3, Thu), 217 (A3, Thu) Behm, Mårten..................................... 143 (A2, Wed) Behrendt, Andreas............................... 1607 (P1, Tue) Behrens, Rachel.................................. 1096 (F3, Tue) Beidaghi, Majid.........185 (A3, Tue), 195 (A3, Wed), ....................................245 (A4, Tue), 629 (A9, Wed) Bélanger, Daniel.................................157 (A3, Mon), ...................................180 (A3, Tue), 198 (A3, Wed), ..................................2196 (Z1, Tue), 2247 (Z1, Tue) Belikov, Sergey.................................. 1465 (H6, Tue) Belin, Stéphanie................................... 291 (A5, Tue) Bellur, Dakshina-Murthy..................1964 (Q3, Mon) Belmonte, Thierry........1584 (N1, Tue), 1590 (N1, Tue) Ben Bakir, Badhise........................... 1724 (P6, Mon) Benaissa, Lamine........1745 (P6, Wed), 1757 (P6, Wed) Benamara, Mourad.......1845 (P7, Thu), 1854 (P7, Thu) Bender, Guido..................................... 1099 (F3, Tue) Bender, Hugo.....................................1847 (P7, Thu), ..................................1855 (P7, Thu), 1858 (P7, Thu) Bendersky, Leonid..............................1284 (F3, Thu) Benedetti, Alessandro....................... 1770 (P7, Mon) Benevent, Véronique..........................1852 (P7, Thu) Benson, David...................................1383 (H2, Mon) Bent, Stacey......................................... 1606 (P1, Tue) Benwadih, Mohammed..................1910 (Q10, Mon) Berber, Mohamed................................1111 (F3, Tue) Berejnov, Viatcheslav.........................1285 (F3, Thu) Berg, Erik.............................................54 (A2, Mon), ....................................241 (A4, Tue), 539 (A7, Wed) Berg, Erik J........................................... 235 (A4, Tue) Bergamaschini, Roberto....................1822 (P7, Wed) Bergel, A..............................................2282 (Z2, Tue) Berger, Claudia..................................... 851 (D1, Thu) Berger, Paul........................................ 2067 (Q6, Tue) Bergmann, Gerd................................... 909 (D3, Tue) Bergsman, David................................ 1606 (P1, Tue) Bernabé-Pineda, Margarita...................647 (B1, Tue) Bernard, Jérome.................................1188 (F3, Wed) Bernard, Romain............................... 1767 (P7, Mon) Bernardy, Patric...................................1827 (P7, Thu) Bernasconi, Roberto........................... 845 (D1, Thu), ............................................................ 1403 (H2, Tue) Berne, Clément....................................726 (C1, Tue), ......................................739 (C1, Tue), 758 (C2, Tue) Berry, Vikas........................................1809 (P7, Wed) Bertasi, Federico......56 (A2, Mon), 1499 (H7, Mon) Berthelon, Remy...............................2091 (Q7, Mon) Bertocci, Ugo...................................... 892 (D2, Wed) Bertrand, Dimitri............................... 1993 (Q3, Wed) Beskok, Ali........................................ 1942 (Q2, Wed) Besser, Jan..........................................1755 (P6, Wed) Besson, Pascal....................................1745 (P6, Wed) Bethge, Ole........................................2092 (Q7, Mon) Bethune, Keith.................................... 1103 (F3, Tue) Beyenal, Haluk...................................2304 (Z2, Wed) Beyer, Hans......................................... 136 (A2, Wed) Bezyk, Michael.................................... 238 (A4, Tue) Bhadra, Shoham..................................228 (A4, Mon) Bhaiya, Madhur.......1024 (F3, Sun), 1032 (F3, Sun) Bhattacharya, Priyanka........................ 497 (A6, Tue)

Bhavaraju, Sai..................................... 624 (A9, Wed) Bhuyian, Mdnasiruddin....................2088 (Q7, Mon) Bialostocka, Anna............................... 925 (D3, Wed) Biancolli, Ana.................................... 1048 (F3, Mon) Bidan, Gerard....................................... 456 (A5, Thu) Bidaud, Maud.....................................1807 (P7, Wed) Biddinger, Elizabeth......................... 1422 (H6, Sun), ............................................................ 1436 (H6, Tue) Bienkowski, Krzysztof....................... 586 (A8, Wed) Biesdorf, Johannes.............................1220 (F3, Wed) Bilir, Gokhan..................................... 2164 (R1, Wed) Binder, Joachim.................................. 333 (A5, Wed) Bishop, Sean........................................1294 (F3, Thu) Bisquert, Juan................................... 1561 (M1, Wed) Biswas, Indro.....................................1223 (F3, Wed) Biswas, Pratim......... 408 (A5, Wed), 477 (A6, Mon) Bitner, Anna........................................ 144 (A2, Wed) Bitner-Michalska, Anna........................ 96 (A2, Wed) Biton, Moshiel....................................229 (A4, Mon), ................................... 339 (A5, Wed), 467 (A5, Thu) Bjerrum, Niels.....................................1278 (F3, Thu) Black, Jennifer..........195 (A3, Wed), 535 (A7, Wed) Black, Robert...................................... 539 (A7, Wed) Blackburn, Bryan................................. 980 (F2, Tue), ..............988 (F2, Tue), 989 (F2, Tue), 990 (F2, Tue) Blaise, Philippe................................. 2111 (Q7, Wed) Blanc, Christine....................................726 (C1, Tue), ......................................739 (C1, Tue), 758 (C2, Tue) Blancas, Teresa.....................................947 (E2, Wed) Blanchet, E..........................................2282 (Z2, Tue) Blanquart, Timothee..........................1624 (P1, Wed) Blanquet, Elisabeth........................... 1993 (Q3, Wed) Bleken, Francesca............................... 113 (A2, Wed) Bliss, Tim..............................................650 (B1, Tue) Blonbou, Ruddy................................... 443 (A5, Thu) Blond, Eric.........................................1011 (F2, Wed) Bloomquist, David..............................863 (D2, Mon) Bo, Tian-Cih........................................ 1617 (P1, Tue) Board, James....................................... 794 (C3, Wed) Bockholt, Henrike.............................. 135 (A2, Wed), ...................................328 (A5, Wed), 372 (A5, Wed) Boehme, Lindsay........1700 (P5, Wed), 1706 (P5, Wed) Boeuf, Frederic.........1794 (P7, Tue), 1832 (P7, Thu) Bogaert, Kevin......................................14 (A1, Mon) Bogdanchenko, Anatoly.................... 1891 (Q1, Tue) Bogdanoff, Peter........577 (A8, Tue), 583 (A8, Wed) Bogdanov, Alexei................................ 1610 (P1, Tue) Boillat, Pierre.....................................1220 (F3, Wed) Boisen, Anja........................................671 (B2, Mon) Boissy, Clément....................................714 (C1, Tue) Bomberger, Thomas..............................651 (B1, Tue) Bond, Daniel......................................2301 (Z2, Wed) Bondi, Robert.....................................2050 (Q5, Thu) Bondü, Christoph............................... 1393 (H2, Tue) Bonell, Frederic................................. 2040 (Q5, Wed) Bonnaud, Céline.................................. 1064 (F3, Tue) Bonnaud, Olivier.............................1929 (Q10, Wed) Bonnefont, Antoine............................ 1506 (H7, Tue) Bonville, Leonard........1085 (F3, Tue), 1229 (F3, Wed) Boota, Muhammed............................. 203 (A3, Wed) Bordel, Damien................................. 1724 (P6, Mon) Borensztein, Yves.............................. 1767 (P7, Mon) Borguet, Eric.....................................1378 (H2, Mon) Borland, John.................................... 1771 (P7, Mon) Borodin, Oleg..............512 (A7, Tue), 541 (A7, Thu) Borodin, Sergiy................................... 747 (C1, Wed) Borshchevych, Larisa........................ 1365 (H1, Tue) Borup, Rod.............. 1092 (F3, Tue), 1201 (F3, Wed) Bose, Tiyash..........................................651 (B1, Tue) Bosseboeuf, Alain............................... 1743 (P6, Tue) Boswell, Rod............ 1668 (P4, Tue), 1669 (P4, Tue) Botelho, Edson...................................2319 (Z3, Wed) Botelho, Steven................................. 1045 (F3, Mon) Botte, Gerardine.........870 (D2, Tue), 958 (E3, Mon) Boucaud, Philippe............................... 1794 (P7, Tue) Boucher, Florent.................................... 90 (A2, Wed)

Bouchez, T...........................................2282 (Z2, Tue) Boufnichel, Mohamed....................... 1672 (P4, Tue), ................................ 1689 (P5, Tue), 1992 (Q3, Wed) Bouhtiyya, Saïd...................................2247 (Z1, Tue) Bourdie, Jacques...................................739 (C1, Tue) Bourke, Andrea.................................... 243 (A4, Tue) Boutin, Kyle.......................................1494 (H6, Thu) Bouwman, Peter.................................1233 (F3, Wed) Bouyssou, Régis.................................. 1674 (P4, Tue) Braatz, Richard........................................35 (A1, Tue) Brachet, Mylène.................................. 208 (A3, Wed) Brandell, Daniel......... 60 (A2, Mon), 294 (A5, Wed) Brandon, Nigel............23 (A1, Tue), 229 (A4, Mon), .................................. 339 (A5, Wed), 438 (A5, Thu), .............467 (A5, Thu), 982 (F2, Tue), 984 (F2, Tue) Brankovic, Stanko.............................. 887 (D2, Wed), ...........................................................1382 (H2, Mon) Branzoi, Florina........ 734 (C1, Tue), 1414 (H2, Tue) Branzoi, Viorel.......... 734 (C1, Tue), 1414 (H2, Tue) Braun, Paul............. 483 (A6, Mon), 1859 (P8, Mon) Bräuer, Jörg........................................1755 (P6, Wed) Bravin, Julian.......... 1732 (P6, Tue), 1751 (P6, Wed) Bravo, Enrique.................................. 1331 (G1, Wed) Brechet, Yves......................................1756 (P6, Wed) Brennan, Sean..................................... 378 (A5, Wed) Bresser, Dominic....... 452 (A5, Thu), 2176 (Z1, Tue) Bretschger, Orianna...........................2277 (Z2, Tue), .............................................................2286 (Z2, Tue) Brett, Dan..............1444 (H6, Tue), 1566 (M1, Wed) Breuer, Uwe........................................1827 (P7, Thu) Brezesinski, Torsten............................. 493 (A6, Tue) Brianceau, Pierre............................... 1724 (P6, Mon) Bridel, Jean-Sébastien.........................218 (A4, Mon) Bridier, A.............................................2282 (Z2, Tue) Bright, Joeseph..................................... 581 (A8, Tue) Brik, Mikhail..................................... 2160 (R1, Wed) Brinkman, Kyle..................................1496 (H6, Thu) Brintlinger, Todd........580 (A8, Tue), 589 (A8, Wed) Bristow, Alan.......................................562 (A8, Mon) Brodd, Ralph........................................ 878 (D2, Tue) Brodt, Matthew..................................1250 (F3, Wed) Bromberg, Loriana............................1385 (H2, Mon) Brooke, Emily.................................... 1354 (H1, Tue) Brooks, Christopher............................ 114 (A2, Wed) Brosha, Eric............... 652 (B1, Wed), 654 (B1, Wed) Brouillet, Jeremy.................................1837 (P7, Thu) Brousse, Thierry........ 95 (A2, Wed), 157 (A3, Mon), .................................. 167 (A3, Mon), 172 (A3, Tue), ..................................198 (A3, Wed), 208 (A3, Wed), ......... 448 (A5, Thu), 456 (A5, Thu), 2247 (Z1, Tue) Brown, E.............. 1479 (H6, Wed), 1482 (H6, Wed), ............................... 1483 (H6, Wed), 1488 (H6, Thu) Brown, Leon....................................... 1444 (H6, Tue) Browne, Michelle...............................2249 (Z1, Tue) Bruce, Barry...................................... 1319 (G1, Wed) Bruce, Peter................. 52 (A2, Mon), 455 (A5, Thu) Brülle, Tine..........................................2254 (Z1, Tue) Brumbarov, Jassen..............................265 (A5, Mon) Bruneau, Chris.................................... 139 (A2, Wed) Brunet, Laurent..................................1745 (P6, Wed) Brunini, Victor.........................................86 (A2, Tue) Brunschwiler, Thomas........................ 1738 (P6, Tue) Bryant, Daniel..................................... 1885 (P9, Tue) Brzozowski, Bartosz........................... 536 (A7, Wed) Bsiesy, Ahmad.................................1929 (Q10, Wed) Buan, Marthe...........1518 (H7, Tue), 1523 (H7, Tue) Buca, Dan.............1769 (P7, Mon), 1770 (P7, Mon), .................................1827 (P7, Thu), 1836 (P7, Thu), .............................................................1846 (P7, Thu) Buceta, David...................................... 818 (D1, Wed) Buchberger, Irmgard...........................265 (A5, Mon) Buchheit, R.................710 (C1, Tue), 2260 (Z1, Tue) Büchi, Felix........................................1188 (F3, Wed) Buchtova, Nela................................... 1418 (H6, Sun) Buckley, D..............................................22 (A1, Tue), ................................... 243 (A4, Tue), 259 (A5, Mon)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

199


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Buckley, Darragh.............................. 1865 (P8, Mon) Budvytyte, Rima................................. 657 (B1, Wed) Buendia, Erika.......................................735 (C1, Tue) Buffleben, George.............................1383 (H2, Mon) Bultel, Yann.......................................... 443 (A5, Thu) Bund, Andreas...........281 (A5, Tue), 360 (A5, Wed), ...................................812 (D1, Tue), 922 (D3, Wed), ............................................................ 1356 (H1, Tue) Buntin, Parker.......................................14 (A1, Mon) Bünzli, Christa.................................... 326 (A5, Wed) Buratto, Steven...................................1192 (F3, Wed) Burgess, Jim....................................... 1397 (H2, Tue) Burggraf, Jürgen...... 1732 (P6, Tue), 1751 (P6, Wed) Burkhardt, Stephen............................. 527 (A7, Wed) Burkholder, Michael........................... 1098 (F3, Tue) Burleigh, T. D....................................... 814 (D1, Tue) Burns, John...............296 (A5, Wed), 347 (A5, Wed), .....................................441 (A5, Thu), 516 (A7, Tue) Burns, Robert..................................... 1358 (H1, Tue) Burrell, Anthony........ 63 (A2, Mon), 102 (A2, Wed) Burton, Matthew...............................1381 (H2, Mon) Bustos, Erika............ 936 (E2, Wed), 951 (E3, Mon), ................................. 1389 (H2, Tue), 2252 (Z1, Tue) Butler, Sue........................................... 209 (A3, Wed) Buttry, Daniel...........62 (A2, Mon), 1431 (H6, Mon) Buyanova, I.......................................2146 (Q9, Mon) Buyanova, Irina.................................. 2149 (Q9, Tue) Buyuklimanli, Temel........................ 1771 (P7, Mon) Byeon, Dae-Seoup............................ 2045 (Q5, Wed) Byon, Hye.......................................... 104 (A2, Wed), ....................................118 (A2, Wed), 234 (A4, Tue) Byun, Chunwon............................... 1918 (Q10, Tue)

Cao, Wanjun............................................43 (A1, Tue) Cao, Yu................................................705 (C1, Mon) Cao, Zeyuan......................................... 502 (A6, Tue) Capellini, Giovanni............................. 1651 (P3, Tue) Cappillino, Patrick............................1383 (H2, Mon) Capraz, Omer............791 (C3, Wed), 798 (C3, Wed) Caputo, Gianvito................................1203 (F3, Wed) Carbajal-Clemente, Carlos..................942 (E2, Wed) Cardenas, Angel..................................699 (C1, Mon) Cardona, Clara......................................766 (C2, Tue) Cardoso, Judith..................................... 545 (A7, Thu) Cargnello, Matteo.............................. 1355 (H1, Tue) Carlier, Dany........................................ 155 (A2, Thu) Carmona, S..........................................2215 (Z1, Tue) Carmona-Tellez, Salvador................ 2170 (R1, Wed) Carr, Daniel...............962 (E3, Mon), 963 (E3, Mon) Carraro, Carlo........................................682 (B2, Tue) Carras, Mathieu.................................. 2150 (Q9, Tue) Carreño, Gilberto................................937 (E2, Wed), ................................... 938 (E2, Wed), 956 (E3, Mon) Carreon, José....................................... 956 (E3, Mon) Carrera-Cerritos, Raul........................2314 (Z3, Wed) Carrera-Crespo, J. Edgar....................2219 (Z1, Tue) Carrillo, Irene...............721 (C1, Tue), 723 (C1, Tue) Carroll, Elaine................................... 1865 (P8, Mon) Carron, Veronique............................. 1724 (P6, Mon) Carter, Michael.................................... 653 (B1, Wed) Carter, Tyler......................................... 138 (A2, Wed) Carter, W.......................... 83 (A2, Tue), 86 (A2, Tue) Carvajal, Christian.............................. 655 (B1, Wed) Casals, Nuria....................................... 790 (C3, Wed) Casillas, Norberto.............................. 1371 (H1, Tue) Cassan, Eric.........................................1832 (P7, Thu) Cassé, Mikael....................................2091 (Q7, Mon) Cassir, Michel......................................227 (A4, Mon) Castaing, Frédéric............................... 330 (A5, Wed) Castaing, Rémi.................................... 322 (A5, Wed) Castaneda, Homero..............................11 (A1, Mon), ...................................... 44 (A1, Tue), 244 (A4, Tue), ..................................... 494 (A6, Tue), 865 (D2, Tue) Castañeda Ramírez, Sergio................1267 (F3, Wed) Castañeda Ulloa, Locksley................. 952 (E3, Mon) Castellanos Leal, Edgar...................... 599 (A8, Wed) Castorena, Jose.............715 (C1, Tue), 724 (C1, Tue) Catlow, C. Richard.............................. 141 (A2, Wed) Cavaco, Celso.....................................1713 (P5, Wed) Cavaliere, Sara..................................1203 (F3, Wed), ................................1308 (F3, Thu), 1525 (H7, Wed) Cavanagh, Andrew............................1249 (F3, Wed), ............................................................. 1619 (P1, Tue) Caymax, Matty....... 1646 (P3, Tue), 1811 (P7, Wed), .................................1812 (P7, Wed), 1826 (P7, Thu) Caza, Marie-Ève................................. 1741 (P6, Tue) Cazares-Ávila, Eddy........................... 1180 (F3, Tue) Cecchi, Stefano........1839 (P7, Thu), 1851 (P7, Thu) Ceder, Gerbrand................................... 93 (A2, Wed), ..................................249 (A5, Mon), 258 (A5, Mon) Cekic-Laskovic, Isidora....................... 517 (A7, Tue) Celedón, Carlos.................................. 1896 (Q1, Tue) Celik, Ismail....................................... 137 (A2, Wed), .....................................950 (E3, Mon), 994 (F2, Tue) Celinski, Zbigniew............................... 908 (D3, Tue) Cerbelaud, Manuella..............................29 (A1, Tue), ................................... 218 (A4, Mon), 271 (A5, Tue) Cerbu, Florin.....................................2085 (Q7, Mon) Cerclier, Carole.................................. 1418 (H6, Sun) Cericola, Dario.................................... 326 (A5, Wed) Cetin, Deniz..........................................974 (F2, Mon) Cha, Suk............................................. 1054 (F3, Tue), ............................... 1598 (P1, Mon), 2321 (Z3, Wed) Cha, Suk Won........1006 (F2, Wed), 2309 (Z3, Wed) Chacon, Jose..........................................749 (C2, Tue) Chadha, Tandeep...... 408 (A5, Wed), 477 (A6, Mon) Chae, Myung-Sic..................................692 (B2, Tue) Chaffin, Ian..........................................1837 (P7, Thu) Chagnon, Dany........1741 (P6, Tue), 1846 (P7, Thu)

Chahma, M’hamed...............................638 (B1, Tue) Chai, Yating......................................... 668 (B1, Wed) Chaigneau, Marc................................. 1794 (P7, Tue) Chaisakul, Papichaya..........................1839 (P7, Thu) Chakrapani, Srinivasan...................... 399 (A5, Wed), .............................................................. 495 (A6, Tue) Chalupa, Radek.................................... 883 (D2, Tue) Chambers, Conner............................. 2067 (Q6, Tue) Chamoun, Mylad................................228 (A4, Mon) Chan, Candace......... 252 (A5, Mon), 409 (A5, Wed) Chan, Kwong-Yu................................. 615 (A9, Tue) Chang, Chih-Ching............................. 129 (A2, Wed) Chang, Doyon..................................... 817 (D1, Wed) Chang, Geng-Wei............................1930 (Q10, Wed) Chang, Ikwhang................................1006 (F2, Wed), .................................1054 (F3, Tue), 2309 (Z3, Wed) Chang, Shao-Ju................................... 1802 (P7, Tue) Chang, Shih-Cheng............................. 1687 (P5, Tue) Chang, Wen-Sheng.................................42 (A1, Tue) Chang, Yu-Ching.....................................42 (A1, Tue) Chao, Chung-Hsiang........................... 188 (A3, Tue) Chao, Ju-Hung................................... 2019 (Q4, Tue) Chaparro, Antonio............................... 847 (D1, Thu), .................................. 1057 (F3, Tue), 1097 (F3, Tue) Chapuis, Yves-Andre.......................... 1610 (P1, Tue) Char, Kookheon......................................84 (A2, Tue) Charbon, Edoardo...............................1833 (P7, Thu) Charles, Christine.......... 1668 (P4, Tue), 1669 (P4, Tue) Chartier, Thierry.................................1011 (F2, Wed) Charvet, Anne-Marie........................ 1722 (P6, Mon) Chatzichristodoulou, Christodoulos......1235 (F3, Wed) Chaur, Manuel................................... 1331 (G1, Wed) Chauvin, Christophe........................... 1071 (F3, Tue) Chavali, Ravi.......................................675 (B2, Mon) Chavez, Abraham........ 1138 (F3, Tue), 1197 (F3, Wed) Chavez, Abraham Ulises.................... 1102 (F3, Tue) Chávez, Ulises................................... 1947 (Q2, Wed) Chávez Cinco, María............................765 (C2, Tue) Chazaro-Ruiz, Luis Felipe....................639 (B1, Tue) Checoury, Xavier................................ 1794 (P7, Tue) Cheek, Graham................................. 1345 (H1, Tue), ..............................1429 (H6, Mon), 1432 (H6, Mon) Chen, Chaoji......................................... 508 (A6, Tue) Chen, Chern-Hwa............................. 2172 (R1, Wed) Chen, Chih-Chen.............................2129 (Q8, Mon), ...........................................................2133 (Q8, Mon) Chen, Chihchen.................................2130 (Q8, Mon) Chen, Chunhui.................................... 199 (A3, Wed) Chen, De..................1518 (H7, Tue), 1523 (H7, Tue) Chen, Douglas.......1721 (P6, Mon), 1727 (P6, Mon) Chen, Gang...........................................970 (F2, Mon) Chen, George..........1445 (H6, Tue), 1489 (H6, Thu) Chen, Guoying..................................... 470 (A5, Thu) Chen, James.......................................1629 (P1, Wed) Chen, Jiatang....................................... 587 (A8, Wed) Chen, Jing-Ming.................................. 155 (A2, Thu) Chen, Jinhua........................................ 1167 (F3, Tue) Chen, Kan-Lin.........2060 (Q6, Tue), 2080 (Q6, Tue) Chen, Li............................................ 1951 (Q2, Wed), .............................. 1954 (Q2, Wed), 1955 (Q2, Wed) Chen, Liquan.......................................260 (A5, Mon) Chen, Mei-Han..........145 (A2, Wed), 431 (A5, Wed) Chen, Mengni..................................... 1408 (H2, Tue) Chen, Renjie............2015 (Q4, Tue), 2097 (Q7, Tue) Chen, Renkun.................................... 1868 (P8, Mon) Chen, Rong............... 159 (A3, Mon), 616 (A9, Tue), .................................1413 (H2, Tue), 1615 (P1, Tue), ............................................................1630 (P1, Wed) Chen, Rongrong....... 1179 (F3, Tue), 1282 (F3, Thu) Chen, Ruiyong..........250 (A5, Mon), 451 (A5, Thu) Chen, Shih-Bin.................................... 1875 (P9, Tue) Chen, W.............................................2146 (Q9, Mon) Chen, Wei............................................2289 (Z2, Tue) Chen, Weimin..................................... 2149 (Q9, Tue) Chen, X. J................................................70 (A2, Tue) Chen, Xi............................................ 1952 (Q2, Wed)

C

Caballero, José................................... 1595 (N1, Tue) Cabalzar, Urs......................................1188 (F3, Wed) Caban, Miguel...................................... 572 (A8, Tue) Cabral Miramontes, Jose.....................718 (C1, Tue), ...............................................................719 (C1, Tue) Cabrera, Carlos.........658 (B1, Wed), 678 (B2, Mon), .................................2258 (Z1, Tue), 2320 (Z3, Wed) Cahill, David..................................... 1859 (P8, Mon) Cai, Wenshu............1408 (H2, Tue), 1415 (H2, Tue) Caimi, Daniele.................................. 1723 (P6, Mon) Calabrese Barton, Scott.....................1304 (F3, Thu), ................................ 1320 (G1, Wed), 2279 (Z2, Tue) Calderón, Facundo...............................719 (C1, Tue), ................................... 733 (C1, Tue), 742 (C1, Wed), ............................................................. 744 (C1, Wed) Calderon Moreno, Jose Maria..............728 (C1, Tue) Calderón-Ramírez, Mario................. 1549 (H8, Wed) Caldes, Maria....................................... 291 (A5, Tue) Caldwell, Keegan................................1019 (F3, Sun) Cali, Larry...........................................862 (D2, Mon) Callender, Andrew.............................. 248 (A4, Wed) Callens, Freddy................................... 1658 (P3, Tue) Calva-Yañez, Julio........................... 1575 (M1, Wed) Calvi, Sabrina..................................1910 (Q10, Mon) Camardello, Sam............................... 2159 (R1, Wed) Camargo, Magali......812 (D1, Tue), 1356 (H1, Tue) Cambaz, Musa....................................250 (A5, Mon) Camillo-Castillo, Renata................. 1764 (P7, Mon), ............................................................. 1782 (P7, Tue) Camley, Robert.................................... 908 (D3, Tue) Campos-Arias, Martha..................... 2170 (R1, Wed) Campos-Gonzalez, Eulalio..................931 (E2, Wed) Canales, Camila................................. 1406 (H2, Tue) Cannarella, John........ 444 (A5, Thu), 2256 (Z1, Tue) Cano, Ulises..................................... 1576 (M1, Wed) Canova, Marcello....................................2 (A1, Mon) Cantillo, Nelly..................................... 1082 (F3, Tue) Cantó, Jorge..................721 (C1, Tue), 723 (C1, Tue) Canto Aguilar, Esdras.......................... 846 (D1, Thu) Cao, Guozhong.................................... 453 (A5, Thu) Cao, Kun.............................................. 1615 (P1, Tue) Cao, Lei......................... 2 (A1, Mon), 466 (A5, Thu) 200

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Chen, Xiao............................................ 238 (A4, Tue) Chen, Xiaodong................................ 1939 (Q2, Wed) Chen, Xin......................................... 1601 (P1, Mon), .................................. 1620 (P1, Tue), 1872 (P8, Tue) Chen, Xinyi.........................................482 (A6, Mon) Chen, Xinzhi....................................... 112 (A2, Wed) Chen, Yen-Ting................................... 1789 (P7, Tue) Chen, Yi..............................................1632 (P1, Wed) Chen, Yi-Ting....................................2134 (Q8, Mon) Chen, Ying..........................................265 (A5, Mon), .......................................995 (F2, Tue), 997 (F2, Tue) Chen, Ying-Chung............................ 2172 (R1, Wed) Chen, Yit-Tsong................................2127 (Q8, Mon) Chen, Yuhui...........................................52 (A2, Mon) Chen, Yulin..............................................80 (A2, Tue) Chen, Yvonne...................................... 335 (A5, Wed) Chen, Zhaohui..................................... 199 (A3, Wed) Chen-Wiegart, Yu-chen....................... 850 (D1, Thu) Cheng, Chao-Yu.................................. 1802 (P7, Tue) Cheng, Cheng Wei............................ 1723 (P6, Mon) Cheng, Derek...................................... 1083 (F3, Tue) Cheng, Hsiu-Wei...................................713 (C1, Tue) Cheng, Ju-Hsiang................................. 155 (A2, Thu) Cheng, Juli........................................... 1802 (P7, Tue) Cheng, Lin........................................... 360 (A5, Wed) Cheng, Mark Ming-Cheng.................487 (A6, Mon) Cheng, Ran..........................................1842 (P7, Thu) Cheng, Tien.............. 875 (D2, Tue), 1705 (P5, Wed) Cheng, Tzu-Huan........2074 (Q6, Tue), 2079 (Q6, Tue) Cheng, Ya-Tang.......................................42 (A1, Tue) Cheng, Yi-Lung.......1617 (P1, Tue), 2119 (Q7, Wed) Cheon, Jae Yeong................................ 1148 (F3, Tue) Cheon, Sung Wun..........622 (A9, Wed), 625 (A9, Wed) Chern, Winston........ 1788 (P7, Tue), 1790 (P7, Tue) Cherng, Jing-Yih.................................859 (D2, Mon) Chernyshov, Mikhail......................... 1463 (H6, Tue) Chervin, Christopher.......................... 1391 (H2, Tue) Chesneau, Frederick........................... 532 (A7, Wed) Chevalier, Maxime..............................700 (C1, Mon) Chevrier, Vincent................................. 275 (A5, Tue) Chi, Yu-Chieh...................................... 1875 (P9, Tue) Chiang, C. C.......................................1753 (P6, Wed) Chiang, Wei-Hung.............................. 1878 (P9, Tue) Chiang, Yet-Ming...................................83 (A2, Tue), ......................................86 (A2, Tue), 308 (A5, Wed) Chiba, Aya........................................... 801 (C3, Wed) Chiba, Kazuki...................................... 379 (A5, Wed) Chiba, Mahito....................................... 239 (A4, Tue) Chiba, Nobutaka................................. 338 (A5, Wed) Chiba, Shintarou.................................2225 (Z1, Tue) Chidsey, Christopher..........................1632 (P1, Wed) Chikahisa, Takemi.........1159 (F3, Tue), 1162 (F3, Tue) Chiku, Masanobu.........127 (A2, Wed), 2234 (Z1, Tue) Chin, Bryan......................................... 668 (B1, Wed) Chin, Suk.............................................. 181 (A3, Tue) Chindam, Chandraprakash...................683 (B2, Tue) Chino, Yuji..........................................1202 (F3, Wed) Chisaka, Mitsuharu.............................1276 (F3, Thu) Chitra, K.............................................. 832 (D1, Wed) Chiu, Sheng-Min................................. 1802 (P7, Tue) Chiussi, Stefano................................ 1770 (P7, Mon) Cho, Eun Ae.............1078 (F3, Tue), 1149 (F3, Tue), ..................................1151 (F3, Tue), 1152 (F3, Tue), ............................................................1238 (F3, Wed) Cho, Gu Young................................. 1598 (P1, Mon), ............................... 2309 (Z3, Wed), 2321 (Z3, Wed) Cho, Hae-Lim................................... 2036 (Q5, Wed) Cho, Hyun-Seok.................................1296 (F3, Thu) Cho, Insung.........................................2231 (Z1, Tue) Cho, Jiung.......................................... 1859 (P8, Mon) Cho, Jong-Soo..................................... 353 (A5, Wed) Cho, Kangwoo...................................2294 (Z2, Wed) Cho, Kyeongjae.................................. 311 (A5, Wed) Cho, Kyu.............................................. 613 (A9, Tue) Cho, Kyung Ik.................................. 1918 (Q10, Tue)

Cho, Mann-Ho...................................2265 (Z1, Tue), ..................................2266 (Z1, Tue), 2267 (Z1, Tue) Cho, Munkyu...................................... 622 (A9, Wed) Cho, Namung...................................... 625 (A9, Wed) Cho, Sanghun..................................... 332 (A5, Wed), ..................................2183 (Z1, Tue), 2192 (Z1, Tue) Cho, SangWan.....................................2267 (Z1, Tue) Cho, Seong-Yong...............................1631 (P1, Wed) Cho, Sung Ho...................................... 414 (A5, Wed) Cho, Sung Man.........115 (A2, Wed), 363 (A5, Wed) Cho, Sung-Heang............................ 1914 (Q10, Tue), .......................................................... 1918 (Q10, Tue) Cho, Sung-Hwa...................................2202 (Z1, Tue) Cho, Won Il......................................... 106 (A2, Wed) Cho, Yeong-Ho..................................1631 (P1, Wed) Cho, Yong-Hun................................... 1163 (F3, Tue) Cho, Yujin......................................... 1559 (M1, Wed) Choe, Heeman..................................... 1163 (F3, Tue) Choe, Seunghoe....... 1684 (P5, Tue), 1698 (P5, Tue) Choe, Yoong-Kee........1264 (F3, Wed), 1280 (F3, Thu) Choi, Chang-Hwan............................. 1883 (P9, Tue) Choi, Chel-Jong................................. 1659 (P3, Tue), ................................1660 (P3, Tue), 1774 (P7, Mon), ............................................................1808 (P7, Wed) Choi, Daiwon....................................... 612 (A9, Tue) Choi, Dio............................................ 1594 (N1, Tue) Choi, Dukhyun.................................. 2024 (Q4, Wed) Choi, Eun Jung........................................48 (A1, Tue) Choi, Gyeong Man............................... 983 (F2, Tue) Choi, Ha Na...........................................708 (C1, Tue) Choi, Hee Cheul....... 118 (A2, Wed), 2011 (Q4, Tue) Choi, Hong Soo................................... 109 (A2, Wed) Choi, Hyejin........................................2266 (Z1, Tue) Choi, Hyeju......................................... 593 (A8, Wed) Choi, Hyun Jun................................... 426 (A5, Wed) Choi, Ilyong......................................... 1874 (P9, Tue) Choi, In-Sik.......................................... 186 (A3, Tue) Choi, InHyung..................................... 406 (A5, Wed) Choi, Insoo......................................... 1152 (F3, Tue), ................................. 1156 (F3, Tue), 1238 (F3, Wed) Choi, Jae-Man..................................... 354 (A5, Wed) Choi, Jaecheol.......... 416 (A5, Wed), 2231 (Z1, Tue) Choi, JaeMin....................................... 406 (A5, Wed) Choi, Jeong-Hee.................................. 391 (A5, Wed) Choi, Jin-Kwon......... 164 (A3, Mon), 190 (A3, Tue) Choi, Jin-Woo.......................................681 (B2, Tue) Choi, Jinhan......................................... 1676 (P4, Tue) Choi, Jinho.......................................... 1667 (P4, Tue) Choi, Jinyi............................................978 (F2, Mon) Choi, Jonghyun.................................... 278 (A5, Tue) Choi, Joon-Hwan................................. 617 (A9, Tue) Choi, Keorock....... 2308 (Z3, Wed), 2310 (Z3, Wed) Choi, Kwang Shik............................... 315 (A5, Wed) Choi, Seung.........................................2243 (Z1, Tue) Choi, Sung Mook................................ 817 (D1, Wed) Choi, Yong Taek.................................1495 (H6, Thu) Choi, YongMan................................... 1148 (F3, Tue) Choi, Young-Pil.........346 (A5, Wed), 350 (A5, Wed) Chojnacka, Agnieszka......................... 459 (A5, Thu) Chokai, Masayuki...............................1277 (F3, Thu) Chokawa, Kenta................................2086 (Q7, Mon) Chong, Gang Yih................................ 1730 (P6, Tue) Chong, Harold....................................1634 (P1, Wed) Chong, Pau........................................... 613 (A9, Tue) Chong, Pau Ying.................................. 614 (A9, Tue) Choo, Min-Ju........... 1087 (F3, Tue), 1088 (F3, Tue) Chorkendorff, Ib..... 1038 (F3, Sun), 1535 (H7, Wed) Chou, Dei-Wei.................................. 2172 (R1, Wed) Chou, Jackey........................................ 269 (A5, Tue) Chou, Li-Hsien...................................1485 (H6, Thu) Choudhury, Mo.................................2142 (Q9, Mon) Chrastina, Daniel...............................1822 (P7, Wed), ..................................1839 (P7, Thu), 1851 (P7, Thu) Christ, Jason........................................1269 (F3, Thu) Christensen, Erik.................................1278 (F3, Thu) Christiansen, Oscar............................. 1740 (P6, Tue) Christou, Aris....................................1970 (Q3, Mon)

Christou, Aristos................................. 1983 (Q3, Tue) Christy, Maria...................................... 128 (A2, Wed) Chu, Chia Ho.......2129 (Q8, Mon), 2132 (Q8, Mon), ..............................2133 (Q8, Mon), 2134 (Q8, Mon) Chu, Daping....................................1934 (Q10, Wed) Chu, Deryn........................................1191 (F3, Wed), Chu, Howie.......................................... 446 (A5, Thu) Chu, Hye Yong.....1918 (Q10, Tue), 2120 (Q7, Wed) Chu, Peter...........................................1248 (F3, Wed) Chu, Schubert......................................1853 (P7, Thu) Chueh, Yu-Lun.......2010 (Q4, Tue), 2108 (Q7, Wed) Chukin, Andrey.................................. 1466 (H6, Tue) Chun, Young....................................1934 (Q10, Wed) Chung, Byung Joo.............................. 315 (A5, Wed) Chung, Chan-Hwa........................... 1871 (P8, Mon), ............................................................ 1890 (Q1, Tue) Chung, Hoon......................................1280 (F3, Thu), ................................1305 (F3, Thu), 1528 (H7, Wed) Chung, Sai-Cheong............................. 302 (A5, Wed) Chung, Taek-Mo................................. 1618 (P1, Tue) Ciapina, Eduardo...............................1217 (F3, Wed) Cid, Clement......................................2294 (Z2, Wed) Cid-Cerón, Mireya Marlenne............ 1370 (H1, Tue) Cigada, Alberto.................................. 1403 (H2, Tue) Cimen, Furkan..................................... 1879 (P9, Tue) Cinciene, Zana.................................... 1177 (F3, Tue) Claeys, Cor.......................................... 1648 (P3, Tue) Claflin, Bruce......................................1835 (P7, Thu) Clancey, Joel........... 1249 (F3, Wed), 1619 (P1, Tue) Clark, Andrew.................................... 1978 (Q3, Tue) Clark, Michael...................................... 849 (D1, Thu) Clark, Robert..........1612 (P1, Tue), 2088 (Q7, Mon) Clark, Steve.......................................... 455 (A5, Thu) Clarysse, Trudo...................................1855 (P7, Thu) Clauws, Paul........................................ 1658 (P3, Tue) Clément, Daniel................................... 462 (A5, Thu) Clement, Jason..................................... 603 (A9, Tue) Clendenning, Scott.............................. 199 (A3, Wed) Cleveland, Christopher.......................863 (D2, Mon) Clites, Mallory...................................... 991 (F2, Tue) Clos, Daniel......................................... 1086 (F3, Tue) Closset, Alexandre.............................1188 (F3, Wed) Cloud, Jacqueline................................257 (A5, Mon) Co, Anne..................................................2 (A1, Mon) Coban, Huseyin................................... 432 (A5, Wed) Cobley, Andrew.................................. 1356 (H1, Tue) Cochrane, Corey...............................1968 (Q3, Mon) Coelho, Joao.............. 170 (A3, Mon), 171 (A3, Tue) Coffer, Jeffery.....................................2306 (Z3, Wed) Cohelo, Joao..................................... 1572 (M1, Wed) Cohen, Andy........................................ 1673 (P4, Tue) Cohn, Gil............................................. 100 (A2, Wed) Cojocaru, Costel-Sorin....................... 390 (A5, Wed) Cojocaru, Paula..........364 (A5, Wed), 813 (D1, Tue) Cola, Baratunde....... 971 (F2, Mon), 1867 (P8, Mon) Colace, Lorenzo.................................. 1793 (P7, Tue) Colavita, Paula....................................2249 (Z1, Tue) Colbow, Vesna..................................... 1083 (F3, Tue) Coleman, Jonathan.............................. 810 (D1, Tue), .......................................................... 1572 (M1, Wed) Collaert, Nadine................................. 1613 (P1, Tue), ................................. 1646 (P3, Tue), 1812 (P7, Wed) Collins, Gillian........1865 (P8, Mon), 1881 (P9, Tue) Collins, Greg....................................... 589 (A8, Wed) Collins, John...................................... 2164 (R1, Wed) Colmati, Flavio...................................1217 (F3, Wed) Coms, Frank........................................ 1093 (F3, Tue) Concha Guzman, Lizeth.......................731 (C1, Tue) Cong, Hongbo...................................... 865 (D2, Tue) Conley, Benjamin........1830 (P7, Thu), 1844 (P7, Thu), ..................................1845 (P7, Thu), 1854 (P7, Thu) Conrad, Olaf........................................ 1073 (F3, Tue) Consiglio, Steve..........1612 (P1, Tue), 2088 (Q7, Mon) Cook, Daniel.........................................774 (C2, Tue) Cook, Rob................ 160 (A3, Mon), 407 (A5, Wed) Coolegem, Jorg................................... 1104 (F3, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

201


Author Index Author................................................................Abs No. Cooney, Michael.................................2288 (Z2, Tue) Cooper, Samuel.......................................23 (A1, Tue) Coppard, Romain............................1910 (Q10, Mon) Coppersmith, Susan............................1849 (P7, Thu) Corà, Furio....................................... 1566 (M1, Wed) Córdoba-Moreno, Marlina................. 1178 (F3, Tue) Cordonier, Christopher....................... 1691 (P5, Tue) Cordova, Isvar..................................... 507 (A6, Tue), .................................. 578 (A8, Tue), 2299 (Z2, Wed) Córdova, Ricardo.........1367 (H1, Tue), 1409 (H2, Tue) Coria, Gabriela.....................................937 (E2, Wed) Cornejo, Jose’.................................... 1318 (G1, Wed) Corona-Avendaño, Silvia....................641 (B1, Tue), ................................ 1411 (H2, Tue), 1412 (H2, Tue), .............................................................2216 (Z1, Tue) Correa, Paola.........................................733 (C1, Tue) Correge, Nicolas...................................739 (C1, Tue) Cortés, Meritxell...................................687 (B2, Tue) Cosimbescu, Lelia............................... 491 (A6, Tue), ..................................... 497 (A6, Tue), 602 (A9, Tue) Cosnier, Serge...................................1505 (H7, Mon) Costa, C.......................526 (A7, Tue), 544 (A7, Thu) Coughlin, E........................................1259 (F3, Wed) Coulombe, Sylvain.............................168 (A3, Mon) Coustan, Laura..................................... 178 (A3, Tue) Coutanceau, Christophe..................... 1120 (F3, Tue), ..................................1121 (F3, Tue), 1512 (H7, Tue) Couto, Andrea.................................... 1410 (H2, Tue) Couzis, Alexander............................... 124 (A2, Wed) Covelo, Alba..........................................770 (C2, Tue) Cox, Christian...................................1332 (H1, Mon) Cramer, Aaron....................................2293 (Z2, Wed) Creatore, Mariadriana.......................1333 (H1, Mon) Cremers, Carsten................................1184 (F3, Wed) Cresce, Arthur.....................................225 (A4, Mon) Crippa, Danilo....................................1822 (P7, Wed) Cristiani, Pierangela...........................2283 (Z2, Tue), .............................................................2285 (Z2, Tue) Cristoloveanu, Sorin......................... 1720 (P6, Mon) Cristovan, Fernando........................... 1362 (H1, Tue) Cronin, Stephen...................................559 (A8, Mon) Crosnier, Olivier................................... 95 (A2, Wed), .................................... 448 (A5, Thu), 456 (A5, Thu) Crowtz, Timothy................................1208 (F3, Wed) Croy, Jason........................................... 279 (A5, Tue) Cruz Gaona, Roel............................... 1344 (H1, Tue) Cruz-Díaz, Martín.......933 (E2, Wed), 966 (E3, Tue) Cruz-Rizo, Alejandro...........................929 (E2, Wed) Cuentas-Gallegos, Ana Karina..........167 (A3, Mon), .......................................................... 1573 (M1, Wed) Cuevas-Muñiz, Francisco.................. 1102 (F3, Tue), ................................ 1519 (H7, Tue), 2180 (Z1, Tue), ............................................................2315 (Z3, Wed) Cuffari, David.................................... 1421 (H6, Sun) Cui, Bo.................................................. 499 (A6, Tue) Cui, Chunhua......................................1018 (F3, Sun) Cui, Guansen....................................... 467 (A5, Thu), .......................................982 (F2, Tue), 984 (F2, Tue) Cui, Peng.................1434 (H6, Tue), 1446 (H6, Tue) Cui, Yanhua.......................................... 449 (A5, Thu) Cui, Yi......................... 500 (A6, Tue), 970 (F2, Mon) Cui, Yi-Tao............................................ 94 (A2, Wed) Cuisinier, Marine........90 (A2, Wed), 539 (A7, Wed) Cullen, David..................................... 1110 (F3, Tue), .................................1209 (F3, Wed), 1289 (F3, Thu) Cullen, Ronan......................................2249 (Z1, Tue) Cumming, Denis........1342 (H1, Mon), 1360 (H1, Tue) Cummings, Peter................................. 535 (A7, Wed) Cunci, Lisandro................................... 658 (B1, Wed) Cunci, Roman..................................... 658 (B1, Wed) Curtin, William.........712 (C1, Tue), 1343 (H1, Mon) Cushing, Scott....................................560 (A8, Mon), ................................... 562 (A8, Mon), 581 (A8, Tue) Cvelbar, Uroš..........1587 (N1, Tue), 1593 (N1, Tue) Czerniawski, Justing............................ 807 (D1, Tue) Czornomaz, Lukas............................ 1723 (P6, Mon) 202

Author................................................................Abs No.

Author................................................................Abs No.

D

De Vito, Eric........................................218 (A4, Mon) de Vooys, Arnoud......795 (C3, Wed), 796 (C3, Wed) Deb, Aniruddha................................... 384 (A5, Wed) DeBenedictis, Erik.............................2050 (Q5, Thu) DeBolt, Michael..................................1031 (F3, Sun) Decker, Seth.......................................2050 (Q5, Thu) Dector, Andrés...... 1316 (G1, Wed), 1947 (Q2, Wed) Dedryvere, Remi.................................. 291 (A5, Tue) Dedyukhin, Alexander.....................1427 (H6, Mon), ............................... 1430 (H6, Mon), 1467 (H6, Tue) Deevanhxay, Phengxay......................1286 (F3, Thu) Deguchi, Tadayoshi..........................1959 (Q3, Mon) Deheryan, Stella................................... 806 (D1, Tue) Deki, Shigehito...................................1202 (F3, Wed) Del Campo, Francisco........................ 1056 (F3, Tue) del Oso-Acevedo, José....................... 1884 (P9, Tue) Delabie, Annelies................................ 1613 (P1, Tue) Delannoy, Pierre-Emmanuel............. 1418 (H6, Sun) Delaplagne, Tony................................. 443 (A5, Thu) Delaye, Vincent......... 1756 (P6, Wed), 2091 (Q7, Mon) Delean, Pierre-Antoine....................... 1728 (P6, Tue) Delgado Tobon, Arnoldo......................762 (C2, Tue) Delhalle, Joseph......1401 (H2, Tue), 1404 (H2, Tue) Deligianni, Hariklia (Lili)................... 874 (D2, Tue), .............................................................. 877 (D2, Tue) Deligianni, L.......................................903 (D3, Mon) Delmas, Claude.................................... 155 (A2, Thu) Delp, Samuel....................................... 528 (A7, Wed) Delprat, Daniel.................................. 1720 (P6, Mon) Delpuech, Nathalie..............................218 (A4, Mon) Demarina, Nataliya............................ 2099 (Q7, Tue) Demchyshyna, Oksana...................... 1365 (H1, Tue) Demir-Cakan, Rezan..............................85 (A2, Tue) Demkov, Alexander.......................... 2113 (Q7, Wed) Dempwolf, Sophia.............................. 1742 (P6, Tue) Deng, Shaoren.....................................2210 (Z1, Tue) Dennis, Kathleen............................... 1479 (H6, Wed) Dennison, Christopher........................ 606 (A9, Tue), ................................. 629 (A9, Wed), 1219 (F3, Wed) Deravil, Latia....................................... 824 (D1, Wed) Desai, Divyaraj..................................... 850 (D1, Thu) Descos, Antoine................................ 1724 (P6, Mon) Desjardins, Patrick..............................1846 (P7, Thu) Desmond, E.........................................2282 (Z2, Tue) Detavernier, C................................... 1603 (P1, Mon) Detavernier, Christophe......................2210 (Z1, Tue) Deutsch, Todd..................................... 582 (A8, Wed) Devaal, Jake.......................................1189 (F3, Wed) Deveney, Bridget................................. 335 (A5, Wed) Devillers, Sébastien.......................... 1401 (H2, Tue), ............................................................ 1404 (H2, Tue) Devyatkin, Sergei........1448 (H6, Tue), 1449 (H6, Tue) DeWever, Natacha.............................. 144 (A2, Wed) Dharmadasa, Ruvini.......................... 2069 (Q6, Tue) Dhayalan, Sathish...............................1856 (P7, Thu) Dhayalan, Sathishkumar....................1855 (P7, Thu), .............................................................1858 (P7, Thu) Di Bartolo, Baldassare...................... 2164 (R1, Wed) Di Benedetto, Francesco...................1374 (H2, Mon) Di Cioccio, Lea..................................1756 (P6, Wed) Di Noto, Vito........................................56 (A2, Mon), ...............................1259 (F3, Wed), 1499 (H7, Mon) Diankov, Georgi......................................46 (A1, Tue) Diau, Eric............................................. 591 (A8, Wed) Diaz, Carlos..........................................947 (E2, Wed) Diaz, Luis............................................ 958 (E3, Mon) Díaz-Acosta, Cristian........................1380 (H2, Mon) Diaz-Cartagena, Diana...................... 658 (B1, Wed), .............................................................678 (B2, Mon) Diaz-Diaz, Elimar............................... 658 (B1, Wed) Díaz-Real, Jesús..................................2190 (Z1, Tue) Diebold, A. C...................................... 1612 (P1, Tue) Diekmann, Jan...................................... 440 (A5, Thu) Dietrich, Philipp.................................1188 (F3, Wed) Dietz, Kelsey....................................... 139 (A2, Wed) Dillmann, Helena................................ 1731 (P6, Tue)

da Costa, Tallis......................................681 (B2, Tue) da Silva, Paulo................................... 1314 (G1, Wed) Dahbi, Mouad................1 (A1, Mon), 514 (A7, Tue) Dahl, Oaystein..................................... 1086 (F3, Tue) Dahl, Paul............................................ 1086 (F3, Tue) Dahn, Jeff................... 287 (A5, Tue), 289 (A5, Tue), ..................................292 (A5, Wed), 296 (A5, Wed), ..................................317 (A5, Wed), 324 (A5, Wed), .................................. 347 (A5, Wed), 441 (A5, Thu), ................................... 471 (A5, Thu), 473 (A5, Thu), .................................. 516 (A7, Tue), 1208 (F3, Wed) Dai, Hequn........................................... 449 (A5, Thu) Dai, Jiaqi................... 256 (A5, Mon), 298 (A5, Wed) Dai, Sheng..........................................483 (A6, Mon), ................................. 535 (A7, Wed), 1486 (H6, Thu) Daidou, Takahiro.................................1277 (F3, Thu) Daimon, Hideo................................... 1063 (F3, Tue), ..................................1134 (F3, Tue), 1135 (F3, Tue), ...................................1143 (F3, Tue), 1165 (F3, Tue) Daio, Takeshi...........1205 (F3, Wed), 1302 (F3, Thu) Daix, Nicolas..................................... 1723 (P6, Mon) Dalen, Rob........................................... 1781 (P7, Tue) Dalhuijsen, Wouter............................1233 (F3, Wed) Dall’Agnese, Yohan........................... 194 (A3, Wed), .............................................................2246 (Z1, Tue) Dalton, Eric....................................... 1862 (P8, Mon) Dameron, Arrelaine.............................1035 (F3, Sun) Damm, Christine................................. 924 (D3, Wed) Daniel, Claus..............240 (A4, Tue), 323 (A5, Wed) Darbal, Amith....................................... 470 (A5, Thu) Dargis, Rytis....................................... 1978 (Q3, Tue) Darling, Robert..................................... 607 (A9, Tue) Das, Bijoy............................................480 (A6, Mon) Das, Partha Pratim............................... 470 (A5, Thu) Dasari, Mallika................................... 2076 (Q6, Tue) Datta, Dibakar...................................... 92 (A2, Wed), ...................................276 (A5, Tue), 1889 (Q1, Tue) Dattelbaum, Andrew..........................1306 (F3, Thu), .............................. 1528 (H7, Wed), 1532 (H7, Wed) Datye, Abhaya..................................... 1092 (F3, Tue) Daubert, James..................................... 512 (A7, Tue) Davies, Greg............................................78 (A2, Tue) Dávila, Martín.................................... 1407 (H2, Tue) Dávila-Jiménez, M. M...................... 1366 (H1, Tue), .............................................................2213 (Z1, Tue) Davis, Eric........................................... 1095 (F3, Tue) Day, Cynthia....................................... 1894 (Q1, Tue) Dayeh, Shadi..................................... 2094 (Q7, Tue), ................................2015 (Q4, Tue), 2016 (Q4, Tue), ................................2097 (Q7, Tue), 2100 (Q7, Tue), ........................................................... 2109 (Q7, Wed) De Almeida, Nicole............................ 1164 (F3, Tue) De Andrade, Adalgisa........................ 1122 (F3, Tue), ............................................................1216 (F3, Wed) de Biasi, Lea........................................ 333 (A5, Wed) de Boer, Wiebe....................................1833 (P7, Thu) de Buttet, Côme.................................. 1674 (P4, Tue) de Campos-Takaki, Galba................ 1314 (G1, Wed) De Gendt, Stefan................................ 1613 (P1, Tue), ................................1825 (P7, Wed), 1856 (P7, Thu), .............................................................2210 (Z1, Tue) de Groot, C.........................................1634 (P1, Wed) De la Cruz Guzman, Paola Mayela......639 (B1, Tue) de la Fuente, Jose................................1511 (H7, Tue) de Leon, Judy..........................................44 (A1, Tue) De León Almazán, Claudia..................765 (C2, Tue) De Leon Condes, Cristina...................944 (E2, Wed) De Long, Hugh................................ 1479 (H6, Wed), ............................. 1482 (H6, Wed), 1483 (H6, Wed), ............................................................1488 (H6, Thu) de Marneffe, Jean-Francois................ 1689 (P5, Tue) De Matosa, M...................................... 1783 (P7, Tue) De Nardo, Luigi................................. 1403 (H2, Tue) d’Entremont, Anna............................... 175 (A3, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Dillmann, Philippe..............................698 (C1, Mon) Dimitrov, Nikolay.............................. 821 (D1, Wed), ...........................................................1385 (H2, Mon) Dingemans, Gijs................................ 1602 (P1, Mon) Dinh, Huyen........................................1269 (F3, Thu) Dion, Genevieve.................................. 213 (A3, Thu) Dittrich, Thomas.................................. 577 (A8, Tue) Divergilio, Adam................................. 1782 (P7, Tue) Dixon, Sam.......................................... 1669 (P4, Tue) Dizvay, Isin.......................................... 778 (C2, Wed) Djara, Vladimir................................. 1723 (P6, Mon) Djilali, Ned.............1189 (F3, Wed), 1230 (F3, Wed) Djire, Abdoulaye................................. 196 (A3, Wed) Do, Benny.........................................2139 (Q9, Mon) Do, Kwangseok................................... 593 (A8, Wed) Dobisz, Elizabeth................................ 1610 (P1, Tue) Dobri, Adam........................................ 1647 (P3, Tue) Dobrovolsky, A.................................2146 (Q9, Mon) Doeff, Marca........................................ 147 (A2, Thu) Doherthy, Evie................................. 1572 (M1, Wed) Dohori, Yusuke.................................... 420 (A5, Wed) Doi, Takayuki...........116 (A2, Wed), 385 (A5, Wed), ................................. 420 (A5, Wed), 1063 (F3, Tue), ..................................1134 (F3, Tue), 1135 (F3, Tue), ............................................................. 1165 (F3, Tue) Doiron, Curtis....................................... 564 (A8, Tue) Domen, Kazunari................................. 548 (A8, Sun) Domican, Kailyn................................. 1084 (F3, Tue) Dominguez Perez, Oscar......................731 (C1, Tue) Dominko, Robert....................................82 (A2, Tue) Dommann, Alex.................................1822 (P7, Wed) Donato Moreno, Julio.........................2253 (Z1, Tue) Dong, HanPeng...............................1904 (Q10, Mon) Dong, Tao................. 694 (B2, Tue), 2118 (Q7, Wed) Dong, Yajie..............................................86 (A2, Tue) Dong, Yingnan.................................... 531 (A7, Wed) Donne, Scott....................6 (A1, Mon), 41 (A1, Tue), .................................. 158 (A3, Mon), 176 (A3, Tue), .................................205 (A3, Wed), 1349 (H1, Tue), ............................................................ 1358 (H1, Tue) Dontigny, Martin.................................. 462 (A5, Thu) Doo, Seok-Kwang.............................. 311 (A5, Wed) Doo, Seokgwang................................. 327 (A5, Wed) Doolittle, W...........................................14 (A1, Mon) Dorantes-García, Valentín................. 1366 (H1, Tue) Dose, Wesley................6 (A1, Mon), 1349 (H1, Tue) Douard, Camille................................... 172 (A3, Tue) Douhard, Bastien..............................1825 (P7, Wed), ..................................1856 (P7, Thu), 1858 (P7, Thu) Dow, Wei-Ping..........1682 (P5, Mon), 1683 (P5, Mon), .................................. 1686 (P5, Tue), 1687 (P5, Tue) Downie, Laura...................................... 471 (A5, Thu) Doyle, Lucinda...................................2302 (Z2, Wed) Draeger, Erik.............221 (A4, Mon), 540 (A7, Thu) Dräger, Christoph................................ 333 (A5, Wed) Dragoi, Viorel..............688 (B2, Tue), 689 (B2, Tue), ................................1751 (P6, Wed), 1752 (P6, Wed) Dranka, Maciej............96 (A2, Wed), 325 (A5, Wed) Dreyer, Wolfgang............................... 1359 (H1, Tue) Drob, Silviu Iulian................................728 (C1, Tue) Druffel, Thad...................................... 2069 (Q6, Tue) Du, Wei...............................................1830 (P7, Thu), ..................................1844 (P7, Thu), 1845 (P7, Thu) Du, Yi-Chang...................................... 1887 (P9, Tue) Du, Zhijia............................................. 273 (A5, Tue) Dube, Abhishek...................................1853 (P7, Thu) Dubin, Val.......................................... 1680 (P5, Mon) Dubon, Oscar..................................... 2071 (Q6, Tue) Dubrunfaut, Olivier.............................226 (A4, Mon) Duclairoir, Florence............................. 456 (A5, Thu) Duda, Chester.................................... 1526 (H7, Wed) Dudley, Michael................................ 1973 (Q3, Tue), .................................1975 (Q3, Tue), 1984 (Q3, Tue) Dudney, Nancy....................................483 (A6, Mon) Dufficy, Martin.................................... 419 (A5, Wed) Dumont, Erwan..........291 (A5, Tue), 330 (A5, Wed)

Dumont, Joseph..................................1306 (F3, Thu) Dumortier, Mikael.........597 (A8, Wed), 598 (A8, Wed) Duncan, Hugues................................... 470 (A5, Thu) Dunham, Scott.................................. 1640 (P3, Mon), ................................. 1655 (P3, Tue), 1816 (P7, Wed) Dunlap, Richard............3 (A1, Mon), 273 (A5, Tue), ............................................................. 429 (A5, Wed) Dunn, Bruce......................................... 185 (A3, Tue) Dupont, Madeleine............................. 176 (A3, Tue), ..................................205 (A3, Wed), 1349 (H1, Tue) Dupré, Nicolas..................................... 95 (A2, Wed), .................................. 218 (A4, Mon), 322 (A5, Wed) Duprez, Hélène................................. 1724 (P6, Mon) Duque, Jaime...................................... 1595 (N1, Tue) Dura, Joseph........................................ 1095 (F3, Tue) Durkin, David.................................... 1482 (H6, Wed) Durney, Andrew..................................2194 (Z1, Tue) Duron-Torres, Sergio........................ 1316 (G1, Wed) Durst, Julien..............1074 (F3, Tue), 1115 (F3, Tue) D’Urzo, Lucia....................................1825 (P7, Wed) Dushatinski, Thomas....................... 1476 (H6, Wed), .......................................................... 1563 (M1, Wed) Dussarrat, Christian...........................1625 (P1, Wed) Dussart, Remi..................................... 1672 (P4, Tue), ................................ 1689 (P5, Tue), 1992 (Q3, Wed) Dussault, Donald...................................688 (B2, Tue) Dutartre, Didier................................... 1778 (P7, Tue) Dutt, Birendra...................................... 1796 (P7, Tue) DxOrlye, Fanny................................ 1330 (G1, Wed) Dysart, Arthur......................................486 (A6, Mon) Dziembaj, Roman................................ 459 (A5, Thu)

Elkaïm, Erik......................................... 291 (A5, Tue) Ellinger, Carolyn............................... 1605 (P1, Mon) Elman, James.................................... 1326 (G1, Wed) Elmustafa, A............ 1621 (P1, Tue), 1622 (P1, Tue), .................................1623 (P1, Tue), 1718 (P6, Mon) Elnagar, Mohmed............................... 2082 (Q6, Tue) Elong, Kelimah................................... 285 (A5, Tue), ...................................355 (A5, Wed), 392 (A5, Wed) Elsayed, Adly..................................... 2081 (Q6, Tue) Elsner, Peter.............................................28 (A1, Tue) Elwasif, Wael...................................... 369 (A5, Wed) Emmler, Thomas.................................. 577 (A8, Tue) Enciso-Pérez, Rubi...............................967 (E3, Tue) Endo, Kentaro...................................2086 (Q7, Mon) Endo, Michinori..................................2238 (Z1, Tue) Endo, Yoichi.......................................1009 (F2, Wed) Endres, Frank.......... 857 (D2, Mon), 1586 (N1, Tue) Engelke, Simon.................................... 147 (A2, Thu) Engelmann, Sebastian........................1815 (P7, Wed) Engtrakul, Chaiwat............................1262 (F3, Wed) Eom, Ji-Yong....................................... 316 (A5, Wed) Eom, KwangSup................................. 1149 (F3, Tue) Eppler, Aaron...................................... 1673 (P4, Tue) Epshteyn, Albert.........580 (A8, Tue), 589 (A8, Wed) Er, Dequan................101 (A2, Wed), 1355 (H1, Tue) Erable, B..............................................2282 (Z2, Tue) Ercius, Peter............................................46 (A1, Tue) Ercolano, Giorgio...............................1203 (F3, Wed) Erdonmez, Can...................................228 (A4, Mon), .....................................618 (A9, Tue), 850 (D1, Thu) Erfurth, Winfried................................1663 (P3, Wed) Ergül, Adem...................................... 1775 (P7, Mon) Erikson, Heiki...................................1503 (H7, Mon) Eriksson, Mark....................................1849 (P7, Thu) Erlebacher, Jonah...............................1209 (F3, Wed) Ertem, S..............................................1259 (F3, Wed) Eryilmaz, Levent................................. 433 (A5, Wed) Esbenshade, Jennifer............................ 238 (A4, Tue) Escalante, Renán................................ 2062 (Q6, Tue) Escalante-Garcia, Ismailia......................26 (A1, Tue) Escalona, Joaquín.............................. 1548 (H8, Wed) Escalona-Villalpando, Ricardo......... 1316 (G1, Wed) Escobar, Beatriz........1080 (F3, Tue), 1141 (F3, Tue) Escorcia Rojas, Kely.............................748 (C2, Tue) Escudero-Escribano, Maria...............1038 (F3, Sun), ........................................................... 1535 (H7, Wed) Eshun, Kwesi..................................... 1899 (Q1, Tue) Esina, Marina........................................729 (C1, Tue) Eskusson, Jaanus........192 (A3, Tue), 206 (A3, Wed) Esmaily, Mohsen...... 702 (C1, Mon), 705 (C1, Mon) Esparsa, Marco......................................771 (C2, Tue) Esparza, Rodrigo................................2315 (Z3, Wed) Esperança, J. M.................................... 526 (A7, Tue) Espino, Aracely................................... 782 (C2, Wed) Espinoza, Araceli.........735 (C1, Tue), 736 (C1, Tue) Espinoza-Vázquez, Araceli..................776 (C2, Tue) Esquivel, Juan Pablo........................... 1056 (F3, Tue) Esseni, David.....................................1818 (P7, Wed) Estejab, Ali.......................................... 958 (E3, Mon) Estrada, Ariadna...................................719 (C1, Tue), ................................... 742 (C1, Wed), 744 (C1, Wed) Estrada, Daniel..................................... 272 (A5, Tue) Estrade, Sonia....................................... 470 (A5, Thu) Estrella-Gutierrez, Manuel Alejandro......815 (D1, Tue) Estupiñan, Francisco........719 (C1, Tue), 733 (C1, Tue) Etacheri, Vinod....................................486 (A6, Mon) Etcheberry, Arnaud............................. 1881 (P9, Tue) Etcheverry, L.......................................2282 (Z2, Tue) Etzelstorfer, Tanja...............................1851 (P7, Thu) Eugenio, Sonia.................................... 833 (D1, Wed) Eustache, Etienne........172 (A3, Tue), 448 (A5, Thu) Euvrard-Colnat, Catherine.................1745 (P6, Wed) Evans, Brian.......................................2050 (Q5, Thu) Evans, Edward..................................... 865 (D2, Tue) Evans-Lutterodt, Kenneth................... 850 (D1, Thu) Evmenenko, Guennady....................... 238 (A4, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

E

Easley, Christopher...............................649 (B1, Tue) Eastwood, David.......229 (A4, Mon), 467 (A5, Thu) Eberhardt, Ramona........................... 1715 (P6, Mon) Eberman, Kevin.......... 275 (A5, Tue), 516 (A7, Tue) Ebner, Martin......................................268 (A5, Mon) Ebrahim, Shaker................................. 2082 (Q6, Tue) Eccleston, Alexis................................. 624 (A9, Wed) Ecker, Madeleine................................ 356 (A5, Wed) Economopoulos, Solon.................... 1570 (M1, Wed) Economou, Nicholas..........................1192 (F3, Wed) Eda, Tetsuro......................................... 1694 (P5, Tue) Edagawa, Kazuaki..............................676 (B2, Mon) Eddy, C. R.......................................... 1972 (Q3, Tue) Eddy, Charles..................................... 1980 (Q3, Tue) Edström, Kristina........60 (A2, Mon), 242 (A4, Tue), .................................. 294 (A5, Wed), 475 (A6, Mon) Edwards, Nicholas........................... 1924 (Q10, Tue) Egan, Bryce....................................... 1471 (H6, Wed) Eguchi, Koichi...................................... 979 (F2, Tue) Eguchi, Naoki...................................... 1137 (F3, Tue) Ehrenberg, Helmut.............................. 333 (A5, Wed) Eichler, Marko..................................... 1731 (P6, Tue) Eikerling, Michael....... 1089 (F3, Tue), 1189 (F3, Wed) Ein Eli, Yair........................................1266 (F3, Wed) Ejiri, Eiji............................................... 524 (A7, Tue) Ekerdt, John....................................... 2113 (Q7, Wed) El, Mooro..........................................1965 (Q3, Mon) El-Atab, Nazek.......1879 (P9, Tue), 2143 (Q9, Mon) El Gabaly, Farid................................. 2105 (Q7, Tue) El-Ghazaly, Samir...............................1854 (P7, Thu) El Hannach, Mohamed......................1230 (F3, Wed) El Kazzi, Mario.................................... 241 (A4, Tue) El Kurdi, Moustafa............................. 1794 (P7, Tue) El-Maghraby, Mohamed.................... 2081 (Q6, Tue) El Mofid, Wassima............................... 281 (A5, Tue) El-Naggar, Mohamed.........................2287 (Z2, Tue) El Ouatani, Loubna............................. 335 (A5, Wed) Elam, J...................1597 (P1, Mon), 1604 (P1, Mon) Elbaz, Lior.......................................... 1517 (H7, Tue) Elder, Rachael....... 1342 (H1, Mon), 1360 (H1, Tue) Elizalde, Maria................................... 1407 (H2, Tue) Elizalde-González, Ma. de la Paz......... 1366 (H1, Tue), .............................................................2213 (Z1, Tue)

203


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Ewko, Damian................................... 1421 (H6, Sun) Eychmüller, Alexander....................... 1064 (F3, Tue)

Filtvedt, Werner................................... 428 (A5, Wed) Findlay, Melvin...... 653 (B1, Wed), 2006 (Q4, Mon) Finke, Cody........................................2294 (Z2, Wed) Finstad, Terje............ 1734 (P6, Tue), 1736 (P6, Tue) Fischer, Andreas.................................. 1673 (P4, Tue) Fischer, Daniel......................................14 (A1, Mon) Fischer, Gerhard................................ 1763 (P7, Mon) Fischer, Peter...........................................28 (A1, Tue) Fisher, Frank..................................... 1562 (M1, Wed) Fishman, Zachary............................. 1045 (F3, Mon) Fister, Timothy..................................... 238 (A4, Tue) Fitch, Brian..............................................43 (A1, Tue) Fitzgerald, Eugene.............................. 1730 (P6, Tue) Fjellvåg, Helmer............................... 1599 (P1, Mon) Fleischmann, Claudia......................... 1650 (P3, Tue) Flicker, Jack.......................................1966 (Q3, Mon) Floetgen, Christoph............................1752 (P6, Wed) Flores-Álvarez, José......779 (C2, Wed), 781 (C2, Wed) Flynn, Michael...................................2295 (Z2, Wed) Foister, Shane...................................... 139 (A2, Wed) Folgado, María Antonia...................... 1097 (F3, Tue) Föll, Helmut.............489 (A6, Mon), 490 (A6, Mon) Fompeyrine, Jean.............................. 1723 (P6, Mon) Fonash, Stephen..............................1903 (Q10, Mon) Fontaine, Olivier................................. 398 (A5, Wed) Foote, David............. 1670 (P4, Tue), 1671 (P4, Tue) Foote, Ryan.........................................1849 (P7, Thu) Ford, Alexandra.................................. 2105 (Q7, Tue) Foresti, Maria....................................1374 (H2, Mon) Fornasiero, Paolo............................... 1355 (H1, Tue) Fortunato, Guglielmo.....................1910 (Q10, Mon), .........................................................1931 (Q10, Wed) Fossdal, Anita............113 (A2, Wed), 388 (A5, Wed) Foster, Michael................................... 2105 (Q7, Tue) Fourgeot, Fabrice................................ 132 (A2, Wed) Fournel, Frank........1722 (P6, Mon), 1728 (P6, Tue), ................................. 1732 (P6, Tue), 1745 (P6, Wed) Fournier-Lupien, Jean-Hughes...........1846 (P7, Thu) Fox, Douglas..................................... 1483 (H6, Wed) Fox, Eric.............................................1488 (H6, Thu) Frackowiak, Elzbieta.......211 (A3, Thu), 217 (A3, Thu) Francis, Michael.......712 (C1, Tue), 1343 (H1, Mon) Franco, Jacopo.................................... 1613 (P1, Tue) Franger, Sylvain..................................224 (A4, Mon) Frank, Logan....................................... 1060 (F3, Tue) Frankel, Gerald.................................... 797 (C3, Wed) Frantz, Cedric...................................... 890 (D2, Wed) Fraschke, Mirko.................................. 1776 (P7, Tue) Fraser, Colin.......................................1251 (F3, Wed) Freedman, Kathrin............................... 467 (A5, Thu) Fregonese, Sebastien........................... 1783 (P7, Tue) Freixas, Jeremy.................................... 448 (A5, Thu) Freunberger, Stefan.........52 (A2, Mon), 398 (A5, Wed) Frey, Lothar.............. 1652 (P3, Tue), 1654 (P3, Tue) Friedrich, K........................................1223 (F3, Wed) Friedrich, Kaspar................................1236 (F3, Wed) Frigerio, Jacopo........1839 (P7, Thu), 1851 (P7, Thu) Frith, James...........................................58 (A2, Mon) Froböse, Linus..................................... 135 (A2, Wed) Frohn, Natalie...................................... 1729 (P6, Tue) Fronczak, Sean....................................486 (A6, Mon) Frontana-Uribe, Bernardo..................931 (E2, Wed), ............................................................. 1884 (P9, Tue) Frontana-Uribe, Bernardo A................ 844 (D1, Thu) Fry, Antony..........................................701 (C1, Mon) Fu, Huiying....................................... 2027 (Q4, Wed) Fu, Yanbao............................................ 450 (A5, Thu) Fu, Zhengwen...................................... 449 (A5, Thu) Fuchiwaki, Yusuke.........676 (B2, Mon), 693 (B2, Tue) Fuchs, Frank...................................... 1715 (P6, Mon) Fuentes, Antonio................................1010 (F2, Wed) Fuentes, Roberto............................... 2174 (R1, Wed) Fuentes, Roderick..........741 (C1, Wed), 743 (C1, Wed) Fuentes, Rosalba....... 938 (E2, Wed), 956 (E3, Mon) Fuhr, Olaf..............................................66 (A2, Mon) Fuhrer, Michael...................................476 (A6, Mon)

Fujigaya, Tsuyohiko...........................1041 (F3, Sun), ..................................1111 (F3, Tue), 1168 (F3, Tue), ...........................................................1335 (H1, Mon) Fujii, Shosuke.....................................2055 (Q5, Thu) Fujikata, Junichi..................................1831 (P7, Thu) Fujiki, Hironari...................................2317 (Z3, Wed) Fujinami, Tomoyuki...........................2225 (Z1, Tue) Fujino, Masahisa........ 1717 (P6, Mon), 1750 (P6, Wed) Fujino, Yuki.......................................2087 (Q7, Mon) Fujisawa, Hiroyuki...........................1959 (Q3, Mon) Fujita, Kazuhisa................................... 236 (A4, Tue) Fujita, Takahiro...................................2179 (Z1, Tue) Fujiwara, Naoko.......1130 (F3, Tue), 1522 (H7, Tue) Fujiwara, Yoshiya...................................8 (A1, Mon) Fukami, Kazuhiro..........65 (A2, Mon), 834 (D1, Wed), ..................................839 (D1, Thu), 1369 (H1, Tue), .............................. 1417 (H6, Sun), 1542 (H8, Wed), .............................. 1555 (H8, Wed), 1557 (H8, Wed) Fukiage, Yuki...................................... 1685 (P5, Tue) Fukuda, Daichi....................................2206 (Z1, Tue) Fukuda, Hiroshi...................................1838 (P7, Thu) Fukuda, Katsutoshi.................................31 (A1, Tue) Fukuda, Kenji....................................1959 (Q3, Mon) Fukuda, Kotaro...................................1840 (P7, Thu) Fukuda, Masaaki...................................68 (A2, Mon) Fukuda, Takanori................................1023 (F3, Sun) Fukuizumi, Atsuhisa........................... 345 (A5, Wed) Fukunaga, Atsushi................................. 97 (A2, Wed) Fukunaka, Yasuhiro...........................864 (D2, Mon), ..................................2229 (Z1, Tue), 2232 (Z1, Tue) Fukunishi, Mika.................................... 94 (A2, Wed) Fukuoka, Morio....................................635 (B1, Tue) Fukutsuka, Tomokazu.........32 (A1, Tue), 33 (A1, Tue), ................................... 233 (A4, Tue), 1284 (F3, Thu) Fukuzumi, S..................................... 1567 (M1, Wed) Funaahashi, Chikara......................... 1679 (P5, Mon) Funahashi, Shiro........2158 (R1, Wed), 2163 (R1, Wed) Funch, Chris.......................................1824 (P7, Wed) Funch, Christopher............................. 1805 (P7, Tue) Fung, Kuan-Zong............................... 142 (A2, Wed), ..................................145 (A2, Wed), 431 (A5, Wed), .................................... 987 (F2, Tue), 1005 (F2, Tue) Funk, Alexander.................................. 924 (D3, Wed) Furtak, Thomas................................... 582 (A8, Wed) Furuhashi, Takumi............................... 174 (A3, Tue) Furukawa, Hidemitsu.........................673 (B2, Mon) Furukawa, Keizo.................................. 515 (A7, Tue) Furukawa, Shinya.................................693 (B2, Tue) Furuse, Kiyoe...................................... 1649 (P3, Tue) Furuta, Mamoru.............................. 1916 (Q10, Tue), .............................1923 (Q10, Tue), 1925 (Q10, Tue) Furuta, Masaki....................................900 (D3, Mon) Furuta, Noritoshi.................................. 461 (A5, Thu) Furuya, Hirotoshi................................ 1170 (F3, Tue) Furuya, Ryota..................................... 1454 (H6, Tue)

F

Fabbri, Emiliana.................................. 1073 (F3, Tue) Fabbri, Jean-Marc............................. 1722 (P6, Mon) Faber, Matthew.................................... 572 (A8, Tue) Fahrenkrug, Eli..................................... 809 (D1, Tue) Faidyuk, Nataliya............................... 1460 (H6, Tue) Faiz, Hadri...........................................698 (C1, Mon) Fajardo, Gerardo.................................697 (C1, Mon) Falcony, Ciro.................................... 2170 (R1, Wed), ................................ 2171 (R1, Wed), 2215 (Z1, Tue) Falster, Robert................................... 1641 (P3, Mon) Falub, Claudiu....................................1822 (P7, Wed) Fan, Frank........................ 83 (A2, Tue), 86 (A2, Tue) Fan, Louzhen.................................... 1574 (M1, Wed) Fan, Zhiyong.................................... 2026 (Q4, Wed), ................................2027 (Q4, Wed), 2072 (Q6, Tue) Fan-Hagenstein, Haiyan.................... 2076 (Q6, Tue) Fang, Jason................129 (A2, Wed), 188 (A3, Tue), .................................. 412 (A5, Wed), 1887 (P9, Tue) Fang, Jiaxi........................................... 408 (A5, Wed) Fang, Jung-Ying...............................2129 (Q8, Mon), .............................2132 (Q8, Mon), 2133 (Q8, Mon), ...........................................................2134 (Q8, Mon) Fang, Kuan Chung...........................2129 (Q8, Mon), .............................2132 (Q8, Mon), 2133 (Q8, Mon), ...........................................................2134 (Q8, Mon) Fang, Te-Hua.......................................2226 (Z1, Tue) Fang, Zhong..........................................694 (B2, Tue) Fariza, Binti Mohamad...................... 2073 (Q6, Tue) Fathy, Hosam............378 (A5, Wed), 413 (A5, Wed) Favaro, Marco.....................................2254 (Z1, Tue) Favia, Paola.........................................1847 (P7, Thu) Favier, Frederic........... 178 (A3, Tue), 179 (A3, Tue) Fayolle, Murielle............................... 1993 (Q3, Wed) Fazeli, Mohammadreza......................1025 (F3, Sun) Fedeli, Jean-Marc................................1832 (P7, Thu) Fedkiw, Peter....................................... 419 (A5, Wed) Fehrmann, Rasmus...........................1423 (H6, Mon) Feigelson, Boris................................1961 (Q3, Mon) Feliciano, Yira................................... 1320 (G1, Wed) Feliu, Juan..........................................2320 (Z3, Wed) Feng, Chuanliang............................... 1415 (H2, Tue) Feng, Guang........................................ 535 (A7, Wed) Feng, Pingyun...................................... 573 (A8, Tue) Fenouillet-Beranger, Claire...............1745 (P6, Wed) Fenter, Paul........................................... 238 (A4, Tue) Fenton, Kyle......................................... 518 (A7, Tue) Fenton, Rachel.................................... 632 (A9, Wed) Ferber, Alain....................................... 1439 (H6, Tue) Fergus, J................................................972 (F2, Mon) Ferguson, Adam..................................158 (A3, Mon) Fermín, David..................................... 820 (D1, Wed) Fernandes, Russel............................... 539 (A7, Wed) Fernandez Zuvich, Afra...................... 1004 (F2, Tue) Fernando, Sandun............................... 659 (B1, Wed) Ferrall, Isa............................................. 578 (A8, Tue) Ferre Llin, Lourdes.............................1851 (P7, Thu) Ferreira, Neidenei........940 (E2, Wed), 1362 (H1, Tue), ................................ 1410 (H2, Tue), 2319 (Z3, Wed) Ferreira, Orlando............................... 1048 (F3, Mon) Ferreira, Paulo...................................... 465 (A5, Thu) Ferreira-Aparicio, Paloma................. 1057 (F3, Tue), ............................................................. 1097 (F3, Tue) Feygelson, Tatyana............................ 1980 (Q3, Tue) Fichtner, Maximilian...........................66 (A2, Mon), ...................................105 (A2, Wed), 242 (A4, Tue), ..................................250 (A5, Mon), 451 (A5, Thu), .............................................................480 (A6, Mon) Fiechter, Sebastian.............................. 583 (A8, Wed) Figgemeier, Egbert............................... 275 (A5, Tue) Figueiredo, Filipe...............................1240 (F3, Wed) Figuet, Christophe............................. 1720 (P6, Mon) Filipič, Gregor.................................... 1587 (N1, Tue) 204

G

Gaberscek, Miran....................................82 (A2, Tue) Gabriel, Onno...................................... 583 (A8, Wed) Gachot, Grégory..................................219 (A4, Mon) Gachovska, Tanya..1985 (Q3, Tue), 1994 (Q3, Wed) Gago, Aldo.........................................1236 (F3, Wed) Gaikwad, Abhinav............................... 850 (D1, Thu) Gaillard, Frédéric................................ 1690 (P5, Tue) Gaillard, Nicolas.................................. 574 (A8, Tue) Gajda, Iwona.......................................2280 (Z2, Tue) Gajewska, Agnieszka........................... 96 (A2, Wed), ..................................144 (A2, Wed), 325 (A5, Wed), .............................................................. 546 (A7, Thu) Galal, Ahmed........................................727 (C1, Tue) Galán-Vidal, Carlos............................2216 (Z1, Tue) Galano, Annia......................................2235 (Z1, Tue) Galeckas, Augustinas....................... 1599 (P1, Mon), ........................................................... 2168 (R1, Wed) Galicia, Monica..............11 (A1, Mon), 44 (A1, Tue) Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Galicia-Aguilar, Gonzalo.....................769 (C2, Tue), ............................................................. 780 (C2, Wed) Galicia Badillo, Aurora........................737 (C1, Tue), ...............................................................772 (C2, Tue) Galindo de la Rosa, Juan de Dios.........1317 (G1, Wed) Galindo Esquivel, Ignacio..................2253 (Z1, Tue) Gallagher, Kevin.................................. 279 (A5, Tue) Gallagher, W........................................903 (D3, Mon) Gallant, Betar....................................1379 (H2, Mon) Gallardo Castán, Ernesto.....................737 (C1, Tue), ...............................................................772 (C2, Tue) Gallaway, Joshua.........124 (A2, Wed), 228 (A4, Mon), .....................................618 (A9, Tue), 850 (D1, Thu) Galvan, Marcelo...................................934 (E2, Wed) Galvan-Martínez, Ricardo....................775 (C2, Tue) Galvan-Valencia, Marisol................. 1316 (G1, Wed) Gambe, Yoshiyuki................................ 521 (A7, Tue) Gamble, John......................................1849 (P7, Thu) Gamboa, Judith....................................945 (E2, Wed) Gambou-Bosca, Axel.......................... 180 (A3, Tue), .............................................................2196 (Z1, Tue) Gan, Lin...............................................1018 (F3, Sun) Ganesan, Kousik.................................. 883 (D2, Tue) Gannon, Paul.............745 (C1, Wed), 746 (C1, Wed) Gao, Chia-Yuan................................. 2172 (R1, Wed) Gao, He................................................ 1610 (P1, Tue) Gao, Ping............................................. 105 (A2, Wed) Gao, Xiang.......................................... 306 (A5, Wed) Gao, Xin..................... 22 (A1, Tue), 2293 (Z2, Wed) Gao, Xuan......................................... 1860 (P8, Mon) Gao, Xue-mei.................................... 1952 (Q2, Wed) Gao, Yingning................................... 1313 (G1, Wed) Gaponik, Nikolai................................. 1064 (F3, Tue) Garbin, Caique...................................1216 (F3, Wed) Garcia, Andrew.................................. 1421 (H6, Sun) García, César.................................... 1577 (M1, Wed) Garcia, Jorge.......................................699 (C1, Mon), ......................................715 (C1, Tue), 724 (C1, Tue) Garcia, Kristen.................................. 1323 (G1, Wed) García, Miguel Angel...................... 1577 (M1, Wed) Garcia, Rodrigo.................................. 2062 (Q6, Tue) García, Santiago................................1333 (H1, Mon) Garcia, Ulises........................................733 (C1, Tue) Garcia-Araez, Nuria.............................12 (A1, Mon), .................................. 58 (A2, Mon), 1531 (H7, Wed) García-Belmonte, Germà................ 1561 (M1, Wed) Garcia-Bordeje, Enrique.................... 1523 (H7, Tue) García- Chan, Ceyli......................... 1573 (M1, Wed) Garcia Delgado, Luis........................ 2174 (R1, Wed) Garcia-Diaz, Brenda.......................... 741 (C1, Wed), .................................743 (C1, Wed), 1493 (H6, Thu), ............................................................1496 (H6, Thu) Garcia-Esparza, Angel....................... 1388 (H2, Tue) Garcia-Meza, Jessica......................... 1344 (H1, Tue) García-Morales, M...............................941 (E2, Wed) García Navarro, Norma.......................737 (C1, Tue), ...............................................................772 (C2, Tue) Garcia Ramos, Tania.......................... 1452 (H6, Tue) García-Rodríguez, Diana....................2253 (Z1, Tue) Gardes, Frederic................................ 1773 (P7, Mon) Gardner, Donald.................................. 199 (A3, Wed) Garfias-García, Elizabeth................... 504 (A6, Tue), ............................................................ 1900 (Q1, Tue) Garg, Pranav....................................1903 (Q10, Mon) Garich, Holly...................................... 1400 (H2, Tue) Garlock, Michael.................................927 (E2, Wed) Garnica-Rodríguez, Armando..............759 (C2, Tue) Garraud, Alexandra.............................902 (D3, Mon) Garsany, Yannick................................1270 (F3, Thu) Garsuch, Arnd...........531 (A7, Wed), 532 (A7, Wed) Gärtner, Frank...................................... 577 (A8, Tue) Garzon, Fernando......654 (B1, Wed), 1092 (F3, Tue) Gaska, Remis....................................2141 (Q9, Mon) Gaskill, D. Kurt.................................. 1972 (Q3, Tue)

Gasteiger, Hubert...... 59 (A2, Mon), 136 (A2, Wed), .................................262 (A5, Mon), 265 (A5, Mon), ................................. 303 (A5, Wed), 1074 (F3, Tue), ............................................................. 1115 (F3, Tue) Gath, Kerrie......................................... 1118 (F3, Tue) Gaubicher, Joël.............90 (A2, Wed), 271 (A5, Tue) Gaumer, Clement...............................1807 (P7, Wed) Gautam, Devendraprakash............... 1862 (P8, Mon) Gauthier, M......................................... 352 (A5, Wed) Gazdzicki, Pawel...............................1236 (F3, Wed) Gazeau, Camille.................................1011 (F2, Wed) Ge, Daohan............................................696 (B2, Tue) Ge, Junjie.............................................1271 (F3, Thu) Ge, Shanhai.......................................... 466 (A5, Thu) Ge, Siyuan...........................................901 (D3, Mon) Geaney, Hugh.................................... 1863 (P8, Mon) Geary, Steven............ 795 (C3, Wed), 796 (C3, Wed) Geffroy, Pierre-Marie.........................1011 (F2, Wed) Geidel, Marion.................................... 1616 (P1, Tue) Gelb, Jeff............................................. 339 (A5, Wed) Gelloz, Bernard................................... 1800 (P7, Tue) Gelover, Silvia..................................... 953 (E3, Mon) Gemmen, Randall................................968 (F2, Mon) Gencarelli, Federica........................... 1647 (P3, Tue), .............................................................1826 (P7, Thu) Genescá Llongueras, Juan....................761 (C2, Tue) George, Steven........ 1249 (F3, Wed), 1619 (P1, Tue) Georgescu, Nicholas.......................... 1394 (H2, Tue) Georgopoulou, Chara........................ 1543 (H8, Wed) Gerhardt, Michael................................ 610 (A9, Tue) Gerolami, Chris................................. 1994 (Q3, Wed) Gershinsky, Gregory...........................485 (A6, Mon) Gessner, Thomas................................1755 (P6, Wed) Gewirth, Andrew.................................. 238 (A4, Tue) Geßwein, Holger................................. 333 (A5, Wed) Ghamouss, Fouad................................ 514 (A7, Tue) Ghanaatpishe, Mohammad.....................37 (A1, Tue) Ghelichi, Mahdi.................................. 1089 (F3, Tue) Ghetmiri, Seyed......1830 (P7, Thu), 1844 (P7, Thu), ..................................1845 (P7, Thu), 1854 (P7, Thu) Ghibaudo, Gerard............................. 1720 (P6, Mon), ...........................................................2091 (Q7, Mon) Ghil, Lee-Jin........................................ 1169 (F3, Tue) Ghodbane, Ouassim............................. 179 (A3, Tue) Ghosh, Saunab................................. 1560 (M1, Wed) Ghosh, Sourov.....................................1287 (F3, Thu) Ghrib, Abdelhamid............................. 1794 (P7, Tue) Gibadullina, Alfiya............................. 1465 (H6, Tue) Gibbs, Christopher........................... 1566 (M1, Wed) Gibson, Andrew................................. 1358 (H1, Tue) Giffin, Guinevere................................ 533 (A7, Wed) Gil, Paulina..........................................2255 (Z1, Tue) Gil, Vanesa...........................................977 (F2, Mon) Gil-Orozco, Yazmín..............................641 (B1, Tue) Gilbert, James......................................1037 (F3, Sun) Gilles, Ralph........................................265 (A5, Mon) Gillette, Eleanor....... 232 (A4, Tue), 482 (A6, Mon), ................................484 (A6, Mon), 1336 (H1, Mon) Gilman, Jeffrey.................................. 1475 (H6, Wed) Girard, Henri-Louis............................. 175 (A3, Tue) Gittleson, Forrest.................................. 496 (A6, Tue) Givens, Michael.................................. 1613 (P1, Tue) Gjoka, Eriugen................................... 1436 (H6, Tue) Glass, Jeffrey....................................... 507 (A6, Tue), .................................. 578 (A8, Tue), 2299 (Z2, Wed) Glatthaar, Sven.................................... 333 (A5, Wed) Glembocki, Orest...............................1633 (P1, Wed) Glenn, Michael........................................41 (A1, Tue) Glover, Carol............. 13 (A1, Mon), 146 (A2, Wed), ...................................800 (C3, Wed), 1885 (P9, Tue) Glynn, Colm............1863 (P8, Mon), 1881 (P9, Tue) Gochi, Yadira......................................1214 (F3, Wed) Goddard, William.............................. 1530 (H7, Wed) Godfrey, Aaron.................................... 1106 (F3, Tue) Godinez, Fernando............................. 1516 (H7, Tue)

Godínez, Luis........ 1380 (H2, Mon), 1389 (H2, Tue) Godínez Mora-Tovar, Luis..................943 (E2, Wed) Godwin, Ian.......................................1340 (H1, Mon) Goenaga, Gabriel.......... 139 (A2, Wed), 1082 (F3, Tue) Gogotsi, Yury..................................... 101 (A2, Wed), ...................................185 (A3, Tue), 194 (A3, Wed), ..................................195 (A3, Wed), 203 (A3, Wed), ....................................213 (A3, Thu), 245 (A4, Tue), ................................. 629 (A9, Wed), 2246 (Z1, Tue), .............................................................2251 (Z1, Tue) Gohier, Aurélien.................................. 390 (A5, Wed) Gohil, Dipak........................................701 (C1, Mon) Goldberger, Joshua.............................1821 (P7, Wed) Goldhaber-Gordon, David......................46 (A1, Tue) Goli, Pradyumna.............................1912 (Q10, Mon) Gollhofer, Martin.....1797 (P7, Tue), 1836 (P7, Thu) Golnaraghi, Farid...............................1189 (F3, Wed) Golodnitsky, Diana........ 339 (A5, Wed), 467 (A5, Thu) Gomez, Jamie...................................... 961 (E3, Mon) Gomez de la Fuente, Jose Luis........... 1056 (F3, Tue) Gomez-Camer, Juan Luis................... 326 (A5, Wed) Gomez-Moreno, Ramon..................... 658 (B1, Wed) Gomez-Zamudio, Felipe.................... 1371 (H1, Tue) Gomozov, Valeriy.............................. 1450 (H6, Tue) Gondcharton, Paul.............................1757 (P6, Wed) Gong, Jin.............................................673 (B2, Mon) Gong, Tao......................................... 1559 (M1, Wed) Gong, Xiao..........................................1842 (P7, Thu) Gong, Yunhui........... 256 (A5, Mon), 298 (A5, Wed) Gonzalez, Ernesto..............................1217 (F3, Wed) González, Federico.......................... 2173 (R1, Wed), .............................................................2219 (Z1, Tue) González, I.......................................... 545 (A7, Thu), ...................................935 (E2, Wed), 2261 (Z1, Tue) González, Ignacio...............................933 (E2, Wed), ....................................934 (E2, Wed), 966 (E3, Tue), .................................2219 (Z1, Tue), 2221 (Z1, Tue), .............................................................2235 (Z1, Tue) González, Pio.................................... 1770 (P7, Mon) González Fuentes, Miguel..................2213 (Z1, Tue) Gonzalez-Gonzalez, Ileana.................2258 (Z1, Tue) Gónzalez Martínez, Erika.................... 505 (A6, Tue) Gonzalez Nava, Catalina.................. 1329 (G1, Wed) González-Perea, Mario...................... 1366 (H1, Tue) Gonzalez Rodriguez, Jose....................732 (C1, Tue) Gonzalez-Vazquez, José.................... 2066 (Q6, Tue) Gonzalo, Elena..................................... 150 (A2, Thu) Goo, Youngmo.................................... 1183 (F3, Tue) Goodenough, John............................... 465 (A5, Thu) Goodie, Taylor................................... 1480 (H6, Wed) Goorsky, M. S.................................. 1721 (P6, Mon), ..............................1725 (P6, Mon), 1727 (P6, Mon), ................................. 1735 (P6, Tue), 1747 (P6, Wed) Gopalan, Srikanth.......974 (F2, Mon), 996 (F2, Tue) Gordon, Michael................................ 1589 (N1, Tue) Gordon, Roy......................................... 610 (A9, Tue) Gore, Colin....................980 (F2, Tue), 989 (F2, Tue) Goretta, Kenneth.................................2179 (Z1, Tue) Gorgoi, Mihaela................................... 242 (A4, Tue) Gorlin, Yelena.........................................51 (A1, Tue) Görrn, Patrick...................................... 1607 (P1, Tue) Gorte, Raymond................................. 1355 (H1, Tue) Gosse, Charlie...................................2124 (Q8, Mon) Gosset, Nicolas................................... 1672 (P4, Tue), ................................ 1689 (P5, Tue), 1992 (Q3, Wed) Gostick, Jeff........... 1029 (F3, Sun), 1044 (F3, Mon) Goswami, Yogi...................................2316 (Z3, Wed) Gotcu-Freis, Petronela........................ 376 (A5, Wed) Goto, Masahide..................................1746 (P6, Wed) Goto, Terutaka................................... 1637 (P3, Mon) Gotoh, Kazuma.......................................1 (A1, Mon) Gottscho, Richard............................... 1673 (P4, Tue) Gould, Benjamin................................ 1103 (F3, Tue), .................................1190 (F3, Wed), 1270 (F3, Thu) Goulet, Marc-Antoni..............................27 (A1, Tue) Gourhant, Olivier.........1674 (P4, Tue), 1807 (P7, Wed)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

205


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Govorov, Alexander............................. 566 (A8, Tue) Goward, Gillian................................... 469 (A5, Thu), ...................................523 (A7, Tue), 537 (A7, Wed), ................................. 1164 (F3, Tue), 1241 (F3, Wed) Grabstanowicz, Lauren.......................1307 (F3, Thu) Graczyk-Zajac, Magdalena................. 458 (A5, Thu) Graetz, Jason........................................ 437 (A5, Thu) Granitzer, Petra...... 2306 (Z3, Wed), 2307 (Z3, Wed) Granozzi, Gaetano..............................2254 (Z1, Tue) Grau-Crespo, Ricardo......................... 141 (A2, Wed) Graves, Christopher................................40 (A1, Tue) Gray, Joshua....................................... 741 (C1, Wed), ..................................743 (C1, Wed), 1493 (H6, Thu) Gray, Peter...............1764 (P7, Mon), 1782 (P7, Tue) Green, Ron........................................1965 (Q3, Mon) Greenlee, Jordan...................................14 (A1, Mon) Greenman, John..................................2280 (Z2, Tue) Greer, Julia........................................1379 (H2, Mon) Gregorczyk, Keith...............................482 (A6, Mon) Greig, Amelia...................................... 1669 (P4, Tue) Greszler, Thomas................................ 335 (A5, Wed) Grew, Kyle.........................................1191 (F3, Wed) Grez, Paula......................................... 1896 (Q1, Tue) Gries, Thomas.................................... 1590 (N1, Tue) Grieseler, Rolf............360 (A5, Wed), 812 (D1, Tue) Griffith, Lucas.......................................53 (A2, Mon) Griffiths, Trevor................................ 1455 (H6, Tue), .................................1463 (H6, Tue), 1497 (H6, Thu) Grigoropoulos, Costas....................... 2106 (Q7, Tue) Grinciene, Giedre................................ 836 (D1, Wed) Grot, Stephen...................................... 1052 (F3, Tue) Grozovski, Vitali................................ 1352 (H1, Tue) Grugeon, Sylvie..................................219 (A4, Mon) Grützmacher, Detlev........................ 1644 (P3, Mon), ................................. 1827 (P7, Thu), 2099 (Q7, Tue) Grzybowski, Gordon..........................1835 (P7, Thu) Gu, Hongbo................. 184 (A3, Tue), 709 (C1, Tue) Gu, Junsi............................................... 809 (D1, Tue) Gu, Leilei........................................... 2020 (Q4, Tue), ................................2026 (Q4, Wed), 2072 (Q6, Tue) Gu, Lin....................... 260 (A5, Mon), 499 (A6, Tue) Gu, X.................................................1379 (H2, Mon) Guardian, René................................ 1576 (M1, Wed) Guardián Tapia, René...........................738 (C1, Tue) Guda, Alexander.................................480 (A6, Mon) Guéguen, Aurélie................................. 235 (A4, Tue) Guerfi, Abdelbast................................. 462 (A5, Thu) Guerra-Balcázar, Minerva................. 816 (D1, Wed), ..................................823 (D1, Wed), 1102 (F3, Tue), ...............................1213 (F3, Wed), 1237 (F3, Wed), ...............................1317 (G1, Wed), 1519 (H7, Tue), ............................... 2314 (Z3, Wed), 2315 (Z3, Wed) Guessoum, Khadoudj...........................773 (C2, Tue) Guétaz, Laure.....................................1201 (F3, Wed) Guha, Mithu.......................................2312 (Z3, Wed) Guhlke, Clemens................................ 1359 (H1, Tue) Guignard, Marie................................... 155 (A2, Thu) Guim, Hwanuk.................................... 1131 (F3, Tue) Guitiérrez Ramírez, Jaime.................1237 (F3, Wed) Gunawardena, Duminda..................... 659 (B1, Wed) Gunda, Naga Siva...............................675 (B2, Mon) Gundersen, Elin................................... 1740 (P6, Tue) Gunji, Takao..............579 (A8, Tue), 1116 (F3, Tue), ................................. 1129 (F3, Tue), 1215 (F3, Wed) Gun’ko, Iouri........................................ 566 (A8, Tue) Guo, Huajun........................................ 389 (A5, Wed) Guo, Jiang..................184 (A3, Tue), 197 (A3, Wed), ...................................709 (C1, Tue), 1013 (F2, Wed) Guo, Junsong.......................................1282 (F3, Thu) Guo, Liping........... 1971 (Q3, Mon), 1976 (Q3, Tue) Guo, Pengfei........................................1842 (P7, Thu) Guo, Shaojun.......... 1039 (F3, Sun), 1527 (H7, Wed) Guo, Weiming.................................... 1646 (P3, Tue), ................................1811 (P7, Wed), 1812 (P7, Wed)

Guo, Zhanhu..............184 (A3, Tue), 197 (A3, Wed), .................................... 709 (C1, Tue), 916 (D3, Tue), ............................................................1013 (F2, Wed) Gupta, Avi..........................................1960 (Q3, Mon) Gupta, Gautam...................................1306 (F3, Thu), .............................. 1528 (H7, Wed), 1532 (H7, Wed) Gupta, Somya...................................... 1647 (P3, Tue) Gupta, Tanya.......................................479 (A6, Mon) Gur, Turgut.........................................1008 (F2, Wed) Gurauskis, Jonas................................1012 (F2, Wed) Gurrola, Mayra................................... 1138 (F3, Tue), ................................ 1237 (F3, Wed), 1516 (H7, Tue) Gusak, Andriy.................................... 2100 (Q7, Tue) Gustafson, John................................... 199 (A3, Wed) Gustafsson, Torbjörn.............................60 (A2, Mon) Gutiérrez, Cynthia..............................1197 (F3, Wed) Gutiérrez-Granados, Silvia................. 844 (D1, Thu), ................................1330 (G1, Wed), 1389 (H2, Tue) Gutt, Tomasz...................................... 1986 (Q3, Tue) Gutzmann, Henning............................. 577 (A8, Tue) Guy-Bouyssou, Delphine...................224 (A4, Mon) Guyomard, Dominique..........................29 (A1, Tue), ......................................90 (A2, Wed), 95 (A2, Wed), .................................218 (A4, Mon), 226 (A4, Mon), ..................................322 (A5, Wed), 352 (A5, Wed), .............................................................. 456 (A5, Thu) Guyomard-Lack, Aurelie................... 1418 (H6, Sun) Guzman, Gregorio............................... 545 (A7, Thu) Guzmán-Hernández, Dafne Sarahia........................... ................................ 1370 (H1, Tue), 1411 (H2, Tue), ............................................................ 1412 (H2, Tue) Guzmán Mar, Jorge..............................948 (E2, Wed) Guzmán-Vargas, Ariel........................220 (A4, Mon) Gyenge, Elod...........................................77 (A2, Tue)

Han, Tae Hee..........402 (A5, Wed), 1579 (M1, Wed) Han, Tong........................................... 2151 (Q9, Tue) Han, Xianwei....... 1937 (Q2, Wed), 1944 (Q2, Wed) Han, Xiaofei....................................... 2070 (Q6, Tue) Han, Xiaogang......... 256 (A5, Mon), 298 (A5, Wed) Hanafusa, Hiroaki............................... 1803 (P7, Tue) Hanamura, Katsunori............................ 986 (F2, Tue) Hanasage, Srinivas................................637 (B1, Tue) Handa, Hiroyuki................................1962 (Q3, Mon) Hangarter, Carlos.........799 (C3, Wed), 2296 (Z2, Wed) Hanisch, Christian................................ 440 (A5, Thu) Hanke-Rauschenbach, Richard........ 1541 (H8, Wed) Hannach, Mohamed...........................1030 (F3, Sun), ................................1231 (F3, Wed), 1232 (F3, Wed) Hannah, Eric........................................ 199 (A3, Wed) Hannesen, Uwe..................................1188 (F3, Wed) Hansen, Karin........................................ 981 (F2, Tue) Hansen, Kent........................................977 (F2, Mon) Hansen, Martin....................................1278 (F3, Thu) Hansen, Per-Anders.......................... 1599 (P1, Mon) Hansen, Thomas.................................... 981 (F2, Tue) Hanson, David.....................................2287 (Z2, Tue) Hao, Jifa.............................................2089 (Q7, Mon) Hao, Qingli.......................................... 318 (A5, Wed) Haon, Cédric....................................... 331 (A5, Wed) Haque, Inam....................................... 1395 (H2, Tue) Haque, Ziaul..........................................756 (C2, Tue) Hara, Masanori........ 1153 (F3, Tue), 1243 (F3, Wed) Hara, Masaya.....................................1243 (F3, Wed) Hara, Nobuyoshi...... 801 (C3, Wed), 803 (C3, Wed), ................................. 1069 (F3, Tue), 2175 (Z1, Tue), ..................................2222 (Z1, Tue), 2228 (Z1, Tue) Harada, Jumpei................................... 427 (A5, Wed) Harada, Shingo..................................2002 (Q4, Mon) Harada, Shinsuke..............................1959 (Q3, Mon) Harada, Yoshihisa...............................1015 (F3, Sun) Harame, D........................................ 1764 (P7, Mon), ................................. 1782 (P7, Tue), 1824 (P7, Wed) Harasawa, Ayumi................................1274 (F3, Thu) Harb, John.............................................722 (C1, Tue) Hardacre, Chris.................................. 1360 (H1, Tue) Harding, Jonathon.................................55 (A2, Mon) Hards, Graham....................................1308 (F3, Thu) Haregewoin, Atetegeb Meazah.......... 297 (A5, Wed) Harima, Hiroshi................................. 1766 (P7, Mon) Haring, Andrew........1882 (P9, Tue), 2064 (Q6, Tue) Hariri, Maryam...................................2188 (Z1, Tue) Haritos, George.................................... 865 (D2, Tue) Härk, Eneli.......................................1504 (H7, Mon), ................................ 1508 (H7, Tue), 2241 (Z1, Tue), .............................................................2242 (Z1, Tue) Harkness, Ian.......................................1308 (F3, Thu) Harnisch, Falk.....................................2281 (Z2, Tue) Haro, Marta...................................... 1561 (M1, Wed) Harris, Kris.............. 1164 (F3, Tue), 1241 (F3, Wed) Harris, Stephen J................................. 300 (A5, Wed) Harrison, Katharine........................... 1538 (H7, Wed) Hart, John................ 1805 (P7, Tue), 1824 (P7, Wed) Hartmann, Jean-Michel................... 1720 (P6, Mon), ..............................1723 (P6, Mon), 1769 (P7, Mon), .................................1806 (P7, Tue), 1827 (P7, Thu), .................................1832 (P7, Thu), 1846 (P7, Thu), .............................................................1852 (P7, Thu) Hartridge, Steve.................................. 1106 (F3, Tue) Haruki, Tatsuro....................................2224 (Z1, Tue) Harward, Ian......................................... 908 (D3, Tue) Hasan, Maksudul.............................. 1862 (P8, Mon) Hasché, Frédéric.......1074 (F3, Tue), 1115 (F3, Tue) Hasegawa, Madoka.......890 (D2, Wed), 891 (D2, Wed) Hasegawa, Masataka......................... 2007 (Q4, Tue) Hasegawa, Mitsuhisa....................... 1556 (H8, Wed), .............................................................2212 (Z1, Tue) Hasegawa, Shin................................... 1167 (F3, Tue) Hasegawa, Shota............................... 2157 (R1, Wed) Haselrieder, Wolfgang....................... 135 (A2, Wed), ................................... 372 (A5, Wed), 440 (A5, Thu)

206

H

Ha, Su........................1125 (F3, Tue), 1126 (F3, Tue) Ha, The An........................................... 177 (A3, Tue) Haan, John........................................... 1125 (F3, Tue) Haarberg, Geir................................... 1439 (H6, Tue), ................................1440 (H6, Tue), 1441 (H6, Tue), ............................................................ 1446 (H6, Tue) Haarberg, Geir Martin...................... 1434 (H6, Tue), ............................................................ 1442 (H6, Tue) Haberl, Jasmin..................................... 136 (A2, Wed) Habersat, Dan....................................1965 (Q3, Mon) Haehnel, Veronika............................... 924 (D3, Wed) Haering, Dominik............................... 303 (A5, Wed) Hagihara, Taizoh................................. 1739 (P6, Tue) Hagiwara, Hiroki................................2233 (Z1, Tue) Hagiwara, Kei....................................1746 (P6, Wed) Hagiwara, Rika..........97 (A2, Wed), 1166 (F3, Tue), ...............................1438 (H6, Tue), 1472 (H6, Wed), ............................................................1491 (H6, Thu) Hahn, Horst.........................................250 (A5, Mon) Hahn, Nathan....................................... 520 (A7, Tue) Hahn, Robert....................................... 183 (A3, Tue), ................................ 400 (A5, Wed), 1376 (H2, Mon) Hake, Alison........................................ 413 (A5, Wed) Halalay, Ion......................................... 290 (A5, Tue), ....................................523 (A7, Tue), 537 (A7, Wed) Halevi, Barr..............1311 (F3, Thu), 1312 (F3, Thu) Hall, Timothy.......... 855 (D2, Mon), 1400 (H2, Tue) Halliop, Ela..........................................2259 (Z1, Tue) Halvarsson, Mats.........701 (C1, Mon), 702 (C1, Mon), ...................................705 (C1, Mon), 804 (C3, Wed) Hamada, Shinya.................................. 1803 (P7, Tue) Hamada, Yoshifumi......................... 2037 (Q5, Wed), ........................................................... 2047 (Q5, Wed) Hamazaki, Makoto.......1146 (F3, Tue), 1275 (F3, Thu) Hammond, Paula...................................55 (A2, Mon) Han, Dong-Hoon................................. 1667 (P4, Tue) Han, Man.............................................. 150 (A2, Thu) Han, Oc Hee.......................................1212 (F3, Wed) Han, Sang-Don..................................... 512 (A7, Tue) Han, Sung Il..........................................692 (B2, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Hashemi, Pouya...... 1790 (P7, Tue), 1815 (P7, Wed) Hashiguchi, Masahiro.......................2084 (Q7, Mon) Hashimoto, Kazuhito........................ 1544 (H8, Wed) Hashimoto, Kuniaki........................... 1785 (P7, Tue), ............................................................. 1803 (P7, Tue) Hashimoto, Masahiro.......................... 884 (D2, Tue) Hashimoto, Masanari.......................... 579 (A8, Tue), ............................................................. 1116 (F3, Tue) Hashizume, Ryohei............................. 1112 (F3, Tue) Hasobe, Taku.................................... 1567 (M1, Wed) Hassan, Ayaz..................................... 1048 (F3, Mon) Hassan, Karim................................... 1724 (P6, Mon) Hasse, Ulrich...................................... 1368 (H1, Tue) Hassoun, Jusef..................................... 130 (A2, Wed) Hasuike, Noriyuki............................. 1766 (P7, Mon) Hata, Masahiko..................................1810 (P7, Wed) Hatakeyama, Tetsuo..........................1959 (Q3, Mon) Hatanaka, Tatsuya............................ 1050 (F3, Mon), ............................................................1207 (F3, Wed) Hatano, Masaharu...........338 (A5, Wed), 525 (A7, Tue) Hatch, Sabina..................................... 2013 (Q4, Tue) Hatchard, Timothy................................ 91 (A2, Wed) Hatchett, David..................................1494 (H6, Thu) Hatsukade, Toru......................................51 (A1, Tue) Hattendorff, Johannes.........................265 (A5, Mon) Hattori, Hiroyuki................................. 1650 (P3, Tue) Hattori, Sayuri...............995 (F2, Tue), 997 (F2, Tue) Hatzell, Kelsey................................... 203 (A3, Wed), .................................. 629 (A9, Wed), 2251 (Z1, Tue) Haung, Wei-Syuan............................ 2119 (Q7, Wed) Hausmann, Dennis.............................. 1608 (P1, Tue) Hausner, Ralf....................................... 1737 (P6, Tue) Haussener, Sophia.........597 (A8, Wed), 598 (A8, Wed) Hautzinger, Mathew........................... 2076 (Q6, Tue) Haverhals, Luke............................... 1471 (H6, Wed), ............................. 1479 (H6, Wed), 1482 (H6, Wed), ............................... 1483 (H6, Wed), 1488 (H6, Thu) Hawthorne, Krista...................................24 (A1, Tue) Hayamizu, Kikuko.............................. 210 (A3, Wed) Hayase, Masanori..........822 (D1, Wed), 1112 (F3, Tue) Hayashi, Akari..........1140 (F3, Tue), 1154 (F3, Tue), ..................................1155 (F3, Tue), 1161 (F3, Tue), ................................1200 (F3, Wed), 1205 (F3, Wed) Hayashi, Katsuya..................................61 (A2, Mon) Hayashi, Masahiko...............................61 (A2, Mon) Hayashi, Shohei..............................1908 (Q10, Mon) Hayashi, Taro..................................... 1685 (P5, Tue), .................................. 1695 (P5, Tue), 1697 (P5, Tue) Hayashi, Tomoaki.........1147 (F3, Tue), 1275 (F3, Thu) Hayashi, Toshihiko...........................1959 (Q3, Mon) Hazbun, Ramsey..........1805 (P7, Tue), 1824 (P7, Wed) Hazel, David........................................ 1805 (P7, Tue) He, Jr-Hau............... 595 (A8, Wed), 1875 (P9, Tue), .................................1877 (P9, Tue), 2018 (Q4, Tue), ............................................................ 2153 (Q9, Tue) He, Min................................................. 499 (A6, Tue) He, Ping..................1251 (F3, Wed), 1256 (F3, Wed) He, Qingliang........... 916 (D3, Tue), 1013 (F2, Wed) He, Ran...............................................1750 (P6, Wed) He, Xin................................................ 310 (A5, Wed) He, Yong................... 694 (B2, Tue), 2118 (Q7, Wed) Heald, Steve......................................... 608 (A9, Tue) Hebert, Kurt...............791 (C3, Wed), 798 (C3, Wed) Hector, Andrew.....................................12 (A1, Mon) Hedberg, Yolanda..................................717 (C1, Tue) Heggen, Marc......................................1018 (F3, Sun) Heiderhoff, Ralf.................................. 1607 (P1, Tue) Heinonen, Olle...................................2057 (Q5, Thu) Heinrich, Wolfgang............................. 1776 (P7, Tue) Helal, Ahmed..........................................86 (A2, Tue) Hellström, Per-Erik............................ 1786 (P7, Tue), ............................................................1814 (P7, Wed) Helzel, Jonathan.................................. 1607 (P1, Tue) Henderson, Wesley.............................. 512 (A7, Tue) Hendricks, Olivia...............................1632 (P1, Wed) Hendrickson, Mary.................................70 (A2, Tue)

Hendriksen, Peter Vang.....................1012 (F2, Wed) Hengstebeck, Robert......................... 1771 (P7, Mon) Henke, Thomas................................... 1616 (P1, Tue) Henkel, Christoph.............................2092 (Q7, Mon) Henkensmeier, Dirk............................ 1152 (F3, Tue) Henri, Jon............................................ 1608 (P1, Tue) Henríquez, Rodrigo........................... 1367 (H1, Tue), ............................................................ 1409 (H2, Tue) Henson, Neil.......................................1264 (F3, Wed) Herb, Jake..............................................64 (A2, Mon) Herbst, Daniel....................................1259 (F3, Wed) Heredia, Beatriz................................. 2062 (Q6, Tue) Herget, Philipp....................................903 (D3, Mon) Hering, Siegfried................................. 1742 (P6, Tue) Herlin, Nathalie................................... 331 (A5, Wed) Hermoso Díaz, Irma.............................732 (C1, Tue) Hernández, Adalberto......................... 744 (C1, Wed) Hernandez, Jesus.................................. 274 (A5, Tue) Hernández, Margarita......................... 1884 (P9, Tue) Hernandez, Miguel...............................770 (C2, Tue) Hernandez, Patricia..............................947 (E2, Wed) HernÁndez, Venus.........938 (E2, Wed), 956 (E3, Mon) Hernández-Arana, Andres....................645 (B1, Tue) Hernández Cortés, Ramiro................. 1138 (F3, Tue) Hernandez-Escampa, Marco................768 (C2, Tue) Hernandez-Fuerte, Luis.......................939 (E2, Wed) Hernandez-Gallegos, Miguel...............768 (C2, Tue) Hernandez-Maya, Roberto................. 244 (A4, Tue), .............................................................. 494 (A6, Tue) Hernández-Moreno, Gibran................ 844 (D1, Thu) Hernández-Ramírez, Aracely.............948 (E2, Wed), ............................................................. 1180 (F3, Tue) Herr, Tatjana............................................28 (A1, Tue) Herranz, Juan...................................... 1074 (F3, Tue) Herrasti, Pilar......................................2253 (Z1, Tue) Herrera-Toribio, Rey............................ 506 (A6, Tue) Herrero, Enrique..............................1384 (H2, Mon), ...........................................................1502 (H7, Mon) Herring, Andrew................................ 582 (A8, Wed), ................................ 1171 (F3, Tue), 1259 (F3, Wed), ................................1260 (F3, Wed), 1261 (F3, Wed) Herrmann, Anne-Kristin..................... 1064 (F3, Tue) Herrmann-Geppert, Iris....................... 577 (A8, Tue) Hertel, Silvia.......................................1755 (P6, Wed) Hertzberg, Benjamin.......................... 140 (A2, Wed), .................................. 228 (A4, Mon), 618 (A9, Tue), .............................................................. 850 (D1, Thu) Hesketh, Peter......................................633 (B1, Tue), ..................................637 (B1, Tue), 2006 (Q4, Mon) Heuer, Arthur....................................... 787 (C2, Wed) Hewa Dewage, Harini............................23 (A1, Tue) Heyns, Marc....................................... 1613 (P1, Tue), ................................ 1647 (P3, Tue), 1811 (P7, Wed), ............................................................1812 (P7, Wed) Heyser, Cristopher............................ 1367 (H1, Tue), .................................1368 (H1, Tue), 1409 (H2, Tue) Hickey, David...................................... 1055 (F3, Tue) Hickner, Michael.........139 (A2, Wed), 1266 (F3, Wed) Hidai, Shoichi......................................1015 (F3, Sun) Hideshima, Sho.................................... 884 (D2, Tue) Higasa, Mitsuo.................................. 1635 (P3, Mon) Higashi, Kotaro................................... 1067 (F3, Tue) Higashi, Seiichiro............................... 1803 (P7, Tue), ...........................1908 (Q10, Mon), 1928 (Q10, Tue) Higashinaka, Yuta............................... 380 (A5, Wed) Higuchi, Eiji............. 127 (A2, Wed), 2234 (Z1, Tue) Higuchi, Masaru..................................1026 (F3, Sun) Higuchi, Mikio.................................... 299 (A5, Wed) Higurashi, Eiji......... 1739 (P6, Tue), 1746 (P6, Wed) Hihara, Lloyd........................................754 (C2, Tue) Hikavyy, Andriy.....1825 (P7, Wed), 1847 (P7, Thu), .................................1855 (P7, Thu), 1856 (P7, Thu), .............................................................1858 (P7, Thu) Hilfiker, J............................................. 1806 (P7, Tue) Hillesheim, Patrick.............................. 535 (A7, Wed) Himmel, Daniel.......1346 (H1, Tue), 1462 (H6, Tue)

Hinebaugh, James....... 1025 (F3, Sun), 1045 (F3, Mon) Hingerl, Kurt......................................1759 (P6, Wed) Hinojosa-Reyes, Laura........................948 (E2, Wed) Hirai, Hirohisa...................................2087 (Q7, Mon) Hirai, Shuichiro.............. 74 (A2, Tue), 75 (A2, Tue), .................................. 605 (A9, Tue), 1286 (F3, Thu), .............................................................1290 (F3, Thu) Hirai, Toshiro..........................................31 (A1, Tue) Hiraki, Tatsurou...................................1838 (P7, Thu) Hiramoto, Toshiro..............................1746 (P6, Wed) Hirano, Shinichi.......... 1031 (F3, Sun), 1042 (F3, Mon) Hirano-Iwata, Ayumi...........................650 (B1, Tue), .............................................................677 (B2, Mon) Hirata, Tatsuaki...............................1906 (Q10, Mon) Hironaka, Yoshimi.............................. 1170 (F3, Tue) Hirosaki, Naoto................................ 2158 (R1, Wed), ...............................2163 (R1, Wed), 2165 (R1, Wed) Hirota, Misako................................... 1515 (H7, Tue) Hitchcock, Adam................................1285 (F3, Thu) Hite, Jennifer...................................... 1980 (Q3, Tue) Hitz, Gregory........... 256 (A5, Mon), 298 (A5, Wed) Hiura, Kentaro............676 (B2, Mon), 693 (B2, Tue) Hjalmarson, Harold............................2050 (Q5, Thu) Hjelm, Johan................40 (A1, Tue), 382 (A5, Wed) Hjorth, Ida.......................................... 1518 (H7, Tue) Hjuler, Hans........................................1185 (F3, Wed) Ho, Hsin-Chia....................................... 987 (F2, Tue) Ho, Johnny......................................... 2148 (Q9, Tue) Hobart, Karl......................................1956 (Q3, Mon), .................................1980 (Q3, Tue), 1990 (Q3, Tue) Hoertz, Paul.......................................... 578 (A8, Tue) Hofer, Marcel.....................................1188 (F3, Wed) Hoff, Andrew.....................................2316 (Z3, Wed) Hoffmann, Michael............................2294 (Z2, Wed) Hofmann, Michael..............................265 (A5, Mon) Holby, Edward....... 1037 (F3, Sun), 1528 (H7, Wed) Holdcroft, Steven.........1189 (F3, Wed), 1298 (F3, Thu) Holland, John...................................... 1673 (P4, Tue) Holländer, Bernd.................................1827 (P7, Thu) Holmes, Justin................................... 1863 (P8, Mon) Holsteyns, Frank................................ 1613 (P1, Tue), .................................1825 (P7, Wed), 1856 (P7, Thu) Holt, Arve............................................ 428 (A5, Wed) Holubowitch, Nick............................ 1473 (H6, Wed) Holverson, Peter.................................1709 (P5, Wed) Holz, Stephanie.....................................685 (B2, Tue) Holzwarth, Charles............................. 199 (A3, Wed) Homma, Takayuki.............................. 894 (D2, Wed), ................................. 896 (D2, Wed), 901 (D3, Mon), ................................ 1438 (H6, Tue), 2229 (Z1, Tue), ..................................2232 (Z1, Tue), 2233 (Z1, Tue) Hommura, Satoru...............................1195 (F3, Wed) Hon, N. K............................................1841 (P7, Thu) Honda, Keiichiro................................. 345 (A5, Wed) Honda, Wataru..................................2002 (Q4, Mon) Hong, Haiping..................................... 370 (A5, Wed) Hong, Jin-Pyo......... 2058 (Q5, Thu), 2059 (Q5, Thu) Hong, Jong-Pal.................................... 425 (A5, Wed) Hong, Misun...............118 (A2, Wed), 234 (A4, Tue) Hong, MunPyo...... 1920 (Q10, Tue), 1922 (Q10, Tue), .................................1935 (Q10, Wed), 2193 (Z1, Tue) Hong, Seong-Hyeon........................... 278 (A5, Tue), ........................................................... 2162 (R1, Wed) Hong, Sung-Hoon............................. 2121 (Q7, Wed) Hong, Wan-Shick............................... 1596 (N1, Tue) Honma, Hideo..................................... 1691 (P5, Tue) Honma, Itaru............... 521 (A7, Tue), 620 (A9, Tue) Hoober-Burkhardt, Lena.........................19 (A1, Tue) Hopfeld, Marcus.................................. 812 (D1, Tue) Hopstaken, Marinus...........................1815 (P7, Wed) Hordy, Nathan.....................................168 (A3, Mon) Hori, Michio........................................ 1090 (F3, Tue) Horibuchi, Kayo.................................. 340 (A5, Wed) Horie, Ayano........................................ 357 (A5, Wed) Horiguchi, Dai......... 1140 (F3, Tue), 1205 (F3, Wed) Horiguchi, Naoto................................1855 (P7, Thu)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

207


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Horikawa, Shin................................... 668 (B1, Wed) Horner, David......................................863 (D2, Mon) Horng, Ray-Hua.................................. 1877 (P9, Tue) Hörpel, Gerhard.................................. 358 (A5, Wed) Hoshi, Yoshinao................................. 345 (A5, Wed), .....................................750 (C2, Tue), 753 (C2, Tue), ........................................................... 1315 (G1, Wed) Hoshi, Yuhei........................................ 600 (A8, Wed) Hoshina, Keigo................................... 319 (A5, Wed) Hoshino, Satohiko...............................1840 (P7, Thu) Hosoi, Shizuka......................................67 (A2, Mon) Hosoi, Takuji.....................................2093 (Q7, Mon) Hossbach, Christoph........................... 1616 (P1, Tue) Hosseini Benhangi, Pooya......................77 (A2, Tue) Hoster, Harry....................................... 348 (A5, Wed) Hotvedt, Elizabeth..............................2194 (Z1, Tue) Housel, Gabrielle................................ 203 (A3, Wed) Houssa, Michel..........2085 (Q7, Mon), 2101 (Q7, Tue) Hovington, Pierre................................. 462 (A5, Thu) Hoyt, Judy................ 1788 (P7, Tue), 1790 (P7, Tue) Hoyt, Nathaniel............24 (A1, Tue), 860 (D2, Mon) Hryn, John.......................................... 1988 (Q3, Tue) Hsiao, Yi-Hsing.................................2130 (Q8, Mon) Hsiao, Yu-Jen......................................2226 (Z1, Tue) Hsieh, Chia-Yun................................. 1583 (N1, Tue) Hsieh, HoYen............1181 (F3, Tue), 1182 (F3, Tue) Hsieh, Hsin-Yi...................................2123 (Q8, Mon) Hsieh, Yao-Shan................................... 848 (D1, Thu) Hsu, Chen-Pin..................................2129 (Q8, Mon), .............................2131 (Q8, Mon), 2132 (Q8, Mon), ..............................2133 (Q8, Mon), 2134 (Q8, Mon) Hsu, Chia-Fu....................................... 1686 (P5, Tue) Hsu, Chia-Hsien...............................2129 (Q8, Mon), ..............................2130 (Q8, Mon), 2133 (Q8, Mon) Hsu, Chih-Wei...................................2130 (Q8, Mon) Hsu, Shu-Han...................................... 1789 (P7, Tue) Hsueh, Kan-Lin.......................................42 (A1, Tue) Hu, Chengqing.................................. 2113 (Q7, Wed) Hu, Di......................1445 (H6, Tue), 1489 (H6, Thu) Hu, Edward................. 499 (A6, Tue), 501 (A6, Tue) Hu, Enyuan..........................................260 (A5, Mon) Hu, Guoqing...................................... 1939 (Q2, Wed) Hu, Liangbing....................................256 (A5, Mon), .................................. 298 (A5, Wed), 476 (A6, Mon) Hu, Ning.............. 1937 (Q2, Wed), 1941 (Q2, Wed), ............................. 1944 (Q2, Wed), 1948 (Q2, Wed), ............................. 1949 (Q2, Wed), 1950 (Q2, Wed), ............................. 1951 (Q2, Wed), 1952 (Q2, Wed), ............................. 1953 (Q2, Wed), 1954 (Q2, Wed), ........................................................... 1955 (Q2, Wed) Hu, Pei.................................................. 508 (A6, Tue) Hu, Shu-Fen......................................... 568 (A8, Tue) Hu, Shuozhen............1125 (F3, Tue), 1126 (F3, Tue) Hu, Xianluo.......................................... 508 (A6, Tue) Hu, Xianyi............................................ 238 (A4, Tue) Hu, Xiao Dong................................... 2151 (Q9, Tue) Hu, Yun Hang....................................... 552 (A8, Sun) Hu, Zhiyu............................................. 216 (A3, Thu) Huang, Bin......................................... 389 (A5, Wed), ................................. 1615 (P1, Tue), 1630 (P1, Wed) Huang, Chien-Jen............................... 1802 (P7, Tue) Huang, Chien-Jung........................... 2060 (Q6, Tue), ................................2080 (Q6, Tue), 2172 (R1, Wed) Huang, Chiung-Yi............................... 1877 (P9, Tue) Huang, Fuqiang.................................... 555 (A8, Sun) Huang, Jar-Lu..........................................42 (A1, Tue) Huang, Jinhua...................................... 102 (A2, Wed) Huang, Kuo-Wei................................ 1898 (Q1, Tue) Huang, Ming-Jiang........................... 1938 (Q2, Wed) Huang, Pao-Hsun............................... 2080 (Q6, Tue) Huang, Qiang.............842 (D1, Thu), 875 (D2, Tue), .................................. 877 (D2, Tue), 1705 (P5, Wed) Huang, Su-Mei.................................... 1686 (P5, Tue) Huang, Xinyu.....................................1252 (F3, Wed) Huang, Yi-Chiau................................. 1779 (P7, Tue) Huang, Yi-Lin........... 975 (F2, Mon), 976 (F2, Mon)

Huang, Yu-Fen........2129 (Q8, Mon), 2131 (Q8, Mon), ............................... 2133 (Q8, Mon), 2135 (Q8, Tue) Huang, Yuelong...................................863 (D2, Mon) Huang, Yunhui..................................... 508 (A6, Tue) Huang, Zhen-Dong.............................253 (A5, Mon) Hucke, Thomas................................... 326 (A5, Wed) Hudgins, Jerry........1985 (Q3, Tue), 1994 (Q3, Wed) Huerta, Evelyn.................................. 2171 (R1, Wed) Huff, Clay.......................................... 1476 (H6, Wed) Hughart, David......1966 (Q3, Mon), 2050 (Q5, Thu) Humbert, Bernard..........218 (A4, Mon), 456 (A5, Thu) Hung, Mai........................................ 1923 (Q10, Tue) Hur, Do Haeng........... 764 (C2, Tue), 783 (C2, Wed) Huskinson, Brian................................. 610 (A9, Tue) Hussain, A. Mohammed....................... 980 (F2, Tue) Hussey, Charles................................. 1435 (H6, Tue), ............................... 1484 (H6, Thu), 1485 (H6, Thu), ................................ 1487 (H6, Thu), 1498 (H6, Thu) Huyet, Isabelle.................................. 1720 (P6, Mon) Huyghebaert, Cedric..........................481 (A6, Mon), .............................................................2210 (Z1, Tue) Huynh-Nguyen, Buu-Chau...............2177 (Z1, Tue), .............................................................2178 (Z1, Tue) Hwang, Bing-Joe................................ 155 (A2, Thu), ............................................................. 297 (A5, Wed) Hwang, C........................................... 2036 (Q5, Wed) Hwang, Chi-Sun............................. 1914 (Q10, Tue), .......................................................... 1918 (Q10, Tue) Hwang, Hae Jin................................... 1001 (F2, Tue) Hwang, Hasub....................................1708 (P5, Wed) Hwang, Ho Jeong................................1292 (F3, Thu) Hwang, Inchan................................... 2075 (Q6, Tue) Hwang, Jae-Seon................................ 788 (C2, Wed) Hwang, Jenn-Yeu................................. 188 (A3, Tue) Hwang, Kyo Seon.................................692 (B2, Tue) Hwang, Nong..................................... 1594 (N1, Tue) Hwang, Seung Sik.............................. 354 (A5, Wed) Hwang, Soon Cheol............................ 622 (A9, Wed) Hwang, Sun-Mi.........1131 (F3, Tue), 1148 (F3, Tue) Hwang, Sunwoo........115 (A2, Wed), 363 (A5, Wed) Hwang, YunJu..................................... 406 (A5, Wed)

Ikenaga, Eiji........................................ 1804 (P7, Tue) Ikeshoji, Tamio..................................... 239 (A4, Tue) Ikezawa, Atsunori...................................32 (A1, Tue) Ikishima, Junya.........374 (A5, Wed), 434 (A5, Wed) Ikonic, Zoran.......................................1827 (P7, Thu) Ikuhara, Yumi...................................... 306 (A5, Wed) Ilchenko, V........................................... 1653 (P3, Tue) Im, Hyungsoon.................................... 594 (A8, Wed) Im, Kyung Soo......................................764 (C2, Tue) Imafuku, Akito..................................2140 (Q9, Mon) Imai, Hideto.............. 422 (A5, Wed), 472 (A5, Thu), .................................. 525 (A7, Tue), 1036 (F3, Sun), ................................ 1147 (F3, Tue), 1247 (F3, Wed), .................................1272 (F3, Thu), 1273 (F3, Thu), .................................1274 (F3, Thu), 1275 (F3, Thu), ............................................................ 1520 (H7, Tue) Imai, Ryosuke.....................................1848 (P7, Thu) Imaizumi, Yoshiaki............................. 1067 (F3, Tue) Imamura, Daichi................................ 336 (A5, Wed), ...................................343 (A5, Wed), 422 (A5, Wed) Imanishi, Nobuyuki....... 71 (A2, Tue), 75 (A2, Tue), ..................................246 (A4, Wed), 247 (A4, Wed), ............................................................. 401 (A5, Wed) Imano, Manabu................................... 125 (A2, Wed) Imaoka, Yujin..................................... 1369 (H1, Tue) Imbert, Bruno.....................................1757 (P6, Wed) Imenes, Kristin.................................... 1740 (P6, Tue) Imhoff, Eugene........1956 (Q3, Mon), 1961 (Q3, Mon) Ina, Toshiaki........................................2224 (Z1, Tue) Inaba, Masanori..................................1207 (F3, Wed) Inaba, Minoru...........385 (A5, Wed), 420 (A5, Wed), ..................................1063 (F3, Tue), 1134 (F3, Tue), ..................................1135 (F3, Tue), 1143 (F3, Tue), ............................................................. 1165 (F3, Tue) Inada, Akiko.......................................1234 (F3, Wed) Inada, Ryoji......................................... 387 (A5, Wed) Inazawa, Shinji...................................... 97 (A2, Wed) Indris, Sylvio....................................... 333 (A5, Wed) Ingale, Nilesh...................................... 124 (A2, Wed) Inman, Douglas.................................. 1444 (H6, Tue) Inman, Maria........... 855 (D2, Mon), 1400 (H2, Tue) Innocenti, Massimo...........................1374 (H2, Mon) Ino, Katsuya........................................ 1165 (F3, Tue) Ino, Kosuke.........................................261 (A5, Mon) Inoda, Kento........................................ 338 (A5, Wed) Inokuma, Kiyoshi............................. 1537 (H7, Wed) Inomata, Hirotaka...............................261 (A5, Mon) Inoue, Fumihiro.........1701 (P5, Wed), 1702 (P5, Wed), ................................1703 (P5, Wed), 1704 (P5, Wed) Inoue, Gen.................374 (A5, Wed), 434 (A5, Wed) Inoue, Hideo.............1063 (F3, Tue), 1134 (F3, Tue), ...................................1135 (F3, Tue), 1143 (F3, Tue) Inoue, Hiroki......................................2054 (Q5, Thu) Inoue, Hiroshi........... 127 (A2, Wed), 2234 (Z1, Tue) Inoue, Naohisa.................................. 1638 (P3, Mon) Inoue, Yasunobu.................................. 600 (A8, Wed) Intaranont, Noramon.............................12 (A1, Mon) Intiso, Luciana..................................... 804 (C3, Wed) Inukai, Junji........................................ 1108 (F3, Tue), ................................. 1158 (F3, Tue), 1243 (F3, Wed) Iordoc, Mihai.........................................734 (C1, Tue) Ioroi, Tsutomu..........1130 (F3, Tue), 1522 (H7, Tue) Iqbal, Shahid...................................... 1393 (H2, Tue) Irisawa, Toshifumi........ 1649 (P3, Tue), 1792 (P7, Tue) Irizawa, Hitomi..................................1221 (F3, Wed) Isa, Fabio............................................1822 (P7, Wed) Isaacs, Hugh........................................ 1066 (F3, Tue) Isella, Giovanni.................................1822 (P7, Wed), ..................................1839 (P7, Thu), 1851 (P7, Thu) Ishibashi, Mitsuru............................... 319 (A5, Wed) Ishida, Masahiro................................1962 (Q3, Mon) Ishida, Minoru..................................... 1132 (F3, Tue) Ishida, Naoya...........337 (A5, Wed), 357 (A5, Wed), .................................. 463 (A5, Thu), 2198 (Z1, Tue), .................................2199 (Z1, Tue), 2200 (Z1, Tue), ..................................2205 (Z1, Tue), 2206 (Z1, Tue)

208

I

Iaboni, Douglas.....................................18 (A1, Mon) Iba, Hideki.....................76 (A2, Tue), 98 (A2, Wed), ...................................125 (A2, Wed), 236 (A4, Tue), ...................................293 (A5, Wed), 306 (A5, Wed) Ibanez, Jorge.........................................931 (E2, Wed) Ibañez-Redín, Glenda....................... 1331 (G1, Wed) Ibarra-Escutia, Pedro...........................644 (B1, Tue), ...............................................................645 (B1, Tue) Ibrahim, Omar.........................................27 (A1, Tue) Ichikawa, Yuya.................................... 116 (A2, Wed) Ichitsubo, Tetsu....................................68 (A2, Mon), ....................................116 (A2, Wed), 913 (D3, Tue) Iddir, Hakim......................................... 288 (A5, Tue) Idemoto, Yasushi................................ 337 (A5, Wed), .................................. 357 (A5, Wed), 463 (A5, Thu), .................................2198 (Z1, Tue), 2199 (Z1, Tue), .................................2200 (Z1, Tue), 2205 (Z1, Tue), .............................................................2206 (Z1, Tue) Ieffa, Simona........................................ 845 (D1, Thu) Ielmini, Daniele................................. 2116 (Q7, Wed) Ieropolous, Ioannis..............................2280 (Z2, Tue) Iguchi, Yoshinori................................1746 (P6, Wed) Ihara, Manabu...................................... 995 (F2, Tue), ....................................997 (F2, Tue), 2068 (Q6, Tue) Iijima, Yuki..........................................1022 (F3, Sun) Iino, Shohei.....................................1911 (Q10, Mon) Iiyama, Akihiro................................. 1043 (F3, Mon) Ike, Shinichi........................................1834 (P7, Thu) Ikeda, Katsuyoshi............................... 1387 (H2, Tue) Ikeda, Keiji............... 1649 (P3, Tue), 1792 (P7, Tue) Ikeda, Mitsuhisa.......1795 (P7, Tue), 1850 (P7, Thu) Ikeda, Yuichi...........1487 (H6, Thu), 1699 (P5, Wed) Ikehata, Yuta........................................ 1143 (F3, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Ishigaki, Tadashi.............................. 2156 (R1, Wed), ...............................2157 (R1, Wed), 2158 (R1, Wed) Ishigaki, Toshikazu........................... 1766 (P7, Mon) Ishihara, Akimitsu.............................. 1146 (F3, Tue), ................................. 1147 (F3, Tue), 1272 (F3, Thu), .................................1273 (F3, Thu), 1274 (F3, Thu), ................................. 1275 (F3, Thu), 1520 (H7, Tue) Ishihara, Junichi.................................. 1139 (F3, Tue) Ishihara, Ryoichi.............................1907 (Q10, Mon) Ishihara, Seiya.....................................1828 (P7, Thu) Ishihara, Takafumi..............................2229 (Z1, Tue) Ishii, Kenji...........................................1015 (F3, Sun) Ishikawa, Daisuke.............................. 1417 (H6, Sun) Ishikawa, Masashi...... 16 (A1, Mon), 301 (A5, Wed) Ishikawa, Masato................................1828 (P7, Thu) Ishikawa, Yasuaki............................ 1921 (Q10, Tue) Ishikawa, Yasuhiko.......1838 (P7, Thu), 1840 (P7, Thu) Ishikawa, Yoshie............................... 2023 (Q4, Wed) Ishikawa, Yurika..................................2217 (Z1, Tue) Ishinari, Yutaka....................................677 (B2, Mon) Ishitobi, Hirokazu............................... 1113 (F3, Tue) Ishizaki, Momoko...............................2218 (Z1, Tue) Ishizaki, Yugo......................................1290 (F3, Thu) Ishizu, Takahiko.................................2054 (Q5, Thu) Isihara, Masatou................................. 2007 (Q4, Tue) Isik, Dilek............................................ 1741 (P6, Tue) Isobe, Koichiro......................................753 (C2, Tue) Isomura, Takenori............................... 1170 (F3, Tue) Isozaki, Yoshiyuki............................... 319 (A5, Wed) Ispas, Adriana...................................... 922 (D3, Wed) Ista, Linnea............. 1318 (G1, Wed), 2287 (Z2, Tue) Itagaki, Masayuki...... 345 (A5, Wed), 750 (C2, Tue), ..................................753 (C2, Tue), 1315 (G1, Wed) Itami, Shunsuke................................... 1153 (F3, Tue) Ito, Hiroshi.........................................1228 (F3, Wed) Ito, Keita............................................... 910 (D3, Tue) Ito, Kohei............................................1234 (F3, Wed) Ito, Syota.............................................2262 (Z1, Tue) Ito, Takashi........................................1332 (H1, Mon) Ito, Yoshina........................................ 2046 (Q5, Wed) Ito, Yumiko.......................................... 1059 (F3, Tue) Itoh, Shinobu...................................... 1522 (H7, Tue) Ivanov, Alexander............................. 1455 (H6, Tue), .................................1459 (H6, Tue), 1497 (H6, Thu) Ivanov, Svetlozar........281 (A5, Tue), 360 (A5, Wed) Ivanov, Tsvetan................................... 1613 (P1, Tue) Ivey, Douglas........................................ 849 (D1, Thu) Iwai, Hiroyuki.....................................2179 (Z1, Tue) Iwai, Taichi...................30 (A1, Tue), 2250 (Z1, Tue) Iwama, Etsuro...................................... 174 (A3, Tue) Iwamura, Takuya................................1228 (F3, Wed) Iwasaki, Kazuki.................................. 1447 (H6, Tue) Iwasawa, Yasuhiro.............................. 1067 (F3, Tue) Iyengar, Vikram................................... 329 (A5, Wed) Izaki, Masanobu................................. 2073 (Q6, Tue) Izawa, Yusaku.....................................1840 (P7, Thu) Izuhara, Daisuke................................. 1059 (F3, Tue) Izumi, Toru........................................1959 (Q3, Mon)

Jain, Vibhor.............1764 (P7, Mon), 1782 (P7, Tue) James, Conrad....................................2050 (Q5, Thu) Jampani, Prashanth............................. 200 (A3, Wed) Janardhanam, V................................... 1801 (P7, Tue) Janek, Juergen...................................... 493 (A6, Tue) Jänes, Alar.................. 173 (A3, Tue), 192 (A3, Tue), ...................................206 (A3, Wed), 207 (A3, Wed) Jang, Dong Pyo................................. 1328 (G1, Wed) Jang, Donghyuk................................... 464 (A5, Thu) Jang, Ho Won.................................... 2031 (Q4, Wed) Jang, HoSaeng..................................... 128 (A2, Wed) Jang, Jaewon...................................... 2106 (Q7, Tue) Jang, Jin........................................... 1917 (Q10, Tue), ..............................1935 (Q10, Wed), 2193 (Z1, Tue) Jang, Jong Hyun................................. 1078 (F3, Tue), ..................................1149 (F3, Tue), 1151 (F3, Tue), ................................. 1152 (F3, Tue), 1238 (F3, Wed) Jang, Seong-Yong............................... 123 (A2, Wed) Jang, Yoon Hee.................................... 563 (A8, Tue) Jang, YoonJung................................... 417 (A5, Wed) Janjam, Sathish.................................... 1608 (P1, Tue) Jankowski, Piotr........ 325 (A5, Wed), 546 (A7, Thu) Jannasch, Patric.........1062 (F3, Tue), 1172 (F3, Tue) Jany, Christophe................................ 1724 (P6, Mon) Jao, Ting-Chu......................................1286 (F3, Thu) Jaramillo, Thomas...................................51 (A1, Tue) Jassby, David......................................2292 (Z2, Wed) Jaworski, Aleksander.........................1709 (P5, Wed) Jayasayee, Kaushik............................. 1086 (F3, Tue) Jayasinghe, Ruwantha....................... 1582 (N1, Tue) Jaye, Cherno..........................................14 (A1, Mon) Jayne, Karen.......................................1494 (H6, Thu) Jeevagan, Arockiam............................ 579 (A8, Tue), ..................................1116 (F3, Tue), 1129 (F3, Tue), ............................................................1215 (F3, Wed) Jelinek, Moriz........... 1652 (P3, Tue), 1654 (P3, Tue) Jena, Debdeep........ 1818 (P7, Wed), 2104 (Q7, Tue) Jensen, Jens.........................................1278 (F3, Thu) Jensen, Lowell...................................... 275 (A5, Tue) Jensen, Søren....................................... 382 (A5, Wed) Jensen, Thomas................................... 1776 (P7, Tue) Jeon, Dong-Hyup................................ 425 (A5, Wed) Jeon, JeongSook.................................. 128 (A2, Wed) Jeon, Min Ku......................................1495 (H6, Thu) Jeon, Min-Su......... 2039 (Q5, Wed), 2059 (Q5, Thu) Jeon, Sang-Yeon.................................. 1148 (F3, Tue) Jeon, Sanghun................................1932 (Q10, Wed), .........................................................1935 (Q10, Wed) Jeon, Sangmin........... 662 (B1, Wed), 666 (B1, Wed) Jeon, Seong Sik................................... 889 (D2, Wed) Jeon, Sungil.........................................2289 (Z2, Tue) Jeon, Yu Kwon....................................1292 (F3, Thu) Jeong, In............................................. 2061 (Q6, Tue) Jeong, Jiseon.......................................2231 (Z1, Tue) Jeong, KwangHo.................................2266 (Z1, Tue) Jeong, Kwaungsik...............................2265 (Z1, Tue) Jeong, Mihee........................................ 464 (A5, Thu) Jeong, Sangsik..................................... 533 (A7, Wed) Jeong, Seong Min............................... 1001 (F2, Tue) Jeong, So Hyun................................ 1919 (Q10, Tue) Jeong, Soon-Wook.......596 (A8, Wed), 2268 (Z1, Tue) Jervis, Rhodri................................... 1566 (M1, Wed) Jevasuwan, Wipakorn........................ 1649 (P3, Tue), ............................................................. 1650 (P3, Tue) Ji, Liang-Wen..................................... 2060 (Q6, Tue) Ji, Qingbin.......................................... 2151 (Q9, Tue) Ji, Sang-Min........................................ 354 (A5, Wed) Ji, Sanghoon.......... 1598 (P1, Mon), 2309 (Z3, Wed) Jia, Qingying........... 1019 (F3, Sun), 1510 (H7, Tue) Jia, Yanxin......................................... 1547 (H8, Wed) Jiang, Bo............................................ 2118 (Q7, Wed) Jiang, Chenglong............................1912 (Q10, Mon) Jiang, Fan......................................... 1951 (Q2, Wed), .............................. 1954 (Q2, Wed), 1955 (Q2, Wed) Jiang, Jingxin................................... 1916 (Q10, Tue), .............................1923 (Q10, Tue), 1925 (Q10, Tue)

Jiang, Jyh-Chiang................................ 297 (A5, Wed) Jiang, Ming.......................................... 921 (D3, Wed) Jiang, Rongzhong..............................1191 (F3, Wed) Jiang, Sijia.......................................... 1646 (P3, Tue), ................................1811 (P7, Wed), 1812 (P7, Wed) Jiang, Xiaoqiang................................1629 (P1, Wed) Jiang, Zhiming.................................... 1802 (P7, Tue) Jimenez, Juan..................................... 1422 (H6, Sun) Jimenez-Sandoval, Rodrigo...............2289 (Z2, Tue) Jin, Sanghyun...................................... 895 (D2, Wed) Jin, Snaghyun...................................... 1688 (P5, Tue) Jin, Song.................. 572 (A8, Tue), 1999 (Q4, Mon) Jin, Wei................................................ 199 (A3, Wed) Jin, Xing.............................................. 596 (A8, Wed) Jin, Yu.................................................. 1655 (P3, Tue) Jin, Yun Ho.......................................... 351 (A5, Wed) Jinnouchi, Ryosuke........................... 1050 (F3, Mon) Jo, Chang Heum................................... 282 (A5, Tue) Jo, Hyunjoon....................................... 593 (A8, Wed) Jo, M.-H............................................. 1870 (P8, Mon) Job, Reinhart............ 1652 (P3, Tue), 1654 (P3, Tue) Johannes, Hans-Hermann................... 1607 (P1, Tue) Johansson, Lars-Gunnar....................702 (C1, Mon), ...................................705 (C1, Mon), 804 (C3, Wed) Johnson, Brett...................................... 1650 (P3, Tue) Johnson, Christopher........89 (A2, Wed), 492 (A6, Tue) Johnson, Lee..........................................52 (A2, Mon) Johnson, Wlat.................................... 1771 (P7, Mon) Jones, Deborah..................................1203 (F3, Wed), ................................1308 (F3, Thu), 1525 (H7, Wed) Jones, Kim......................................... 1863 (P8, Mon) Jongbloed, Bert................................. 1602 (P1, Mon) Joo, Sang Hoon................................... 1148 (F3, Tue) Joo, Sungjung.................................... 2044 (Q5, Wed) Joo, Yong....................399 (A5, Wed), 495 (A6, Tue) Jordan-Sweet, Jean.............................. 1612 (P1, Tue) Jorge Sobrido, Ana Belen................ 1566 (M1, Wed) Jossen, Andreas...................................265 (A5, Mon) Jost, Christopher.................................1817 (P7, Wed) Jost, Kristy............................................ 213 (A3, Thu) Jouanneau, Séverine.......................... 322 (A5, Wed), ............................................................. 331 (A5, Wed) Jouneau, Pierre-Henri........................1756 (P6, Wed) Jow, T........................307 (A5, Wed), 528 (A7, Wed), .............................................................. 541 (A7, Thu) Ju, Wenbo............... 1469 (H6, Wed), 2254 (Z1, Tue) Juárez, Alejandro............................... 2174 (R1, Wed) Juarez-Gomez, Jorge.......643 (B1, Tue), 646 (B1, Tue), .........................................647 (B1, Tue), 648 (B1, Tue) Juhel, Marc............1807 (P7, Wed), 2091 (Q7, Mon) Jukk, Kristel........................................ 1077 (F3, Tue) Julien, Christian................................... 462 (A5, Thu) Jun, Mun-Suk...................................... 1169 (F3, Tue) Junesand, Carl........ 1813 (P7, Wed), 2150 (Q9, Tue) Jung, Hang Chul................................. 351 (A5, Wed) Jung, Hun-Gi....................................... 130 (A2, Wed) Jung, Jaehan......................................2137 (Q9, Mon) Jung, Ju Hae........................................ 1151 (F3, Tue) Jung, Keeyoung................................. 622 (A9, Wed), ...................................625 (A9, Wed), 626 (A9, Wed) Jung, Namgee...................................... 1149 (F3, Tue) Jung, Seonghoon.................................2266 (Z1, Tue) Jung, Soon-Won................................ 2120 (Q7, Wed) Jung, Sung-Kyun................................251 (A5, Mon) Jung, Taik Min........................................48 (A1, Tue) Jung, Yongjo........................................ 436 (A5, Wed) Jung, Young Hwa..........87 (A2, Tue), 154 (A2, Thu) Jung, Young-Hoon.............................. 1152 (F3, Tue) Jung, Yun-Chae................................... 391 (A5, Wed) Junji, Sasano....................................... 2073 (Q6, Tue) Jurchescu, Oana................................. 1894 (Q1, Tue) Jurkowska, Barbara............................. 325 (A5, Wed) Juskenas, Remigijus......1127 (F3, Tue), 1176 (F3, Tue) Jyothi, I.............................................. 1774 (P7, Mon)

J

Jackson, Gregory........990 (F2, Tue), 1107 (F3, Tue) Jackson, Howard...............................2138 (Q9, Mon) Jackson, Kathryn................................2295 (Z2, Wed) Jacob, Timo.......................................... 851 (D1, Thu) Jacobsen, Torben................................... 981 (F2, Tue) Jacques, Emmanuel........................1904 (Q10, Mon) Jadhav, Harsharaj S............................ 123 (A2, Wed), ............................................................. 394 (A5, Wed) Jagadish, Chennupati........................2138 (Q9, Mon) Jäger, Rutha.......... 1504 (H7, Mon), 1508 (H7, Tue), ..................................2241 (Z1, Tue), 2242 (Z1, Tue) Jagminiene, Aldona............................. 879 (D2, Tue), ....................................881 (D2, Tue), 1175 (F3, Tue) Jaimes, Raciel.......................................934 (E2, Wed) Jain, Gaurav.......................................... 516 (A7, Tue) Jain, Swati......................................... 1543 (H8, Wed) Meeting Program l October 5-9, 2014 l Cancun, Mexico

209


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

K

Kang, Sung Yong................................ 1677 (P4, Tue) Kang, Sungmin..................................1006 (F2, Wed) Kang, Yen-Wen................................2129 (Q8, Mon), ..............................2133 (Q8, Mon), 2134 (Q8, Mon) Kang, Yijin.............. 1017 (F3, Sun), 1513 (H7, Tue) Kang, YuSeon......................................2267 (Z1, Tue) Kang, Yuu..............................................65 (A2, Mon) Kannan, Aravindaraj G....................... 126 (A2, Wed) Kano, Kenji............1322 (G1, Wed), 1353 (H1, Tue) Kapadia, Rehan................................. 2029 (Q4, Wed) Kaplan, Wlodek................................ 1997 (Q3, Wed) Kaplar, Robert...................................1966 (Q3, Mon) Karan, Kunal......................................1244 (F3, Wed) Karaseva, Elena.......................................50 (A1, Tue) Kargar, Alireza.................................... 595 (A8, Wed) Kariate, Sudhakaraprasad..................674 (B2, Mon), ........................................................... 1325 (G1, Wed) Karim, Zia..........................................2052 (Q5, Thu) Karimi, Parisa......................................2259 (Z1, Tue) Karimi, Shahram................................. 825 (D1, Wed) Kariuki, Nancy....................................1037 (F3, Sun) Karousis, Nikolaos........................... 1567 (M1, Wed) Karpierz, Ewelina............................... 536 (A7, Wed) Karpov, Vyacheslav.......................... 1464 (H6, Tue), .................................1465 (H6, Tue), 1466 (H6, Tue) Kasatkin, Piia...................................1504 (H7, Mon), ................................. 1508 (H7, Tue), 2241 (Z1, Tue) Kashima, Kazuhiko......................... 1635 (P3, Mon), ........................................................... 1637 (P3, Mon) Kasim, Muhd...................................... 2095 (Q7, Tue) Kaskel, Stefan..................................... 106 (A2, Wed) Kaspar, Jan........................................... 458 (A5, Thu) Kasper, Erich............1797 (P7, Tue), 1836 (P7, Thu) Kasprzyk, Marta.................................. 536 (A7, Wed) Kasuk, Heili........................................ 1352 (H1, Tue) Kataev, Alexander............................1427 (H6, Mon), ...........................................................1430 (H6, Mon) Katakami, Shinya..................................720 (C1, Tue) Kataria, Himanshu.............................1813 (P7, Wed) Katayama, Yasushi...........................1424 (H6, Mon), ............................................................ 1454 (H6, Tue) Katiyar, Ram S..............4 (A1, Mon), 917 (D3, Tue), .................................918 (D3, Tue), 1571 (M1, Wed) Kato, Akihiro........................................ 619 (A9, Tue) Kato, Hisashi....................................... 405 (A5, Wed) Kato, Kimihiko................................. 1772 (P7, Mon) Kato, Kiyoshi.....................................2054 (Q5, Thu) Kato, Ryuichi..................................... 2007 (Q4, Tue) Kato, Shigenori.................................2086 (Q7, Mon) Kato, Takashi..................................... 1536 (H7, Wed) Kato, Tomohisa.................................1959 (Q3, Mon) Kato, Yoshiaki...................................... 236 (A4, Tue) Kato, Yuichi......................................... 340 (A5, Wed) Katsaounis, Alexandros....................1500 (H7, Mon) Katsuhiko, Ariga.................................486 (A6, Mon) Katuri, Krishna....................................2289 (Z2, Tue) Kaufmann, Rolf.................................1822 (P7, Wed) Kaur, Jatinder....................................2092 (Q7, Mon) Kavakli, Cüneyt.................................. 303 (A5, Wed) Kavanagh, Karen............................... 2096 (Q7, Tue) Kawado, Taiki..................................... 345 (A5, Wed) Kawaguchi, Masayuki......................... 548 (A8, Sun) Kawaguchi, Tomoya........................... 116 (A2, Wed) Kawaharasaki, Satoru......................... 210 (A3, Wed) Kawai, Hiromu.................................... 1739 (P6, Tue) Kawai, Kentaro........2093 (Q7, Mon), 2140 (Q9, Mon) Kawai, Kiyoto..................................... 1150 (F3, Tue) Kawai, Yasufumi...............................1962 (Q3, Mon) Kawai, Yoshie...................................2093 (Q7, Mon) Kawakami, Masaru.............................673 (B2, Mon) Kawakami, Roland............................1819 (P7, Wed) Kawamata, Yuta..................................1840 (P7, Thu) Kawamura, Keiji.................................. 461 (A5, Thu) Kawamura, Ryutaro............................2197 (Z1, Tue) Kawamura, Yoshiumi.......................1338 (H1, Mon) Kawamura, Yuichi............................ 1638 (P3, Mon)

Kawasaki, Hideki..................................67 (A2, Mon) Kawase, Motoaki......374 (A5, Wed), 434 (A5, Wed) Kawaura, Hiroyuki.............................. 461 (A5, Thu) Kay, Lawrence................................... 1398 (H2, Tue) KC, Santosh........................................ 311 (A5, Wed) Ke, Jhong-Ciao.................................. 2060 (Q6, Tue) Ke, Jr-Jian.................1877 (P9, Tue), 2153 (Q9, Tue) Ke, Pan....................................................2 (A1, Mon) Kelchner, Kathryn............................... 1608 (P1, Tue) Keleş, Özgül..............270 (A5, Tue), 321 (A5, Wed), ...................................432 (A5, Wed), 433 (A5, Wed) Kelly, James......................................... 875 (D2, Tue) Kelly, Robert........................................751 (C2, Tue), .................................... 757 (C2, Tue), 957 (E3, Mon) Kemp, Kyle........................................1632 (P1, Wed) Kenis, Karine..........1825 (P7, Wed), 1856 (P7, Thu) Kepeniene, Virginija........................... 882 (D2, Tue), ............................................................. 1123 (F3, Tue) Kepler, Keith........................................ 445 (A5, Thu) Kéranguéven, Gwénaëlle.................. 1506 (H7, Tue) Kerbaugh, Michael............................. 1782 (P7, Tue) Kerkhof, Wybe.................................... 1104 (F3, Tue) Kerr, Robert........................................1185 (F3, Wed) Ketpang, Kriangsak............................1291 (F3, Thu) Key, Baris..............................................63 (A2, Mon) Keyn, Martin.................................... 1564 (M1, Wed) Khalaghi, Babak...................................... 1441 (H6, Tue) Khalil, Md Ibrahim.............................. 845 (D1, Thu) Khan, Anisul........................................ 1676 (P4, Tue) Khan, Khalil........................................ 800 (C3, Wed) Khan, Mohammed Zahed Mustafa..2144 (Q9, Mon) Khan, Muhammad................................ 998 (F2, Tue) Khan, Saad.......................................... 419 (A5, Wed) Khater, Marwan......1764 (P7, Mon), 1782 (P7, Tue) Khawaji, Ibrahim..................................683 (B2, Tue) Khosla, Ajit................680 (B2, Mon), 684 (B2, Tue), ......................................690 (B2, Tue), 691 (B2, Tue) Khurana, Geetika............................. 1571 (M1, Wed) Kiatkittikul, Pisit................................. 1166 (F3, Tue) Kibena, Elo........................................1377 (H2, Mon) Kiefer, Arnold......................................1835 (P7, Thu) Kiefer, Boris............ 1309 (F3, Thu), 1514 (H7, Tue) Kieffer, John........................................2230 (Z1, Tue) Kihira, Yuki.......................................... 542 (A7, Thu) Kijima, Takahiro.................................1848 (P7, Thu) Kikkawa, Takamaro........................1906 (Q10, Mon) Kikkawa, Yuki..................................... 1170 (F3, Tue) Kikuchi, Nobuaki................................900 (D3, Mon) Kikuchi, Richard Heihachiro............2087 (Q7, Mon) Kim, Aeran.......................................... 1131 (F3, Tue) Kim, Byeong Tak................................ 889 (D2, Wed) Kim, Byung Kuk.............................. 1919 (Q10, Tue) Kim, Chaerin.......................................1041 (F3, Sun) Kim, Chang-Hyeon............................. 416 (A5, Wed) Kim, Chang-Soo................................. 626 (A9, Wed) Kim, Chulwoo.................................... 2061 (Q6, Tue) Kim, Dae Ho.......................................2239 (Z1, Tue) Kim, Dae Sik.......................................1280 (F3, Thu) Kim, Dae-Gil.......................................2191 (Z1, Tue) Kim, DaeKyoung................................2267 (Z1, Tue) Kim, Dayeong..................................... 1880 (P9, Tue) Kim, DeukJu.............999 (F2, Tue), 2318 (Z3, Wed) Kim, Do Kyung............87 (A2, Tue), 154 (A2, Thu) Kim, Dohyung....... 1328 (G1, Wed), 1667 (P4, Tue) Kim, Dong Ha...................................... 563 (A8, Tue) Kim, Dong-Won..........73 (A2, Tue), 126 (A2, Wed), ...................................391 (A5, Wed), 403 (A5, Wed) Kim, Donghwi.................................... 421 (A5, Wed) Kim, Doohyun........ 1920 (Q10, Tue), 1922 (Q10, Tue) Kim, Goun........................................... 622 (A9, Wed) Kim, Gu-Yeon............287 (A5, Tue), 296 (A5, Wed) Kim, Haegyeom........153 (A2, Thu), 251 (A5, Mon) Kim, Han Sik....................................... 889 (D2, Wed) Kim, Han-Joo............ 164 (A3, Mon), 190 (A3, Tue) Kim, Hansu......................................... 381 (A5, Wed) Kim, Hee Min..................................... 423 (A5, Wed)

Kaabi Falahieh Asl, Sara................... 1399 (H2, Tue) Kabir, M..............................................673 (B2, Mon) Kabir, Sadia.........................................1309 (F3, Thu) Käbitz, Stefan...................................... 356 (A5, Wed) Kaburagi, Tomohiro............................ 338 (A5, Wed) Kada, Morihiro.................................. 1678 (P5, Mon) Kadri, Killani....................................... 655 (B1, Wed) Kageyama, Hiroyuki...............................81 (A2, Tue) Kahn, Harold....................................... 787 (C2, Wed) Kaiser, Andreas..................................1012 (F2, Wed) KajaMoideen, B.................................. 831 (D1, Wed) Kakalis, Nikolaos.............................. 1543 (H8, Wed) Kakinuma, Katsuyoshi...................... 1153 (F3, Tue), ............................................................1202 (F3, Wed) Kale, Akshay..................................... 1940 (Q2, Wed) Kalinin, Sergei...........195 (A3, Wed), 535 (A7, Wed) Kalinovich, Nataliya............................ 517 (A7, Tue) Kalita, Michal.............96 (A2, Wed), 144 (A2, Wed), ................................... 325 (A5, Wed), 546 (A7, Thu) Kalkowski, Gerhard.......................... 1715 (P6, Mon) Kallio, Tanja........................................ 1077 (F3, Tue) Kalnaus, Sergiy............38 (A1, Tue), 369 (A5, Wed) Kaloyeros, Alain................................1626 (P1, Wed) Kalra, Vibha............... 57 (A2, Mon), 202 (A3, Wed) Kalu, Egwu......................................... 824 (D1, Wed), ...................................961 (E3, Mon), 965 (E3, Mon) Kalubarme, Ramchandra S................ 122 (A2, Wed), ............................................................. 123 (A2, Wed) Kalutarage, Lakmal............................. 1614 (P1, Tue) Kamalov, Robert..........1455 (H6, Tue), 1459 (H6, Tue) Kamarthy, Gowri................................ 1673 (P4, Tue) Kamarulzaman, Norlida..................... 285 (A5, Tue), ..................................355 (A5, Wed), 392 (A5, Wed), ............................................................ 2095 (Q7, Tue) Kamata, Yoshiki.................................. 1649 (P3, Tue) Kamiguchi, Kazuhiro........................ 422 (A5, Wed), .................................. 525 (A7, Tue), 1036 (F3, Sun), .................................1247 (F3, Wed), 1274 (F3, Thu) Kamimuta, Yuuichi............................ 1649 (P3, Tue), ............................................................. 1792 (P7, Tue) Kaminski, Daniel................................2260 (Z1, Tue) Kamiya, Katsumasa.........................2086 (Q7, Mon), ........................................................... 2114 (Q7, Wed) Kamiya, Tomihiro................................ 236 (A4, Tue) Kamiyama, Eiji................................. 1636 (P3, Mon) Kanamura, Kiyoshi............................261 (A5, Mon), .................................. 264 (A5, Mon), 411 (A5, Wed) Kanarik, Keren.................................... 1673 (P4, Tue) Kanazawa, Ryotaro............................. 385 (A5, Wed) Kanda, Kohei.......... 1161 (F3, Tue), 1205 (F3, Wed) Kandasamy, Nagarajan....................... 630 (A9, Wed) Kaneko, Shingo.........579 (A8, Tue), 1116 (F3, Tue), ................................. 1129 (F3, Tue), 1215 (F3, Wed) Kaneko, Takuma................................. 1067 (F3, Tue) Kaneko, Yutaka.................................. 897 (D2, Wed), .................................. 898 (D2, Wed), 1685 (P5, Tue) Kang, Byoungwoo............................. 305 (A5, Wed), ...................................435 (A5, Wed), 436 (A5, Wed) Kang, Chan Soon.............................. 2036 (Q5, Wed) Kang, Eun-Hee.................................. 2162 (R1, Wed) Kang, HangKyu..................................2267 (Z1, Tue) Kang, Hongki..................................... 2106 (Q7, Tue) Kang, Jin..............................................166 (A3, Mon) Kang, Kisuk..............117 (A2, Wed), 153 (A2, Thu), ................................... 251 (A5, Mon), 277 (A5, Tue) Kang, Kitaek..................................... 1766 (P7, Mon) Kang, Kun-Young............................... 402 (A5, Wed) Kang, Kweon Ho...............................1495 (H6, Thu) Kang, Min-Sung..... 1659 (P3, Tue), 1660 (P3, Tue), .................................1774 (P7, Mon), 1801 (P7, Tue) Kang, Pilkyu.......................................1749 (P6, Wed) Kang, Sangwoo.................................. 2107 (Q7, Tue) Kang, Seung Jin................................ 2036 (Q5, Wed) Kang, ShinYoung.................................. 93 (A2, Wed) 210

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Kim, Hee-tak..........................................88 (A2, Tue), .................................. 1087 (F3, Tue), 1088 (F3, Tue) Kim, Hoe Chul......... 1684 (P5, Tue), 1698 (P5, Tue) Kim, Hojoong....................................1708 (P5, Wed) Kim, Hongil........................................164 (A3, Mon) KIM, Huikyong...................................219 (A4, Mon) Kim, Hyea........................................... 106 (A2, Wed) Kim, Hyeong U................................... 663 (B1, Wed) Kim, Hyeyoun..................................... 663 (B1, Wed) Kim, Hyo Sang.........426 (A5, Wed), 430 (A5, Wed) Kim, Hyoung June........................... 1919 (Q10, Tue) Kim, Hyoung-Juhn............................ 1078 (F3, Tue), ..................................1149 (F3, Tue), 1151 (F3, Tue), ................................. 1152 (F3, Tue), 1238 (F3, Wed) Kim, Hyoungsub.................................2267 (Z1, Tue) Kim, Hyun-Mi.......1627 (P1, Wed), 1631 (P1, Wed) Kim, Hyunchul.................................... 153 (A2, Thu), .................................. 251 (A5, Mon), 417 (A5, Wed) Kim, Hyung.......................................1426 (H6, Mon) Kim, Hyung Jun.................................. 625 (A9, Wed) Kim, Hyungsub.................................. 117 (A2, Wed), ..................................153 (A2, Thu), 251 (A5, Mon) Kim, Hyunsoo....................................1708 (P5, Wed) Kim, Ick-Jun................ 186 (A3, Tue), 189 (A3, Tue) Kim, Il-Hwan.................................... 1643 (P3, Mon) Kim, Intae.............................................111 (A2, Wed) Kim, Jae............................................... 353 (A5, Wed) Kim, Jae Chul......................................258 (A5, Mon) Kim, Jae Hyun..........377 (A5, Wed), 410 (A5, Wed) Kim, Jae Jeong................................... 1684 (P5, Tue), .................................. 1698 (P5, Tue), 2186 (Z1, Tue) Kim, Jae Jeong..........1133 (F3, Tue), 1156 (F3, Tue) Kim, Jae-Hong.............73 (A2, Tue), 126 (A2, Wed) Kim, Jaecheon.................................... 2061 (Q6, Tue) KIM, Je-Deok..................................... 1169 (F3, Tue) Kim, Jenny..............................................84 (A2, Tue) Kim, Jeong Hoon.............................. 2045 (Q5, Wed) Kim, Jeongsoo..................................... 624 (A9, Wed) Kim, Ji Hye.........................................2177 (Z1, Tue) Kim, JI Man........................................ 417 (A5, Wed) Kim, Ji-hye..........................................2178 (Z1, Tue) Kim, Ji-Tae..........................................2204 (Z1, Tue) Kim, Jin Yong...................................... 623 (A9, Wed) Kim, Jin Young................................... 841 (D1, Thu), ...................................1078 (F3, Tue), 1149 (F3, Tue) Kim, Jong il....................................... 2049 (Q5, Wed) Kim, Jong Kyu.................................... 1874 (P9, Tue) Kim, Jong Sang.....................................708 (C1, Tue) Kim, Jongseon..................................... 624 (A9, Wed) Kim, Jongsoon..................................... 153 (A2, Thu) Kim, Joo Gon.....................................1242 (F3, Wed) Kim, Joo-Hyung...........87 (A2, Tue), 154 (A2, Thu) Kim, Joogon........................................ 361 (A5, Wed) Kim, Ju Yeon.................................... 1919 (Q10, Tue) Kim, Jung Ho....................................2001 (Q4, Mon) Kim, Jung Yun.........................................48 (A1, Tue) Kim, Jung-Hyun.......300 (A5, Wed), 312 (A5, Wed) Kim, Kanghoon.........1133 (F3, Tue), 1156 (F3, Tue) Kim, Ki-Bum.........1627 (P1, Wed), 1631 (P1, Wed) Kim, Kun Joong.................................... 983 (F2, Tue) Kim, Kunsu........................................ 1594 (N1, Tue) Kim, Kwang Hwan............................ 1684 (P5, Tue), ............................................................. 1698 (P5, Tue) Kim, Kwang Man............................... 402 (A5, Wed) Kim, Kyongjun....... 1915 (Q10, Tue), 1926 (Q10, Tue) Kim, Kyu.................................................19 (A1, Tue) Kim, Kyung Mo.................................. 783 (C2, Wed) Kim, Mansu......................................... 1149 (F3, Tue) Kim, Min Joong.................................. 1078 (F3, Tue) Kim, Min-Hyun........346 (A5, Wed), 350 (A5, Wed) Kim, Minjae....................................... 2067 (Q6, Tue) Kim, Minkyu....................................... 436 (A5, Wed) Kim, Miyoung..........277 (A5, Tue), 2036 (Q5, Wed) Kim, Myeongho..................................2186 (Z1, Tue) Kim, Myong-Hwan............................. 1183 (F3, Tue)

Kim, Myung Jun................................ 1684 (P5, Tue), .................................. 1698 (P5, Tue), 2186 (Z1, Tue) Kim, Nam Seon.................................. 315 (A5, Wed) Kim, Nam-In.......................................2203 (Z1, Tue) Kim, Ok-Hee....................................... 1163 (F3, Tue) Kim, Sang Hern.................................. 415 (A5, Wed) Kim, Sang-Hyeon............................... 1645 (P3, Tue) Kim, Sang-Hyuk................................1711 (P5, Wed) Kim, Sang-Pil....................................... 276 (A5, Tue) Kim, Sang-Wan................................... 395 (A5, Wed) Kim, Sang-Yun....................................2191 (Z1, Tue) Kim, Sangcheol................................... 1095 (F3, Tue) Kim, Seon-Kyong.........346 (A5, Wed), 350 (A5, Wed) Kim, Seonghwan...................................636 (B1, Tue) KIM, Sojin............................................ 621 (A9, Tue) Kim, Soo Jin........................................ 1152 (F3, Tue) Kim, Soo Jung..................................... 315 (A5, Wed) Kim, Soo-Hyun..................................1627 (P1, Wed) Kim, Soo-Kil........... 1238 (F3, Wed), 1698 (P5, Tue) Kim, Soojeong.................................... 384 (A5, Wed) Kim, Sun Ung..................................... 366 (A5, Wed) Kim, Sun Woog................................. 2157 (R1, Wed) Kim, Sun-Jae........................................ 454 (A5, Thu) Kim, Sung Hyun................................. 1152 (F3, Tue) Kim, Sung-Dae......1982 (Q3, Tue), 1991 (Q3, Wed) Kim, Sungjin............ 596 (A8, Wed), 2268 (Z1, Tue) Kim, Sunkook.................................... 2106 (Q7, Tue) Kim, Tae ho....................................... 2049 (Q5, Wed) Kim, Tae-yoon.................................... 1072 (F3, Tue) Kim, Tae-Young.................................. 1131 (F3, Tue) Kim, TaeHoon................................... 1641 (P3, Mon) Kim, Taehyeon....................................2266 (Z1, Tue) Kim, TaeHyeong............................... 1641 (P3, Mon) Kim, Taesung........663 (B1, Wed), 1559 (M1, Wed), ................................ 2107 (Q7, Tue), 2313 (Z3, Wed) Kim, Taewhan..................................... 418 (A5, Wed) Kim, Wanki........................................1815 (P7, Wed) Kim, Won-Sik...................................... 278 (A5, Tue) Kim, Yihwan............1779 (P7, Tue), 1853 (P7, Thu) Kim, Yong Seok.................................. 399 (A5, Wed) Kim, Yong-Bin.................................... 128 (A2, Wed) Kim, Yoon-Keun.......346 (A5, Wed), 350 (A5, Wed) Kim, Youn Sang................................. 332 (A5, Wed), ............................1915 (Q10, Tue), 1926 (Q10, Tue), ..................................2183 (Z1, Tue), 2192 (Z1, Tue) Kim, Young jae................................. 2049 (Q5, Wed) Kim, Young Jin.................................... 286 (A5, Tue) Kim, Young-Beom.............................1008 (F2, Wed) Kim, Young-Jun.................................. 381 (A5, Wed) Kim, Young-Nam................................ 350 (A5, Wed) Kim, Youngjae.................................. 2048 (Q5, Wed) Kim, Youngkwang.............................. 1156 (F3, Tue) Kim, Youngwoon.......1982 (Q3, Tue), 1991 (Q3, Wed) Kim, Younsu..................................... 1562 (M1, Wed) Kim, Yu Seung..................................1198 (F3, Wed), .................................1264 (F3, Wed), 1280 (F3, Thu) Kim, Yunok............... 417 (A5, Wed), 464 (A5, Thu) Kimble, Michael................................ 962 (E3, Mon), ................................. 963 (E3, Mon), 1494 (H6, Thu) Kimijima, Ken’ichi........................... 1537 (H7, Wed) Kimizuka, Ryoichi.............................. 1694 (P5, Tue) Kimoto, Tsunenobu...........................1959 (Q3, Mon) Kimura, Hiroshi................................1959 (Q3, Mon) Kimura, Kenji.................................... 2025 (Q4, Wed) Kimura, Mutsumi............................1905 (Q10, Mon) Kimura, Yasuharu............................... 304 (A5, Wed) Kimura, Yasuo......677 (B2, Mon), 1911 (Q10, Mon) Kinoshita, Masaharu......................... 2043 (Q5, Wed) Kinoshita, Masahiro........................... 1000 (F2, Tue), ............................................................. 1002 (F2, Tue) Kinoshita, Shinji.................................1195 (F3, Wed) Kinumoto, Taro.................................. 1137 (F3, Tue), ..................................2208 (Z1, Tue), 2209 (Z1, Tue) Kirby, Brent.......................................... 601 (A9, Tue) Kirchgeorg, Robin.............................. 183 (A3, Tue), ................................ 400 (A5, Wed), 1376 (H2, Mon)

Kiricenko, Sergej..................................685 (B2, Tue) Kirkengen, Martin.............................. 359 (A5, Wed), ..................................388 (A5, Wed), 393 (A5, Wed), ............................................................. 428 (A5, Wed) Kirnstoetter, Stefan............................. 1652 (P3, Tue) Kirsch, Sebastian............................... 1541 (H8, Wed) Kishi, Hirofumi................................... 1079 (F3, Tue) Kishimoto, Masashi........................... 339 (A5, Wed), .......................................982 (F2, Tue), 984 (F2, Tue) Kiss, Istvan....................................... 1539 (H8, Wed), .............................. 1547 (H8, Wed), 1550 (H8, Wed) Kissinger, Gudrun............................ 1639 (P3, Mon), ........................................................... 1642 (P3, Mon) Kita, Koji...........................................2087 (Q7, Mon) Kitabayashi, Hiroto...............................61 (A2, Mon) Kitada, Atsushi.....................................65 (A2, Mon), .................................. 834 (D1, Wed), 839 (D1, Thu), ................................1369 (H1, Tue), 1417 (H6, Sun), .............................. 1555 (H8, Wed), 1557 (H8, Wed) Kitahara, Tatsumi............................... 380 (A5, Wed), .................................1224 (F3, Wed), 2244 (Z1, Tue) Kitajima, Daishi......................................30 (A1, Tue) Kitakami, Osamu................................900 (D3, Mon) Kitamura, Masahiko.......................... 1154 (F3, Tue), ............................................................1200 (F3, Wed) Kitamura, Masahito.......................... 2043 (Q5, Wed) Kitamura, Naoto.......337 (A5, Wed), 357 (A5, Wed), .................................. 463 (A5, Thu), 2198 (Z1, Tue), .................................2199 (Z1, Tue), 2200 (Z1, Tue), ..................................2205 (Z1, Tue), 2206 (Z1, Tue) Kitamura, Takashi...............................2236 (Z1, Tue) Kitano, Ritsuko.................................... 472 (A5, Thu) Kitayama, Sawaka.............................. 1137 (F3, Tue) Kitayaporn, Sathana............................ 875 (D2, Tue), ............................................................1705 (P5, Wed) Kittilsland, Gjermund......................... 1744 (P6, Tue) Kittler, Martin.....................................1663 (P3, Wed) Kiyobayashi, Tetsu.............................. 522 (A7, Tue), ..................................2189 (Z1, Tue), 2240 (Z1, Tue) Kjeang, Erik................27 (A1, Tue), 1030 (F3, Sun), ................................. 1091 (F3, Tue), 1094 (F3, Tue), ...............................1189 (F3, Wed), 1230 (F3, Wed), ...............................1231 (F3, Wed), 1232 (F3, Wed), ................................1245 (F3, Wed), 1297 (F3, Thu), ..................................1298 (F3, Thu), 1299 (F3, Thu) Kjelstrup, Signe................................... 1086 (F3, Tue) Kjos, Ole............................................. 1439 (H6, Tue) Kladko, V............................................. 1653 (P3, Tue) Klages, Claus-Peter............................. 1731 (P6, Tue) Klassen, Thomas.................................. 577 (A8, Tue) Klausner, James................................ 2273 (Z2, Mon) Klein, P. B........................................... 1972 (Q3, Tue) Klesse, Wolfgang................................ 1651 (P3, Tue) Klette, Hallgeir.................................... 428 (A5, Wed) Klie, Robert.......................................... 288 (A5, Tue) Klimkowicz, Alicja............................ 1524 (H7, Tue) Klingner, Holger................................. 1729 (P6, Tue) Klomjit, Pitichon...................................710 (C1, Tue) Knauss, Daniel...................................1259 (F3, Wed) Knaut, Martin...................................... 1616 (P1, Tue) Knechtel, Roy........... 1729 (P6, Tue), 1742 (P6, Tue) Knights, Shanna...... 1091 (F3, Tue), 1094 (F3, Tue), ................................1189 (F3, Wed), 1251 (F3, Wed) Knöchel, Reinhard............................... 907 (D3, Tue) Knupp, S.............................................. 1611 (P1, Tue) Ko, Dae Hong........ 1677 (P4, Tue), 2045 (Q5, Wed) Ko, Dong Seok........................................48 (A1, Tue) Ko, Euna...................2177 (Z1, Tue), 2178 (Z1, Tue) Ko, Fu-Hsiang...................................2128 (Q8, Mon) Ko, Hyunhyub.................................... 2014 (Q4, Tue) Ko, Jaejung.......................................... 593 (A8, Wed) Ko, Jieun..............................................2183 (Z1, Tue) Ko, Min Jae......................................... 592 (A8, Wed) Ko, Seung............................................ 1054 (F3, Tue) Ko, Yun-Hyuk.......1927 (Q10, Tue), 2065 (Q6, Tue) Kobayashi, Hironori...............................81 (A2, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

211


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Kobayashi, Kenji................................ 1090 (F3, Tue) Kobayashi, Kiyoteru......................... 2046 (Q5, Wed) Kobayashi, Masaharu...................... 1723 (P6, Mon), ............................................................. 1790 (P7, Tue) Kobayashi, Seitaro.............................1491 (H6, Thu) Kobayashi, Syunsuke......................... 1657 (P3, Tue) Kobayashi, Takashi............................. 1158 (F3, Tue) Kobayashi, Takeshi........ 405 (A5, Wed), 439 (A5, Thu) Kobayashi, Tetsuro.............................267 (A5, Mon) Kobayashi, Yo........... 405 (A5, Wed), 439 (A5, Thu) Kocha, Shyam..........1016 (F3, Sun), 1035 (F3, Sun) Kochergin, Vladimir........................ 1601 (P1, Mon), ............................................................. 1872 (P8, Tue) Kochetova, Svetlana.......................... 1448 (H6, Tue) Kochuveedu, Saji................................. 563 (A8, Tue) Koda, Ryo........................................... 1369 (H1, Tue) Kodama, Kensaku............................. 1050 (F3, Mon) Kodama, Mika.................................... 1153 (F3, Tue) Kodenkandath, Thomas....................... 616 (A9, Tue) Koehler, Andrew................................ 1980 (Q3, Tue) Koeman, Menno................................1233 (F3, Wed) Koeppel, Brian..................................... 601 (A9, Tue) Koerner, Roman.......1797 (P7, Tue), 1836 (P7, Thu) Koestner, Roland.................................1289 (F3, Thu) Koga, Hideyuki.........293 (A5, Wed), 306 (A5, Wed) Koga, Kazunori.................................. 1585 (N1, Tue) Koh, Travis......................................... 1589 (N1, Tue) Koh, Wonsang..................................... 624 (A9, Wed) Kohl, Paul......................................... 1047 (F3, Mon), ................................. 1692 (P5, Tue), 1712 (P5, Wed) Kohli, Punit........................................ 2076 (Q6, Tue) Kohno, Yuji...............619 (A9, Tue), 1146 (F3, Tue), ................................. 1147 (F3, Tue), 1273 (F3, Thu), ................................ 1275 (F3, Thu), 1461 (H6, Tue), ................................1474 (H6, Wed), 1520 (H7, Tue) Koide, Junko..................................... 2157 (R1, Wed) Koido, Tetsuya...............8 (A1, Mon), 239 (A4, Tue) Koike, Masahiro.................................. 1649 (P3, Tue) Kojima, Akira...................................... 1800 (P7, Tue) Kokoh, Kouakou................................. 1122 (F3, Tue) Kolla, Praveen.......... 160 (A3, Mon), 407 (A5, Wed) Kolodzey, James..........1805 (P7, Tue), 1824 (P7, Wed) Kolodziej, Joanna................................ 1091 (F3, Tue) Kolosnitsyn, Vladimir..........49 (A1, Tue), 50 (A1, Tue) Komaba, Shinichi..................................1 (A1, Mon), ......................................94 (A2, Wed), 151 (A2, Thu) Komachi, Jun...................................... 1657 (P3, Tue) Komadina, Jason.................................2232 (Z1, Tue) Komatsu, Daiki.................................... 620 (A9, Tue) Komine, Shigeki................................. 304 (A5, Wed) Komini Babu, Siddharth.....................1305 (F3, Thu) Komiyama, Ryohei........................... 2156 (R1, Wed) Kon, Hitoe..........................................1754 (P6, Wed) Konczak, Christoph............................ 924 (D3, Wed) Kondo, Fumiya.................................... 605 (A9, Tue) Kondo, Katsuya.................................1491 (H6, Thu) Kondo, Kazuo.................................. 1679 (P5, Mon), ................................. 1685 (P5, Tue), 1695 (P5, Tue), ................................. 1697 (P5, Tue), 1699 (P5, Wed) Kondo, Keigo...................................... 1795 (P7, Tue) Kondo, Ryota...........2189 (Z1, Tue), 2240 (Z1, Tue) Kondo, Takayuki.................................1022 (F3, Sun) Kondo, Toshihiro.............................. 1515 (H7, Tue), ..................................2217 (Z1, Tue), 2218 (Z1, Tue) Kondo, Yasuhito..................................267 (A5, Mon) Kondrotas, Rokas......1123 (F3, Tue), 1175 (F3, Tue) Konduru, Vinaykumar.......................1027 (F3, Sun), .............................................................1028 (F3, Sun) Kong, Fantai........................................ 311 (A5, Wed) Kong, Ji Hyun.........................................48 (A1, Tue) Kong, Nak-won................................... 1072 (F3, Tue) Kong, Rui............................................863 (D2, Mon) Kongi, Nadezda.................................. 1077 (F3, Tue) Kongkanand, Anusorn......................1249 (F3, Wed), ............................................................. 1619 (P1, Tue) Konink, Jonne....................................1233 (F3, Wed)

Konishi, Hirokazu..............................1490 (H6, Thu) Konno, Michiko..................................2222 (Z1, Tue) Kontturi, Kyösti.................................. 1077 (F3, Tue) Konwar, Dhrubajit............................... 615 (A9, Tue) Koo, Bon Seok..........115 (A2, Wed), 363 (A5, Wed) Koo, Jae Bon..................................... 2120 (Q7, Wed) Koodali, Ranjit...........407 (A5, Wed), 569 (A8, Tue) Koper, Ger........................................... 1114 (F3, Tue) Koretaka, Naoto..................................2234 (Z1, Tue) Kormilitsyn, Mikhail......................... 1467 (H6, Tue) Korzeniewski, Carol........................... 1096 (F3, Tue) Kosemura, Daisuke.......................... 1765 (P7, Mon), ..................................1792 (P7, Tue), 1848 (P7, Thu) Koshida, Nobuyoshi.......................... 1800 (P7, Tue), ............................................................2307 (Z3, Wed) Koshikawa, Hiroshi.1167 (F3, Tue), 1283 (F3, Thu) Koshitani, Naoki...................................67 (A2, Mon) Koshizaki, Naoto.............................. 2023 (Q4, Wed) Kostecki, Konrad..........1797 (P7, Tue), 1836 (P7, Thu) Kostecki, Robert.................................222 (A4, Mon) Kot, Dawid............1639 (P3, Mon), 1642 (P3, Mon) Kotaka, Toshikazu............................ 1045 (F3, Mon), .............................................................1288 (F3, Thu) Kotake, Shota......................................2244 (Z1, Tue) Kotani, Koji.....................................1906 (Q10, Mon) Kötz, Ruediger.................................... 1073 (F3, Tue) Kou, Rai..............................................1838 (P7, Thu) Kout, Wiebrand..................................1233 (F3, Wed) Kouvetakis, John.................................1835 (P7, Thu) Kowalewska, Barbara....................... 1327 (G1, Wed) Kowalik, Remigiusz........................... 838 (D1, Thu), .............................................................2181 (Z1, Tue) Kowalsky, Wolfgang........................... 1607 (P1, Tue) Koyama, Akira.......1369 (H1, Tue), 1557 (H8, Wed) Koyama, Jun.......................................2054 (Q5, Thu) Koyama, Masato................................2055 (Q5, Thu) Koyama, Yukinori...............................266 (A5, Mon) Kozak, Dmitry.......................................686 (B2, Tue) Kozen, Alexander...... 231 (A4, Tue), 482 (A6, Mon) Kozlova, Jekaterina..........................1377 (H2, Mon), ...........................................................1503 (H7, Mon) Krachkovskiy, Sergey......................... 523 (A7, Tue), ............................................................. 537 (A7, Wed) Kraemer, Tomas.................................. 1776 (P7, Tue) Krause, Charlie..................................... 513 (A7, Tue) Krause, Larry....................................... 275 (A5, Tue) Krauss, Tillmann................................ 1895 (Q1, Tue) Kreidler, Eric....................................... 114 (A2, Wed) Kreiliger, Thomas..............................1822 (P7, Wed) Kreller, Cortney................................... 654 (B1, Wed) Kremenetsky, Vyacheslav................. 1457 (H6, Tue), ............................................................ 1458 (H6, Tue) Krishnan, Mahadevaiyer.................... 876 (D2, Tue), ........................................................... 1723 (P6, Mon) Krishnan, Sadagopan.........................674 (B2, Mon), ............................. 1325 (G1, Wed), 1326 (G1, Wed), ............................................................ 1348 (H1, Tue) Krongelb, Sol.............. 872 (D2, Tue), 873 (D2, Tue) Kropf, Jeremy......................................1037 (F3, Sun) Krossing, Ingo.........1346 (H1, Tue), 1462 (H6, Tue) Krozer, Viktor...................................... 1776 (P7, Tue) Krüger, Andreas.................................. 1776 (P7, Tue) Krüger, Olaf......................................... 1776 (P7, Tue) Kruppe, Rahel.....................................906 (D3, Mon) Kshirsagar, Aditya.............................. 2019 (Q4, Tue) Ku, Jun-Hwan..................................... 354 (A5, Wed) Kuang, Y................ 2071 (Q6, Tue), 2146 (Q9, Mon) Kub, Fritz........................................... 1980 (Q3, Tue) Kubal, Joseph......................................486 (A6, Mon) Kubicek, Stefan...................................1855 (P7, Thu) Kubobuchi, Kei..................................1036 (F3, Sun), ..................................1272 (F3, Thu), 1274 (F3, Thu) Kubota, Jun.......................................... 548 (A8, Sun) Kubota, Kei................... 1 (A1, Mon), 151 (A2, Thu) Kubota, Keigo........1470 (H6, Wed), 1443 (H6, Tue) Kubota, Shotaro................................... 524 (A7, Tue)

Kudejova, Petra...................................265 (A5, Mon) Kudo, Takashi..................................... 405 (A5, Wed) Kudo, Yoshiaki.................................. 2157 (R1, Wed) Kudo, Yoshihiro....................................67 (A2, Mon) Kudoh, Yuji.......................................1962 (Q3, Mon) Kudryashov, Dmitriy......................... 1466 (H6, Tue) Kuentzler, Matthew..............................774 (C2, Tue) Kuete Saa, Duclair............................. 1590 (N1, Tue) Kuhn, Luise........................................... 981 (F2, Tue) Kühnel, Ruben-Simon.......................169 (A3, Mon), ............................................................. 534 (A7, Wed) Kukreja, Ratandeep...........................1249 (F3, Wed), ..................................1289 (F3, Thu), 1619 (P1, Tue) Kulesza, Pawel...........586 (A8, Wed), 1337 (H1, Mon), ............................... 1390 (H2, Tue), 1501 (H7, Mon) Kulkarni, Atul...................................... 663 (B1, Wed) Kulse, Philipp...................................... 1776 (P7, Tue) Kumagai, Naoki................................1959 (Q3, Mon) Kumar, Arun........................................ 133 (A2, Wed) Kumar, Ashok...................................... 918 (D3, Tue) Kumar, Kitu...................................... 1562 (M1, Wed) Kumari, Shalini.................................... 918 (D3, Tue) Kumatani, Akichika............................261 (A5, Mon) Kumazaki, Yusuke.............................2311 (Z3, Wed) Kumbur, Emin...........203 (A3, Wed), 606 (A9, Tue), ................................ 629 (A9, Wed), 1219 (F3, Wed), .............................................................2251 (Z1, Tue) Kumta, Prashant.................................. 200 (A3, Wed) Kunimoto, Masahiro.......................... 894 (D2, Wed), ............................................................. 896 (D2, Wed) Kunin, Sergey....................................1964 (Q3, Mon) Kunz, Ulrich........................................ 1115 (F3, Tue) Kunze, Julia.........................................265 (A5, Mon) Kuo, Xiaolu....................................... 1721 (P6, Mon) Kuo, Yue.........................................1930 (Q10, Wed), ................................2056 (Q5, Thu), 2161 (R1, Wed) Kurashima, Yuichi.......1748 (P6, Wed), 1649 (P3, Tue) Kuratani, Kentaro................................. 522 (A7, Tue) Kure-Chu, Song-Zhu........................... 853 (D1, Thu) Kurig, Heisi.......................................1504 (H7, Mon) Kurihara, Yuya.................................... 1157 (F3, Tue) Kuriyama, Nariaki..................................8 (A1, Mon) Kuriyama, Ryo..................................2084 (Q7, Mon) Kuroda, Seiichi...................................1196 (F3, Wed) Kuroiwa, Shigeki................................. 884 (D2, Tue) Kuroki, Hidenori...........1036 (F3, Sun), 1295 (F3, Thu) Kuroki, Shin-Ichiro.........................1906 (Q10, Mon) Kurosaki, Ken................................... 1861 (P8, Mon) Kurosawa, Etsuo................................. 1649 (P3, Tue) Kurosawa, Masashi.......................... 1772 (P7, Mon), .............................................................1834 (P7, Thu) Kurtanidze, Rusudan......................... 1364 (H1, Tue) Kurz, Volker......................................2125 (Q8, Mon) Kusai, Haruka.....................................2055 (Q5, Thu) Kushima, Akihiro....................................8 (A1, Mon) Kusoglu, Ahmet.................................. 1095 (F3, Tue) Kusumi, Nobuhiro..................................8 (A1, Mon) Kutti, Sander......................................2312 (Z3, Wed) Kutyła, Dawid...................................... 838 (D1, Thu) Küünal, Siim......................................2312 (Z3, Wed) Kuwabata, Susumu............................163 (A3, Mon), ...............................1447 (H6, Tue), 1477 (H6, Wed), ............................................................1487 (H6, Thu) Kuwata, Hiroko.........246 (A4, Wed), 247 (A4, Wed) Kuze, Satoru.......................................... 94 (A2, Wed) Kuzmina, Elena............... 49 (A1, Tue), 50 (A1, Tue) Kuznetsov, Oleksandr........................ 1363 (H1, Tue) Kuznetsov, Sergey.......1457 (H6, Tue), 1458 (H6, Tue) Kvalheim, Eirin.................................. 1441 (H6, Tue) Kvaratskhelia, Elene.......................... 1364 (H1, Tue) Kvaratskhelia, Ramaz........................ 1364 (H1, Tue) Kwade, Arno............135 (A2, Wed), 328 (A5, Wed), ..................................341 (A5, Wed), 372 (A5, Wed), .............................................................. 440 (A5, Thu) Kwak, Won Jin.................................... 130 (A2, Wed) Kwon, Daejung..................................2294 (Z2, Wed)

212

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Kwon, Deok-Hwang......................... 2036 (Q5, Wed) Kwon, Donghoon......662 (B1, Wed), 666 (B1, Wed) Kwon, Doowon..................................1749 (P6, Wed) Kwon, Hyuk-Jun................................ 2106 (Q7, Tue) Kwon, Hyukho.................................... 1880 (P9, Tue) Kwon, HyukSang................................ 316 (A5, Wed) Kwon, Hyunah.................................... 1874 (P9, Tue) Kwon, Jang-Yeon...............................1627 (P1, Wed) Kwon, Kyoon....................................... 621 (A9, Tue) Kwon, Oh Joong................................ 1133 (F3, Tue), .................................. 1156 (F3, Tue), 2186 (Z1, Tue) Kwon, Osung.......... 361 (A5, Wed), 1242 (F3, Wed) Kwon, Seung....................................... 353 (A5, Wed) Kwon, Soon Yong.............................. 1982 (Q3, Tue)

Lauwaert, Johan................................. 1647 (P3, Tue), .................................. 1656 (P3, Tue), 1658 (P3, Tue) Lavacchi, Alessandro........................1374 (H2, Mon) Laven, Johannes....... 1652 (P3, Tue), 1654 (P3, Tue) Laverde Cataño, Dionicio.....................748 (C2, Tue) Lavina, Sandra......................................56 (A2, Mon) Law, Jia Yan........................................701 (C1, Mon) Law, Mark.........................................2142 (Q9, Mon) Lawder, Matthew................................ 632 (A9, Wed) Lawrence, Johnathan.........................1632 (P1, Wed) Le, Dinh Ba.......................................... 275 (A5, Tue) Le, Hang T. T....................................... 123 (A2, Wed) Le, Phung............................................ 177 (A3, Tue), ...................................538 (A7, Wed), 1142 (F3, Tue) Le, Thanh-Hai.....................................2177 (Z1, Tue) Le, Xuan Tuan..................................... 1741 (P6, Tue) Le Bideau, Jean........208 (A3, Wed), 1418 (H6, Sun) Le Comte, Annaïg...............................157 (A3, Mon) Le Cras, Frédéric.................................224 (A4, Mon) Le Thanh, Vinh................................... 1794 (P7, Tue) Leal Cruz, Ana.................................. 2174 (R1, Wed) Lebrini, Mounim.................................700 (C1, Mon) Leconte, Yann...................................... 331 (A5, Wed) Lecras, Frédérique............................... 852 (D1, Thu) Leddy, Johna..........1350 (H1, Tue), 1526 (H7, Wed) Ledesma-García, Janet...................... 816 (D1, Wed), ..................................823 (D1, Wed), 1102 (F3, Tue), ................................ 1138 (F3, Tue), 1197 (F3, Wed), ...............................1213 (F3, Wed), 1237 (F3, Wed), ............................. 1316 (G1, Wed), 1317 (G1, Wed), ...............................1519 (H7, Tue), 1947 (Q2, Wed), ................................2180 (Z1, Tue), 2314 (Z3, Wed), ............................................................2315 (Z3, Wed) Lee, Anna................. 1684 (P5, Tue), 1698 (P5, Tue) Lee, Bongmook..................................2053 (Q5, Thu) Lee, Buyngju.......................................251 (A5, Mon) Lee, Byung-Seok......... 1152 (F3, Tue), 1238 (F3, Wed) Lee, Byungchan................................ 2044 (Q5, Wed) Lee, Chan Kyu.................................... 121 (A2, Wed) Lee, Chan Min....................................1292 (F3, Thu) Lee, Chang Hwa................................1495 (H6, Thu) Lee, Changgu................................... 1559 (M1, Wed) Lee, Changhui...........622 (A9, Wed), 625 (A9, Wed) Lee, Che-Yen.....................................2130 (Q8, Mon) Lee, Choong-Gon...................................47 (A1, Tue) Lee, Choonghyun..............................2090 (Q7, Mon) Lee, Do-Joong........1627 (P1, Wed), 1631 (P1, Wed) Lee, Dong............................................2193 (Z1, Tue) Lee, Dong Ha......................................1291 (F3, Thu) Lee, Dong hyeok.............................1935 (Q10, Wed) Lee, Dong Jin..........................................88 (A2, Tue) Lee, Dong-Chan.................................. 106 (A2, Wed) Lee, Dongkyu........................................636 (B1, Tue) Lee, DongMyun................................ 1641 (P3, Mon) Lee, Dosun..........................................2191 (Z1, Tue) Lee, Du-Yeong...................................2059 (Q5, Thu) Lee, Duckhyung.................................1749 (P6, Wed) Lee, Eung-Ju....................................... 423 (A5, Wed) Lee, Eungkyu......1915 (Q10, Tue), 1926 (Q10, Tue) Lee, Eunseok........................................ 280 (A5, Tue) Lee, Gon-Sub.................................... 1643 (P3, Mon) Lee, Heung......................................... 1350 (H1, Tue) Lee, Hochan....................................... 2014 (Q4, Tue) Lee, Hoogil............... 415 (A5, Wed), 2231 (Z1, Tue) Lee, Hunhyeong...................................978 (F2, Mon) Lee, Huym-Wook................................970 (F2, Mon) Lee, Hyejeong..................................... 593 (A8, Wed) Lee, Hyejin.......................................... 417 (A5, Wed) Lee, Hyo-Jong....................................1711 (P5, Wed) Lee, Hyoung-Rae............................. 1927 (Q10, Tue) Lee, Hyungkeun.................................. 624 (A9, Wed) Lee, Hyunjoon..................................... 1133 (F3, Tue) Lee, In Geun........................................ 1677 (P4, Tue) Lee, Jae-Joon........... 2061 (Q6, Tue), 2243 (Z1, Tue) Lee, Jaehong........................................ 1880 (P9, Tue) Lee, Jaewoo......................................... 381 (A5, Wed)

Lee, Je-Nam........................................ 109 (A2, Wed) Lee, Jeong Hoon...................................692 (B2, Tue) Lee, Jimin.......................................... 2048 (Q5, Wed) Lee, Jinhwan....................................... 1054 (F3, Tue) Lee, Jinhyuk........................................249 (A5, Mon) Lee, Jong-Joo...................................... 128 (A2, Wed) Lee, Jong-Min...................................... 193 (A3, Tue) Lee, Jong-Won...................................... 998 (F2, Tue) Lee, Jongmin..................................... 1045 (F3, Mon) Lee, Joo............................................... 817 (D1, Wed) Lee, Joo Hee........................................ 1677 (P4, Tue) Lee, Joonyeob..................................... 624 (A9, Wed) Lee, Ju Hyeok..................................... 622 (A9, Wed) Lee, Jung............................................. 106 (A2, Wed) Lee, Jung-Joong.................................. 1667 (P4, Tue) Lee, Junwoo..........................................692 (B2, Tue) Lee, Jyh-Fu........................................... 155 (A2, Thu) Lee, Kang Taek...........976 (F2, Mon), 991 (F2, Tue) Lee, Kang Uk......................................2186 (Z1, Tue) Lee, Kangmin..................................... 2075 (Q6, Tue) Lee, Ki Bong.......................................1291 (F3, Thu) Lee, Kilho........................................... 1357 (H1, Tue) Lee, Kim.....................283 (A5, Tue), 349 (A5, Wed) Lee, Kuan-Wei................................... 2060 (Q6, Tue) Lee, Kwan-Soo...................................1280 (F3, Thu) Lee, Kwan-Young..............................1238 (F3, Wed) Lee, Kwang Hong............................... 1730 (P6, Tue) Lee, Kyu Hwan................................... 817 (D1, Wed) Lee, Kyumin..........2049 (Q5, Wed), 2117 (Q7, Wed) Lee, Lee...................................................88 (A2, Tue) Lee, Min Hyung................................ 2030 (Q4, Wed) Lee, Min Seon..................................... 1677 (P4, Tue) Lee, Min-Ho........................................ 663 (B1, Wed) Lee, Nam-Hee...................................... 464 (A5, Thu) Lee, Peter...................229 (A4, Mon), 467 (A5, Thu) Lee, Sang Bok.................................... 107 (A2, Wed), .................................482 (A6, Mon), 484 (A6, Mon), ................................ 498 (A6, Tue), 1336 (H1, Mon), .............................................................2187 (Z1, Tue) Lee, Sang C............. 361 (A5, Wed), 1242 (F3, Wed) Lee, Sang Seok.................................. 2120 (Q7, Wed) Lee, Sang-Min..................................... 391 (A5, Wed) Lee, Sang-Seok................................. 2156 (R1, Wed) Lee, SangCheol...................................1291 (F3, Thu) Lee, Sangho......................................... 399 (A5, Wed) Lee, Sangho.......................................... 495 (A6, Tue) Lee, Seok Woo.....................................970 (F2, Mon) Lee, Seongsu..............117 (A2, Wed), 153 (A2, Thu) Lee, Seung Hee................................... 1874 (P9, Tue) Lee, Seung Moo.................................. 1667 (P4, Tue) Lee, Seung-Bok.................................... 998 (F2, Tue) Lee, Seung-Eun..................................2058 (Q5, Thu) Lee, Seung-Yong.................................. 277 (A5, Tue) Lee, Seungok....................................... 624 (A9, Wed) Lee, Sewook.........................................978 (F2, Mon) Lee, Shin Buhm................................ 2036 (Q5, Wed) Lee, Si-Chen........................................ 1875 (P9, Tue) Lee, Su Jae........................................ 1918 (Q10, Tue) Lee, T. -H............................................1753 (P6, Wed) Lee, Tae-Hee.......................................2204 (Z1, Tue) Lee, Taejoo.......................................... 415 (A5, Wed) Lee, Taeyoon....................................... 1880 (P9, Tue) Lee, Ui-Hyoung.................................1711 (P5, Wed) Lee, Vincent........................................1285 (F3, Thu) Lee, Wonjae......................................... 666 (B1, Wed) Lee, Wontae......................................... 418 (A5, Wed) Lee, Ye-Ji................. 1659 (P3, Tue), 1660 (P3, Tue), .................................1774 (P7, Mon), 1801 (P7, Tue) Lee, Ying-Hui....................................... 188 (A3, Tue) Lee, Yong Min.................................... 415 (A5, Wed), .................................. 416 (A5, Wed), 2231 (Z1, Tue) Lee, Yong-Gun.................................... 109 (A2, Wed) Lee, YongHyun................................. 1641 (P3, Mon) Lee, Yoo Lee......................................1495 (H6, Thu) Lee, Yoon Ho................................... 1598 (P1, Mon), ............................... 2309 (Z3, Wed), 2321 (Z3, Wed)

L

L’abbe, Caroline..................................1855 (P7, Thu) La fontaine, Camille............................ 291 (A5, Tue) La Rotta-Hernández, Camilo........... 1314 (G1, Wed) La Via, Francesco...............................1822 (P7, Wed) Labyedh, Nouha..................................481 (A6, Mon) Lachner, Rudolf................................ 1762 (P7, Mon) Ladroue, Julien.................................. 1992 (Q3, Wed) Lafouresse, Manon............................. 892 (D2, Wed) Lagacé, Marin...................................... 462 (A5, Thu) Lagally, Max.......................................1849 (P7, Thu) Lage, Enno........................................... 907 (D3, Tue) Lai, Barry.............................................. 492 (A6, Tue) Lai, Han...............................................863 (D2, Mon) Lai, Haoyyu........................................1816 (P7, Wed) Lai, Min-Hon...................................... 1005 (F2, Tue) Lai, Zhiping.........................................2289 (Z2, Tue) Laïk, Barbara....................................... 390 (A5, Wed) Laine, Richard.....................................2230 (Z1, Tue) Lajaunie, Luc....................................... 291 (A5, Tue) Lakhtakia, Akhlesh...............................683 (B2, Tue) Lall-Ramnarine, Sharon.................... 1421 (H6, Sun) Lam, Phu............................................ 2013 (Q4, Tue) Lamanna, Bill....................................... 516 (A7, Tue) LaManna, Jacob.................................1218 (F3, Wed) Lamas, Diego...................................... 1004 (F2, Tue) Lan, ChaoHo....................................... 1182 (F3, Tue) Lan, Rong...........................................1007 (F2, Wed) Lanceros-Méndez, Senentxu.............. 526 (A7, Tue), .............................................................. 544 (A7, Thu) Landau, Uziel...................................... 843 (D1, Thu), ................................1700 (P5, Wed), 1706 (P5, Wed) Landon, James.......1473 (H6, Wed), 2293 (Z2, Wed) Landru, Didier................................... 1716 (P6, Mon) Landstorfer, Manuel........................... 1359 (H1, Tue) Lang, Klaus-Dieter............................ 1681 (P5, Mon) Lange, Kyle......................................... 1106 (F3, Tue) Langlois, David..................................1201 (F3, Wed) Langlois, Eric...................................... 920 (D3, Wed) Lankiang, Styven............................... 1512 (H7, Tue) Lanza, Marcos......................................940 (E2, Wed) Lanza, Mario..................................... 2035 (Q5, Wed) Lapornik, Vida........................................82 (A2, Tue) Larcher, Luca.....................................2051 (Q5, Thu) Laresgoiti, Izaro.................................. 356 (A5, Wed) Larfaillou, Séverin..............................224 (A4, Mon) Larger, Ronan...................................... 1741 (P6, Tue) Larignon, Céline...................................739 (C1, Tue) Larios-Duran, Erika.......................... 1344 (H1, Tue), ............................................................ 1371 (H1, Tue) Larrey, Vincent................................. 1720 (P6, Mon), .................................1722 (P6, Mon), 1728 (P6, Tue) Larrondo, Susana................................ 1004 (F2, Tue) Larsen, Sten Yngve............................. 388 (A5, Wed) Laruelle, Stéphane..............................219 (A4, Mon) Latham, Kenneth.................................158 (A3, Mon) Latzel, Oliver....................................... 1797 (P7, Tue) Lau, Kenneth............201 (A3, Wed), 1583 (N1, Tue) Lauritzen, Mike....... 1091 (F3, Tue), 1094 (F3, Tue), .................................1189 (F3, Wed), 1297 (F3, Thu) Meeting Program l October 5-9, 2014 l Cancun, Mexico

213


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Lee, Young-Gi..................................... 402 (A5, Wed) Lee, Youngsu...................................... 2014 (Q4, Tue) Lee, Younki......................................... 622 (A9, Wed) Lee, Yun Sung...........426 (A5, Wed), 430 (A5, Wed) Lee, Yunju........................................... 415 (A5, Wed) Leem, Chang-Hyun........................... 1659 (P3, Tue), ................................1660 (P3, Tue), 1774 (P7, Mon), ............................................................. 1801 (P7, Tue) Lefaucheux, Philippe......................... 1672 (P4, Tue), ................................ 1689 (P5, Tue), 1992 (Q3, Wed) Leggesse, Ermias Girma..................... 297 (A5, Wed) Lelis, Aivars.........1965 (Q3, Mon), 1968 (Q3, Mon) Lemme, Max...................................... 2102 (Q7, Tue) Lemordant, Daniel............................... 514 (A7, Tue) Lenahan, Patrick...............................1968 (Q3, Mon) Lenihan, Catherine..................................22 (A1, Tue) Leo, Bey............................................. 1354 (H1, Tue) Leobandung, Effendi.........................1815 (P7, Wed) León, María..........................................926 (E2, Wed) Léonard, François.............................. 2105 (Q7, Tue) Leonard, Nathaniel..............................1304 (F3, Thu) Leonarski, Jaroslaw..........................1964 (Q3, Mon) Leones, R.............................................. 526 (A7, Tue) Leoni, Thomas.................................. 1767 (P7, Mon) Leroux, Charles.................................2091 (Q7, Mon) Leskelä, Markku................................1624 (P1, Wed) Lestriez, Bernard.........29 (A1, Tue), 218 (A4, Mon), .................................. 226 (A4, Mon), 271 (A5, Tue), ................................... 352 (A5, Wed), 456 (A5, Thu) Leszczynski, Mike............................. 1977 (Q3, Tue) Lethien, Christophe.........172 (A3, Tue), 448 (A5, Thu) Leung, Siu-Fung................................ 2072 (Q6, Tue) Leusink, Gert..........1612 (P1, Tue), 2088 (Q7, Mon) Leveau, Lucie...................................... 390 (A5, Wed) Levecque, Pieter.................................. 1073 (F3, Tue) Lévesque, Pierre.......1741 (P6, Tue), 1846 (P7, Thu) Lewerenz, Hans.................................. 885 (D2, Wed) Lewis, François................................... 1741 (P6, Tue) Lewis, Nathan........584 (A8, Wed), 1379 (H2, Mon) Lex-Balducci, Alexandra.................... 295 (A5, Wed) Li, Bin.......................... 601 (A9, Tue), 602 (A9, Tue) Li, C.......................................................52 (A2, Mon) Li, Chun-Lung............129 (A2, Wed), 188 (A3, Tue) Li, Dejun.............................................. 371 (A5, Wed) Li, Ding.............................................. 2151 (Q9, Tue) Li, Dongguo............ 1017 (F3, Sun), 1513 (H7, Tue) Li, Fu-Sheng......................................... 269 (A5, Tue) Li, Genong........................................... 959 (E3, Mon) Li, Guang............................................. 378 (A5, Wed) Li, Guosheng....................................... 623 (A9, Wed) Li, Haofeng.........................................1837 (P7, Thu) Li, Jiang......................676 (B2, Mon), 693 (B2, Tue) Li, Jiangtian........................................560 (A8, Mon), ................................... 562 (A8, Mon), 581 (A8, Tue) Li, Jianlin....................240 (A4, Tue), 323 (A5, Wed) Li, Jie.........................310 (A5, Wed), 362 (A5, Wed) Li, Jing................................................1244 (F3, Wed) Li, Ju........................................................8 (A1, Mon) Li, Juchuan..........................................483 (A6, Mon) Li, Junwen..................92 (A2, Wed), 101 (A2, Wed), .................................1355 (H1, Tue), 1889 (Q1, Tue) Li, Lain-Jong.....................................2000 (Q4, Mon) Li, Lei................................................. 2151 (Q9, Tue) Li, Li.............................7 (A1, Mon), 1405 (H2, Tue) Li, Liu.........................283 (A5, Tue), 349 (A5, Wed) Li, Liyu................................................. 604 (A9, Tue) Li, Longjun..............................................69 (A2, Tue) Li, Luyue............................................. 1082 (F3, Tue) Li, Min.................................................. 549 (A8, Sun) Li, Ming............................................... 664 (B1, Wed) Li, Mingda (Oscar)............................1818 (P7, Wed) Li, Minjiao........................................... 1144 (F3, Tue) Li, Qiliang............. 1899 (Q1, Tue), 2145 (Q9, Mon) Li, Qingfeng........................................1278 (F3, Thu) Li, Shaoping........................................ 959 (E3, Mon) Li, Sheng-Shian.......2129 (Q8, Mon), 2133 (Q8, Mon)

Li, Weishan.......................................... 530 (A7, Wed) Li, Weiyang.......................................... 500 (A6, Tue) Li, Wen Man...................................... 1941 (Q2, Wed) Li, Wenxia........................................... 654 (B1, Wed) Li, Wenzhen...............580 (A8, Tue), 589 (A8, Wed) Li, Xianfeng.................... 20 (A1, Tue), 21 (A1, Tue) Li, Xiaolin............................................ 612 (A9, Tue) Li, Xiaoping........................................ 530 (A7, Wed) Li, Xin.......................249 (A5, Mon), 258 (A5, Mon) Li, Xinhai............................................ 389 (A5, Wed) Li, Xuebin............................................1853 (P7, Thu) Li, Yan.................................................. 182 (A3, Tue) Li, Yangxing............................................43 (A1, Tue) Li, Ying...............................................252 (A5, Mon), ...................................409 (A5, Wed), 587 (A8, Wed) Li, Yunfeng..............................................72 (A2, Tue) Li, Zhen............................................... 1784 (P7, Tue) Li, Zheng......................83 (A2, Tue), 308 (A5, Wed) Li, Zhiao.............................................2293 (Z2, Wed) Li, Zhong............................................. 399 (A5, Wed) Li, Zicheng........................................... 290 (A5, Tue) Lian, Tianquan..................................... 565 (A8, Tue) Liang, Gengchiau.............................. 1864 (P8, Mon) Liang, Jianbo..................................... 1726 (P6, Mon) Liao, Chen.............................................63 (A2, Mon) Liao, Yan........................................... 1941 (Q2, Wed) Liao, Yan-jian...... 1937 (Q2, Wed), 1944 (Q2, Wed), ............................. 1948 (Q2, Wed), 1949 (Q2, Wed), ............................. 1950 (Q2, Wed), 1951 (Q2, Wed), ............................. 1952 (Q2, Wed), 1953 (Q2, Wed), .............................. 1954 (Q2, Wed), 1955 (Q2, Wed) Liao, Ying-Chih....... 1875 (P9, Tue), 1878 (P9, Tue) Liao, Yuhao......................................... 530 (A7, Wed) Libera, Joseph.......1597 (P1, Mon), 1604 (P1, Mon) Liberatore, Matthew.......................... 1171 (F3, Tue), ................................1259 (F3, Wed), 1260 (F3, Wed) Licht, Stuart.........................................558 (A8, Mon) Lichusina, Svetlana............................ 1173 (F3, Tue), ...................................1174 (F3, Tue), 1176 (F3, Tue) Licona-Sánchez, Teresa...................... 505 (A6, Tue), .................................... 506 (A6, Tue), 939 (E2, Wed) Lieberwirth, Ingo................................2176 (Z1, Tue) Lien, Der-Hsien........ 1875 (P9, Tue), 1877 (P9, Tue) Lieser, Georg....................................... 333 (A5, Wed) Lieten, Ruben...................................... 1650 (P3, Tue) Lifson, Max......................................... 1805 (P7, Tue) Likhachev, Pavel................................ 1459 (H6, Tue) Lilavivat, Visarn......1031 (F3, Sun), 1222 (F3, Wed) Lill, Thorsten....................................... 1673 (P4, Tue) Lillard, R. Scott.....................................756 (C2, Tue) Lillard, Scott......................................... 865 (D2, Tue) Lim, Ah Hyeon................................... 889 (D2, Wed) Lim, Chan.................1091 (F3, Tue), 1298 (F3, Thu) Lim, Dongchan................................... 817 (D1, Wed) Lim, Hee-Dae....................................... 153 (A2, Thu) Lim, Jae-Hong..................................... 817 (D1, Wed) Lim, Jang-Kwon.......1963 (Q3, Mon), 1997 (Q3, Wed) Lim, Jung Ah.......................................2183 (Z1, Tue) Lim, Keon-Hee............................... 1915 (Q10, Tue), ............................... 1926 (Q10, Tue), 2192 (Z1, Tue) Lim, Kimin.......................................... 593 (A8, Wed) Lim, Mary Lyn......................................757 (C2, Tue) Lim, Sang Chul................................. 2120 (Q7, Wed) Lim, Seongdong................................. 2014 (Q4, Tue) Lim, Seongyop.................................... 1131 (F3, Tue) Lim, Sung-Jin...................................... 316 (A5, Wed) Lim, Tak-Hyoung.................................. 998 (F2, Tue) Lim, Yi-Rang........... 1659 (P3, Tue), 1660 (P3, Tue), .................................1774 (P7, Mon), 1801 (P7, Tue) Lin, Bing-Hong................................. 2119 (Q7, Wed) Lin, Bing-wen................................... 1954 (Q2, Wed) Lin, Chi-Chou................................... 2161 (R1, Wed) Lin, Chia-Nan...................................... 129 (A2, Wed) Lin, Chih-Chia.................................... 1181 (F3, Tue) Lin, Chin-Fu........................................ 1802 (P7, Tue) Lin, Ching-Chang.............................2128 (Q8, Mon)

Lin, Chuan-Fu...................................... 231 (A4, Tue) Lin, D........................ 1613 (P1, Tue), 1646 (P3, Tue) Lin, Gong-Ru...................................... 1875 (P9, Tue) Lin, Guangyu.............. 613 (A9, Tue), 614 (A9, Tue) Lin, Huan-Ting.................................... 106 (A2, Wed) Lin, Jyun-Liang................................. 1313 (G1, Wed) Lin, Kuan-Che.................................... 2135 (Q8, Tue) Lin, Kuen-Song....... 848 (D1, Thu), 1946 (Q2, Wed) Lin, Pengtao........................................ 1620 (P1, Tue) Lin, Qingfeng.........2027 (Q4, Wed), 2072 (Q6, Tue) Lin, Shawn D...................................... 297 (A5, Wed) Lin, Shih-Hung.......2074 (Q6, Tue), 2079 (Q6, Tue) Lin, Tianquan....................................... 555 (A8, Sun) Lin, Xi...................................................974 (F2, Mon) Lin, Yu-Wei.......................................... 188 (A3, Tue) Lin, Yueh-Wei..................................... 412 (A5, Wed) Lin, Zhiqun........................................2137 (Q9, Mon) Linberg, Gerrick.................................1259 (F3, Wed) Lindberg, Jonas................................... 143 (A2, Wed) Lindbergh, Göran................................ 143 (A2, Wed) Ling, Chen........................................... 108 (A2, Wed) Ling, Chris..................110 (A2, Wed), 156 (A2, Thu) Linic, Suljo..........................................561 (A8, Mon) Linn, Eike.......................................... 2034 (Q5, Wed) Lipka, Stephen.......... 159 (A3, Mon), 616 (A9, Tue) Lipkin, Mikhail........ 45 (A1, Tue), 1341 (H1, Mon), .................................1372 (H1, Tue), 1891 (Q1, Tue) Lipkin, Semen........................................45 (A1, Tue), ............................... 1341 (H1, Mon), 1372 (H1, Tue) Lipkin, Valery..................................... 1891 (Q1, Tue) Lippert, Cameron.............................. 1473 (H6, Wed) Lisienko, Dmitriy............................... 1466 (H6, Tue) Lisker, Marco...................................... 1776 (P7, Tue) Litovchenko, V.................................... 1653 (P3, Tue) Litster, Shawn...........1098 (F3, Tue), 1305 (F3, Thu) Litta, Eugenio Dentoni....................... 1786 (P7, Tue) Littlejohns, Callum........................... 1773 (P7, Mon) Liu, C. W............................................. 1789 (P7, Tue) Liu, Changqing..................................1710 (P5, Wed) Liu, Chanyuan..........482 (A6, Mon), 484 (A6, Mon) Liu, Chao............................................. 957 (E3, Mon) Liu, Charlie......................................... 1979 (Q3, Tue) Liu, Danny...............................................2 (A1, Mon) Liu, Di-Jia............................................1307 (F3, Thu) Liu, Gao..................................................80 (A2, Tue), ...................................450 (A5, Thu), 474 (A6, Mon) Liu, Haidong....................................... 362 (A5, Wed) Liu, Huiyun........................................ 2013 (Q4, Tue) Liu, Ji................................................... 378 (A5, Wed) Liu, Jia...................................................60 (A2, Mon) Liu, Jianfeng.............1076 (F3, Tue), 1302 (F3, Thu) Liu, Jianshe............................................642 (B1, Tue) Liu, Jianyun.............1408 (H2, Tue), 1415 (H2, Tue) Liu, Jie.................................................. 507 (A6, Tue) Liu, Jifeng............................................1837 (P7, Thu) Liu, Johnny........................................2132 (Q8, Mon) Liu, Jun........................ 612 (A9, Tue), 875 (D2, Tue) Liu, Kunlei............1473 (H6, Wed), 2293 (Z2, Wed) Liu, Li................................................... 275 (A5, Tue) Liu, Lianjun......................................... 587 (A8, Wed) Liu, Lisha.......................................... 1047 (F3, Mon) Liu, Peng............................................. 318 (A5, Wed) Liu, Qi.........................383 (A5, Wed), 608 (A9, Tue) Liu, Qingfeng...................................... 1071 (F3, Tue) Liu, Qizhi................1764 (P7, Mon), 1782 (P7, Tue) Liu, Ru-Shi...............568 (A8, Tue), 2154 (R1, Wed) Liu, Tianbiao............... 491 (A6, Tue), 602 (A9, Tue) Liu, Wei............................................... 1064 (F3, Tue) Liu, Xi................................................ 2026 (Q4, Wed) Liu, Xiao.............................................. 1615 (P1, Tue) Liu, Xiaohua....................................... 2094 (Q7, Tue) Liu, Xiaojiang...................................... 449 (A5, Thu) Liu, Yang.................. 199 (A3, Wed), 476 (A6, Mon) Liu, Ye..................... 1171 (F3, Tue), 1259 (F3, Wed) Liu, Ying.............................................1204 (F3, Wed) Liu, Yuzi............................................... 492 (A6, Tue)

214

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Liu, Zheng.............................................52 (A2, Mon) Liu, Zhi..............................................2093 (Q7, Mon) Liu, Zhixiao.......................................... 468 (A5, Thu) Liu, Zhongyi....................................... 312 (A5, Wed), .................................1249 (F3, Wed), 1289 (F3, Thu) Lizama-Tzec, Francisco.................... 2063 (Q6, Tue) Lizama-Tzec, Francisco Ivan.............. 815 (D1, Tue) Lizcano-Valbuena, William............... 1178 (F3, Tue), ........................................................... 1331 (G1, Wed) L’jazouli, Rami.................................... 1689 (P5, Tue) Lo, F.-S...............................................1753 (P6, Wed) Locquet, Jean-Pierre........................... 1650 (P3, Tue) Loellhoeffel, Thomas........................... 440 (A5, Thu) Lofaro, Michael................................. 1723 (P6, Mon) Lohn, Andrew....................................2050 (Q5, Thu) Lomberg, Marina.................................. 984 (F2, Tue) Lomeli, Martha.....................................767 (C2, Tue) Long, Brandon..................................... 279 (A5, Tue) Long, Edmund................................. 1572 (M1, Wed) Long, Hai............................................1263 (F3, Wed) Long, Jeffrey........... 162 (A3, Mon), 1391 (H2, Tue) Long, Xiao............................................ 216 (A3, Thu) Long, Yunze...................................... 2026 (Q4, Wed) Longo, Roberto................................... 311 (A5, Wed) Loo, Roger.......................................... 1647 (P3, Tue), ................................1825 (P7, Wed), 1826 (P7, Thu), .................................1847 (P7, Thu), 1855 (P7, Thu), ..................................1856 (P7, Thu), 1858 (P7, Thu) Lopes, Pietro..................................... 1558 (H8, Wed) López, J................................................ 880 (D2, Tue) Lopez, Luis............................................777 (C2, Tue) Lopez-Cazares, Maria........................ 1344 (H1, Tue) López-González, Berenice.................2180 (Z1, Tue) López-Juárez, Rigoberto................... 2173 (R1, Wed) López Morales, Francisco...................946 (E2, Wed) Lopez-Nieves, Marjorie......................678 (B2, Mon) López-Pacheco, Germán.................. 2173 (R1, Wed) Lordi, Vincenzo.........221 (A4, Mon), 540 (A7, Thu) Lottes, Charles...................................1817 (P7, Wed) Lotty, Olan......................................... 1863 (P8, Mon) Lou, Jun.............................................1998 (Q4, Mon) Loubet, Nicolas................................... 1778 (P7, Tue) Loup, Virginie................................... 1720 (P6, Mon) Lourdudoss, Sebastian......................1813 (P7, Wed), ............................................................ 2150 (Q9, Tue) Loustalet-Lacourette, Thibault.............739 (C1, Tue) Løvvik, Ole-Martin............................. 113 (A2, Wed) Lu, Augustin....................................... 2101 (Q7, Tue) Lu, Brian.............................................2052 (Q5, Thu) Lu, Cimang........................................2090 (Q7, Mon) Lu, Darsen........................................... 1791 (P7, Tue) Lu, Davy.............................................1632 (P1, Wed) Lu, Dongping....................................... 497 (A6, Tue) Lu, James............................................. 1693 (P5, Tue) Lu, Jia................................................... 909 (D3, Tue) Lu, Li..........................283 (A5, Tue), 349 (A5, Wed) Lu, Peng....................300 (A5, Wed), 312 (A5, Wed) Lu, Pin................................................. 802 (C3, Wed) Lu, Qin........................580 (A8, Tue), 589 (A8, Wed) Lu, Tsuo-Wen...................................... 1802 (P7, Tue) Lu, Wei.............................................. 2112 (Q7, Wed) Lu, Xiaochuan..................................... 623 (A9, Wed) Lu, Xinyu............. 1936 (Q2, Wed), 1940 (Q2, Wed) Lu, Yingying......................................... 543 (A7, Thu) Lu, Zhonghua....................................... 442 (A5, Thu) Lucas, Ivan..........................................222 (A4, Mon) Lucatero, Savidra............................... 1400 (H2, Tue) Luce, Alexander................................. 2071 (Q6, Tue) Lucht, Brett.........................................223 (A4, Mon), ....................................509 (A7, Tue), 531 (A7, Wed) Lucio, Anthony.................................1428 (H6, Mon) Ludwig, Karl...............974 (F2, Mon), 996 (F2, Tue) Lueth, Chris...........................................722 (C1, Tue) Lueth, Christopher.............................. 1106 (F3, Tue) Lugo Islas, Gabriela..........737 (C1, Tue), 772 (C2, Tue)

Lukatskaya, Maria.............................. 185 (A3, Tue), .................................. 194 (A3, Wed), 2246 (Z1, Tue) Lundgren, Cynthia............................ 1319 (G1, Wed) Luo, Heng.............................................974 (F2, Mon) Luo, Hong Yan.........1941 (Q2, Wed), 1948 (Q2, Wed), ............................. 1949 (Q2, Wed), 1950 (Q2, Wed), ............................. 1951 (Q2, Wed), 1952 (Q2, Wed), ............................. 1953 (Q2, Wed), 1954 (Q2, Wed), ........................................................... 1955 (Q2, Wed) Luo, Yun............................................. 1507 (H7, Tue) Luong, T. P. K...................................... 1794 (P7, Tue) Luopa, Sean........................................1209 (F3, Wed) Lust, Enn.................... 173 (A3, Tue), 192 (A3, Tue), ..................................206 (A3, Wed), 207 (A3, Wed), .............................. 1352 (H1, Tue), 1425 (H6, Mon), .............................. 1504 (H7, Mon), 1508 (H7, Tue), ..................................2241 (Z1, Tue), 2242 (Z1, Tue) Lust, Karmen.....................................1425 (H6, Mon) Lutzer, Bernhard...............................2092 (Q7, Mon) Lvovich, Vadim................................... 407 (A5, Wed) Lynch, Robert................ 22 (A1, Tue), 243 (A4, Tue) Lyons, Micheal.................................1340 (H1, Mon), ..................................2248 (Z1, Tue), 2249 (Z1, Tue) Lyons, Robert.................................... 2166 (R1, Wed) Lyth, Stephen......... 1076 (F3, Tue), 1205 (F3, Wed), ..................................1294 (F3, Thu), 1302 (F3, Thu) Lytkin, Nikolay.................................. 1891 (Q1, Tue)

Maekawa, Yasunari............................ 1167 (F3, Tue), .............................................................1283 (F3, Thu) Maenetja, Khomotso........................... 141 (A2, Wed) Maes, Ashley......................................1259 (F3, Wed) Maes, Jan Willem.........1613 (P1, Tue), 1855 (P7, Thu) Maffiotte, César.................................... 847 (D1, Thu) Magagnin, Luca................................. 364 (A5, Wed), .................................... 682 (B2, Tue), 813 (D1, Tue), ...................................845 (D1, Thu), 1403 (H2, Tue) Magnee, Peter...................................... 1781 (P7, Tue) Maguire, Paul..................................... 1584 (N1, Tue) Magyari-Kope, Blanka..................... 2114 (Q7, Wed) Mahadevan, Aishwarya...................... 659 (B1, Wed) Mahadik, N. A.................................... 1972 (Q3, Tue) Mahadik, Nadeemullah....................1961 (Q3, Mon) Mahdavifar, Alireza..........................2006 (Q4, Mon) Maho, Anthony.................................. 1401 (H2, Tue) Maibach, Julia............242 (A4, Tue), 1607 (P1, Tue) Maiolo, Luca...................................1931 (Q10, Wed) Maita, Francesco.............................1931 (Q10, Wed) Majumdar, Amlan..............................1815 (P7, Wed) Maki, Hideshi..................................... 1420 (H6, Sun) Makihara, Katsunori.......................... 1785 (P7, Tue), ..................................1795 (P7, Tue), 1850 (P7, Thu) Mäkilä, Ermei...................................... 199 (A3, Wed) Makimura, Yoshinari..........................267 (A5, Mon) Makino, Masato..................................673 (B2, Mon) Makino, Sho......................................... 212 (A3, Thu) Malacrida, Paolo.........1038 (F3, Sun), 1535 (H7, Wed) Maldonado, Erick.................................724 (C1, Tue) Maldonado, Stephen............................ 809 (D1, Tue) Maldonado-Rivera, José..................... 1884 (P9, Tue) Maldonado-Rivera, José L.................. 844 (D1, Thu) Malek, Kourosh.................................1189 (F3, Wed) Malik, Nisant............ 1734 (P6, Tue), 1736 (P6, Tue) Malik, Nishant.......... 1740 (P6, Tue), 1744 (P6, Tue) Malkhandi, Souradip.......9 (A1, Mon), 19 (A1, Tue) Malo-Tamayo, Jose...............................769 (C2, Tue) Maloney, Ryan..................................... 185 (A3, Tue) Maltsev, Dmitry......1453 (H6, Tue), 1456 (H6, Tue) Mamadou, Kelli................................... 443 (A5, Thu) Mamaluy, Denis.................................2050 (Q5, Thu) Mamtani, Kuldeep............................ 1533 (H7, Wed) Mamun, Abdullah-Al..............................37 (A1, Tue) Mamun, M............... 1621 (P1, Tue), 1622 (P1, Tue), .................................1623 (P1, Tue), 1718 (P6, Mon) Mancarella, Fulvio.............................1822 (P7, Wed) Mandujano-Ramírez, Humberto....... 2066 (Q6, Tue) Mane, Anil......................................... 1597 (P1, Mon) Manek, Stephen................................ 1473 (H6, Wed) Manenq, Pierre......................................739 (C1, Tue) Manerova, Jevgenija.........................1342 (H1, Mon) Maneux, Cristell.................................. 1783 (P7, Tue) Mangal, Prafful..................................1225 (F3, Wed) Mangolini, Lorenzo............................. 274 (A5, Tue) Maniscalco, J....................................... 1611 (P1, Tue) Manivannan, A................. 4 (A1, Mon), 9 (A1, Mon) Manivannnan, Ayyakkannu....................1 (A1, Mon) Mankel, Eric........................................ 1607 (P1, Tue) Manley, Robert....................................... 1924 (Q10, Tue) Mannaert, Geert..................................1855 (P7, Thu) Manohar, Aswin K..................................19 (A1, Tue) Manríquez, Juan.........1380 (H2, Mon), 1389 (H2, Tue) Mansor, Noramalina........................ 1566 (M1, Wed) Mansouri, Abraham............................ 397 (A5, Wed) Manthiram, Arumugam.........................69 (A2, Tue), .............................................................255 (A5, Mon) Mantl, Siegfried............................... 1769 (P7, Mon), ..................................1827 (P7, Thu), 1846 (P7, Thu) Manzo-Robledo, Arturo......................220 (A4, Mon) Marandi, Margus...............................1377 (H2, Mon) Marceau, Hugues................................. 462 (A5, Thu) Marchiori, Chiara.............................. 1723 (P6, Mon) Marcinek, Marek.................................. 96 (A2, Wed), ...................................144 (A2, Wed), 536 (A7, Wed) Marcus, Philippe.................................227 (A4, Mon)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

M

M. H. Khorasany, Ramin..................1245 (F3, Wed), .............................................................1299 (F3, Thu) Ma, Dongling....................................... 553 (A8, Sun) Ma, Jiwei........................................... 1469 (H6, Wed) Ma, Jun................................................260 (A5, Mon) Ma, Lin........................79 (A2, Tue), 292 (A5, Wed), .................................. 296 (A5, Wed), 324 (A5, Wed) Ma, Luyao............................................ 809 (D1, Tue) Ma, Miaomiao..................................... 404 (A5, Wed) Ma, T. P............................................1902 (Q10, Mon) Ma, Teng..........................................1911 (Q10, Mon) Ma, Xiangkun.........................................21 (A1, Tue) Ma, Xuezhi.......................................... 1780 (P7, Tue) Ma, Yue................................................475 (A6, Mon) Mabbett, Ian............... 13 (A1, Mon), 146 (A2, Wed) Maboudian, Roya..................................682 (B2, Tue) Mabuchi, Katsumi...............................703 (C1, Mon) Mabuchi, Takuya................................ 1150 (F3, Tue), ................................. 1157 (F3, Tue), 1246 (F3, Wed) Macauley, Natalia............................... 1094 (F3, Tue) Macciò, Daniele.................................. 1128 (F3, Tue) Macdonald, Digby.......... 752 (C2, Tue), 802 (C3, Wed) Macedo, Guadalupe............................2255 (Z1, Tue) MacEwan, Mchael.............................1714 (P5, Wed) Machado, A.......................................... 526 (A7, Tue) Machado, Eduardo............................ 1552 (H8, Wed) Machado, Sergio.................................2223 (Z1, Tue) Machida, Hideaki................................1828 (P7, Thu) MacIntosh, Adam...............................1241 (F3, Wed) Mack, Nathan......................................1306 (F3, Thu) Mackie, Katie..................................... 1589 (N1, Tue) Mackrell, Joseph................................1190 (F3, Wed) Macomber, Clay.................................1262 (F3, Wed) Madec, Lénaïc.........................................29 (A1, Tue) Madeira, Florence............................ 1716 (P6, Mon), ........................................................... 1722 (P6, Mon) Madhour, Yassir.................................. 1738 (P6, Tue) Madia, Oreste....................................2085 (Q7, Mon) Madou, Marc.......................................669 (B2, Mon) Maeda, Atsuhiko................................1748 (P6, Wed) Maeda, Kazuma................................. 1438 (H6, Tue) Maeda, Tatsuro......... 1649 (P3, Tue), 1650 (P3, Tue) Maeda, Yusuke...................................1234 (F3, Wed) Mæhlen, Jan Petter.......359 (A5, Wed), 388 (A5, Wed), ...................................393 (A5, Wed), 428 (A5, Wed) Maekawa, Kaoru................................. 1689 (P5, Tue)

215


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Margetis, Joe......................................1830 (P7, Thu), ..................................1844 (P7, Thu), 1845 (P7, Thu) Mariage, Nicolas.................................. 271 (A5, Tue) Marichy, Catherine.............................1203 (F3, Wed) Marinaccio, Jordan................................13 (A1, Mon) Marinella, Matthew..........................1966 (Q3, Mon), ............................................................2050 (Q5, Thu) Marinescu, Monica.............................. 214 (A3, Thu) Marinkovic, Nebojsa.......................... 1066 (F3, Tue) Marino, Cyril....................................... 303 (A5, Wed) Mariotti, Davide................................. 1584 (N1, Tue) Mariucci, Luigi................................1910 (Q10, Mon) Markovic, Nenad......... 1017 (F3, Sun), 1513 (H7, Tue) Marks, Diana.....................................1337 (H1, Mon) Marks, Jeff........................................... 1673 (P4, Tue) Markus, Isaac....................................... 147 (A2, Thu) Marquez Casasola, Miguel...................777 (C2, Tue) Marquina, Alicia............................... 2174 (R1, Wed) Marris-Morini, Delphine...................1832 (P7, Thu), .............................................................1839 (P7, Thu) Marschilok, Amy................................858 (D2, Mon) Marschmeyer, Steffen......................... 1776 (P7, Tue) Marshak, Michael................................ 610 (A9, Tue) Marsili, Enrico...................................2302 (Z2, Wed) Martens, Sladjana.............................. 1469 (H6, Wed) Martha, Surendra................................483 (A6, Mon) Martín, Alejandra................................ 953 (E3, Mon) Martín, Antonio José............................ 847 (D1, Thu) Martin, Farrel............787 (C2, Wed), 799 (C3, Wed) Martin, Noel........................................ 1668 (P4, Tue) Martin-Cocher, Chloé......................... 1728 (P6, Tue) Martín del Campo, Eduardo................949 (E2, Wed) Martín del Campo Lopez, E................941 (E2, Wed) Martin-Gomis, Luis......................... 1567 (M1, Wed) Martinéz, Ana Maria......................... 1434 (H6, Tue), ............................................................1492 (H6, Thu) Martinez, Lorenzo........721 (C1, Tue), 723 (C1, Tue) Martinez, Ulises.................................1306 (F3, Thu), .............................. 1528 (H7, Wed), 1532 (H7, Wed) Martinez Alfaro, Minerva................. 1330 (G1, Wed) Martinez-Botas, Ricardo...................... 438 (A5, Thu) Martinez-Casillas, Diana....................167 (A3, Mon) Martínez-García, Ricardo...................697 (C1, Mon) Martinez-Luevanos, Antonia.............. 1119 (F3, Tue) Martínez-Madrid, Miguel.....................761 (C2, Tue) Martínez Miranda, V............................941 (E2, Wed) Martinez-Rodriguez, Michael........... 741 (C1, Wed), ..................................743 (C1, Wed), 1493 (H6, Thu) Martínez-Rodríguez, Roberto...........2258 (Z1, Tue), ............................................................2320 (Z3, Wed) Martínez-Rosales, Roxana...................767 (C2, Tue) Martino, Eftyhia................................1500 (H7, Mon) Martino, J............................................ 1648 (P3, Tue) Martins, Pedro................................... 1048 (F3, Mon) Maruyama, Jun....................................163 (A3, Mon) Marzegalli, Anna................................1822 (P7, Wed) Masada, Chiaki................................... 387 (A5, Wed) Masaki, Takaki.................................. 2157 (R1, Wed) Masese, Titus.......................................253 (A5, Mon) Mashanovich, Goran......................... 1773 (P7, Mon) Mashtalir, Olha......... 194 (A3, Wed), 2246 (Z1, Tue) Masini, Gianlorenzo...........................1841 (P7, Thu) Mason, Jerry........................................ 137 (A2, Wed) Masser, Robin....................................1755 (P6, Wed) Masson, Laurence............................. 1767 (P7, Mon) Massy, Damien.................................. 1716 (P6, Mon) Masud, Jahangir................................... 614 (A9, Tue) Masuda, Takuya..................................1014 (F3, Sun) Masuda, Tetsutaro...................................75 (A2, Tue) Matanovic, Ivana.............................. 1321 (G1, Wed) Mathieu, Stephane................................755 (C2, Tue) Mathiyarasu, Jayaraman.................... 1521 (H7, Tue) Matisen, Leonard............................... 1077 (F3, Tue), ..............................1377 (H2, Mon), 1503 (H7, Mon) Matlock, Ryan................................... 1325 (G1, Wed)

Matsubara, Eiichiro..............................68 (A2, Mon), ....................................116 (A2, Wed), 913 (D3, Tue) Matsuda, Tokiyoshi.........................1905 (Q10, Mon) Matsuda, Tomoyuki.......336 (A5, Wed), 343 (A5, Wed) Matsuda, Yasuaki................................ 401 (A5, Wed) Matsuda, Yoshiyuki...........................1255 (F3, Wed) Matsue, Tomokazu..............................261 (A5, Mon) Matsui, Masaki............71 (A2, Tue), 246 (A4, Wed), ...................................247 (A4, Wed), 401 (A5, Wed) Matsui, Toshiaki.................................... 979 (F2, Tue) Matsumoto, Futoshi............................ 579 (A8, Tue), ..................................1116 (F3, Tue), 1129 (F3, Tue), ............................................................1215 (F3, Wed) Matsumoto, Hajime.......................... 1443 (H6, Tue), ........................................................... 1470 (H6, Wed) Matsumoto, Kazuhiko...................... 1472 (H6, Wed) Matsumoto, Masashi.......................... 422 (A5, Wed), ................................. 1036 (F3, Sun), 1147 (F3, Tue), .................................1272 (F3, Thu), 1273 (F3, Thu), .................................1274 (F3, Thu), 1275 (F3, Thu), ............................................................ 1520 (H7, Tue) Matsumoto, Ryuhei...............................67 (A2, Mon) Matsumura, Daiju...............................1015 (F3, Sun) Matsumura, Ryosuke............................650 (B1, Tue) Matsumura, Takuya............................2208 (Z1, Tue) Matsumura, Yasunori.......................... 1170 (F3, Tue) Matsunaga, Mariko............................2237 (Z1, Tue), .............................................................2238 (Z1, Tue) Matsunaga, Shinichiro......................1959 (Q3, Mon) Matsuo, Nobufumi..............................2229 (Z1, Tue) Matsuo, Takahiro................................. 521 (A7, Tue) Matsuoka, Miki........ 1137 (F3, Tue), 2208 (Z1, Tue) Matsutani, Koichi......1132 (F3, Tue), 1160 (F3, Tue) Matsuura, Toyoaki.............................1196 (F3, Wed) Matsuzaki, Takanori...........................2054 (Q5, Thu) Matsuzawa, Koichi............................. 619 (A9, Tue), ..................................1146 (F3, Tue), 1147 (F3, Tue), .................................1273 (F3, Thu), 1275 (F3, Thu), ...............................1461 (H6, Tue), 1474 (H6, Wed), ............................................................ 1520 (H7, Tue) Mattoni, Giordano............................... 1651 (P3, Tue) Matuseviciute, Agne........................... 1175 (F3, Tue) Maucec, Darja.........................................82 (A2, Tue) Mauceri, Marco..................................1822 (P7, Wed) Mauger, Alain....................................... 462 (A5, Thu) Maurice, Vincent.................................227 (A4, Mon) Maya-Cornejo, Jose...........................1213 (F3, Wed) Mayer, Thomas................................... 1607 (P1, Tue) Maza, William..................................... 588 (A8, Wed) Mazari, Elsa.......................................2124 (Q8, Mon) Mazen, Frédéric.........1716 (P6, Mon), 1720 (P6, Mon) Mazouzi, Driss.................................... 352 (A5, Wed) Mazzocchi, Vincent...........................1807 (P7, Wed) McArthur, Mark..................................168 (A3, Mon) McBride, Alex..................................... 203 (A3, Wed) McCallum, Tom.................................. 1093 (F3, Tue) McClintock, Ryan............................1958 (Q3, Mon), ...........................................................1969 (Q3, Mon) McClure, Joshua................................1191 (F3, Wed) McCluskey, P.....................................1970 (Q3, Mon) McCool, Geoff....................................1311 (F3, Thu) McCord, Jeffrey................................... 907 (D3, Tue) McCrabb, Heather...............................860 (D2, Mon) McDaniel, Martin............................. 2113 (Q7, Wed) McGrath, Michael.................................751 (C2, Tue) McGuire, Caitlyn.................................928 (E2, Wed) McGuire, Eva................................... 1572 (M1, Wed) McIntyre, Paul....................................1632 (P1, Wed) McKay, Jeffrey................................. 1725 (P6, Mon), ............................... 1727 (P6, Mon), 1747 (P6, Wed) McKinley, Gareth....................................86 (A2, Tue) McMillan, Paul................................ 1566 (M1, Wed) McMurray, Hamilton...........................707 (C1, Tue), .................................. 794 (C3, Wed), 795 (C3, Wed), ............................................................. 796 (C3, Wed) McNulty, David...................................259 (A5, Mon)

McPhail, David.................................. 1354 (H1, Tue) McSweeney, William........................ 1863 (P8, Mon) Meas, Y................................................. 880 (D2, Tue) Meas-Vong, Yunny............................ 1452 (H6, Tue), ............................................................2305 (Z3, Wed) Mech, Krzysztof........ 838 (D1, Thu), 2181 (Z1, Tue) Medici, Ezequiel......1027 (F3, Sun), 1028 (F3, Sun) Medina, Jose........................................ 921 (D3, Wed) Medina-Rojano, Victor........................ 505 (A6, Tue) Meduna, Mojmir................................1822 (P7, Wed) Meen, Teen-Hang............................... 2080 (Q6, Tue) Mehra, Aashna.................................... 140 (A2, Wed) Mehraban, Shahin...............................704 (C1, Mon) Mei, Yaochuan................................... 1894 (Q1, Tue) Meinhardt, Kerry................................ 623 (A9, Wed) Meini, Stefano..................................... 532 (A7, Wed) Mekhalif, Zineb.......1401 (H2, Tue), 1404 (H2, Tue) Melchakov, Stanislav......................... 1456 (H6, Tue) Melchy, Pierre-Éric............................. 1089 (F3, Tue) Melhuish, Chris...................................2280 (Z2, Tue) Meliani, Chafik................................... 1776 (P7, Tue) Mellan, Thomas.................................. 141 (A2, Wed) Melnik, V............................................. 1653 (P3, Tue) Mench, Matthew...... 603 (A9, Tue), 1218 (F3, Wed) Menchaca, Carmina.............................731 (C1, Tue), .....................................738 (C1, Tue), 768 (C2, Tue), .....................................770 (C2, Tue), 771 (C2, Tue), .............................1576 (M1, Wed), 1577 (M1, Wed) Méndez, P............................................. 880 (D2, Tue) Mendonça, Camila..............................2223 (Z1, Tue) Mendoza, Beatriz............................. 1572 (M1, Wed) Mendoza, Dainet............................... 2174 (R1, Wed) Mendoza, Daniel...................................736 (C1, Tue) Mendoza, Joan..................................... 470 (A5, Thu) Mendoza, Sergio................................. 413 (A5, Wed) Mendoza-Huizar, Luis........................2253 (Z1, Tue) Mendoza Martínez, Ana.......................765 (C2, Tue) Mendoza Sanchez, Beatriz................170 (A3, Mon), .............................................................. 171 (A3, Tue) Menendez, Jose...................................1835 (P7, Thu) Menezo, Sylvie................................. 1724 (P6, Mon) Meng, Guangnan................................. 1118 (F3, Tue) Meng, Shirley.............. 230 (A4, Tue), 272 (A5, Tue) Menne, Sebastian................................ 534 (A7, Wed) Mentek, Romain................................. 1800 (P7, Tue) Menzel, Stephan................................ 2034 (Q5, Wed) Mercado Bahena, Iris...........................737 (C1, Tue), ...............................................................772 (C2, Tue) Mercer, Michael.................................. 820 (D1, Wed) Merckling, Clement........................... 1646 (P3, Tue), ................................ 1647 (P3, Tue), 1811 (P7, Wed), ............................................................1812 (P7, Wed) Mérida, Walter..................................... 1100 (F3, Tue) Merinov, Boris.................................. 1530 (H7, Wed) Merla, Yu............................................229 (A4, Mon), .................................... 438 (A5, Thu), 467 (A5, Thu) Mertens, Hans..........1781 (P7, Tue), 1847 (P7, Thu) Mertens, Paul..........1825 (P7, Wed), 1856 (P7, Thu) Mertens, Robert...................................2269 (Z1, Tue) Metaferia, Wondwosen.....................1813 (P7, Wed), ............................................................ 2150 (Q9, Tue) Metta, Giorgio.................................1931 (Q10, Wed) Metzger, Michael.................................59 (A2, Mon), ................................. 136 (A2, Wed), 262 (A5, Mon), ............................................................. 303 (A5, Wed) Mevellec, Vincent............................... 1690 (P5, Tue) Meyer, Harry.......................................1289 (F3, Thu) Meyners, Dirk...................................... 907 (D3, Tue) Meza.Rocha, Abraham..................... 2171 (R1, Wed) MH Khorasany, Ramin.......................1297 (F3, Thu) Michalczewski, Krystian...................... 96 (A2, Wed) Michel, Damien.................................. 1741 (P6, Tue) Michelet, Cédric.................................... 95 (A2, Wed) Michels, Jasper..................................1333 (H1, Mon) Michler, Johann.........890 (D2, Wed), 891 (D2, Wed) Michor, Herwig..................................2307 (Z3, Wed)

216

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Mickel, Patrick...................................2050 (Q5, Thu) Mieda, Eiko......................................... 1649 (P3, Tue) Mieszala, Maxime............................... 891 (D2, Wed) Migeotte, Isabelle..............................2124 (Q8, Mon) Miglio, Leo.........................................1822 (P7, Wed) Migliorini, Fernanda............................940 (E2, Wed) Mignet, Nathalie............................... 1330 (G1, Wed) Mikhaylov, Aleksey........................... 1986 (Q3, Tue) Miki, Fumihiro.................................... 338 (A5, Wed) Miki, Hidenori..................................... 306 (A5, Wed) Mikolajick, Thomas.......................... 2115 (Q7, Wed) Milenin, Alexey................................... 1675 (P4, Tue) Milewska, Anna.................................. 314 (A5, Wed) Miller, Dean.......................................... 279 (A5, Tue) Miller, Jeffrey.................................... 1533 (H7, Wed) Miller, John......................................... 209 (A3, Wed) Miller, Mallory........................................25 (A1, Tue) Miller, Thomas..................................... 513 (A7, Tue) Mills, Zachary.......................................637 (B1, Tue) Milosev, Ingrid.......... 711 (C1, Tue), 1396 (H2, Tue) Milton, James........................................12 (A1, Mon) Milton, Ross........................................ 1055 (F3, Tue) Mima, Kunioki..................................... 236 (A4, Tue) Min, Myoungki................................... 1072 (F3, Tue) Min, Yoonki....................................... 2048 (Q5, Wed) Minamida, Yasuto.............................. 1154 (F3, Tue), ................................. 1155 (F3, Tue), 1200 (F3, Wed) Minari, Hideki..................................... 1646 (P3, Tue) Mindemark, Jonas............................... 294 (A5, Wed) Minegishi, Yasuyuki...........................1026 (F3, Sun) Minford, Thomas................................ 201 (A3, Wed) Minko, Sergiy......................................1289 (F3, Thu) Minor, Andrew....................................474 (A6, Mon) Minotti, Antonio..............................1931 (Q10, Wed) Minoura, Yuya...................................2093 (Q7, Mon) Minowa, Hironobu................................61 (A2, Mon) Minteer, Shelley......... 1055 (F3, Tue), 1324 (G1, Wed), ................................ 1350 (H1, Tue), 2297 (Z2, Wed) Mirabella, Salvo..............................1931 (Q10, Wed) Mirambet, François.............................698 (C1, Mon) Miramontes, Jose Angel......................733 (C1, Tue), ..................................742 (C1, Wed), 744 (C1, Wed), ...............................................................749 (C2, Tue) Miranda, Juana.............766 (C2, Tue), 767 (C2, Tue) Mirza Rosca, Julia Claudia...................728 (C1, Tue) Misawa, Hiroaki................................... 567 (A8, Tue) Misharev, Alexander.......................... 1891 (Q1, Tue) Misra, Durga.....................................2088 (Q7, Mon) Misra, Pankaj..........917 (D3, Tue), 1571 (M1, Wed) Misra, Veena.......................................2053 (Q5, Thu) Mitra, Sagar.........................................477 (A6, Mon) Mitra, Somak...................................... 1584 (N1, Tue) Mitra, Sushanta...................................675 (B2, Mon) Mitsumoto, Keisuke.......................... 1637 (P3, Mon) Mitsushima, Shigenori........................ 619 (A9, Tue), ..................................1146 (F3, Tue), 1147 (F3, Tue), .................................1273 (F3, Thu), 1275 (F3, Thu), ...............................1461 (H6, Tue), 1474 (H6, Wed), ............................................................ 1520 (H7, Tue) Mittelsteadt, Cortney......................... 1093 (F3, Tue), ............................................................1222 (F3, Wed) Miura, Makoto....................................1831 (P7, Thu) Miura, Shu........................................... 1650 (P3, Tue) Miura, Takashi....... 1424 (H6, Mon), 1454 (H6, Tue) Miwa, Shinji...................................... 2040 (Q5, Wed) Miyairi, Hidekazu..............................2054 (Q5, Thu) Miyajima, Masaaki...........................1959 (Q3, Mon) Miyake, Junpei.................................... 1079 (F3, Tue) Miyamoto, Akira..................................969 (F2, Mon) Miyamoto, Junichi............................... 174 (A3, Tue) Miyanishi, Shoji..................................1279 (F3, Thu) Miyashiro, Hajime............................... 439 (A5, Thu) Miyashita, Hidetoshi......................... 2156 (R1, Wed) Miyatake, Kenji....... 1079 (F3, Tue), 1243 (F3, Wed) Miyawaki, Jun.....................................1015 (F3, Sun) Miyayama, M......................................2263 (Z1, Tue)

Miyayama, Masaru.............................2262 (Z1, Tue) Miyazaki, Kohei............. 32 (A1, Tue), 33 (A1, Tue), ................................... 233 (A4, Tue), 1284 (F3, Thu) Miyazaki, Kousuke.............................2198 (Z1, Tue) Miyazaki, Seiichi............................... 1785 (P7, Tue), ................................. 1795 (P7, Tue), 1803 (P7, Tue), . ...............................................................850 (P7, Thu) Miyazaki, Yoshinobu........................ 1861 (P8, Mon) Mizoguchi, Teruyasu..........................1274 (F3, Thu) Mizuhata, Minoru.............................. 1420 (H6, Sun) Mizuno, Fuminori..........108 (A2, Wed), 138 (A2, Wed) Mizusawa, Tatsuya................................ 992 (F2, Tue) Mizushima, Tomonori......................1959 (Q3, Mon) Mizutani, Kenji.................................1962 (Q3, Mon) Mo, Yifei................................................ 93 (A2, Wed) Moe, Sigurd.............. 1740 (P6, Tue), 1744 (P6, Tue) Moens, Filip........................................ 1658 (P3, Tue) Moens, Peter....................................... 1979 (Q3, Tue) Mogensen, Mogens.........40 (A1, Tue), 1235 (F3, Wed) Moghaddam, Saeed............................863 (D2, Mon) Mogi, Masato...........1272 (F3, Thu), 1274 (F3, Thu) Mohamed, Adel.....................................706 (C1, Tue) Mohamed, Ahmed...............................930 (E2, Wed) Mohamed, Rhiyaad............................. 1073 (F3, Tue) Mohammed-Brahim, Tayeb..........1904 (Q10, Mon), .........................................................1929 (Q10, Wed) Mohanty, Angela................................1265 (F3, Wed) Mohanty, Debasish.............................. 240 (A4, Tue) Mohanty, Som.....................................2230 (Z1, Tue) Mohd Zamzuri, Mohammad Zain......... 2073 (Q6, Tue) Mohite, Aditya...................................1306 (F3, Thu), .............................. 1528 (H7, Wed), 1532 (H7, Wed) Mohri, Nils..........................................2272 (Z1, Tue) Mohtadi, Rana..................................... 138 (A2, Wed) Moitzheim, Sebastien........................478 (A6, Mon), .............................................................2210 (Z1, Tue) Mokrini, Asmae.................................1193 (F3, Wed) Moldoveanu, Iuliana...........................679 (B2, Mon) Molenda, Janina.................................. 314 (A5, Wed) Molenda, Marcin.................................. 459 (A5, Thu) Molina, Mayela...................................2255 (Z1, Tue) Molina Reyes, Joel.......634 (B1, Tue), 695 (B2, Tue) Molter, Trent............1033 (F3, Sun), 1229 (F3, Wed) Momiyama, Misaki........................... 1315 (G1, Wed) Monconduit, Laure.............................485 (A6, Mon) Mongstad, Trygve............................... 428 (A5, Wed) Monroe, Charles............5 (A1, Mon), 53 (A2, Mon), .................................. 366 (A5, Wed), 446 (A5, Thu), ...............................................................611 (A9, Tue) Monroy, Fabiola..................................2252 (Z1, Tue) Monson, Todd..................................... 920 (D3, Wed) Montemayor, Sagrario.......................1197 (F3, Wed) Montemor, Maria Fátima.................... 833 (D1, Wed) Montes, Agustín.................................. 953 (E3, Mon) Montes de Oca, Maria........................ 504 (A6, Tue), ................................... 641 (B1, Tue), 835 (D1, Wed), ............................................................ 1900 (Q1, Tue) Montes de Oca-Yemha, Maria........... 505 (A6, Tue), .............................................................. 506 (A6, Tue) Montiel, Vicente.................................2320 (Z3, Wed) Montiel-Macias, Elizabeth.................2257 (Z1, Tue) Montméat, Pierre................................ 1732 (P6, Tue) Montoya, Fernando.......................... 1548 (H8, Wed), .............................................................2214 (Z1, Tue) Moon, Bum Ki.................................... 199 (A3, Wed) Moon, Chang-Rok.............................1749 (P6, Wed) Moon, Jinhee....................................... 411 (A5, Wed) Moon, Jinok.......................................1708 (P5, Wed) Moon, San...............................................87 (A2, Tue) Moon, Seung Jae.............................. 1919 (Q10, Tue) Moore, Michael...................................1032 (F3, Sun) Mooste, Marek..................................1377 (H2, Mon) Mora-Hernandez, Juan Manuel......... 1507 (H7, Tue) Morais, Claudia................................... 1122 (F3, Tue) Morales, Christophe......................... 1722 (P6, Mon), ............................................................. 1728 (P6, Tue)

Morales, Gabriela.................................947 (E2, Wed) Morales, Roberto................................2258 (Z1, Tue) Morales-Acosta, Diana...................... 1119 (F3, Tue), ............................................................. 1180 (F3, Tue) Morales-Anzures, Fernando.................648 (B1, Tue) Morales-Cruz, Myreisa.......................2258 (Z1, Tue) Morcrette, Mathieu.................................85 (A2, Tue) More, Karren............1082 (F3, Tue), 1110 (F3, Tue), ...............................1201 (F3, Wed), 1209 (F3, Wed), .............................................................1289 (F3, Thu) Moreau, Philippe..........90 (A2, Wed), 95 (A2, Wed), .................................. 218 (A4, Mon), 291 (A5, Tue), ............................................................. 322 (A5, Wed) Morel, Alban............ 198 (A3, Wed), 2247 (Z1, Tue) Moreno, Alonso................................ 1947 (Q2, Wed) Moretti, Arianna.................................. 533 (A7, Wed) Morgan, Dane......................................1037 (F3, Sun) Morgenroth, Laurence......................... 172 (A3, Tue) Mori, Daichi.........2093 (Q7, Mon), 2140 (Q9, Mon) Mori, Nobuya...................................... 1800 (P7, Tue) Mori, Takeshi.....................................1253 (F3, Wed) Mori, Takuya.......................................253 (A5, Mon) Mori, Yasuro......................................... 884 (D2, Tue) Moriceau, H........................................ 1728 (P6, Tue) Morikawa, Takahiro.......................... 2043 (Q5, Wed) Morimitsu, Masatsugu.......................2182 (Z1, Tue), .............................................................2184 (Z1, Tue) Morimoto, Masashi........................... 1726 (P6, Mon) Morimoto, Yu........ 1050 (F3, Mon), 1207 (F3, Wed) Morin, Sylvie......................................2188 (Z1, Tue) Morioka, Hiroyuki................................67 (A2, Mon) Morisaki, Seiji.................................1908 (Q10, Mon) Morishige, Taiki................................. 1437 (H6, Tue) Morishima, Shoya............................... 1065 (F3, Tue) Morishita, Tomoki...............................2184 (Z1, Tue) Morita, Akira....................................... 1685 (P5, Tue) Morita, Mizuho........2093 (Q7, Mon), 2140 (Q9, Mon) Moriyama, Yoshihiko........................ 1649 (P3, Tue), ............................................................. 1792 (P7, Tue) Morris, Amanda................................. 588 (A8, Wed), ..................................1882 (P9, Tue), 2064 (Q6, Tue) Mortazavi, Nooshin............................ 804 (C3, Wed) Mortera-Merino, Juvencio....................775 (C2, Tue) Mortimer, Roger.................................1710 (P5, Wed) Mosleh, Aboozar..........1830 (P7, Thu), 1844 (P7, Thu), ..................................1845 (P7, Thu), 1854 (P7, Thu) Mosqueda, Hugo.................................167 (A3, Mon) Mostafa, Ehab................................... 1469 (H6, Wed) Motegi, Haruki.................................... 1108 (F3, Tue) Motoyama, K...................................... 1611 (P1, Tue) Moulin, Jean-Francois........................265 (A5, Mon) Moulin, Johan.............687 (B2, Tue), 1743 (P6, Tue) Mourier, Thierry.................................. 1690 (P5, Tue) Moussa, Alain.....................................1811 (P7, Wed) Moutanabbir, Oussama.................... 1719 (P6, Mon), .................................1741 (P6, Tue), 1843 (P7, Thu), .............................................................1846 (P7, Thu) Movil-Cabrera, Omar.........................927 (E2, Wed), ............................................................. 1060 (F3, Tue) Moylan, Thomas................................1249 (F3, Wed) Mozetič, Miran................................... 1591 (N1, Tue) Mudgal, Tarun........................................ 1924 (Q10, Tue) Mueller, Brennen...............................1712 (P5, Wed) Mueller, Franziska..............................2176 (Z1, Tue) Mueller, Jonathan..................................66 (A2, Mon) Muhammad, Shoaib........................... 417 (A5, Wed), ...................................418 (A5, Wed), 421 (A5, Wed) Mukai, Kazuhiko................................ 340 (A5, Wed) Mukai, Shin........................................1253 (F3, Wed) Mukai, Takehito..................................2179 (Z1, Tue) Mukaibo, Hitomi.................................2194 (Z1, Tue) Mukerjee, Sanjeev.............................. 284 (A5, Tue), ................................. 1019 (F3, Sun), 1510 (H7, Tue) Mukherjee, Aniruddha...................... 1994 (Q3, Wed) Mukherjee, Partha........... 447 (A5, Thu), 468 (A5, Thu) Mukherjee, Santanu............................ 361 (A5, Wed)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

217


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Mukouyama, Masato........................... 461 (A5, Thu) Mukouyama, Yoshiharu................... 1556 (H8, Wed), ..................................2211 (Z1, Tue), 2212 (Z1, Tue) Mukundan, Randachary.................... 654 (B1, Wed), ............................................................1201 (F3, Wed) Mulder, Martijn..................................1233 (F3, Wed) Müller, Franziska................................. 452 (A5, Thu) Müller, Johannes............................... 2115 (Q7, Wed) Müller, Stefan.................................... 2115 (Q7, Wed) Müller Gubler, Elisabeth..................1822 (P7, Wed), .............................................................1851 (P7, Thu) Müller-Weihrich, Konstantin..............904 (D3, Mon) Mun, Jihun.......................................... 2107 (Q7, Tue) Munakata, Hirokazu..........................261 (A5, Mon), .................................. 264 (A5, Mon), 411 (A5, Wed) Munakata, Tetsuo...............................1228 (F3, Wed) Mundotiya, Brij Mohan...................... 923 (D3, Wed) Muñoz, Eduardo............................... 1367 (H1, Tue), .................................1368 (H1, Tue), 1409 (H2, Tue) Murakami, Hideki........ 1785 (P7, Tue), 1803 (P7, Tue) Murali, Kollegal Ramakrishna.......... 827 (D1, Wed), ..................................828 (D1, Wed), 829 (D1, Wed), ..................................830 (D1, Wed), 831 (D1, Wed), ................................. 832 (D1, Wed), 1886 (P9, Tue), .................................2077 (Q6, Tue), 2078 (Q6, Tue) Murali, Ramakrishna.......................... 826 (D1, Wed) Muramoto, Hirokazu..........................1276 (F3, Thu) Muranishi, Toru...................................1290 (F3, Thu) Murase, Kuniaki........ 65 (A2, Mon), 834 (D1, Wed), ..................................839 (D1, Thu), 1369 (H1, Tue), .............................. 1417 (H6, Sun), 1555 (H8, Wed), ........................................................... 1557 (H8, Wed) Murayama, Haruno.................................31 (A1, Tue) Murcio-Hernández, Saachnitee........1380 (H2, Mon) Murmann, Patrick................................ 517 (A7, Tue) Muroyama, Hiroki................................ 979 (F2, Tue) Murphy, Graham................................. 539 (A7, Wed) Murphy, James.................................. 2166 (R1, Wed) Murrieta, H..........................................2215 (Z1, Tue) Murugan, Sambandam....................... 826 (D1, Wed) Murugesan, Vijayakumar.................... 601 (A9, Tue) Musil, Mike......................................... 120 (A2, Wed) Muskens, Otto...................................1634 (P1, Wed), ..............................2022 (Q4, Wed), 2126 (Q8, Mon) Mussler, Gregor.........1769 (P7, Mon), 1827 (P7, Thu), ..................................1836 (P7, Thu), 1846 (P7, Thu) Mustain, William...............................1204 (F3, Wed) Muthuswamy, Navaneethan............. 1518 (H7, Tue), ............................................................ 1523 (H7, Tue) Muto, Izumi..............801 (C3, Wed), 803 (C3, Wed), ................................. 1069 (F3, Tue), 2175 (Z1, Tue), ..................................2222 (Z1, Tue), 2228 (Z1, Tue) Mutschke, Gerd................................... 922 (D3, Wed) Mututuvari, Tamutsiwa..................... 1478 (H6, Wed) Myers, Deborah..................................1037 (F3, Sun) Myers-Ward, R. L.............................. 1972 (Q3, Tue) Myojin, Masao..........336 (A5, Wed), 343 (A5, Wed) Myung, Nosang................................... 817 (D1, Wed) Myung, Seung-Taek............................ 148 (A2, Thu), ...................................282 (A5, Tue), 309 (A5, Wed), ..................................423 (A5, Wed), 424 (A5, Wed), .............................................................. 454 (A5, Thu) Myung, Yoon....................................... 547 (A8, Sun), ................................. 594 (A8, Wed), 1628 (P1, Wed)

Nagai, Shuichi...................................1962 (Q3, Mon) Nagai, Tsukasa.........1130 (F3, Tue), 1522 (H7, Tue) Nagai, Yuta........................................ 1635 (P3, Mon) Nagamatsu, Kenichi............................ 1067 (F3, Tue) Nagamatsu, Yohei.............................. 1140 (F3, Tue), ................................. 1161 (F3, Tue), 1205 (F3, Wed) Nagamine, Masayuki............................67 (A2, Mon) Nagaoka, Yuichi.................................. 1787 (P7, Tue) Nagar, Magi.......................................... 912 (D3, Tue) Nagasawa, Kensaku............................ 1067 (F3, Tue) Nagasawa, Tsuyoshi............................. 986 (F2, Tue) Nagashima, Akiyo............................... 1168 (F3, Tue) Nagasubramanian, Ganesan................ 518 (A7, Tue) Nagata, Yusaku.................................... 380 (A5, Wed) Nagatomi, Yuta.................................... 1787 (P7, Tue) Nagatomo, Sho....................................1840 (P7, Thu) Nagatsuka, Shuhei.............................2054 (Q5, Thu) Nagpure, Shrikant................................ 240 (A4, Tue) Naguib, Michael.................................. 101 (A2, Wed) Nagumo, Yuzo..................................... 1158 (F3, Tue) Nah, Junghyo.................................... 2030 (Q4, Wed) Nahm, KeeSuk..........128 (A2, Wed), 406 (A5, Wed) Naicker, Selvaraj.................................675 (B2, Mon) Naito, Shinji...................................... 2046 (Q5, Wed) Naito, Takehiro.................................... 894 (D2, Wed) Nakagawa, Akitoshi......................... 1928 (Q10, Tue) Nakagawa, Nobuyoshi........................ 1113 (F3, Tue) Nakagawa, Satoko............................ 1635 (P3, Mon) Nakai, Hiromi...................................... 894 (D2, Wed) Nakajima, Azusa................................. 897 (D2, Wed) Nakajima, Hironori............................ 380 (A5, Wed), ...............................1224 (F3, Wed), 1234 (F3, Wed), .............................................................2244 (Z1, Tue) Nakajima, Hitoshi............................... 1160 (F3, Tue) Nakajima, Kaoru............................... 2025 (Q4, Wed) Nakajima, Kazuki...............................2229 (Z1, Tue) Nakajima, Tomohiko........................2005 (Q4, Mon) Nakama, Yuji....................................... 1158 (F3, Tue) Nakamura, G.....................................2088 (Q7, Mon) Nakamura, Hisao.............................. 2041 (Q5, Wed) Nakamura, Kai.................................... 834 (D1, Wed) Nakamura, Ken................................... 1134 (F3, Tue) Nakamura, Masatoshi......................... 896 (D2, Wed) Nakamura, Noriaki............................1704 (P5, Wed) Nakamura, Ryosuke............................ 116 (A2, Wed) Nakamura, Shinjiro............................1255 (F3, Wed) Nakamura, Yoshiaki........................... 2098 (Q7, Tue) Nakanishi, Koji.......................................81 (A2, Tue) Nakanishi, Shinji...........76 (A2, Tue), 98 (A2, Wed), ...................................125 (A2, Wed), 293 (A5, Wed) Nakanishi, Shuji............................... 1544 (H8, Wed), ................................ 1556 (H8, Wed), 2212 (Z1, Tue) Nakanishi, Takuya................................ 884 (D2, Tue) Nakanishi, Yuta................................... 387 (A5, Wed) Nakano, Akihiro.................................1228 (F3, Wed) Nakano, Hideyuki............................... 340 (A5, Wed) Nakano, Takeshi......................................1 (A1, Mon) Nakashima, Hiroshi............................ 1787 (P7, Tue) Nakashima, Naotoshi.........................1041 (F3, Sun), ..................................1111 (F3, Tue), 1168 (F3, Tue), ...........................................................1335 (H1, Mon) Nakata, Akiyoshi.....................................31 (A1, Tue) Nakata, Yoshiyuki...............................254 (A5, Mon) Nakatani, Taichi..............................1908 (Q10, Mon) Nakatsuka, Osamu........................... 1772 (P7, Mon), .............................................................1834 (P7, Thu) Nakayama, Hideki................................ 98 (A2, Wed) Nakayama, Koji................................1959 (Q3, Mon) Nakayama, Masanobu......................... 151 (A2, Thu) Nakayama, Seiji..................................2199 (Z1, Tue) Nakayama, Yuri.....................................67 (A2, Mon) Nakazawa, Masashi........................... 1646 (P3, Tue), ............................................................. 1656 (P3, Tue) Nakos, James........... 1805 (P7, Tue), 1824 (P7, Wed) Nam, Do-Hwan................................... 1078 (F3, Tue)

Nam, Donguk...................................... 1796 (P7, Tue) Nam, Ilho............................................ 2083 (Q6, Tue) Nam, Kyung-Wan...............................260 (A5, Mon) Nam, Sang Yong.......999 (F2, Tue), 2318 (Z3, Wed) Nam, Suk Woo................................... 1151 (F3, Tue), ................................. 1152 (F3, Tue), 1238 (F3, Wed) Nam, Wook Jun...............................1903 (Q10, Mon) Namkoong, Gon..........2081 (Q6, Tue), 2083 (Q6, Tue) Namura, Kyoko..........2025 (Q4, Wed), 2153 (Q9, Tue) Nanda, Jagjit...........................................34 (A1, Tue), .................................. 248 (A4, Wed), 483 (A6, Mon) Nandhakumar, Iris.............................1381 (H2, Mon) Nanver, Lis..........................................1833 (P7, Thu) Naoi, Katsuhiko.........174 (A3, Tue), 204 (A3, Wed) Naoi, Wako.................174 (A3, Tue), 204 (A3, Wed) Napporn, Teko..................................... 1122 (F3, Tue) Narayan, S. R..........................................9 (A1, Mon) Narayanan, S...........................................19 (A1, Tue) Narischat, Napan................................1253 (F3, Wed) Nartividad, Reyna................................949 (E2, Wed) Naruskevicius, Leonas........................ 837 (D1, Wed) Narváez, Lilia...............766 (C2, Tue), 767 (C2, Tue) Naseem, Hameed.........1830 (P7, Thu), 1844 (P7, Thu), ..................................1845 (P7, Thu), 1854 (P7, Thu) Nasybulin, Eduard............................... 497 (A6, Tue) Nath, Narayan......... 2061 (Q6, Tue), 2243 (Z1, Tue) Natishan, Paul......................................716 (C1, Tue), ................................. 787 (C2, Wed), 2296 (Z2, Wed) Naumenko, Alexander....................... 1891 (Q1, Tue) Nava, Dora........................................... 545 (A7, Thu) Nava, José..................926 (E2, Wed), 932 (E2, Wed), .................................. 937 (E2, Wed), 952 (E3, Mon), ..................................954 (E3, Mon), 955 (E3, Mon), .............................................................2195 (Z1, Tue) Navarrete, Emilio.........1367 (H1, Tue), 1409 (H2, Tue) Navarro-Contreras, H......................... 1798 (P7, Tue) Nayfeh, Ammar......1879 (P9, Tue), 2143 (Q9, Mon) Nazar, Linda........................................ 539 (A7, Wed) Nazarov, Andrej.................................. 790 (C3, Wed) Nazzal, Amjad..........1830 (P7, Thu), 1845 (P7, Thu) Nealey, Paul......................................... 1610 (P1, Tue) Nealson, Kenneth.............................. 2275 (Z2, Mon) Neels, Antonia....................................1822 (P7, Wed) Negishi, Takayuki............................... 1170 (F3, Tue) Negoro, Noboru................................1962 (Q3, Mon) Negro, Emanuela................................ 1114 (F3, Tue) Negro, Enrico...........56 (A2, Mon), 1499 (H7, Mon) Negrón, Guillermo................................736 (C1, Tue) Nejati, Siamak..........201 (A3, Wed), 1583 (N1, Tue) Nelson, Andrew.................................1709 (P5, Wed) Nelson, Edward.................................2125 (Q8, Mon) Nelson, Geoffrey................................ 1354 (H1, Tue) Nelson, Jeffrey......................................754 (C2, Tue) Nelson, Kathlyne................................ 317 (A5, Wed) Nelson, Shelby.................................. 1605 (P1, Mon) Nemeth, Sandor................................. 1399 (H2, Tue) Nemoto, Yuichi................................. 1637 (P3, Mon) Nerimetla, Rajasekhara.................... 1325 (G1, Wed), ................................1326 (G1, Wed), 1348 (H1, Tue) Nerl, Hannah.................................... 1572 (M1, Wed) Netwall, Christopher........................... 1103 (F3, Tue) Neyerlin, K. C..........1035 (F3, Sun), 1269 (F3, Thu) Ng, Desmond..........................................51 (A1, Tue) Ng, Tien.............................................2144 (Q9, Mon) Ngo, Duc Tung.................................... 395 (A5, Wed) Ngoepe, Phuti...................................... 141 (A2, Wed) Nguyen, Binh Phuong Nhan............... 271 (A5, Tue) Nguyen, Cao.............. 223 (A4, Mon), 509 (A7, Tue) Nguyen, Sang.....................................1665 (P3, Wed) Nguyen, Thi Ai Nguyet....................... 177 (A3, Tue) Nguyen, Trung........... 613 (A9, Tue), 614 (A9, Tue), ....................................615 (A9, Tue), 964 (E3, Mon) Nguyen, Truong Giang....................... 538 (A7, Wed) Ni, Chung-Ta............142 (A2, Wed), 145 (A2, Wed), ....................................431 (A5, Wed), 987 (F2, Tue), ............................................................. 1005 (F2, Tue)

N

Na, Bock Soon.................................. 2120 (Q7, Wed) Na, Heedo.......................................... 2117 (Q7, Wed) Nabae, Yuta.........................................1277 (F3, Thu) Nabil-Moreau, Yannick......................1308 (F3, Thu) Naccarelli, Anthony............................ 786 (C2, Wed) Nachtegaal, Maarten........................... 1064 (F3, Tue) Nad, Suddhasattwa.............................. 883 (D2, Tue) Nadezhkina, Olga....................................49 (A1, Tue) Nagai, Haruna.................................... 1515 (H7, Tue) 218

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Ní Eidhin, Deirdre...................................22 (A1, Tue) Nicolopoulos, Stavros.......................... 470 (A5, Thu) Nicolosi, Valeria.................................170 (A3, Mon), .................................171 (A3, Tue), 1572 (M1, Wed) Nie, Mengyun.....................................223 (A4, Mon) Nie, Tianxiao......................................1820 (P7, Wed) Nie, Zimin................... 601 (A9, Tue), 602 (A9, Tue) Niederberger, Christoph..................... 890 (D2, Wed) Niedermann, Philippe........................1822 (P7, Wed) Niedzicki, Leszek..........144 (A2, Wed), 536 (A7, Wed) Nierenberg, Kerry.................................686 (B2, Tue) Niinistö, Jaakko..................................1624 (P1, Wed) Nilges, Tom......................................... 303 (A5, Wed) Nilsen, Ola......................................... 1599 (P1, Mon) Ning, Guiling..........................................21 (A1, Tue) Nishi, Hidetaka....................................1838 (P7, Thu) Nishi, Koichi....................................... 1645 (P3, Tue) Nishi, Naoya...................................... 1557 (H8, Wed) Nishi, Yoshio..................................... 2114 (Q7, Wed) Nishida, Kosuke..................................1290 (F3, Thu) Nishida, Robert...................................1027 (F3, Sun) Nishida, Shota................................... 1726 (P6, Mon) Nishida, Yasuhiro................................2189 (Z1, Tue) Nishide, Hiroyuki..........1108 (F3, Tue), 1158 (F3, Tue) Nishigaki, Hiroshi............................. 1766 (P7, Mon) Nishihara, Masamichi.........................1294 (F3, Thu) Nishiie, Daiki......................................901 (D3, Mon) Nishikata, A..........................................763 (C2, Tue), ...................................1068 (F3, Tue), 1136 (F3, Tue) Nishikata, Atsushi.................................720 (C1, Tue) Nishikawa, Kei.................................... 411 (A5, Wed) NIshikawa, Takehito........................... 1143 (F3, Tue) Nishiki, Yoshinori................................ 619 (A9, Tue) Nishikoori, Hidetaka........76 (A2, Tue), 125 (A2, Wed) Nishimura, Eiichi................................ 1689 (P5, Tue) Nishimura, Koichi...............................2185 (Z1, Tue) NIshimura, Kouhei............................. 1697 (P5, Tue) Nishimura, Shinichi............................ 302 (A5, Wed) Nishimura, Tomonori........................2090 (Q7, Mon) Nishimura, Yusaku..............................267 (A5, Mon) Nishino, Eriko..................................... 1079 (F3, Tue) Nishiyama, Hiroshi............................. 600 (A8, Wed) Nist-Lund, Carl.....................................64 (A2, Mon) Nitta, Iwao...............................................76 (A2, Tue) Nitta, Kiyofumi...................................2224 (Z1, Tue) Nitta, Koji.............................................. 97 (A2, Wed) Niu, G.................................................. 1784 (P7, Tue) Niwa, Hideharu...................................1015 (F3, Sun) Niwa, Masaaki.................................. 2114 (Q7, Wed) Niwano, Michio...................................650 (B1, Tue), . ..............................677 (B2, Mon), 1911 (Q10, Mon) Njodzefon, Jean-Claude.........................40 (A1, Tue) Nobili, Luca...........................................682 (B2, Tue) Noborikawa, Jennifer.......................... 1125 (F3, Tue) Noda, Zhiyun...........1140 (F3, Tue), 1154 (F3, Tue), ..................................1155 (F3, Tue), 1161 (F3, Tue), ................................1200 (F3, Wed), 1205 (F3, Wed) Noguchi, Hidenori............................. 1361 (H1, Tue) Noguchi, Masataka.............................1831 (P7, Thu) Nogueira, Jéssica............................... 1558 (H8, Wed) Noh, H.-J............................................. 424 (A5, Wed) Noh, Hyung-Joo.................................. 423 (A5, Wed) Noh, Hyungjun........................................88 (A2, Tue) Noh, Se Myoung................................ 1596 (N1, Tue) Noh, Seungtak....... 1598 (P1, Mon), 2321 (Z3, Wed) Noh, Sun Young.................................. 595 (A8, Wed) Noh, Tae Won.................................... 2036 (Q5, Wed) Nohara, Masaya....................................61 (A2, Mon) Nohira, Hiroshi.........1804 (P7, Tue), 1987 (Q3, Tue) Nohira, Toshiyuki...........97 (A2, Wed), 1166 (F3, Tue), ...............................1438 (H6, Tue), 1472 (H6, Wed), ................................ 1490 (H6, Thu), 1491 (H6, Thu) Nöhren, Sandra...................................489 (A6, Mon) Noked, Malachi.................................. 107 (A2, Wed), .................................... 231 (A4, Tue), 498 (A6, Tue), .............................................................2187 (Z1, Tue)

Nolis, Gene.......................................... 144 (A2, Wed) Noll, Pascal.......................................... 358 (A5, Wed) Nolot, Emmanuel................................ 1806 (P7, Tue) Nonaka, Takamasa........267 (A5, Mon), 461 (A5, Thu) Norberg, Nicolas.................................222 (A4, Mon) Norby, Poul......................................... 382 (A5, Wed) Norhidayah, S......................................1848 (P7, Thu) Norkus, Eugenijus.............................. 836 (D1, Wed), ...................................837 (D1, Wed), 879 (D2, Tue), .................................... 881 (D2, Tue), 882 (D2, Tue), ..................................888 (D2, Wed), 1123 (F3, Tue), ..................................1127 (F3, Tue), 1173 (F3, Tue), ..................................1174 (F3, Tue), 1175 (F3, Tue), ...................................1176 (F3, Tue), 1177 (F3, Tue) Normand, Bernard................................714 (C1, Tue) Noroozi, Mohammad....................... 1775 (P7, Mon), .............................................................1829 (P7, Thu) North, Thomas.................................... 793 (C3, Wed) Northrop, Paul................. 35 (A1, Tue), 36 (A1, Tue) Nose, Masafumi.................................... 98 (A2, Wed) Notsu, Hideo..................................... 1537 (H7, Wed) Novák, Petr..................54 (A2, Mon), 235 (A4, Tue), ...................................241 (A4, Tue), 326 (A5, Wed), ............................................................. 539 (A7, Wed) Novoselova, Inessa............................ 1451 (H6, Tue) Nowotny, Janusz................................2298 (Z2, Wed) Nozaki, Takayuki.............................. 2040 (Q5, Wed) Nozik, Arthur......................................556 (A8, Mon) Numoto, Tatsuhiro..............................2240 (Z1, Tue) Nunes, Suzana....................................2291 (Z2, Wed) Nunez, Michael................................... 786 (C2, Wed) Nuñez, Rosa.......................................699 (C1, Mon), ......................................715 (C1, Tue), 724 (C1, Tue) Nunn, Zachary.....................................1297 (F3, Thu) Nuytten, Thomas.................................1858 (P7, Thu) Nyce, MIchael..................................... 124 (A2, Wed) Nyns, Laura......................................... 1613 (P1, Tue)

Oh, Hoon Jung.................................... 1677 (P4, Tue) Oh, Hyesong.......................................1708 (P5, Wed) Oh, Hyo-Jin.......................................... 454 (A5, Thu) Oh, Ji Young...................................... 2120 (Q7, Wed) Oh, Jinho........................................... 2117 (Q7, Wed) Oh, Jungwoo......... 2308 (Z3, Wed), 2310 (Z3, Wed) Oh, Keun-Hwan....... 1087 (F3, Tue), 1088 (F3, Tue) Oh, Kyu...................353 (A5, Wed), 2036 (Q5, Wed) Oh, Pilgun............................................ 365 (A5, Wed) Oh, Seung Jae...................................... 1874 (P9, Tue) Oh, Taeseok........................................1749 (P6, Wed) Oh, Woong.......................................... 421 (A5, Wed) Oh, Yoonbae...................................... 1328 (G1, Wed) Ohara, Katsuhiko................................ 1685 (P5, Tue) Ohashi, Hidenori...............................1221 (F3, Wed), ..................................1287 (F3, Thu), 1295 (F3, Thu) Ohgi, Yoshiro.......... 1275 (F3, Thu), 1520 (H7, Tue) Ohira, Akihiro....................................1196 (F3, Wed) Ohishi, Yuji........................................ 1861 (P8, Mon) Ohkubo, Kei..................................... 1567 (M1, Wed) Ohmi, Koutoku..........2156 (R1, Wed), 2158 (R1, Wed) Ohmura, Tomohiko.............................2175 (Z1, Tue) Ohnishi, Tomohiro.............................1254 (F3, Wed) Ohno, Takashi..................................... 1158 (F3, Tue) Ohsaka, Takeo................................... 1534 (H7, Wed) Ohshita, Yoshio...................................1828 (P7, Thu) Ohta, Akio.......................................... 1785 (P7, Tue), ..................................1803 (P7, Tue), 1850 (P7, Thu) Ohta, Kohei........................................1702 (P5, Wed) Ohta, Shingo......................................... 542 (A7, Thu) Ohta, Toshiaki.........................................81 (A2, Tue) Ohtake, Hiroshi..................................1746 (P6, Wed) Ohyanagi, Takasumi......................... 2043 (Q5, Wed) Oishi, Silvia........................................2319 (Z3, Wed) Oishi, Tetsuo.......................................1490 (H6, Thu) Oji, Hiroshi............................................ 94 (A2, Wed) Oka, Hiroshi......................................2093 (Q7, Mon) Okabe, Kazuki................................... 1637 (P3, Mon) Okabe, Kyouhei.................................. 1691 (P5, Tue) Okada, Sakie....................................... 1739 (P6, Tue) Okada, Yohei......................................1273 (F3, Thu), ..................................1274 (F3, Thu), 1275 (F3, Thu) Okajima, Takeyoshi.......................... 1534 (H7, Wed) Okamoto, Dai....................................1959 (Q3, Mon) Okamoto, Mitsuo..............................1959 (Q3, Mon) Okamoto, Naoki.........1679 (P5, Mon), 1695 (P5, Tue), ................................. 1697 (P5, Tue), 1699 (P5, Wed) Okamoto, Satoshi................................900 (D3, Mon) Okamura, Kosuke..............................1224 (F3, Wed) Okamura, Takaaki............................... 1170 (F3, Tue) Okatan, M............................................ 535 (A7, Wed) Okazaki, Kenichi................................ 1139 (F3, Tue) Okazaki, Kota......................................1838 (P7, Thu) Okigawa, Yuki.................................... 2007 (Q4, Tue) Okuda, Chikaaki.................................267 (A5, Mon) Okuda, Takashi...................................2054 (Q5, Thu) Okumura, Hajime.............................1959 (Q3, Mon) Okuno, Kosuke................................... 1063 (F3, Tue) Okura, Hiroshi................................... 2156 (R1, Wed) Okyay, Ali...............1879 (P9, Tue), 2143 (Q9, Mon) Oldiges, Philip..................................... 1791 (P7, Tue) Oleshko, Vladimir...................................84 (A2, Tue) Olguin, Francisco..................................777 (C2, Tue) Olguin, Marco...................................... 541 (A7, Thu) Oliveira, M. C.....................................1040 (F3, Sun) Oliveira, Vanessa................................. 1122 (F3, Tue) Oliver-Tolentino, Miguel....................220 (A4, Mon) Olmen, Jan..........................................1713 (P5, Wed) Olson, Luke.............. 741 (C1, Wed), 743 (C1, Wed), ................................ 1493 (H6, Thu), 1496 (H6, Thu) Olvera, Juan..............835 (D1, Wed), 1900 (Q1, Tue) O’Mahony, Marcus.................................22 (A1, Tue) O’Malley, Rachel................................1300 (F3, Thu) Omanovic, Sasha................................168 (A3, Mon) Omel’chuk, Anatolii.......................... 1460 (H6, Tue) Omichi, Kaoru..................................... 114 (A2, Wed)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

O

Oberholzer, Pierre..............................1220 (F3, Wed) Oboroceanu, Daniela..............................22 (A1, Tue) O’Brien, Sean..........171 (A3, Tue), 1572 (M1, Wed) Obrovac, Mark..............3 (A1, Mon), 18 (A1, Mon), .....................................91 (A2, Wed), 152 (A2, Thu), ....................................273 (A5, Tue), 429 (A5, Wed) Obulreddy, Santosh Kumar Reddy......... 1620 (P1, Tue) Ocampo-Espindola, Jorge..................2214 (Z1, Tue) Oda, Atsushi........................................ 1165 (F3, Tue) Oda, Kengo......................................... 1170 (F3, Tue) Oda, Minoru............. 1649 (P3, Tue), 1792 (P7, Tue) Odom, Susan..................................... 1473 (H6, Wed) O’Dwyer, Colm..................................259 (A5, Mon), ..............................1863 (P8, Mon), 1865 (P8, Mon), .................................. 1876 (P9, Tue), 1881 (P9, Tue) Oehme, Michael.......1797 (P7, Tue), 1836 (P7, Thu) Oesterlin, Peter.................................. 1771 (P7, Mon) Oezaslan, Mehtap................................ 1064 (F3, Tue) Offer, Greg................. 214 (A3, Thu), 438 (A5, Thu) Ogawa, Junichiro................................ 803 (C3, Wed) Ogawa, Masahiro....................................81 (A2, Tue) Ogawa, Takaya...................................1247 (F3, Wed) Oger, Loïc..............................................739 (C1, Tue) Ogino, Isao.........................................1253 (F3, Wed) Ogino, Kazuya.................................. 1537 (H7, Wed) O’Grady, William.............................1432 (H6, Mon), ............................................................2296 (Z2, Wed) Ogu, Kenichi......................................1196 (F3, Wed) Ogumi, Zempachi.......... 31 (A1, Tue), 81 (A2, Tue), .................................. 237 (A4, Tue), 266 (A5, Mon), ................................... 379 (A5, Wed), 460 (A5, Thu) Ogura, Atsushi.................................. 1765 (P7, Mon), .................................1792 (P7, Tue), 1828 (P7, Thu), ................................1848 (P7, Thu), 2084 (Q7, Mon) Ogura, Daiki........................................ 822 (D1, Wed) Oh, Dong Won...................................1708 (P5, Wed) Oh, Himchan.................................... 1918 (Q10, Tue)

219


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Omosebi, Ayokunle............................2293 (Z2, Wed) Ong, Chin Lee..................................... 1738 (P6, Tue) Ong, Mitchell............221 (A4, Mon), 540 (A7, Thu) Ong, Shyue............................................ 93 (A2, Wed) Oniku, Ololade....................................902 (D3, Mon) Ono, Hideki........................................1490 (H6, Thu) Ono, Kohei..........................................2209 (Z1, Tue) Ono, Mizuki............. 1649 (P3, Tue), 1792 (P7, Tue) Ono, Takahiro...................................... 1803 (P7, Tue) Onofre-Bustamante, Edgar................. 779 (C2, Wed) Onuki, Tatsuya...................................2054 (Q5, Thu) Onyeozili, Edith.................................. 824 (D1, Wed) Onyshko, Dmitry...... 45 (A1, Tue), 1341 (H1, Mon) Ooi, Azusa........................................... 1136 (F3, Tue) Ooi, Boon..........................................2144 (Q9, Mon) Oono, Yuka.......................................... 1090 (F3, Tue) Oose, Naoyuki...................................1959 (Q3, Mon) Ophus, Colin........................................ 470 (A5, Thu) Opsomer, Karl..................................... 1658 (P3, Tue) Orazem, Mark.....................................863 (D2, Mon) Orendorff, Christopher........................ 518 (A7, Tue) Orfali, Wasim........................................683 (B2, Tue) Organ, Levent.................................... 1551 (H8, Wed) Oriani, Andrea............364 (A5, Wed), 813 (D1, Tue) Orikasa, Yuki............253 (A5, Mon), 460 (A5, Thu), .................................. 1139 (F3, Tue), 2224 (Z1, Tue) Orlik, Marek...................................... 1553 (H8, Wed) Orliukas, Antanas F............................. 431 (A5, Wed) Orlowska, Justyna.............................1337 (H1, Mon) Orozco, Diana..................................... 1082 (F3, Tue) Orozco-Cruz, Ricardo...........................775 (C2, Tue) Ortega, Dulce...............721 (C1, Tue), 723 (C1, Tue) Ortega, Nora......................................... 918 (D3, Tue) Ortega, R.............................................. 880 (D2, Tue) Ortega Borges, Raul........................... 1452 (H6, Tue) Ortiz, Josefina............ 938 (E2, Wed), 956 (E3, Mon) Ortiz-García, H....................................2235 (Z1, Tue) Ortiz-Ortega, Euth............................. 1519 (H7, Tue) Osaka, Tetsuya............ 869 (D2, Tue), 884 (D2, Tue) Osamura, Keisuke...............................2237 (Z1, Tue) Oschatz, Martin................................... 106 (A2, Wed) Oschmann, Bernd...............................2176 (Z1, Tue) Oshiba, Yuhei..........1221 (F3, Wed), 1287 (F3, Thu) Oshima, Masaharu..............................1015 (F3, Sun) Oshima, Tatsuya.................................1196 (F3, Wed) Osipenko, Alexandr.......................... 1456 (H6, Tue), ............................................................ 1467 (H6, Tue) Oskam, Gerko............815 (D1, Tue), 846 (D1, Thu), ................................2062 (Q6, Tue), 2063 (Q6, Tue), ............................................................ 2066 (Q6, Tue) Osman, Haris......................................1713 (P5, Wed) Ossikovski, Razvigor.......................... 1794 (P7, Tue) Osswald, Patrick................................. 348 (A5, Wed) Osterloh, Frank..................................... 571 (A8, Tue) Ostermay, Ina...................................... 1776 (P7, Tue) Östling, Mikael................................... 1786 (P7, Tue), .................................1814 (P7, Wed), 1829 (P7, Thu) Ostrikov, Kostya (Ken)...................... 1580 (N1, Tue) O’Sullivan, E.......................................903 (D3, Mon) Oswald, Steffan................................... 924 (D3, Wed) Ota, Hisayoshi...................................... 461 (A5, Thu) Ota, Ken-ichiro................................... 1146 (F3, Tue), ................................. 1147 (F3, Tue), 1272 (F3, Thu), .................................1273 (F3, Thu), 1274 (F3, Thu), ................................. 1275 (F3, Thu), 1520 (H7, Tue) Otake, Asako.......................................2228 (Z1, Tue) Otani, Minoru....................................... 239 (A4, Tue) Otani, Tomohiro.......901 (D3, Mon), 2233 (Z1, Tue) Otsuka, Nobuyuki.............................1962 (Q3, Mon) Otsuka, Shintaro........2037 (Q5, Wed), 2047 (Q5, Wed) Otsuki, Akihiro..................................1959 (Q3, Mon) Ott, John.............................................1815 (P7, Wed) Ouchi, Takahiro................................... 405 (A5, Wed) Ouchi, Takanari................................... 740 (C1, Wed) Ould Amara, Salem.............................. 178 (A3, Tue) Outlaw, Ronald................................... 209 (A3, Wed)

Ouvrard, Guy....................................... 291 (A5, Tue) Owen, Drew..........................................637 (B1, Tue) Owen, John...........................................12 (A1, Mon), .................................. 58 (A2, Mon), 1531 (H7, Wed) Oyaizu, Nobuhisa............................. 1537 (H7, Wed) Oyama, Gosuke.................................... 156 (A2, Thu) Oyama, Hidenori............................... 1638 (P3, Mon) Oyanagi, Takahiro...............................2229 (Z1, Tue) Ozanam, François...............................227 (A4, Mon) Ozcan, Ayse.......................................2143 (Q9, Mon) Ozdemir, M. Ozan.............................1229 (F3, Wed) Ozen, Gonul...................................... 2164 (R1, Wed) Ozimek, Weronika............................. 1390 (H2, Tue) Ozkan, Umit...................................... 1533 (H7, Wed)

Paredes, Stephan................................. 1738 (P6, Tue) Parekh, Vishal....................................1714 (P5, Wed) Park, Andrew.......................................1281 (F3, Thu) Park, Byung Hyun................................ 983 (F2, Tue) Park, Chae-Min..................................1711 (P5, Wed) Park, Chan Woo................................ 2120 (Q7, Wed) Park, Chan-Jin..........122 (A2, Wed), 123 (A2, Wed), ...................................394 (A5, Wed), 395 (A5, Wed) Park, Cheol-Ho.........346 (A5, Wed), 350 (A5, Wed) Park, Dae-Gyu......... 1790 (P7, Tue), 1815 (P7, Wed) Park, Daiin........................................... 624 (A9, Wed) Park, Dambi........................................2265 (Z1, Tue) Park, Eunjun........................................ 381 (A5, Wed) Park, EunSik...................................... 1641 (P3, Mon) Park, Ga-Eun....................................... 122 (A2, Wed) Park, Gang-Jun.................................... 424 (A5, Wed) Park, Gu-Gon............1131 (F3, Tue), 1148 (F3, Tue) Park, Guen-Il......................................1495 (H6, Thu) Park, Gumjae....................................... 342 (A5, Wed) Park, Gwi Ok....................................... 417 (A5, Wed) PARK, Hayan....................................... 621 (A9, Tue) Park, Hee-Young..... 1152 (F3, Tue), 1238 (F3, Wed) Park, Heetaek...................................... 435 (A5, Wed) Park, Hun................402 (A5, Wed), 1579 (M1, Wed) Park, Hyunwoong.........585 (A8, Wed), 2243 (Z1, Tue) Park, Inchul.......................................... 153 (A2, Thu) Park, Jae Sang..................................... 309 (A5, Wed) Park, Jae-Hyun.................................... 1131 (F3, Tue) Park, Jaehun........................................2266 (Z1, Tue) Park, Jaehyung........ 1085 (F3, Tue), 1229 (F3, Wed) Park, Jea-Gun...........1643 (P3, Mon), 1927 (Q10, Tue), ............................. 2038 (Q5, Wed), 2039 (Q5, Wed), ............................... 2058 (Q5, Thu), 2059 (Q5, Thu), ............................................................ 2065 (Q6, Tue) Park, Jeong hee................................. 2045 (Q5, Wed) Park, Jeong Ho....................................1292 (F3, Thu) Park, Jeunghak................................1935 (Q10, Wed) Park, Jeunghee.................................... 594 (A8, Wed) Park, Jin-Bum...................................... 130 (A2, Wed) Park, Jin-Hwan.................................... 311 (A5, Wed) Park, Jong Myung.................................708 (C1, Tue) Park, Jonghyurk............................... 1918 (Q10, Tue) Park, Joong Sun................................... 279 (A5, Tue) Park, Joonho.......................................2309 (Z3, Wed) Park, Joonsuk..............46 (A1, Tue), 1008 (F2, Wed) Park, Jun.............................................1199 (F3, Wed) Park, Jun Young................................ 1871 (P8, Mon) Park, Jun-Seong................................ 1643 (P3, Mon) Park, Jun-Woo............. 186 (A3, Tue), 189 (A3, Tue) Park, Jun-Young.................................2202 (Z1, Tue), ..................................2203 (Z1, Tue), 2204 (Z1, Tue) Park, Jung Soo..................................... 410 (A5, Wed) Park, Jung-Ki.........................................88 (A2, Tue), .................................. 1087 (F3, Tue), 1088 (F3, Tue) Park, Jung-Soo.................................... 377 (A5, Wed) Park, JungHo......................................2318 (Z3, Wed) Park, Ka-Young...................................2204 (Z1, Tue) Park, Kyu-Young................................ 153 (A2, Thu), ................................... 251 (A5, Mon), 277 (A5, Tue) Park, Kyung Ju....................................2186 (Z1, Tue) Park, Kyung-Soo................................. 351 (A5, Wed) Park, Kyung-Tae................................1495 (H6, Thu) Park, Min-Jung..................................... 617 (A9, Tue) Park, Min-Sik...................................... 311 (A5, Wed) Park, Minsik........................................ 381 (A5, Wed) Park, Sae Rom..................................... 403 (A5, Wed) Park, Sam................ 361 (A5, Wed), 1242 (F3, Wed) Park, Sang-Hee....... 1914 (Q10, Tue), 1918 (Q10, Tue) Park, Seok-Joo...................................... 998 (F2, Tue) Park, Si Yun........................................ 332 (A5, Wed), ............................... 1915 (Q10, Tue), 2192 (Z1, Tue) Park, Sojin........................................... 593 (A8, Wed) Park, Soo-gil.............. 164 (A3, Mon), 190 (A3, Tue) Park, SoonSung................................. 1641 (P3, Mon) Park, Sun-Hong.........622 (A9, Wed), 625 (A9, Wed) Park, Sung Bum.......2239 (Z1, Tue), 2264 (Z1, Tue)

220

P

Pabo, Eric..............................................689 (B2, Tue) Pacheco, Daniella............................. 1573 (M1, Wed) Pachter, Ruth.................................... 1578 (M1, Wed) Padilla, Monica.........589 (A8, Wed), 1121 (F3, Tue) Padmasree, Karinjilottu.....................1010 (F2, Wed) Paek, Sanghyun................................... 593 (A8, Wed) Páez-Hernández, María.....................2216 (Z1, Tue), .............................................................2227 (Z1, Tue) Paganin, Valdecir...............................1187 (F3, Wed) Page, Gregory.....................................1190 (F3, Wed) Page, Kirt............................................. 1095 (F3, Tue) Pagot, Gioele.........................................56 (A2, Mon) Pahom, Zoia....................................... 1414 (H2, Tue) Pak, Chanho........................................ 1072 (F3, Tue) Pakstas, Vidas...................................... 1123 (F3, Tue) Pal, U.................................................. 2063 (Q6, Tue) Pal, Uday.....................974 (F2, Mon), 996 (F2, Tue) Pala, Marco G....................................1818 (P7, Wed) Palacios, Alexander............................. 823 (D1, Wed) Palacios Enriquez, Ana.......................2261 (Z1, Tue) Palacios-Rodriguez, Gustavo..............948 (E2, Wed) Palanichamy, Sennu............................ 430 (A5, Wed) Palanisamy, Kowsalya......................... 464 (A5, Thu) Palanisamy, Ponnusamy..................... 654 (B1, Wed) Palestino, Gabriela................................639 (B1, Tue) Palestri, Pierpaolo..............................1818 (P7, Wed) Palma, Livia............ 1122 (F3, Tue), 1216 (F3, Wed) Palmer, Brad......................................1964 (Q3, Mon) Palomar, Manuel..................................641 (B1, Tue), ......................................735 (C1, Tue), 736 (C1, Tue) Palomar-Pardavé, Manuel.................. 504 (A6, Tue), .................................... 505 (A6, Tue), 506 (A6, Tue), .....................................643 (B1, Tue), 644 (B1, Tue), .....................................645 (B1, Tue), 646 (B1, Tue), .....................................647 (B1, Tue), 648 (B1, Tue), ................................... 776 (C2, Tue), 835 (D1, Wed), ................................. 939 (E2, Wed), 1370 (H1, Tue), ................................ 1411 (H2, Tue), 1412 (H2, Tue), ............................................................ 1900 (Q1, Tue) Pan, Chun-Jern..................................... 155 (A2, Thu) Pan, Hsiao-An...................................... 179 (A3, Tue) Pan, Menghsuan......................................83 (A2, Tue) Pan, Minghu....................................... 1897 (Q1, Tue) Pan, Ning.............................................165 (A3, Mon) Pan, Suxing.....................................1903 (Q10, Mon) Pan, Tung-Ming................................2128 (Q8, Mon) Pan, Youlin.........................................1626 (P1, Wed) Pandey, Bipin....................................1332 (H1, Mon) Pandey, Tara...........1259 (F3, Wed), 1260 (F3, Wed) Paneerselvam, A.................................. 831 (D1, Wed) Pang, Suh.............................................. 181 (A3, Tue) Pang, Xinchang.................................2137 (Q9, Mon) Pannala, Sreekanth......... 34 (A1, Tue), 38 (A1, Tue), .................................. 369 (A5, Wed), 445 (A5, Thu), .............................................................483 (A6, Mon) Pantelides, Sokrates........................... 2103 (Q7, Tue) Papandrew, Alexander........................ 139 (A2, Wed) Parameswaran, Prathap......................2303 (Z2, Wed) Páramo García, Ulises..........................765 (C2, Tue) Paredes, Israel..................................... 1003 (F2, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Park, Sungjin.......................................2265 (Z1, Tue) Park, Taehyun..........1054 (F3, Tue), 2321 (Z3, Wed) Park, Yong Joon........121 (A2, Wed), 386 (A5, Wed) Park, Yong-il.............2239 (Z1, Tue), 2264 (Z1, Tue) Park, Yoon-Cheol............................... 622 (A9, Wed), ...................................625 (A9, Wed), 626 (A9, Wed) Park, Young-Uk.........153 (A2, Thu), 251 (A5, Mon) Park, Youngmin........2183 (Z1, Tue), 2192 (Z1, Tue) Park, Youngsin.................................... 327 (A5, Wed) Park, Yu-Seon..................................... 1890 (Q1, Tue) Parker, Charles......... 507 (A6, Tue), 2299 (Z2, Wed) Parkinson, Bruce..........557 (A8, Mon), 1392 (H2, Tue) Parks, Christopher..............................1705 (P5, Wed) Parmananda, Punit........................... 1546 (H8, Wed), .............................. 1548 (H8, Wed), 1549 (H8, Wed) Parmentier, Brigitte.............................1855 (P7, Thu) Parr, Daniel........................................ 1471 (H6, Wed) Pasaogullari, Ugur.............................1033 (F3, Sun), ................................ 1085 (F3, Tue), 1229 (F3, Wed), .............................................................1288 (F3, Thu) Pascal, Tod.............................................17 (A1, Mon) Pask, John..................221 (A4, Mon), 540 (A7, Thu) Passerini, Stefano................................ 452 (A5, Thu), .................................. 533 (A7, Wed), 2176 (Z1, Tue) Paszternak, Andras................................811 (D1, Tue) Pate, Bradford.................................... 1980 (Q3, Tue) Patel, Bharat...............399 (A5, Wed), 495 (A6, Tue) Patel, Kanayialal................................. 1610 (P1, Tue) Patel, Manu.............................................82 (A2, Tue) Patel, Prasad........................................ 200 (A3, Wed) Patel, Saurin...................................... 1940 (Q2, Wed) Patel, Vinay......................................... 653 (B1, Wed) Pathak, Manan................. 36 (A1, Tue), 39 (A1, Tue) Patrick, Erin.......................................2142 (Q9, Mon) Patyna, Adrian................................... 1327 (G1, Wed) Paul, Devproshad...............................1244 (F3, Wed) Paul, Douglas......................................1851 (P7, Thu) Paul, Neelima......................................265 (A5, Mon) Pauric, Allen...............523 (A7, Tue), 537 (A7, Wed) Payer, Joe.............................................. 865 (D2, Tue) Payne, David...................................... 1354 (H1, Tue) Payne, Marcia..................................... 1894 (Q1, Tue) Pearse, Alexander................................ 231 (A4, Tue), ................................... 232 (A4, Tue), 482 (A6, Mon) Pearson, Wayne.................................1432 (H6, Mon) Pebley, Andrew.................................. 1589 (N1, Tue) Pecora, Alessandro..........................1931 (Q10, Wed) Pedraza Basulto, Gabriela...................718 (C1, Tue), .....................................721 (C1, Tue), 723 (C1, Tue), ...............................................................749 (C2, Tue) Peidous, Igor......................................1817 (P7, Wed) Pekarik, John...........1764 (P7, Mon), 1782 (P7, Tue) Peksen, Murat........................................ 993 (F2, Tue) Peled, Emanuel......... 339 (A5, Wed), 467 (A5, Thu) Peles, Amra.........................................1021 (F3, Sun) Pellat, Michel...................................... 1732 (P6, Tue) Pellegrinelli, Christopher....................975 (F2, Mon), ..............................................................976 (F2, Mon) Pellegrini, Manuel........715 (C1, Tue), 724 (C1, Tue) Pelster, Lindsey................................. 1324 (G1, Wed) Pence, Benjamin...... 1031 (F3, Sun), 1118 (F3, Tue) Pendyala, Chandrashekhar.................. 883 (D2, Tue) Peng, Lan............................................1713 (P5, Wed) Peng, Lele............................................488 (A6, Mon) Peng, Qi.............................................. 1413 (H2, Tue) Peng, Qing................ 578 (A8, Tue), 2299 (Z2, Wed) Peng, Rui.............................................. 569 (A8, Tue) Peng, Tao...............................................687 (B2, Tue) Penkauskas, Tadas............................... 657 (B1, Wed) Penner-Hahn, James........................... 384 (A5, Wed) Penny, C............................................... 1611 (P1, Tue) Peppley, Brant.....................................2259 (Z1, Tue) peralta Hernandez, Juan.......................929 (E2, Wed) Perca, Cristian.....................................226 (A4, Mon) Perdue, Brian........................................ 807 (D1, Tue) Perea-Gomez, Aitana........................2124 (Q8, Mon)

Pereira, Carlos.................................... 1410 (H2, Tue) Pereira-Nabais, Catarina.....................227 (A4, Mon) Pereira-Ramos, Jean-Pierre................ 390 (A5, Wed) Perel, Alexander...................................976 (F2, Mon) Pereyra, Elsa..................................... 1576 (M1, Wed) Perez, J.................................................. 880 (D2, Tue) Pérez, Tzayam........... 932 (E2, Wed), 954 (E3, Mon) Perez-Bueno, José..............................2305 (Z3, Wed) Pérez-Castrejón, Sara.......................... 953 (E3, Mon) Perez-Garcia, Francisco.......................643 (B1, Tue), ...............................................................646 (B1, Tue) Pérez-López, Tezozomoc....................760 (C2, Tue), ...............................................................761 (C2, Tue) Pérez Ladrón de Guevara, Héctor...... 1798 (P7, Tue) Pérez-Quiroz, José................................761 (C2, Tue) Perez Ramos, Berni..........634 (B1, Tue), 695 (B2, Tue) Pérez Téllez, Juan........737 (C1, Tue), 772 (C2, Tue) Periyapperuma, Kalani.........................18 (A1, Mon) Perrotta, Alberto................................1333 (H1, Mon) Perry, Mike.......................................... 607 (A9, Tue), .................................. 1020 (F3, Sun), 1081 (F3, Tue) Persson, Kristin............99 (A2, Wed), 280 (A5, Tue) Petchsingh, Cattleya...............................22 (A1, Tue) Petek, Tyler..............................................24 (A1, Tue) Peters, Dennis........... 928 (E2, Wed), 1351 (H1, Tue) Petersburg, Cole....................................14 (A1, Mon) Pethig, Ronald.....................................670 (B2, Mon) Petibon, Remi..................................... 292 (A5, Wed), .................................... 441 (A5, Thu), 473 (A5, Thu) Petit, Pierre-Emmanuel........................ 291 (A5, Tue) Petri, Ralf............................................. 341 (A5, Wed) Pettersson, Henrik..............................170 (A3, Mon), .................................171 (A3, Tue), 1572 (M1, Wed) Pfleging, Wilhelm............................... 376 (A5, Wed) Pham, Anh...........................................2232 (Z1, Tue) Pham, Xuan-Hung........2177 (Z1, Tue), 2178 (Z1, Tue) Pham-Huu, Cuong............................. 1506 (H7, Tue) Pharoah, Jon........................................1027 (F3, Sun) Philippe, Laetitia.......890 (D2, Wed), 891 (D2, Wed) Philips, Oluwadamilola...................... 1692 (P5, Tue) Philipsen, Harold........1701 (P5, Wed), 1703 (P5, Wed) Phillips, Patrick.................................... 288 (A5, Tue) Piana, Michele..................................... 136 (A2, Wed) Picraux, S...............2016 (Q4, Tue), 2094 (Q7, Tue), ................................2100 (Q7, Tue), 2109 (Q7, Wed) Pieczonka, Nicholas............................ 312 (A5, Wed) Pierson, Jean-François........................2247 (Z1, Tue) Pietrasz, Patrick................................... 1118 (F3, Tue) Pikma, Piret........................................ 1352 (H1, Tue) Pillars, Jamin....................................... 920 (D3, Wed) Pilli, Satyander.................................... 582 (A8, Wed) Pilon, Laurent....................................... 175 (A3, Tue) Piluso, Nicolo.....................................1822 (P7, Wed) Piña, Deysi...........................................947 (E2, Wed) Pinar, Francisco..................................1226 (F3, Wed) Pineda, A.............................................2215 (Z1, Tue) Pineda, Jose........................................1197 (F3, Wed) Pinkwart, Karsten........28 (A1, Tue), 1184 (F3, Wed) Pinna, Nicola......................................1203 (F3, Wed) Pint, Cary............................................. 199 (A3, Wed) Pintauro, Peter............ 614 (A9, Tue), 868 (D2, Tue), ...............................1199 (F3, Wed), 1250 (F3, Wed), .............................................................1281 (F3, Thu) Pinto, Brismar.....................................678 (B2, Mon) Pippel, Eckhard.......1663 (P3, Wed), 1846 (P7, Thu) Pisanenko, Alexandr.......................... 1448 (H6, Tue) Pischek, Andrew............................... 1480 (H6, Wed) Piskorski, Krzysztof........................... 1986 (Q3, Tue) Piszcz, Michal...................................... 546 (A7, Thu) Piters Droog, Thomas....................... 2174 (R1, Wed) Pivovar, Bryan.........1016 (F3, Sun), 1035 (F3, Sun), ................................1262 (F3, Wed), 1263 (F3, Wed) Plana, Daniela..................................... 820 (D1, Wed) Pleckaityte, Milda............................... 657 (B1, Wed) Plichta, Edward.......................................70 (A2, Tue) Poblano Salas, Carlos.......718 (C1, Tue), 719 (C1, Tue)

Podlaha, Elizabeth.............................. 919 (D3, Wed) Poelt, Peter............ 2306 (Z3, Wed), 2307 (Z3, Wed) Pofelski, Alexandre............................1807 (P7, Wed) Pohl, Alexander...................................480 (A6, Mon) Pohl, Diana.......................................... 924 (D3, Wed) Poirier, Jean-Sébastien........................ 1741 (P6, Tue) Poisot, Martha.......................................760 (C2, Tue) Pol, Vilas..............................................486 (A6, Mon) Polakowski, Patrick.......................... 2115 (Q7, Wed) Polani, Shlomi..................................... 1075 (F3, Tue) Polat, Deniz......................................... 270 (A5, Tue), ...................................321 (A5, Wed), 433 (A5, Wed) Policastro, Steven................................ 799 (C3, Wed) Polonskyy, Vladimir.......................... 1365 (H1, Tue) Polovov, Ilya..................................... 1463 (H6, Tue), ................................1464 (H6, Tue), 1465 (H6, Tue), ............................................................ 1466 (H6, Tue) Polywka, Andreas............................... 1607 (P1, Tue) Ponce de León, Carlos....................... 954 (E3, Mon), .............................................................2253 (Z1, Tue) Ponthenier, Fabienne.........................1745 (P6, Wed) Poom, Joosep....................................1425 (H6, Mon) Popa, Monica........................................728 (C1, Tue) Popat, Sudeep.....................................2303 (Z2, Wed) Popov, V............................................... 1653 (P3, Tue) Popova, Anna..................................... 1458 (H6, Tue) Poppe, Erik............... 1734 (P6, Tue), 1736 (P6, Tue) Porcher, Willy.............271 (A5, Tue), 331 (A5, Wed) Porthault, Hélène.................................. 852 (D1, Thu) Porto, RaÅl..........................................2247 (Z1, Tue) Posadas, Agham................................ 2113 (Q7, Wed) Poterala, Marcin................................... 96 (A2, Wed), ..................................144 (A2, Wed), 325 (A5, Wed), .............................................................. 546 (A7, Thu) Pourtois, Geoffrey.........1646 (P3, Tue), 2101 (Q7, Tue) Poux, Tiphaine................................... 1506 (H7, Tue) Powell, Bob......................................... 312 (A5, Wed) Powers, Devon...................................1199 (F3, Wed) Pradhan, Aswini.................................. 655 (B1, Wed) Pradhan, Bhabendra........................... 1582 (N1, Tue) Pradhan, Dhiren................................... 917 (D3, Tue) Pradon, Alexandre................................ 291 (A5, Tue) Prakash, Adithya.................................2271 (Z1, Tue) Prakash, G. K..........................................19 (A1, Tue) Prakash, Ramakrishnan......................161 (A3, Mon) Prange, Jonathan................................1632 (P1, Wed) Preishuber-Pflügl, Florian................... 134 (A2, Wed) Premaratne, Gayan............................ 1325 (G1, Wed) Prendergast, David................................17 (A1, Mon) Previtali, Bernard...............................1745 (P6, Wed) Prévot, Geoffroy................................ 1767 (P7, Mon) Pribat, Clement...................................1807 (P7, Wed) Prinz, Fritz...................46 (A1, Tue), 1008 (F2, Wed) Prochazka, Jan............503 (A6, Tue), 628 (A9, Wed) Profijt, Harald......................................1855 (P7, Thu) Prokes, S.............................................1633 (P1, Wed) Prost, Mathias...................................... 1794 (P7, Tue) Pruessner, Marcel..................................686 (B2, Tue) Przewlocki, Henryk........................... 1986 (Q3, Tue) Puglisi, Marco....................................1822 (P7, Wed) Puli, Venkata......................................... 917 (D3, Tue) Puliyalil, Harinarayanan.................... 1593 (N1, Tue) Puravankara, Sreeraj........................... 303 (A5, Wed) Purdy, Geraldine................................1306 (F3, Thu), .............................. 1528 (H7, Wed), 1532 (H7, Wed) Put, Brecht...........................................481 (A6, Mon) Putz, Andreas...........1024 (F3, Sun), 1032 (F3, Sun) Pylypenko, Svitlana...........................1016 (F3, Sun), .............................................................1035 (F3, Sun) Pütz, Katharina........1346 (H1, Tue), 1462 (H6, Tue) Pyun, Jeffrey............................................84 (A2, Tue) Pyun, MinHo....................................... 386 (A5, Wed)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

221


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Q

Raphael, Getin..................................... 1802 (P7, Tue) Rapisarda, Matteo...........................1910 (Q10, Mon) Rasimick, Brian..................................1239 (F3, Wed) Rasmussen, Claus............................... 382 (A5, Wed) Rasmussen, Michelle.......................... 1055 (F3, Tue) Rasmussen, Paul................................. 196 (A3, Wed) Rastedt, Maren........1226 (F3, Wed), 1301 (F3, Thu) Ratnakumar, Bugga............................. 513 (A7, Tue) Rau, Maria..........................................1184 (F3, Wed) Rauch, Hartmut................................... 136 (A2, Wed) Räupke, André..................................... 1607 (P1, Tue) Raut, Akshay......................................2299 (Z2, Wed) Rauwel, Erwan................................. 1599 (P1, Mon), ............................... 2168 (R1, Wed), 2312 (Z3, Wed) Rauwel, Protima............................... 1599 (P1, Mon), ............................... 2168 (R1, Wed), 2312 (Z3, Wed) Ravadgar, Parvaneh............................ 1877 (P9, Tue) Ravnsbaek, Dorthe.............................. 308 (A5, Wed) Rawlings, Ben...................................... 808 (D1, Tue) Ray, Biswajit.....................................1956 (Q3, Mon) Raymakers, Leonard..........................1233 (F3, Wed) Raymondo-Pinero, Encarnacion......... 514 (A7, Tue) Raynal, Frédéric.................................. 1690 (P5, Tue) Rayne, Roy.......................................... 787 (C2, Wed) Razeeb, Kafil..................................... 1862 (P8, Mon) Razeghi, Manijeh.............................1958 (Q3, Mon), ...........................................................1969 (Q3, Mon) Razek, Nasser.....................................1752 (P6, Wed) Rebhan, Bernhard..............................1759 (P6, Wed) Rebohle, Lars...................................... 1616 (P1, Tue) Rebrin, Oleg...........1463 (H6, Tue), 1464 (H6, Tue), .................................1465 (H6, Tue), 1466 (H6, Tue) Reby, Jean.....................726 (C1, Tue), 758 (C2, Tue) Redel, Engelbert.......576 (A8, Tue), 1901 (Q1, Tue), .............................. 2033 (Q4, Wed), 2122 (Q7, Wed) Redkin, Alexander...........................1427 (H6, Mon), ...........................................................1430 (H6, Mon) Reed, David................. 601 (A9, Tue), 602 (A9, Tue) Reed, Graham................................... 1773 (P7, Mon) Reeves, Kimberly............................... 1110 (F3, Tue) Rego, Rosa..........................................1040 (F3, Sun) Reguera, Edilso...................................220 (A4, Mon) Reguera, Gemma...............................2300 (Z2, Wed) Reich, Christian..................................1823 (P7, Wed) Reiche, Manfred.................................1663 (P3, Wed) Reichert, William.............................. 1480 (H6, Wed) Reichmann, Mickael..........................1011 (F2, Wed) Reid, Russ............................................ 1055 (F3, Tue) Reim, Leo............................................ 1731 (P6, Tue) Reimbold, Gilles...............................2091 (Q7, Mon) Reissner, Michael...............................2306 (Z3, Wed) Religieux, Laurianne........................... 1690 (P5, Tue) Ren, Chang............... 194 (A3, Wed), 2246 (Z1, Tue) Ren, Naifei............................................696 (B2, Tue) Ren, Shuhua..............250 (A5, Mon), 451 (A5, Thu) Ren, Xiaoming...................................1191 (F3, Wed) Ren, Yang...................383 (A5, Wed), 608 (A9, Tue) Renault, Stéven.....................................60 (A2, Mon) Rendón-Belmonte, Mariela..................761 (C2, Tue) Rengarajan, Varatharajan..................1960 (Q3, Mon) Renner, Frank...................................... 792 (C3, Wed) Reshanov, Sergey.............................. 1997 (Q3, Wed) Reske, Rulle........................................ 590 (A8, Wed) Restle, Tassilo........................................59 (A2, Mon) Revelant, Alberto...............................1818 (P7, Wed) Reynaud, Cécile.................................. 331 (A5, Wed) Reynier, Yvan...................................... 322 (A5, Wed) Reyter, D.............................................. 352 (A5, Wed) Rezende, Mirabel...............................2319 (Z3, Wed) Rheinhardt, Joseph............................1431 (H6, Mon) Rheinländer, Philipp........................... 1074 (F3, Tue) Rhen, Fernando.....................................911 (D3, Tue) Rhie, Kungwon................................. 2044 (Q5, Wed) Rhine, Wendell.................................... 407 (A5, Wed) Ribadeneira Paz, Rafael.....................1267 (F3, Wed) Ricci, Davide...................................1931 (Q10, Wed)

Richard, Cyrille................................. 1330 (G1, Wed) Richard, Olivier...................................1858 (P7, Thu) Richards, George..................................968 (F2, Mon) Richards, Ryan....................................1269 (F3, Thu) Richardson, David................................911 (D3, Tue) Richet, Nicolas...................................1011 (F2, Wed) Richter, Curt......................................2145 (Q9, Mon) Rick, Anthony..................................... 373 (A5, Wed) Rico-Martínez, Ramiro..................... 1549 (H8, Wed) Rideau, Denis....................................2091 (Q7, Mon) Riedel, Ralf........................................... 458 (A5, Thu) Riedl, Thomas..................................... 1607 (P1, Tue) Rieth, Adam......................................... 578 (A8, Tue) Rieutord, François............................ 1716 (P6, Mon), .................................1722 (P6, Mon), 1728 (P6, Tue) Rife, Derek...................... 36 (A1, Tue), 39 (A1, Tue) Rigdon, William.................................1252 (F3, Wed) Riha, Pavel......................................... 1593 (N1, Tue) Rikukawa, Masahiro..........................1196 (F3, Wed) Rincón, Marina........1561 (M1, Wed), 1575 (M1, Wed) Rios, Judith..............................................44 (A1, Tue) Rioux, Mark......................................2089 (Q7, Mon) Risse, Stefan...................................... 1715 (P6, Mon) Rissing, Lutz.............685 (B2, Tue), 904 (D3, Mon), .................................. 906 (D3, Mon), 923 (D3, Wed) Ritala, Mikko.....................................1624 (P1, Wed) Rivas Gandara, Sandra...................... 1138 (F3, Tue), ................................1197 (F3, Wed), 1237 (F3, Wed) Rivera, Fernando.................................938 (E2, Wed), .................................. 955 (E3, Mon), 2195 (Z1, Tue) Rivera, Marco......... 1548 (H8, Wed), 2214 (Z1, Tue) Rivera, Z..............................................2215 (Z1, Tue) Rivera Armenta, José............................765 (C2, Tue) Rivera-Corral, Jesús............................697 (C1, Mon) Rivera-Hernández, Selene..................2216 (Z1, Tue) Rivero, Eligio......................................933 (E2, Wed), .....................................935 (E2, Wed), 966 (E3, Tue) Rivoire, Maurice................................1745 (P6, Wed) Roa, Gabriela............949 (E2, Wed), 2255 (Z1, Tue) Roa-Morales, G...................................941 (E2, Wed), ...................................942 (E2, Wed), 944 (E2, Wed), ...................................945 (E2, Wed), 1884 (P9, Tue) Roa Rodriguez, Guillermo...................762 (C2, Tue) Robatjazi, Hossein............................... 564 (A8, Tue) Roberts, C. C....................................... 1735 (P6, Tue) Robins, Mathew.................................. 624 (A9, Wed) Robinson, David...............................1383 (H2, Mon) Röbisch, Volker.................................... 907 (D3, Tue) Robledo, Patricia..................................733 (C1, Tue), ................................... 742 (C1, Wed), 744 (C1, Wed) Robles, Irma.............. 936 (E2, Wed), 951 (E3, Mon) Rocca, Emmanuel.........698 (C1, Mon), 755 (C2, Tue), .................................... 773 (C2, Tue), 785 (C2, Wed) Rocheleau, Richard............................. 1103 (F3, Tue) Rockward, Tommy............................1258 (F3, Wed) Rode, Edward.................................... 1543 (H8, Wed) Rodenbaugh, Cassandra.....................674 (B2, Mon) Rodgers, Joseph...... 1103 (F3, Tue), 1190 (F3, Wed) Rodic, Peter...........................................711 (C1, Tue) Rodrígez Gómez, Francisco............... 780 (C2, Wed) Rodrigo, Hector..................................1185 (F3, Wed) Rodríguez, A. G.................................. 1798 (P7, Tue) Rodríguez, Francisca...........................935 (E2, Wed) Rodriguez-Acuña, Fausto.....................768 (C2, Tue) Rodríguez-Ávila, Jose........................2227 (Z1, Tue) Rodriguez-Gattorno, Geonel............. 2063 (Q6, Tue) Rodriguez-Gomez, Francisco..............759 (C2, Tue), ................................... 779 (C2, Wed), 781 (C2, Wed) Rodríguez-Sevilla, Erika.....................644 (B1, Tue), ...............................................................645 (B1, Tue) Rodríguez-Torres, Israel.......................967 (E3, Tue) Rodriguez Valadez, Francisco............943 (E2, Wed), ........................................................... 1329 (G1, Wed) Rodriguez-Varela, F. J........................ 1119 (F3, Tue), ............................................................. 1180 (F3, Tue) Roeper, Donald.................................1432 (H6, Mon)

Qi, Jianqing........................................ 1888 (Q1, Tue) Qi, Jie..................................................1629 (P1, Wed) Qi, Jing.................... 1179 (F3, Tue), 1229 (F3, Wed) Qi, Lin..................................................1833 (P7, Thu) Qian, Shizhi.......... 1938 (Q2, Wed), 1942 (Q2, Wed) Qin, Bo............................................... 1434 (H6, Tue) Qin, Hongyi...................................... 1559 (M1, Wed) Qiu, Gang................... 57 (A2, Mon), 630 (A9, Wed) Qiu, Jie.....................................................2 (A1, Mon) Qu, Wei................................................. 849 (D1, Thu) Qu, Xiaohui........................................... 99 (A2, Wed) Qu, Yan...............................................2294 (Z2, Wed) Quan, Li Na.......................................... 563 (A8, Tue) Quandt, Eckhard.................................. 907 (D3, Tue) Quesnel, David........................................9 (A1, Mon) Quill, Nathan................. 22 (A1, Tue), 243 (A4, Tue) Quinsac, Axelle................................... 331 (A5, Wed) Quiroga-González, Enrique...............489 (A6, Mon), .............................................................490 (A6, Mon)

R

Rabe, Torsten....................................... 1607 (P1, Tue) Rabinovich, William.............................686 (B2, Tue) Radamson, Henry............................ 1775 (P7, Mon), .................................1814 (P7, Wed), 1829 (P7, Thu) Radhakrishnan, Rajeswaran............... 661 (B1, Wed) Radimo, Nikolay............................... 1994 (Q3, Wed) Radisic, Aleksandar............................. 912 (D3, Tue) Radisson, Damien............................... 1728 (P6, Tue) Radtke, Valentin......1346 (H1, Tue), 1462 (H6, Tue) Radu, Iuliana.......................................481 (A6, Mon) Ragani, Jennifer................................ 1716 (P6, Mon) Raghavan, Rahul...... 252 (A5, Mon), 409 (A5, Wed) Rahn, Christopher................................ 466 (A5, Thu) Rajalingam, Sundar............................ 1404 (H2, Tue) Rajapakse, Nimal..............................1189 (F3, Wed), .................................1245 (F3, Wed), 1299 (F3, Thu) Rajh, Tijana.......................................... 492 (A6, Tue) Rajput, Nav........................................... 99 (A2, Wed) Rakap, Murat....................................... 824 (D1, Wed) Ram, Manoj........................................2316 (Z3, Wed) Ramaker, David.......1019 (F3, Sun), 1268 (F3, Thu) Ramalingom Pillai, Arun Deepak........ 1601 (P1, Mon), ............................................................. 1872 (P8, Tue) Ramamurti, Ravi................................. 1103 (F3, Tue) Raman, Sangeetha....... 713 (C1, Tue), 1334 (H1, Mon) Raman, Sankar.................................... 594 (A8, Wed) Ramanathan, Ranjith......................... 1348 (H1, Tue) Ramani, Vijay......................................861 (D2, Mon) Ramasse, Quentin................................ 470 (A5, Thu) Ramírez, Efrén.................................... 1003 (F2, Tue) Ramirez, Galo.................................... 1406 (H2, Tue) Ramírez-Álvarez, Elizeth................ 1549 (H8, Wed), .............................................................2214 (Z1, Tue) Ramírez Arteaga, América...................732 (C1, Tue) Ramírez García, Gonzalo................. 1330 (G1, Wed) Ramírez Herrera, José......................... 780 (C2, Wed) Ramírez-Ledesma, María...................2180 (Z1, Tue) Ramirez-Reryes, Jose...........................769 (C2, Tue) Ramírez Reyes, José.........737 (C1, Tue), 772 (C2, Tue) Ramírez-Segovia, Alejandra.............. 1389 (H2, Tue) Ramirez-Silva, Maria Teresa...............641 (B1, Tue), .....................................643 (B1, Tue), 644 (B1, Tue), .....................................645 (B1, Tue), 646 (B1, Tue), .....................................647 (B1, Tue), 648 (B1, Tue), ................................... 776 (C2, Tue), 835 (D1, Wed), ................................ 1370 (H1, Tue), 1411 (H2, Tue), .................................1412 (H2, Tue), 1900 (Q1, Tue) Ramm, Mark.....................................1960 (Q3, Mon) Ramos-Sanchez, G............................. 1516 (H7, Tue) Rampelberg, Geert............................ 1603 (P1, Mon) Rangel, Reyna......................................947 (E2, Wed) Ranguis, Alain................................... 1767 (P7, Mon) Ranstad, Per.......................................1963 (Q3, Mon) 222

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Roeschenthaler, Gerd-Volker.............. 517 (A7, Tue) Rogers, Erin........................................1189 (F3, Wed) Rogers, Fon............... 159 (A3, Mon), 616 (A9, Tue) Rogers, Robin..................................... 1419 (H6, Sun) Rogers, Tate........................................2295 (Z2, Wed) Rogers, Tony....................................... 1733 (P6, Tue) Roh, Gilltae..............2202 (Z1, Tue), 2204 (Z1, Tue) Rohwerder, Michael........................... 747 (C1, Wed), ............................................................. 789 (C3, Wed) Rojas, Sergio....................................... 1056 (F3, Tue) Rojas Carbonell, Mario......................1310 (F3, Thu) Rojas-Hernández, Alberto...................643 (B1, Tue), .....................................644 (B1, Tue), 646 (B1, Tue), ................................. 1370 (H1, Tue), 2227 (Z1, Tue) Rojas Hernández, Armando............. 2174 (R1, Wed) Rojo, Teófilo......................................... 150 (A2, Thu) Rolison, Debra........ 162 (A3, Mon), 1391 (H2, Tue) Rolland, Nathalie................................. 448 (A5, Thu) Romankiw, Lubomyr.......................... 872 (D2, Tue), .................................... 873 (D2, Tue), 874 (D2, Tue), ................................... 877 (D2, Tue), 903 (D3, Mon) Romanyuk, B...................................... 1653 (P3, Tue) Romero, Julio........................................640 (B1, Tue) Romero, Maria...................................1185 (F3, Wed) Romero, Mario Alberto.......................735 (C1, Tue), ...............................................................736 (C1, Tue) Romero, Rubi.......................................947 (E2, Wed) Romero-Morán, Alejandra.................2213 (Z1, Tue) Romero-Romo, Mario........................ 504 (A6, Tue), .................................... 505 (A6, Tue), 643 (B1, Tue), .....................................644 (B1, Tue), 646 (B1, Tue), ...................................647 (B1, Tue), 648 (B1, Tue), | ................................... 776 (C2, Tue), 835 (D1, Wed), ............................................................ 1900 (Q1, Tue) Romero-Romo, Mario A.....................641 (B1, Tue), ....................................645 (B1, Tue), 939 (E2, Wed), ................................ 1370 (H1, Tue), 1411 (H2, Tue), ............................................................ 1412 (H2, Tue) Romero-Romo, Mario Alberto........... 506 (A6, Tue), .............................................................2227 (Z1, Tue) Rommel, Mathias......... 1652 (P3, Tue), 1654 (P3, Tue) Romo, Mario Alberto............................771 (C2, Tue) Roncagliolo Barrera, Paola................ 779 (C2, Wed), ............................................................. 781 (C2, Wed) Rondas, Dirk...........1825 (P7, Wed), 1856 (P7, Thu) Rønning, Magnus........1518 (H7, Tue), 1523 (H7, Tue) Rooney, Ryan....................................1385 (H2, Mon) Roos, Christophe.................................700 (C1, Mon) Rooyackers, Rita................................. 1648 (P3, Tue) Rosado, Gabriel................................... 1141 (F3, Tue) Rosario, Emely................................... 1421 (H6, Sun) Rosas Pérez, Miguel.............................737 (C1, Tue) Rosero-Navarro, Nataly...................... 299 (A5, Wed) Rosseel, Erik............1855 (P7, Thu), 1858 (P7, Thu) Rossel, Christophe............................ 1723 (P6, Mon) Rossmeisl, Jan........ 1038 (F3, Sun), 1535 (H7, Wed) Rosso, Michel......................................227 (A4, Mon) Rost, Marcel J...................................... 867 (D2, Tue) Rotermund, Harm............................. 1540 (H8, Wed) Rothe, Jörg..........................................480 (A6, Mon) Rothenberger, Michael....................... 413 (A5, Wed) Rothganger, Fred................................2050 (Q5, Thu) Roué, Lionel........................................ 352 (A5, Wed) Rouget, Robert.................................... 132 (A2, Wed) Rouifed, Mohamed-Said....................1839 (P7, Thu) Roupillard, Gabriel............................1814 (P7, Wed) Roure, Marie-Christine..................... 1720 (P6, Mon) Roussel, Pascal..................................... 448 (A5, Thu) Rovetta, Aurélie..................................2248 (Z1, Tue) Rowe, Brfent......................................2295 (Z2, Wed) Roy, Asa............................................... 139 (A2, Wed) Roziere, Jacques................................1203 (F3, Wed), ................................1308 (F3, Thu), 1525 (H7, Wed) Rubloff, Gary...................................... 231 (A4, Tue), .................................. 232 (A4, Tue), 482 (A6, Mon), ................................... 484 (A6, Mon), 498 (A6, Tue)

Rudenko, Alexey...............................1427 (H6, Mon) Rudi, Stefan.........................................1018 (F3, Sun) Ruffert, Christine................................. 914 (D3, Tue) Ruiu, Tiziana......................................1223 (F3, Wed) Ruíz, Patricia...................................... 1407 (H2, Tue) Ruiz, Ricardo...........899 (D3, Mon), 1610 (P1, Tue) Ruiz-Ruiz, Edgar...... 948 (E2, Wed), 1180 (F3, Tue) Ruiz-Trejo, Enrique.............................. 984 (F2, Tue) Ruland, Gary......... 1960 (Q3, Mon), 1989 (Q3, Tue) Rumpf, Klemens........2306 (Z3, Wed), 2307 (Z3, Wed) Rumyantsev, Sergey.......................1912 (Q10, Mon) Rusdi, Hashlina................................... 392 (A5, Wed) Rusdi, Roshidah........285 (A5, Tue), 355 (A5, Wed), ..................................392 (A5, Wed), 2095 (Q7, Tue) Russell, Michael................................ 1545 (H8, Wed) Russell, Selena....................................225 (A4, Mon) Ruth, Ashley.......................................... 991 (F2, Tue) Ruther, Rose........................................ 248 (A4, Wed) Rutkowska, Iwona............................. 586 (A8, Wed), ............................... 1337 (H1, Mon), 1390 (H2, Tue) Ruzyllo, Jerzy..................................... 2019 (Q4, Tue) Ryabova, Anna................................... 1506 (H7, Tue) Ryan, Mary......................................... 1354 (H1, Tue) Rybalko, Elena................................... 1891 (Q1, Tue) Ryo, Mina..........................................1959 (Q3, Mon) Ryou, Myung-Hyun........................... 415 (A5, Wed), .................................. 416 (A5, Wed), 2231 (Z1, Tue) Ryu, Min Ki.........1914 (Q10, Tue), 1918 (Q10, Tue) Ryu, Won-Hee............316 (A5, Wed), 496 (A6, Tue)

Sakata, Ryousuke.............................. 2156 (R1, Wed) Sakka, Tetsuo.................................... 1557 (H8, Wed) Sako, Shinnosuke................................2224 (Z1, Tue) Sakr, Abdel-Hamid............................ 2082 (Q6, Tue) Sakuda, Atsushi.......................................81 (A2, Tue) Sakuma, Kiwamu...............................2055 (Q5, Thu) Sakuraba, Masao............................... 1768 (P7, Mon) Sakurai, Takuya................................... 1804 (P7, Tue) Sakurai, Yoji........................................ 387 (A5, Wed) Salamanca-Riba, Lourdes....................975 (F2, Mon) Salas, Alan...........................................1837 (P7, Thu) Salgado Juárez, Leonardo....................946 (E2, Wed) Salinas-Hernández, Pastora..................648 (B1, Tue) Salloum, Maher.................................1383 (H2, Mon) Salomé, Sónia......................................1040 (F3, Sun) Sam, Sopheak...................................... 921 (D3, Wed) Samarelli, Antonio..............................1851 (P7, Thu) Samb, Mamadou.............................1904 (Q10, Mon) Samjeské, Gabor................................. 1067 (F3, Tue) Sammak, Amir....................................1833 (P7, Thu) Sammelselg, Väino..........................1377 (H2, Mon), ...........................................................1503 (H7, Mon) Samnakay, Rameez.........................1912 (Q10, Mon) Samson, Marie-Pierre.........................1852 (P7, Thu) Sanada, Takashi................................... 422 (A5, Wed) Sanchez, Daniel G..............................1223 (F3, Wed) Sanchez, Loic.................................... 1724 (P6, Mon) Sanchez-Alarcon, Raul..................... 2170 (R1, Wed) Sánchez-Guajardo, Rebeca................ 1900 (Q1, Tue) Sanchez-Monreal, Juan......................1223 (F3, Wed) Sánchez-Valente, Jaime.......................939 (E2, Wed) Sanda, Takahiro................................... 401 (A5, Wed) Sandberg, Bjoern................................. 388 (A5, Wed) Sanderson, Robbie.............................1208 (F3, Wed) Sandvand, Asmund............................. 1744 (P6, Tue) Sang Duk, Hwang............................... 1799 (P7, Tue) Sankararao, Mutyala.......................... 1521 (H7, Tue) Sannier, Lucas.....................................219 (A4, Mon) Sano, Hikaru......................................... 522 (A7, Tue) Sano, Yasuhisa...................................2140 (Q9, Mon) Santana, Germán..................................949 (E2, Wed) Santillán-Reyes, Gloria..................... 2173 (R1, Wed) Santilli, Rob......................................... 1733 (P6, Tue) Santoro, Carlo........ 1318 (G1, Wed), 2285 (Z2, Tue) Santos, Diogo..................................... 833 (D1, Wed), ................................. 1128 (F3, Tue), 1240 (F3, Wed) Saraidaridis, James................................611 (A9, Tue) Sarangapani, Sarang...........................862 (D2, Mon) Sarapuu, Ave.....................................1503 (H7, Mon) Saraswat, Krishna............................... 1796 (P7, Tue) Saravanan, Govindachetty................. 1129 (F3, Tue), ............................................................1215 (F3, Wed) Saraya, Takuya...................................1746 (P6, Wed) Sardinha, Andre.................................. 1362 (H1, Tue) Sareminaeini, Sahar......................... 1721 (P6, Mon), ........................................................... 1727 (P6, Mon) Sarkar, Biplab.....................................2053 (Q5, Thu) Sarlashkar, Jayant................................ 329 (A5, Wed) Sarmiento Bustos, Estela......................731 (C1, Tue) Sarode, Himanshu.............................1259 (F3, Wed), ............................................................1261 (F3, Wed) Sarwar, Wasim..................................... 214 (A3, Thu) Sasago, Tomoya.......1804 (P7, Tue), 1987 (Q3, Tue) Sasakawa, Tetsuya.............................. 319 (A5, Wed) Sasaki, Kazunari......1076 (F3, Tue), 1140 (F3, Tue), ..................................1154 (F3, Tue), 1155 (F3, Tue), ................................ 1161 (F3, Tue), 1200 (F3, Wed), ................................1205 (F3, Wed), 1294 (F3, Thu), .............................................................1302 (F3, Thu) Sasaki, Kazuya......... 1000 (F2, Tue), 1002 (F2, Tue) Sasaki, Kengo...................................... 1129 (F3, Tue) Sasaki, Kotaro..................................... 1066 (F3, Tue) Sasaki, Mayu....................................... 1069 (F3, Tue) Sasaki, Tsuyoshi..................................267 (A5, Mon) Sassin, Megan......... 162 (A3, Mon), 1391 (H2, Tue) Sastre-Santos, Angela...................... 1567 (M1, Wed)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

S

Sa, Niya.................................................63 (A2, Mon) Sabate, Neus........................................ 1056 (F3, Tue) Sabeeh, Ala......................................... 2019 (Q4, Tue) Saccone, Adriana................................ 1128 (F3, Tue) Sada, Takao.......................................1335 (H1, Mon) Sadana, Devendra............................. 1723 (P6, Mon) Sadasue, Kazuyuki.............................. 1170 (F3, Tue) Sadoway, Donald................................ 740 (C1, Wed) Saeed, Mahfouz................................... 843 (D1, Thu) Safi, Jariullah...........................................37 (A1, Tue) Safuan, Mohd.................................... 1534 (H7, Wed) Saga, Koichiro.......... 1656 (P3, Tue), 1657 (P3, Tue) Sagnes, Isabelle................................... 1794 (P7, Tue) Saha, Madhu........................................1285 (F3, Thu) Sahin, Asli................ 875 (D2, Tue), 1705 (P5, Wed) Sahin, Meriam.................................... 1421 (H6, Sun) Sahni, Subal.........................................1841 (P7, Thu) Saikaly, Pascal.....................................2289 (Z2, Tue) Saiki, Toshiharu.......1158 (F3, Tue), 2042 (Q5, Wed) Saikumar, Ashwin Kumar..................2270 (Z1, Tue) Sailaja, Gopalakrishnanchettiar..........1279 (F3, Thu) Sailor, M............................................... 272 (A5, Tue) Saito, Azusa.........................................673 (B2, Mon) Saito, Hiroyuki.................................. 1637 (P3, Mon) Saito, Mikiko....................................... 896 (D2, Wed) Saito, Morihiro...........187 (A3, Tue), 210 (A3, Wed) Saito, Naoki.......................................2140 (Q9, Mon) Saito, Nobuo........................................ 600 (A8, Wed) Saito, Susumu.....................................1195 (F3, Wed) Saito, Takeyasu...........1679 (P5, Mon), 1695 (P5, Tue), ................................. 1697 (P5, Tue), 1699 (P5, Wed) Saito, Toshiya....................................... 236 (A4, Tue) Saito, Yoshihiko................................ 1637 (P3, Mon) Saito, Yusuke.....................................2093 (Q7, Mon) Sakaebe, Hikari............ 81 (A2, Tue), 237 (A4, Tue), ....................................379 (A5, Wed), 522 (A7, Tue) Sakaguchi, Takuya.............................1234 (F3, Wed) Sakai, Akira............ 1662 (P3, Wed), 2098 (Q7, Tue) Sakai, Hironori.................................... 1061 (F3, Tue) Sakai, Seiji......................................... 2169 (R1, Wed) Sakai, Shoichiro.................................... 97 (A2, Wed) Sakaike, Kohei................................. 1928 (Q10, Tue) Sakakura, Masayuki...........................2054 (Q5, Thu) Sakamoto, Tomokazu......................... 1124 (F3, Tue) Sakashita, Mitsuo.............................. 1772 (P7, Mon)

223


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Sato, André.............1048 (F3, Mon), 1187 (F3, Wed) Sato, Ayu............................................... 853 (D1, Thu) Sato, Kazunori..................................... 600 (A8, Wed) Sato, Mineo....................................... 2157 (R1, Wed) Sato, Shigeo....................................... 1768 (P7, Mon) Sato, Shino......................................... 1387 (H2, Tue) Sato, Shutaro....................................... 898 (D2, Wed) Sato, Tadashi...................................1906 (Q10, Mon) Sato, Taketomo...................................2311 (Z3, Wed) Satoh, Shinichi..................................2084 (Q7, Mon) Satou, Yoshinori.................................. 304 (A5, Wed) Sattler, Andreas..........1639 (P3, Mon), 1642 (P3, Mon) Sauer, Dirk Uwe.................................. 356 (A5, Wed) Sauvage, Sébastien............................. 1794 (P7, Tue) Savadogo, Oumarou.......................... 367 (A5, Wed), .............................................................1040 (F3, Sun) Savage, Donald...................................1849 (P7, Thu) Savchuk, Ruslan................................. 1460 (H6, Tue) Savguira, Yuri...................................... 793 (C3, Wed) Savinell, Robert.............. 24 (A1, Tue), 25 (A1, Tue), ......................................26 (A1, Tue), 860 (D2, Mon) Savinova, Elena.................................. 1506 (H7, Tue) Sawada, Eisuke................................... 427 (A5, Wed) Sawada, Ken........................................ 1646 (P3, Tue) Sawamoto, Naomi..............................1828 (P7, Thu) Sawano, Kentarou............................... 1804 (P7, Tue) Sawicki, Monica.................................. 149 (A2, Thu) Scalise, Emilio................................... 2101 (Q7, Tue) Scappucci, Giordano........................... 1651 (P3, Tue) Schaaf, Peter...............360 (A5, Wed), 812 (D1, Tue) Schaefer, Jennifer....................................84 (A2, Tue) Schaefer, Moritz.................................. 295 (A5, Wed) Scheiba, Frieder..................................480 (A6, Mon) Scherson, Daniel..........862 (D2, Mon), 1394 (H2, Tue) Scheuermann, Andrew.......................1632 (P1, Wed) Schildkraut, Deniz............................ 1326 (G1, Wed) Schjølberg-Henriksen, Kari............... 1734 (P6, Tue), ................................. 1736 (P6, Tue), 1740 (P6, Tue), ............................................................. 1744 (P6, Tue) Schlatmann, Rutger............................. 583 (A8, Wed) Schleich, Donald................................. 322 (A5, Wed) Schlorb, Heike..................................... 924 (D3, Wed) Schlottig, Gerd.................................... 1738 (P6, Tue) Schmid, Marc...................................... 1797 (P7, Tue) Schmidt, Jens...................................... 1776 (P7, Tue) Schmidt, Michael................................ 532 (A7, Wed) Schmidt, Thomas......... 1064 (F3, Tue), 1073 (F3, Tue), ................................1188 (F3, Wed), 1220 (F3, Wed) Schmidt, Udo..................................... 1356 (H1, Tue) Schmitz, René..................................... 532 (A7, Wed) Schmuki, P........................................... 183 (A3, Tue), ................................400 (A5, Wed), 1376 (H2, Mon) Schneider, Artur................................... 493 (A6, Tue) Schneider, Oliver........1469 (H6, Wed), 2254 (Z1, Tue) Schneider, Simon................................ 890 (D2, Wed) Schneider, Werner..............................1755 (P6, Wed) Scholz, Fritz....................................... 1368 (H1, Tue) Schöner, Adolf................................... 1997 (Q3, Wed) Schonvogel, Dana...............................1301 (F3, Thu) Schrandt, Matthew........160 (A3, Mon), 407 (A5, Wed) Schrebler, Ricardo............................. 1367 (H1, Tue), .................................1409 (H2, Tue), 1896 (Q1, Tue) Schroder, Uwe.....................................2281 (Z2, Tue) Schroeder, Marshall............................ 231 (A4, Tue), ................................... 482 (A6, Mon), 498 (A6, Tue) Schroeder, Matthias............................169 (A3, Mon) Schroeder, Melanie............................. 358 (A5, Wed) Schroeder, Thomas........................... 1769 (P7, Mon) Schubert, Markus............................. 1639 (P3, Mon), ............................... 1642 (P3, Mon), 1823 (P7, Wed) Schuette, Michael........ 1103 (F3, Tue), 1190 (F3, Wed) Schuler, Andrew................................ 1318 (G1, Wed) Schultz, Ludwig.................................. 924 (D3, Wed) Schulz, Volker.......... 447 (A5, Thu), 1219 (F3, Wed) Schulze, Hans-Joachim...................... 1652 (P3, Tue), ............................................................. 1654 (P3, Tue)

Schulze, Joerg..........1797 (P7, Tue), 1836 (P7, Thu) Schulze, Jörg..................................... 1770 (P7, Mon) Schustereder, Werner......................... 1652 (P3, Tue), ............................................................. 1654 (P3, Tue) Schwalke, Udo................................ 1564 (M1, Wed), ...............................1569 (M1, Wed), 1895 (Q1, Tue) Schwartz, Daniel.................................. 866 (D2, Tue) Schwartz, Jared..................................1712 (P5, Wed) Schwarzburger, Nele............................ 242 (A4, Tue) Schwarzenbach, Walter.................... 1720 (P6, Mon) Schwenke, K. Uta...... 59 (A2, Mon), 136 (A2, Wed) Schünemann, Jan-Hinnerk................. 341 (A5, Wed) Sciancalepore, Corrado..................... 1724 (P6, Mon) Scipioni, Roberto................................ 382 (A5, Wed) Scrosati, Bruno.................................... 130 (A2, Wed) Scudiero, Louis.........1125 (F3, Tue), 1126 (F3, Tue) Scully, John...........................................757 (C2, Tue) Seal, Mark......................................... 1725 (P6, Mon) Searle, Justin............... 707 (C1, Tue), 800 (C3, Wed) Sebaai, Farid.......................................1713 (P5, Wed) Sebek, Michael.................................. 1550 (H8, Wed) Secanell, Marc.........1024 (F3, Sun), 1032 (F3, Sun), ................................. 1084 (F3, Tue), 1225 (F3, Wed) Secondo, Lynn..................................... 366 (A5, Wed) Sedlacik, Michal................................ 1593 (N1, Tue) Sedov, Andrey........................................45 (A1, Tue), ............................... 1341 (H1, Mon), 1372 (H1, Tue) Seefeldt, Marc....................................1811 (P7, Wed) Seetharaman, Seshadri....................... 1441 (H6, Tue) Segers, Siegfried................................. 1658 (P3, Tue) Seh, Zhi Wei......................................... 500 (A6, Tue) Seid, Kalid Ahmed..............................226 (A4, Mon) Seidl, Lukas....................................... 1469 (H6, Wed) Seidlmayer, Stefan..............................265 (A5, Mon) Seidou Maiga, Ahmadou................1904 (Q10, Mon) Seifert, Hans........................................ 376 (A5, Wed) Seifert, Sönke.....................................1259 (F3, Wed) Seignard, Aurélien..... 1720 (P6, Mon), 1745 (P6, Wed) Seiss, Birgitte...................................... 1778 (P7, Tue) Sek, Jakub........................................... 1390 (H2, Tue) Sekhar, Praveen................................... 652 (B1, Wed) Seki, Hirofumi................................... 1638 (P3, Mon) Seki, Shiro..................187 (A3, Tue), 210 (A3, Wed) Seki, Yusuke......................................... 839 (D1, Thu) Sekine, Makoto.................................. 1588 (N1, Tue) Sekizawa, Oki..................................... 1067 (F3, Tue) Seland, Frode......................................1511 (H7, Tue) Selmi, Luca........................................1818 (P7, Wed) Selskis, Algirdas................................. 836 (D1, Wed), ..................................837 (D1, Wed), 1127 (F3, Tue), ..................................1173 (F3, Tue), 1174 (F3, Tue), ...................................1176 (F3, Tue), 1177 (F3, Tue) Semerel, Daniel..................................1233 (F3, Wed) Seng, Tan............................................1632 (P1, Wed) Senoh, Hiroshi........... 522 (A7, Tue), 2189 (Z1, Tue) Senoo, Yuichi.....................................1202 (F3, Wed) Seo, Daniel........................................... 512 (A7, Tue) Seo, Dong-Hwa...................................258 (A5, Mon) Seo, Ji Hoon....................................... 2075 (Q6, Tue) Seo, Jin Won........................................ 1650 (P3, Tue) Seo, Jungmok...................................... 1880 (P9, Tue) Seo, Kwanyong.................................. 2075 (Q6, Tue) Seo, Kyewon......................................1708 (P5, Wed) Seo, Myung Ji..................................... 783 (C2, Wed) Seo, Nary............................................ 1890 (Q1, Tue) Seo, Sungho........................................ 895 (D2, Wed) Seong, Gi Hun..........2177 (Z1, Tue), 2178 (Z1, Tue) Seong, Jinwook................................... 797 (C3, Wed) Seppälä, Sanni....................................1624 (P1, Wed) Sepulveda, Borja................................1634 (P1, Wed) Sepúlveda, Selene.............................1380 (H2, Mon) Sequeira, Cesar................................... 833 (D1, Wed), ................................. 1128 (F3, Tue), 1240 (F3, Wed)

Serov, Alexey...........589 (A8, Wed), 1121 (F3, Tue), .................................1303 (F3, Thu), 1304 (F3, Thu), .................................1310 (F3, Thu), 1311 (F3, Thu), ................................. 1312 (F3, Thu), 1514 (H7, Tue) Serquis, Adriana..................................973 (F2, Mon), ................................. 1004 (F2, Tue), 1010 (F2, Wed) Serra, Carmen.................................... 1770 (P7, Mon) Serrano, Tania.......................................936 (E2, Wed) Servedio, Luke.................................... 139 (A2, Wed) Serventon, Germain...........................1807 (P7, Wed) Setlur, Anant...................................... 2166 (R1, Wed) Seu, Candace........................................ 513 (A7, Tue) Seyeux, Antoine..................................227 (A4, Mon) Sezer, Hayri......................................... 950 (E3, Mon) Shaffer, Christian................................. 466 (A5, Thu) Shahabi-Navid, Mehrdad..................702 (C1, Mon), .............................................................705 (C1, Mon) Shahin, David..................................... 1983 (Q3, Tue) Shak, Andrey...................................... 1465 (H6, Tue) Shalyt, Eugene...................................1714 (P5, Wed) Shan, Bin........................................... 1413 (H2, Tue), ................................. 1615 (P1, Tue), 1630 (P1, Wed) Shanmugam, Sangaraju.....................161 (A3, Mon), .............................................................1291 (F3, Thu) Shannon, Curtis.....................................649 (B1, Tue) Shao, Minhua......................................1021 (F3, Sun) Shao-Horn, Yang...................................55 (A2, Mon) Shapovalov, Viktor..............................480 (A6, Mon) Sharma, Neeraj........................................6 (A1, Mon) Sharma, Peter....................................... 814 (D1, Tue) Sharma, Saumya................................2316 (Z3, Wed) Sharma, Shashank...............................1853 (P7, Thu) Sharman, Jonathan..............................1308 (F3, Thu) Shaw, Barbara......................................774 (C2, Tue), ................................... 778 (C2, Wed), 786 (C2, Wed) Shaw, Leon........................................... 149 (A2, Thu) Shaw, Scott........................................1428 (H6, Mon) Shchetinskiy, Andrey......................... 1467 (H6, Tue) Sheargold, Stephen.............................. 286 (A5, Tue) Shearing, Paul.................................... 339 (A5, Wed), ....................................982 (F2, Tue), 1444 (H6, Tue) Sheen, Mi-Hyang........1982 (Q3, Tue), 1991 (Q3, Wed) Sheffler, William............................... 1323 (G1, Wed) Sheina, Ludmila......................................50 (A1, Tue) Shel, Natalia.................729 (C1, Tue), 730 (C1, Tue) Shellikeri, Annadanesh...........................70 (A2, Tue) Shen, Meihua...................................... 1673 (P4, Tue) Shen, Shaohua...................................... 550 (A8, Sun) Shen, Xiaodong................................... 105 (A2, Wed) Shenai, Krishna.......1957 (Q3, Mon), 1964 (Q3, Mon), .............................. 1967 (Q3, Mon), 1974 (Q3, Tue), ................................1976 (Q3, Tue), 1981 (Q3, Tue), ........................................................... 1995 (Q3, Wed) Shenoy, Vivek...................................... 92 (A2, Wed), ...................................101 (A2, Wed), 276 (A5, Tue), .................................1355 (H1, Tue), 1889 (Q1, Tue) Sheridan, Edel..................................... 388 (A5, Wed) Sherman, Elena.................................... 437 (A5, Thu) Shevchuk, Michael.............................. 517 (A7, Tue) Shi, Bing............................................... 238 (A4, Tue) Shi, Yanzhuo.........................................763 (C2, Tue) Shi, Zhong............................................ 286 (A5, Tue) Shi, Zhongning................................... 1442 (H6, Tue) Shibata, Daiki...................................... 1657 (P3, Tue) Shibata, Kazuki.......................................74 (A2, Tue) Shibata, Mari..................................... 1537 (H7, Wed) Shibata, Sae........................................ 1515 (H7, Tue) Shigekawa, Naoteru.......................... 1726 (P6, Mon) Shigematsu, Ryou................................111 (A2, Wed) Shigyo, Kazuhiro.............................. 2169 (R1, Wed) Shih, Jonathan.........................................43 (A1, Tue) Shih, Neng-Lang................................ 2080 (Q6, Tue) Shiiba, Hiromasa.................................. 151 (A2, Thu) Shiku, Hitoshi......................................261 (A5, Mon) Shillingford, Tyrone........................... 1436 (H6, Tue) Shim, Hee-Sang.................................. 783 (C2, Wed)

224

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Shim, Janggeun................................... 593 (A8, Wed) Shim, Kyu-Hwan............................... 1659 (P3, Tue), ................................1660 (P3, Tue), 1774 (P7, Mon), ............................................................. 1801 (P7, Tue) Shim, Tae-Hun...................................2058 (Q5, Thu) Shimadzu, Saori......................................1 (A1, Mon) Shimatsu, Takehito.............................900 (D3, Mon), ............................................................1754 (P6, Wed) Shimizu, Takahiro..............................1255 (F3, Wed) Shimizu, Tomohiro...........................1702 (P5, Wed), .............................. 1704 (P5, Wed), 2037 (Q5, Wed), ........................................................... 2047 (Q5, Wed) Shimizu, Wataru................................... 212 (A3, Thu) Shimoda, Tatsuya............................1907 (Q10, Mon) Shimohira, Tetsuji..............................1195 (F3, Wed) Shimpalee, Sirivatch..........................1031 (F3, Sun), ............................................................1222 (F3, Wed) Shimura, Kosuke...............................2084 (Q7, Mon) Shimura, Yosuke................................ 1647 (P3, Tue), ..................................1826 (P7, Thu), 1858 (P7, Thu) Shin, Dong Ok.................................... 402 (A5, Wed) Shin, Dongwook..................................978 (F2, Mon) Shin, Gyuho........................................2231 (Z1, Tue) Shin, Han Kyun..................................1711 (P5, Wed) Shin, Hojin........................................ 1328 (G1, Wed) Shin, Jae Wook..................................... 272 (A5, Tue) Shin, Kyoung-Hee.............................. 396 (A5, Wed) Shin, Sera............................................ 1880 (P9, Tue) Shin, Sung-Ho................................... 2030 (Q4, Wed) Shin, Won-Kyung............................... 403 (A5, Wed) Shin, Woo Gon.................................... 1677 (P4, Tue) Shin, Yonghyeon................................ 2107 (Q7, Tue) Shinagawa, Tatsuya.........................1339 (H1, Mon), ............................................................ 1388 (H2, Tue) Shingubara, Shoso............................1701 (P5, Wed), ...............................1702 (P5, Wed), 1703 (P5, Wed), .............................. 1704 (P5, Wed), 2037 (Q5, Wed), ........................................................... 2047 (Q5, Wed) Shinjo, Teruya................................... 2040 (Q5, Wed) Shinoda, Kentaro..............................2005 (Q4, Mon) Shinozaki, Kazuma.............................1016 (F3, Sun) Shintaku, Yuta..................................... 1059 (F3, Tue) Shintani, Toshimichi......................... 2042 (Q5, Wed) Shiono, Tetsuaki..................................2211 (Z1, Tue) Shionoiri, Yutaka................................2054 (Q5, Thu) Shiota, Youichi.................................. 2040 (Q5, Wed) Shirai, Akira..............1063 (F3, Tue), 1135 (F3, Tue) Shiraishi, Kenji..........2086 (Q7, Mon), 2114 (Q7, Wed) Shiraishi, Soshi........................................1 (A1, Mon) Shirakashi, Junichi.............................. 1800 (P7, Tue) Shiratani, Masaharu........................... 1585 (N1, Tue) Shirpour, Mona.................................... 147 (A2, Thu) Shishitani, Hideyuki...........................1283 (F3, Thu) Shishka, Vasily................................... 1891 (Q1, Tue) Shitanda, Isao............ 345 (A5, Wed), 750 (C2, Tue), ..................................753 (C2, Tue), 1315 (G1, Wed) Shiu, Kuen Ting................................ 1723 (P6, Mon) Shojan, Jifi...............................................4 (A1, Mon) Shon, Jeong-Kuk................................. 354 (A5, Wed) Shono, Kumi............. 405 (A5, Wed), 439 (A5, Thu) Shrestha, Buddha.................................713 (C1, Tue), ................................ 792 (C3, Wed), 1334 (H1, Mon) Shrestha, Lok-Kumar.........................486 (A6, Mon) Shrestha, Sujan................................... 1436 (H6, Tue) Shrivastava, Udit................................. 1101 (F3, Tue) Shrotriya, Pranav.......791 (C3, Wed), 798 (C3, Wed) Shui, Jianglan......................................1307 (F3, Thu) Shukla, Alpesh..................................... 470 (A5, Thu) Shukla, Ashok...................................... 215 (A3, Thu) Shukla, Shantanu................................ 1084 (F3, Tue) Shuklin, Dmitriy................................ 1463 (H6, Tue) Shul, Yong Gun...................................1292 (F3, Thu) Shunmugasundaram, Ramesh............. 289 (A5, Tue) Shur, Michael.........1912 (Q10, Mon), 2141 (Q9, Mon) Shviro, Meital.............811 (D1, Tue), 1075 (F3, Tue) Si, Yujun....................1144 (F3, Tue), 1145 (F3, Tue)

Siebel, Armin...................................... 1074 (F3, Tue) Siegel, Dean............ 1805 (P7, Tue), 1824 (P7, Wed) Siegel, Donald................5 (A1, Mon), 53 (A2, Mon) Siegel, Jason........................................ 366 (A5, Wed) Siegwart, Heinz................................. 1723 (P6, Mon) Signamarcheix, Thomas.................. 1720 (P6, Mon), ................................1745 (P6, Wed), 1756 (P6, Wed) Siinor, Liis............... 173 (A3, Tue), 1425 (H6, Mon) Sikora, Elizabeth..................................774 (C2, Tue), ................................... 778 (C2, Wed), 786 (C2, Wed) Silva, Gabriel......................................1187 (F3, Wed) Silva, M................................................ 526 (A7, Tue) Silva, Ricardo.....................................1203 (F3, Wed) Simin, Grigory..................................2141 (Q9, Mon) Simkunaite, Dijana............................ 1173 (F3, Tue), ...................................1174 (F3, Tue), 1176 (F3, Tue) Simkunaite-Stanyniene, Birute.......... 837 (D1, Wed) Simmerman, Richard........................ 1319 (G1, Wed) Simmons, Michelle............................. 1651 (P3, Tue) Simoen, Eddy..................................... 1646 (P3, Tue), ................................. 1648 (P3, Tue), 1647 (P3, Tue), .................................. 1656 (P3, Tue), 1658 (P3, Tue) Simon, Christoph................................ 1074 (F3, Tue) Simon, Patrice.......... 194 (A3, Wed), 2246 (Z1, Tue) Simonian, Aleksandr............................649 (B1, Tue), ............................................................. 665 (B1, Wed) Simons, Stefaan.................................. 1444 (H6, Tue) Simonsen, Søren................................... 981 (F2, Tue) Simozrag, Bouzid.............................. 2150 (Q9, Tue) Simpson, Gavin...................................1856 (P7, Thu) Sims, Jim............................................. 1608 (P1, Tue) Simsek, Sinan....................................2092 (Q7, Mon) Simunovic, Srdjan..................................34 (A1, Tue), ......................................38 (A1, Tue), 369 (A5, Wed) Sinclair, Derek...................................1342 (H1, Mon) Singh, Deepika.................................. 1533 (H7, Wed) Singh, Harmeet................................... 1673 (P4, Tue) Singh, Randhir...................................1230 (F3, Wed) Singh, Vandana...................................... 979 (F2, Tue) Singh, Vini...........................................674 (B2, Mon) Singh, Yadvinder..........1245 (F3, Wed), 1299 (F3, Thu) Singhal, Sameer..................................2284 (Z2, Tue) Sinha, Nupur........................................ 516 (A7, Tue) Sinha, Puneet......................................1249 (F3, Wed) Sinturel, Christophe............................ 1672 (P4, Tue) Sioncke, Sonja..................................... 1613 (P1, Tue) Sirisopanaporn, Chutchamon.............1852 (P7, Thu) Siroma, Zyun............1130 (F3, Tue), 1522 (H7, Tue) Sisk, Brian.................373 (A5, Wed), 404 (A5, Wed) Sissoko, Gregoire............................1904 (Q10, Mon) Skaria, Giji..........................................2270 (Z1, Tue) Skatkov, Leonid................................. 1450 (H6, Tue) Skorupa, Wolfgang............................. 1616 (P1, Tue) Skowron, Piotr..................................... 217 (A3, Thu) Skryptun, Igor.................................... 1468 (H6, Tue) Slack, John.........................................1250 (F3, Wed) Slade, Robert.......................................2278 (Z2, Tue) Sleightholme, Alice................................5 (A1, Mon), .................................... 53 (A2, Mon), 196 (A3, Wed) Sljukic, Biljana........ 1128 (F3, Tue), 1240 (F3, Wed) Slobodian, Petr................................... 1593 (N1, Tue) Slotte, Jonatan....................................1661 (P3, Wed) Smart, Marshall.................................... 513 (A7, Tue) Smiley, Danielle................................... 469 (A5, Thu) Smirnova, Alevtina.......160 (A3, Mon), 407 (A5, Wed) Smit, Mascha....................................... 1104 (F3, Tue) Smith, Kyle..................... 83 (A2, Tue), 86 (A2, Tue) Smith, Leigh......................................2138 (Q9, Mon) Smith, Matt..........................................1037 (F3, Sun) Smith, Noel......................................... 1668 (P4, Tue) Smolin, Yuriy...........201 (A3, Wed), 1583 (N1, Tue) Snider, Gregory..................................1818 (P7, Wed) Snyder, Joshua......... 1017 (F3, Sun), 1513 (H7, Tue) Snyder, Stephen..................................855 (D2, Mon) So, InSeop...........................................2203 (Z1, Tue) Sobolev, Alexander............................1497 (H6, Thu)

Sobrino, Jean-Michel.......726 (C1, Tue), 758 (C2, Tue) Sodeyama, Keitaro...... 515 (A7, Tue), 519 (A7, Tue) Soeda, Kazunari....................................16 (A1, Mon) Soeya, Susumu.................................. 2042 (Q5, Wed) Søgaard, Martin..................................1012 (F2, Wed) Sohn, Hyunchul............................... 2048 (Q5, Wed), ...............................2049 (Q5, Wed), 2117 (Q7, Wed) Sohn, Young-Jun................................. 1148 (F3, Tue) Solarska, Renata.................................. 586 (A8, Wed) Soldati, Analía.....................................973 (F2, Mon), ................................. 1004 (F2, Tue), 1010 (F2, Wed) Soldatov, Alexander............................480 (A6, Mon) Soles, Christopher........84 (A2, Tue), 1095 (F3, Tue) Solheim, Asbjørn............................... 1446 (H6, Tue) Soliman, Moataz................................ 2082 (Q6, Tue) Solis-Marcano, Nadja.........................678 (B2, Mon) Solla-Gullón, José..............................2320 (Z3, Wed) Sollier, Sébastien............................... 1720 (P6, Mon) Solorza-Feria, O................................. 1516 (H7, Tue) Soltani, Mohammad......................... 1529 (H7, Wed) Somalu, Mahendra................................ 982 (F2, Tue) Somasundaram, Subramaniam.............649 (B1, Tue) Sometani, Mitsuru.............................1959 (Q3, Mon) Someya, Satoshi.................................1228 (F3, Wed) Sommer, Heino.................................... 493 (A6, Tue) Son, ByungRak....... 361 (A5, Wed), 1242 (F3, Wed) Son, Jin-Young...................................... 94 (A2, Wed) Son, Woonbae................................... 2036 (Q5, Wed) Sonawane, Dayaram...............................39 (A1, Tue) Sone, Takayuki...................................1704 (P5, Wed) Song, Bo.....................283 (A5, Tue), 349 (A5, Wed) Song, Edward........................................681 (B2, Tue) Song, H. Z........................................... 371 (A5, Wed) Song, Jaehee............. 107 (A2, Wed), 2187 (Z1, Tue) Song, Jie............................................... 465 (A5, Thu) Song, Jongchan.......................................88 (A2, Tue) Song, Jung Hwan................................ 889 (D2, Wed) Song, Jung-Hoon................................ 425 (A5, Wed) Song, Kay...........................................2052 (Q5, Thu) Song, Ling-ju.................................... 1952 (Q2, Wed) Song, Min-Sang.................................. 354 (A5, Wed) Song, Rak-Hyun................................... 998 (F2, Tue) Song, Seonghyun................................ 416 (A5, Wed) Song, Seul Ji...................................... 2036 (Q5, Wed) Song, Tae-Ho...................................... 1596 (N1, Tue) Song, Xiangyun..................................474 (A6, Mon) Song, Young-Uk.................................1749 (P6, Wed) Song, Yunwon....... 2308 (Z3, Wed), 2310 (Z3, Wed) Soref, Richard....................................1830 (P7, Thu), ..................................1844 (P7, Thu), 1845 (P7, Thu) Soroush, Masoud............................... 1583 (N1, Tue) Soto-Estrada, Adriana........................ 1371 (H1, Tue) Sotomayor Torres, Clivia.................. 1863 (P8, Mon) Soudan, Patrick......................................29 (A1, Tue), .................................... 90 (A2, Wed), 226 (A4, Mon) Soukiasian, Souren.............................. 437 (A5, Thu) Sourice, Julien..................................... 331 (A5, Wed) Sousa, Marilyne................................ 1723 (P6, Mon) Sousa, Nuno.......................................1240 (F3, Wed) Sousa, Ruy..........................................1217 (F3, Wed) Soussou, Assawer.............................2091 (Q7, Mon) Spahr, Michael.................................... 326 (A5, Wed) Spanier, Jonathan........ 1600 (P1, Mon), 2245 (Z1, Tue) Spernjak, Dusan...... 654 (B1, Wed), 1201 (F3, Wed) Spotnitz, Robert..................................854 (D2, Mon) Spreafico, Marco........364 (A5, Wed), 813 (D1, Tue) Sprenkle, Vincent................................ 491 (A6, Tue), .................................... 601 (A9, Tue), 602 (A9, Tue), ....................................612 (A9, Tue), 623 (A9, Wed) Sreekuttan, M. Unni........................... 1507 (H7, Tue) Sridhar, Narasi.........797 (C3, Wed), 1543 (H8, Wed) Srinivasan, Jayendran...........................751 (C2, Tue) Srinivasan, Raghu.................................754 (C2, Tue) Srinivasan, Sunil................................. 1676 (P4, Tue) Srinivasan, Venkat.......457 (A5, Thu), 613 (A9, Tue) Srivastava, Alok.........2159 (R1, Wed), 2160 (R1, Wed)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

225


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

St-Pierre, Jean.................................... 1058 (F3, Tue), ..................................1268 (F3, Thu), 1271 (F3, Thu) Stach, Eric........................................... 140 (A2, Wed) Stafford, Christopher.......................... 1095 (F3, Tue) Stafford, Gery..................................... 892 (D2, Wed), ................................ 1484 (H6, Thu), 1487 (H6, Thu) Stagniunaite, Raminta.......................... 882 (D2, Tue) Stahlbush, R. E................................... 1972 (Q3, Tue) Stahlbush, Robert..............................1961 (Q3, Mon) Stalnioniene, Irena..........882 (D2, Tue), 1174 (F3, Tue) Stamenkovic, Vojislav.......................1017 (F3, Sun), ............................................................ 1513 (H7, Tue) Stangl, Julian.......................................1851 (P7, Thu) Stankevičienė, Ina............................... 881 (D2, Tue), ...................................1127 (F3, Tue), 1177 (F3, Tue) Stannowski, Bernd.............................. 583 (A8, Wed) Stariha, Sarah......................................1312 (F3, Thu) Staser, John................927 (E2, Wed), 1060 (F3, Tue) Stassi, Alessandro............................... 1114 (F3, Tue) Stavila, Vitalie.................................... 2105 (Q7, Tue) Steenberg, Thomas.............................1185 (F3, Wed) Stefan-van Staden, Raluca..................679 (B2, Mon) Stefanakos, Elias................................2316 (Z3, Wed) Stefanopoulou, Anna.......................... 366 (A5, Wed) Stefanov, Stefan................................ 1770 (P7, Mon) Stehr, J...............................................2146 (Q9, Mon) Steinbach, Andrew.............................1209 (F3, Wed) Steinberg, Vahur...............................1504 (H7, Mon), ................................. 1508 (H7, Tue), 2242 (Z1, Tue) Steingart, Daniel..........78 (A2, Tue), 140 (A2, Wed), .................................228 (A4, Mon), 479 (A6, Mon), .....................................618 (A9, Tue), 850 (D1, Thu) Stellmach, Diana................................. 583 (A8, Wed) Stenson, Alexandra........................... 1480 (H6, Wed) Stephens, Ifan.....................................1038 (F3, Sun), .................................1109 (F3, Tue), 1535 (H7, Wed) Stershic, Andrew.....................................38 (A1, Tue) Stesmans, Andre.................................481 (A6, Mon), ..............................1665 (P3, Wed), 2085 (Q7, Mon), ............................................................ 2101 (Q7, Tue) Stetter, Joseph......... 653 (B1, Wed), 2006 (Q4, Mon) Stevens, James...................................2050 (Q5, Thu) Stevens, Philippe.......131 (A2, Wed), 132 (A2, Wed) Stevenson, Anthony.......................... 1445 (H6, Tue), ............................................................1489 (H6, Thu) Stevenson, Steven............................ 1565 (M1, Wed) Stewart, Ian........................................... 507 (A6, Tue) Stewart, S. Michael............................. 1092 (F3, Tue) Stickney, John..................................... 807 (D1, Tue), ..............................1375 (H2, Mon), 1383 (H2, Mon) Stieger, Alexander................................ 440 (A5, Thu) Stievater, Todd.......................................686 (B2, Tue) Stimming, Ulrich........1469 (H6, Wed), 2254 (Z1, Tue) Stinner, Christoph............................... 303 (A5, Wed) Stocks, Allison...................................1239 (F3, Wed) Stoica, Toma........................................1827 (P7, Thu) Stoner, Brian......................................2295 (Z2, Wed), ............................... 2296 (Z2, Wed), 2299 (Z2, Wed) Strano, Vicky...................................1931 (Q10, Wed) Strasser, Peter..................................... 590 (A8, Wed), ................................... 805 (D1, Tue), 1018 (F3, Sun) Strawsine, Lauren.............................. 1351 (H1, Tue) Streit, Jason...................................... 1560 (M1, Wed) Stremsdoerfer, G.................................. 880 (D2, Tue) Strickland, Kara................................. 1510 (H7, Tue) Strmcnik, Dusan................................. 1513 (H7, Tue) Stroman, Richard......... 1107 (F3, Tue), 1190 (F3, Wed) Struyf, Herbert.......1701 (P5, Wed), 1703 (P5, Wed) Stumper, Jürgen.......1206 (F3, Wed), 1285 (F3, Thu) Sturgeon, Matthew.............................1262 (F3, Wed) Stuve, Eric............................................ 453 (A5, Thu) Su, Dong..............................................1021 (F3, Sun) Su, Qiang........................................... 2155 (R1, Wed) Su, Yan...................... 694 (B2, Tue), 2118 (Q7, Wed) Suarez, Sophia.................................... 1421 (H6, Sun) Suárez-Boomgaard, Diana...............2124 (Q8, Mon)

Subbaraman, Ram...............................1037 (F3, Sun) Subianto, Surya................................. 1525 (H7, Wed) Sublemontier, Olivier.......................... 331 (A5, Wed) Subramanian, N.P................................ 830 (D1, Wed) Subramanian, Raman.......................... 146 (A2, Wed) Subramanian, Venkat.............................35 (A1, Tue), ........................................ 36 (A1, Tue), 39 (A1, Tue), ................................. 477 (A6, Mon), 632 (A9, Wed), ............................................................. 960 (E3, Mon) Subramanian, Vivek........................... 2106 (Q7, Tue) Suda, Kohei.........................................1828 (P7, Thu) Suda, Ryutaro...................................... 1800 (P7, Tue) Sudoh, Hiroshi....................................1828 (P7, Thu) Suehiro, Takayuki............................ 2163 (R1, Wed), ........................................................... 2165 (R1, Wed) Suemasu, Takashi................................. 910 (D3, Tue) Sueoka, Koji............1636 (P3, Mon), 1657 (P3, Tue) Suga, Tadatomo................................ 1717 (P6, Mon), ................................ 1739 (P6, Tue), 1750 (P6, Wed), ............................................................1758 (P6, Wed) Suga, Takeo......................................... 1158 (F3, Tue) Sugawara, Masao..................................650 (B1, Tue) Sugawara, Yu............801 (C3, Wed), 803 (C3, Wed), ................................. 1069 (F3, Tue), 2175 (Z1, Tue), ..................................2222 (Z1, Tue), 2228 (Z1, Tue) Sugimoto, Toshiki...............................1026 (F3, Sun) Sugimoto, Wataru............................... 212 (A3, Thu), ................................. 1071 (F3, Tue), 1254 (F3, Wed) Sugitani, Michiro.............................. 1771 (P7, Mon) Sugiyama, Shiori...........995 (F2, Tue), 997 (F2, Tue) Suh, Soon............................................ 353 (A5, Wed) Suhr, Dominique................................. 1690 (P5, Tue) Suk, Jae-Ho........................................ 1594 (N1, Tue) Sukhdeo, David................................... 1796 (P7, Tue) Sukrittanon, S....................................2146 (Q9, Mon) Sulek, Mark......................................... 1118 (F3, Tue) Suliman, Samia.................................2089 (Q7, Mon) Sumanasekera, Gamini...................... 1582 (N1, Tue) Sumner, James.................................. 1319 (G1, Wed) Sun, Bing............................................. 294 (A5, Wed) Sun, Chengjun...................................... 608 (A9, Tue) Sun, Da-Shiuan.................................2128 (Q8, Mon) Sun, Greg............................................1830 (P7, Thu), ..................................1844 (P7, Thu), 1845 (P7, Thu) Sun, Kai............................................... 1118 (F3, Tue) Sun, Ke................................................ 595 (A8, Wed) Sun, Lili...............................................1282 (F3, Thu) Sun, Ming............................................ 921 (D3, Wed) Sun, Shaopeng..................................... 919 (D3, Wed) Sun, Wen-Cheng................................ 2070 (Q6, Tue) Sun, Xiangcheng......... 499 (A6, Tue), 501 (A6, Tue) Sun, Yan................................................ 521 (A7, Tue) Sun, Yan-Ting......... 1813 (P7, Wed), 2150 (Q9, Tue) Sun, Yang.............................................. 883 (D2, Tue) Sun, Yang-Kook................................. 130 (A2, Wed), ..................................312 (A5, Wed), 423 (A5, Wed), ............................................................. 424 (A5, Wed) Sun, Ying................... 57 (A2, Mon), 630 (A9, Wed), .................................. 875 (D2, Tue), 1705 (P5, Wed) Sundaram, Kalpathy..........................2269 (Z1, Tue), ..................................2270 (Z1, Tue), 2271 (Z1, Tue) Sunde, Svein........................................1511 (H7, Tue) Sundmacher, Kai............................... 1541 (H8, Wed) Sung, Gi-woon...................................2313 (Z3, Wed) Sung, Yung-Eun.................................. 1163 (F3, Tue) Suni, Ian............................................... 661 (B1, Wed) Sunkara, Mahendra.......575 (A8, Tue), 1592 (N1, Tue) Suroviec, Alice................................... 1347 (H1, Tue) Susac, Darija.......................................1285 (F3, Thu) Suthar, Bharatkumar....... 35 (A1, Tue), 39 (A1, Tue) Sutlief, Alexandra..............................1712 (P5, Wed) Sutour, Sylvain....................................700 (C1, Mon) Suzuki, Ai.............................................969 (F2, Mon) Suzuki, Akihiro....... 1002 (F2, Tue), 1009 (F2, Wed) Suzuki, Kengo...........1159 (F3, Tue), 1162 (F3, Tue)

Suzuki, Motofumi............................ 2021 (Q4, Wed), ................................2025 (Q4, Wed), 2153 (Q9, Tue) Suzuki, S..............................................2263 (Z1, Tue) Suzuki, Shinya....................................2262 (Z1, Tue) Suzuki, Takahiro.......822 (D1, Wed), 1112 (F3, Tue) Suzuki, Takahisa........ 1050 (F3, Mon), 1207 (F3, Wed) Suzuki, Yoshishige............................ 2040 (Q5, Wed) Suzuki, Yuya...................................... 1555 (H8, Wed) Svendby, Jørgen..................................1511 (H7, Tue) Svensson, Ann Mari............................ 313 (A5, Wed) Svensson, Jan-Erik.......702 (C1, Mon), 705 (C1, Mon) Sviridov, Lev....................................... 140 (A2, Wed) Svrcek, Vladimir................................ 1584 (N1, Tue) Swaminathan, Karthik........................1856 (P7, Thu) Swarnakar, Akhilesh.........................1664 (P3, Wed), ............................................................. 1777 (P7, Tue) Swartz, Christopher....... 159 (A3, Mon), 616 (A9, Tue) Sweely, Kurt.......... 1479 (H6, Wed), 1488 (H6, Thu) Swiatowska, Jolanta............................227 (A4, Mon) Swider-Lyons, Karen......................... 1103 (F3, Tue), ................................1190 (F3, Wed), 1268 (F3, Thu), .............................................................1270 (F3, Thu) Świerczek, Konrad.........985 (F2, Tue), 1524 (H7, Tue) Syzdek, Jaroslaw.................................222 (A4, Mon) Szablowska, Aneta.............................. 325 (A5, Wed) Szaniawska, Ewelina.......................... 586 (A8, Wed)

226

T

Tabata, Hiroshi....................................1287 (F3, Thu) Tabe, Yutaka..............1159 (F3, Tue), 1162 (F3, Tue) Tabei, Kozue.........................................750 (C2, Tue) Taboada, Alfonso...............................1822 (P7, Wed) Tabuchi, Masato................................... 439 (A5, Thu) Tabuchi, Yuichiro........1045 (F3, Mon), 1288 (F3, Thu) Tack, Marnix...................................... 1979 (Q3, Tue) Tada, Eiji......................720 (C1, Tue), 763 (C2, Tue), ...................................1068 (F3, Tue), 1136 (F3, Tue) Tada, Tetsuya..................................... 1861 (P8, Mon) Tadaki, Daisuke...............................1911 (Q10, Mon) Tadanaga, Kiyoharu............................ 299 (A5, Wed) Tadjer, Marko........ 1961 (Q3, Mon), 1980 (Q3, Tue) Tagmatarchis, Nikos....................... 1567 (M1, Wed), .......................................................... 1570 (M1, Wed) Taguchi, Noboru.................................. 237 (A4, Tue) Taheri, Peyman.......... 15 (A1, Mon), 397 (A5, Wed) Tahir, Muhammad...............................2176 (Z1, Tue) Tai, Mitsuharu................................... 2043 (Q5, Wed) Tailleart, Nicole................................... 787 (C2, Wed) Taillon, Joshua...........298 (A5, Wed), 975 (F2, Mon) Tajiri, Kazuya........... 1027 (F3, Sun), 1101 (F3, Tue) Takaba, Hiromitsu..............................1257 (F3, Wed) Takabatake, Yuma..............................1205 (F3, Wed) Takagi, Hideki......... 1649 (P3, Tue), 1748 (P6, Wed) Takagi, Shinichi.................................. 1645 (P3, Tue) Takagishi, Hideyuki........................1907 (Q10, Mon) Takahashi, Akio................................. 1996 (Q3, Wed) Takahashi, Hideyuki..........................2317 (Z3, Wed) Takahashi, Kenji.................................. 457 (A5, Thu) Takahashi, Kojiro................................. 187 (A3, Tue) Takahashi, Ryusuke..........................2084 (Q7, Mon) Takahashi, Shuntaro.......................... 1536 (H7, Wed) Takahashi, Tsunaki............................ 1760 (P7, Mon) Takahashi, Yasufumi...........................261 (A5, Mon) Takahashi, Yohei.................................1274 (F3, Thu) Takahashi, Yosuke...............................2179 (Z1, Tue) Takahashi, Yu...........1022 (F3, Sun), 2201 (Z1, Tue) Takai, Osamu...................................... 1694 (P5, Tue) Takai, Shigeomi..........30 (A1, Tue), 304 (A5, Wed), ................................. 427 (A5, Wed), 2236 (Z1, Tue), .............................................................2250 (Z1, Tue) Takako, Nakamura............................2005 (Q4, Mon) Takakusagi, Satoru............................ 1537 (H7, Wed) Takakuwa, Yasutomo........................... 619 (A9, Tue) Takami, Norio..................................... 319 (A5, Wed) Takanabe, Kazuhiro.........................1339 (H1, Mon), ............................................................ 1388 (H2, Tue) Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Takano, Jun................1153 (F3, Tue), 1158 (F3, Tue) Takao, Kazuto...................................1959 (Q3, Mon) Takao, Shinobu................................... 1067 (F3, Tue) Takashi, Yusuke................................... 401 (A5, Wed) Takaura, Norikatsu............................ 2043 (Q5, Wed) Takayama, Ryo.................................... 1108 (F3, Tue) Takayama, Tsutomu...........................1034 (F3, Sun), ............................................................. 1108 (F3, Tue) Takeda, Hiroki..................................... 127 (A2, Wed) Takeda, Kaori..................................... 1420 (H6, Sun) Takeda, Kotarou..................................1838 (P7, Thu) Takeda, Takashi................................. 2163 (R1, Wed) Takeguchi, Tatsuya............................1253 (F3, Wed) Takei, Kuniharu.................................2002 (Q4, Mon) Takei, Manabu...................................1959 (Q3, Mon) Takeichi, Nobuhiko.............................. 522 (A7, Tue) Takekawa, Toshihiro............................ 525 (A7, Tue) Takemoto, Masahi............................... 427 (A5, Wed) Takemura, Yasushi............................... 915 (D3, Tue) Takemura, Yasutaka.......................... 2039 (Q5, Wed) Takenaka, Kensuke...........................1959 (Q3, Mon) Takenaka, Mitsuru.............................. 1645 (P3, Tue) Takenaka, Toshihide.......................... 1437 (H6, Tue) Takenobu, Taishi...............................2136 (Q9, Mon) Takeshita, Hiroyuki............................2189 (Z1, Tue), .............................................................2240 (Z1, Tue) Takeuchi, Daichi.................................1850 (P7, Thu) Takeuchi, Eiichi.................................1490 (H6, Thu) Takeuchi, Esther..................................858 (D2, Mon) Takeuchi, Kazuma..............................1848 (P7, Thu) Takeuchi, Kenneth..............................858 (D2, Mon) Takeuchi, Norimitsu........................... 1070 (F3, Tue) Takeuchi, Tomonari................................81 (A2, Tue) Takeuchi, Wakana.......1772 (P7, Mon), 1834 (P7, Thu) Takeuchi, Yoji......................................267 (A5, Mon) Takeuchi, Yuki........1461 (H6, Tue), 1474 (H6, Wed) Takimoto, Daisuke.............................1254 (F3, Wed) Taklo, Maaike...................................... 1734 (P6, Tue) Talebi-Esfandarani, Majid.................. 367 (A5, Wed) Talin, Albert........................................ 2105 (Q7, Tue) Tallo, Indrek......................................1504 (H7, Mon) Tamaki, Ryo....................................... 119 (A2, Wed), .................................. 627 (A9, Wed), 2230 (Z1, Tue) Tamaki, Takanori.........1036 (F3, Sun), 1247 (F3, Wed) Tamasauskaite-Tamasiunaite, Loreta.......................... ..................................836 (D1, Wed), 837 (D1, Wed), .................................... 879 (D2, Tue), 881 (D2, Tue), ....................................123 (F3, Tue), 1127 (F3, Tue), ................................1173 (F3, Tue), 1174 (F3, Tue), | ..................................1175 (F3, Tue), 1176 (F3, Tue), ............................................................. 1177 (F3, Tue) Tammeveski, Kaido........................... 1077 (F3, Tue), ..............................1377 (H2, Mon), 1503 (H7, Mon) Tamura, Takuya...................................2200 (Z1, Tue) Tan, Chuan Seng..........1730 (P6, Tue), 1766 (P7, Mon) Tan, Hoe............................................. 2147 (Q9, Tue) Tan, Ming........................................... 1399 (H2, Tue) Tan, Zhengquan................................... 1802 (P7, Tue) Tan, Zixi..................... 725 (C1, Tue), 784 (C2, Wed) Tanabe, Toyokazu........ 1129 (F3, Tue), 1215 (F3, Wed) Tanaka, Hirohisa...........1124 (F3, Tue), 1283 (F3, Thu) Tanaka, Hiroki...............995 (F2, Tue), 997 (F2, Tue) Tanaka, Isao.........................................266 (A5, Mon) Tanaka, Manabu................................. 1116 (F3, Tue), ................................. 1129 (F3, Tue), 1215 (F3, Wed) Tanaka, Masatoshi.............................. 1650 (P3, Tue) Tanaka, Shin...................................... 2046 (Q5, Wed) Tanaka, Tetsu..........1701 (P5, Wed), 1703 (P5, Wed) Tanaka, Tetsuya.................................2125 (Q8, Mon) Tanaka, Yasunori...............................1959 (Q3, Mon) Tanemura, Masaki.............................. 2012 (Q4, Tue) Tang, Fu............................................... 1613 (P1, Tue) Tang, I-Tseng...................................... 2060 (Q6, Tue) Tang, Jianshi.......................................1820 (P7, Wed) Tang, Liqiong........................................635 (B1, Tue) Tang, Maureen........................................51 (A1, Tue)

Tang, Mingchu................................... 2013 (Q4, Tue) Tang, Shane......................................... 1608 (P1, Tue) Tang, Wei........................................... 2016 (Q4, Tue), .................................2094 (Q7, Tue), 2100 (Q7, Tue) Taniguchi, Koji...................................1202 (F3, Wed) Taniki, Ryosuke................................. 1472 (H6, Wed) Tanimoto, Hisanori............................. 338 (A5, Wed) Taniuchi, Junichi................................1704 (P5, Wed) Tanuma, Toshihiro............................. 1159 (F3, Tue), ................................1195 (F3, Wed), 1227 (F3, Wed) Tao, Meng........................................... 2070 (Q6, Tue) Tao, Shanwen.....................................1007 (F2, Wed) Taoka, Noriyuki..........1772 (P7, Mon), 1834 (P7, Thu) Tapily, Kandabara.............................. 1612 (P1, Tue), ...........................................................2088 (Q7, Mon) Tappertzhofen, Stefan....................... 2034 (Q5, Wed) Tarascon, Jean-Marie..............................85 (A2, Tue) Tardelli, Joffrey.....................................755 (C2, Tue) Tariq, Farid..................23 (A1, Tue), 229 (A4, Mon), .................................. 339 (A5, Wed), 467 (A5, Thu), .......................................982 (F2, Tue), 984 (F2, Tue) Tariq, Muqaddas................................ 1395 (H2, Tue) Tataria, Harshad................................... 437 (A5, Thu) Tateyama, Yoshitaka........ 515 (A7, Tue), 519 (A7, Tue) Tatsumi, Kuniaki....................................81 (A2, Tue), ....................................237 (A4, Tue), 379 (A5, Wed) Tatsuoka, Gengo............................. 1916 (Q10, Tue), .......................................................... 1925 (Q10, Tue) Taura, Yuu............................................254 (A5, Mon) Tavassoli, Arash.................................. 1091 (F3, Tue) Tavernier, Clément............................2091 (Q7, Mon) Tayarani, Zahra...........1231 (F3, Wed), 1232 (F3, Wed) Taylor, André........................................ 496 (A6, Tue) Taylor, E.............................................855 (D2, Mon), ................................. 860 (D2, Mon), 1400 (H2, Tue) Taylor, Nigel......................................... 214 (A3, Thu) Taylor, Rebecca.................................. 1360 (H1, Tue) Teherani, James................................... 1788 (P7, Tue) Tejima, Fumihiro.................................2205 (Z1, Tue) Teki, Uday.............................................722 (C1, Tue) Teliban, Iulian....................................... 907 (D3, Tue) Téllez–Vázquez, Oswald...................2315 (Z3, Wed) Tembhurne, Saurabh........................... 598 (A8, Wed) Teng, Lidong...................................... 1441 (H6, Tue) Teng, Yin Ting..................................... 103 (A2, Wed) Tepavcevic, Sanja................................ 492 (A6, Tue) Ter-Ovanessian, Benoît.........................714 (C1, Tue) Terai, Takayuki........ 1002 (F2, Tue), 1009 (F2, Wed) Terán-Guillen, Jorge.............................761 (C2, Tue) Teranishi, Masatoshi........................... 1158 (F3, Tue) Terasaka, Hidenori............................ 1717 (P6, Mon) Terkelsen, Carina...............................1185 (F3, Wed) Terrones, Victoria..................................771 (C2, Tue) Terui, Shintaro.....................................2182 (Z1, Tue) Tesch, Paul.......................................... 1668 (P4, Tue) Tessaro, Matteo.................................... 469 (A5, Thu) Tessier, Cécile..................................... 291 (A5, Tue), ...................................330 (A5, Wed), 335 (A5, Wed) Texier, Anne........................................2221 (Z1, Tue) Tezcan, Deniz.....................................1713 (P5, Wed) Tezuka, Tsutomu........... 1649 (P3, Tue), 1792 (P7, Tue) Thackeray, Michael....... 263 (A5, Mon), 279 (A5, Tue) Thakur, Yash....................................... 2019 (Q4, Tue) Thangadurai, Venkataraman..............256 (A5, Mon), ............................................................. 298 (A5, Wed) Thanh-Hai, Le.....................................2178 (Z1, Tue) Thapa, Arjun....................................... 1582 (N1, Tue) Thapa, Prem......................................1332 (H1, Mon) Thean, Aaron...................................... 1613 (P1, Tue), ................................. 1648 (P3, Tue), 1812 (P7, Wed) Thierry, Dominique............................. 790 (C3, Wed) Thomann, Isabell................................. 564 (A8, Tue) Thomassen, Magnus........................... 1086 (F3, Tue) Thomberg, Thomas............................. 173 (A3, Tue), ...................................192 (A3, Tue), 206 (A3, Wed), ............................................................. 207 (A3, Wed)

Thompson, Eric..................................1249 (F3, Wed) Thompson, Levi...........26 (A1, Tue), 196 (A3, Wed) Thompson, Richard............................. 909 (D3, Tue) Thomsen, Ed............... 601 (A9, Tue), 602 (A9, Tue) Thorne, John............................................3 (A1, Mon) Thorpe, Steven.................................... 793 (C3, Wed) Thostenson, James............................... 507 (A6, Tue) Thundat, Thomas..................................636 (B1, Tue) Tian, Bingbing.....................................227 (A4, Mon) Tian, Juan.......................................... 1533 (H7, Wed) Tian, Yuan...........................................2306 (Z3, Wed) Tiburcio, Citlalli..........719 (C1, Tue), 733 (C1, Tue), ................................... 742 (C1, Wed), 744 (C1, Wed) Ticianelli, Edson........ 1048 (F3, Mon), 1187 (F3, Wed) Tiedemann, Andreas........................ 1769 (P7, Mon), .............................................................1827 (P7, Thu) Tillack, Bernd.......... 1776 (P7, Tue), 1823 (P7, Wed) Tillocher, Thomas.............................. 1672 (P4, Tue), ................................ 1689 (P5, Tue), 1992 (Q3, Wed) Tilmant, Pascal............172 (A3, Tue), 448 (A5, Thu) Timmermans, Marina.......................... 806 (D1, Tue) Timp, Gregory...................................2125 (Q8, Mon) Ting, Fu-Pin............................................42 (A1, Tue) Tkacheva, Olga.................................1427 (H6, Mon) Tobola, Janusz..................................... 314 (A5, Wed) Tocchio, Marco.....................................682 (B2, Tue) Toda, Hisayuki.................................... 1694 (P5, Tue) Toda, Kenji............2157 (R1, Wed), 2167 (R1, Wed) Toda, Masako.................................... 2157 (R1, Wed) Toda, Tatsuya......1923 (Q10, Tue), 1925 (Q10, Tue) Todoroki, Naoto.........1022 (F3, Sun), 1536 (H7, Wed), .....................................2197 (Z1, Tue), 2201 (Z1, Tue) Tofteberg, Hannah............................... 1736 (P6, Tue) Tohji, Kazuyuki..................................2317 (Z3, Wed) Tojo, Masaru....................................... 387 (A5, Wed) Tojo, Tomohiro.................................... 387 (A5, Wed) Tok, Eng Soon.....................................1842 (P7, Thu) Tokarski, Tomasz................................. 838 (D1, Thu) Tokumasu, Takashi.......1061 (F3, Tue), 1150 (F3, Tue), .................................... 1157 (F3, Tue), 1246 (F3, Wed) Tokushige, Manabu............................ 1441 (H6, Tue) Tolle, John...............1830 (P7, Thu), 1844 (P7, Thu), ..................................1845 (P7, Thu), 1855 (P7, Thu) Tolstoy, Georg...................................1963 (Q3, Mon) Tomai, Takaaki..................................... 620 (A9, Tue) Tomar, Maharaj................................... 133 (A2, Wed) Tomomichi, Keita......... 1000 (F2, Tue), 1002 (F2, Tue) Tõnurist, Kerli............173 (A3, Tue), 207 (A3, Wed) Tooming, Tauno................................... 173 (A3, Tue) Toprak, Muhammet.......................... 1775 (P7, Mon) Toranzos, Gary....................................2258 (Z1, Tue) Torimoto, Tsukasa............................. 1477 (H6, Wed) Toriumi, Akira...................................2090 (Q7, Mon) Torraco, Dennis..................................1201 (F3, Wed) Torres, Alphonse............................... 1993 (Q3, Wed) Torres, César.......................................2303 (Z2, Wed) Torres Blancas, T..................................941 (E2, Wed) Torres-Castro, Loraine............................4 (A1, Mon) Torres- Mendoza, Angel......................933 (E2, Wed) Torres-Rodríguez, Miguel.................. 505 (A6, Tue), .............................................................. 506 (A6, Tue) Tortorich, Ryan......................................681 (B2, Tue) Toscano, Paul.................................... 2159 (R1, Wed) Toshiyoshi, Hiroshi............................1746 (P6, Wed) Toussaint, Gwenaëlle......................... 131 (A2, Wed), ............................................................. 132 (A2, Wed) Toyoda, Eishiro................................. 1050 (F3, Mon) Toyoda, Masahiro.............................. 1137 (F3, Tue), ..................................2208 (Z1, Tue), 2209 (Z1, Tue) Trahey, Lynn........................................263 (A5, Mon) Tran, Chieu........................................ 1478 (H6, Wed) Tran, Man......................................... 177 (A3, Tue), 5 .....................................38 (A7, Wed), 1142 (F3, Tue) Tran, Tuan.............................................18 (A1, Mon) Tran-Van, Pierre....... 227 (A4, Mon), 390 (A5, Wed) Traoré, Boubacar............................... 2111 (Q7, Wed)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

227


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Trasatti, Stefano.......2283 (Z2, Tue), 2285 (Z2, Tue) Trejo, G................................................. 880 (D2, Tue) Trejo Córdova, Gabriel...................... 1452 (H6, Tue) Tremel, Wolfgang.........2176 (Z1, Tue), 2272 (Z1, Tue) Tremiliosi-Filho, Germano................. 1122 (F3, Tue) Trifunovic, Miki..............................1907 (Q10, Mon) Trinh, Phong.....................9 (A1, Mon), 19 (A1, Tue) Tripathi, Alok......................................477 (A6, Mon) Tripkovic, Vladimir............................1038 (F3, Sun) Triulzi, Francesco.......364 (A5, Wed), 813 (D1, Tue) Troitsch, Rene................................... 1769 (P7, Mon) Trottier, Julie........................................ 462 (A5, Thu) Trujillo Estrada, Ariadna......................718 (C1, Tue) Trulove, Paul.................................... 1479 (H6, Wed), ............................. 1482 (H6, Wed), 1483 (H6, Wed), ............................................................1488 (H6, Thu) Truong Phuoc, Lai............................. 1506 (H7, Tue) Trusch, Andreas.................................. 1776 (P7, Tue) Trussler, Simon.....................................18 (A1, Mon) Tryk, Donald....................................... 1065 (F3, Tue) Trzeciak, Tomasz...........144 (A2, Wed), 536 (A7, Wed) Trzynadlowski, Bart.......................... 1640 (P3, Mon) Tsai, Dung-Sheng................................ 1877 (P9, Tue) Tsai, Ho-Cheng................................. 1530 (H7, Wed) Tsai, Li-Duan.............129 (A2, Wed), 188 (A3, Tue), .................................. 412 (A5, Wed), 1887 (P9, Tue) Tsai, Meng-Lin......... 595 (A8, Wed), 1877 (P9, Tue) Tsai, Shu-Yi........................................ 142 (A2, Wed), ..................................145 (A2, Wed), 431 (A5, Wed), ................................... 987 (F2, Tue), 1005 (F2, Tue) Tsai, Tsunghan....................................1259 (F3, Wed) Tsai, Yao-Lin..................................... 1682 (P5, Mon) Tsang, Chu.........................................1375 (H2, Mon) Tse, Ying-Lung...................................1259 (F3, Wed) Tseng, Fan-Gang...............................2123 (Q8, Mon) Tseng, Yu-Cheng................................1248 (F3, Wed) Tsetseris, Leonidas............................. 2103 (Q7, Tue) Tsirlina, Galina................................... 1506 (H7, Tue) Tsuchiya, Tetsuo................................2005 (Q4, Mon) Tsuchizawa, Tai...................................1838 (P7, Thu) Tsuda, Takashi......... 1129 (F3, Tue), 1215 (F3, Wed) Tsuda, Tetsuya.......1447 (H6, Tue), 1477 (H6, Wed), ................................ 1484 (H6, Thu), 1487 (H6, Thu) Tsui, Kwong-Hoi.............................. 2027 (Q4, Wed) Tsui, Lok-kun....................................... 840 (D1, Thu) Tsujimura, Seiya............................... 1315 (G1, Wed) Tsukamoto, Hisashi.......119 (A2, Wed), 627 (A9, Wed) Tsukatsune, Takuya............................ 1140 (F3, Tue), ............................................................1205 (F3, Wed) Tsukui, Shigeki....................................2179 (Z1, Tue) Tsumura, Tomoki............................... 1137 (F3, Tue), ..................................2208 (Z1, Tue), 2209 (Z1, Tue) Tsurumi, Naomi.................................1255 (F3, Wed) Tsushima, Shohji....................................74 (A2, Tue), ...................................... 75 (A2, Tue), 605 (A9, Tue), ..................................1286 (F3, Thu), 1290 (F3, Thu) Tsutsumi, Atsushi................................ 120 (A2, Wed) Tsutsumi, Hiromori..............................111 (A2, Wed) Tsuyuki, Yasuhiro................................2232 (Z1, Tue) Tsuzuki, Seiji...................................... 1447 (H6, Tue) Tsygankova, Liudmila.........................729 (C1, Tue), ...............................................................730 (C1, Tue) Tu, C...................... 2071 (Q6, Tue), 2146 (Q9, Mon) Tu, King-Ning................................... 2016 (Q4, Tue), .................................2094 (Q7, Tue), 2100 (Q7, Tue) Tübke, Jens..................28 (A1, Tue), 1184 (F3, Wed) Tucker, Michael................................... 613 (A9, Tue) Tudela, Ignacio................................... 1356 (H1, Tue) Tulaeva, Firuza................................... 1891 (Q1, Tue) Tünnermann, Andreas....................... 1715 (P6, Mon) Turek, Thomas.................................... 1115 (F3, Tue) Turley, Forbes......................................1281 (F3, Thu) Turner, John.................... 34 (A1, Tue), 38 (A1, Tue), ...................................369 (A5, Wed), 582 (A8, Wed) Turney, Damon..................................... 850 (D1, Thu)

Tusar, Natasa...........................................82 (A2, Tue) Tussing, Matthew................................257 (A5, Mon) Tutt, Lee............................................. 1605 (P1, Mon) Tylus, Urszula.................................... 1510 (H7, Tue)

Valletta, Antonio..............................1910 (Q10, Mon) Valov, Ilia........................................... 2034 (Q5, Wed) Valtiner, Markus.......713 (C1, Tue), 1334 (H1, Mon) Van Aken, Katherine............................ 245 (A4, Tue) Van Autryve, Luc...............................1825 (P7, Wed) van de Krol, Roel................................ 583 (A8, Wed) van den Broek, Bas............................ 2101 (Q7, Tue) van den Hurk, Jan............................. 2034 (Q5, Wed) Van der Biest, Omer..........................1664 (P3, Wed), ............................................................. 1777 (P7, Tue) van der Straten, O............................... 1611 (P1, Tue) van der Veen, Marleen......................1701 (P5, Wed), ............................................................1703 (P5, Wed) van der Vliet, Dennis.........................1209 (F3, Wed) van der Zwan, Michiel....................1907 (Q10, Mon) van Duin, Adri C. T.............................221 (A4, Mon) Van Elshocht, S................................... 1613 (P1, Tue) Van Humbeeck, Jan............................ 1777 (P7, Tue) Van Huylenbroeck, Stefaan..............1701 (P5, Wed), ............................................................1703 (P5, Wed) Van Staden, Jacobus............................679 (B2, Mon) Van Tassell, Barry.........228 (A4, Mon), 479 (A6, Mon) Van Zee, John......................................1296 (F3, Thu) Vandendaele, William....................... 1720 (P6, Mon) Vandervorst, Wilfried........................1811 (P7, Wed), ................................1812 (P7, Wed), 1826 (P7, Thu), .............................................................1858 (P7, Thu) Vandiver, Melissa...............................1259 (F3, Wed) Vandooren, Anne................................. 1648 (P3, Tue) Vandroux, Laurent.............................. 1690 (P5, Tue) Vanhellemont, J................................... 1653 (P3, Tue) Vanhellemont, Jan............................ 1636 (P3, Mon), ................................ 1658 (P3, Tue), 1664 (P3, Wed), ............................................................. 1777 (P7, Tue) Vanhooland, Annelies........................ 1401 (H2, Tue) Vanhoucke, Tony................................. 1781 (P7, Tue) Vanpaemel, Johannes........................... 912 (D3, Tue) Vantomme, Andre.........1650 (P3, Tue), 1826 (P7, Thu) Varcoe, John........................................2278 (Z2, Tue) Vardar, Gulin...........................................5 (A1, Mon) Varela, Ana Sofia................................. 590 (A8, Wed) Varela, Hamilton.............................. 1539 (H8, Wed), .............................. 1552 (H8, Wed), 1558 (H8, Wed) Varela-Guerrero, Victor.......................945 (E2, Wed) Varenne, Anne................................... 1330 (G1, Wed) Vargalyuk, Victor............................... 1365 (H1, Tue) Varigonda, Subbarao.........................1964 (Q3, Mon) Varzi, Alberto....................................... 452 (A5, Thu) Vasantha, S.......................................... 832 (D1, Wed) Vascocelos-Morant, Kyriale............. 1314 (G1, Wed) Vasconcelos, Vanessa...........................940 (E2, Wed) Vasic, Relja.......................................... 1612 (P1, Tue) Vasilescu, Cora......................................728 (C1, Tue) Vasiljevic, Natasa.......808 (D1, Tue), 820 (D1, Wed) Vasin, Boris............1453 (H6, Tue), 1455 (H6, Tue), .................................1463 (H6, Tue), 1497 (H6, Thu) Vasquez-Medrano, Ruben...................931 (E2, Wed) Vásquez-Zacarias, Leticia....................760 (C2, Tue) Vaughey, John.......................................63 (A2, Mon) Vayenas, Costas.................................1500 (H7, Mon) Vayer, Marylene.................................. 1672 (P4, Tue) Vayssieres, Lionel................................ 570 (A8, Tue) Vazquez, Erika....................................699 (C1, Mon) Vázquez, Jorge.....................................934 (E2, Wed) Vazquez-Arenas, J........2235 (Z1, Tue), 2261 (Z1, Tue) Vázquez-Huerta, Gerardo.................... 504 (A6, Tue) Vega, Victor......................................... 782 (C2, Wed) Veillerot, Marc....................................1852 (P7, Thu) Vej-Hansen, Ulrik.......1038 (F3, Sun), 1535 (H7, Wed) Velazquez-Manzanares, Miguel...........760 (C2, Tue) Velázquez Mendoza, Carlos............. 2174 (R1, Wed) Velez, Victor........................................2269 (Z1, Tue) Vélez-Denhez, Alejandra.................... 1178 (F3, Tue) Velikokhatnyi, Oleg............................ 200 (A3, Wed) veloz Rodriguez, Maria........................777 (C2, Tue) Venkatesan, Senthil Velan..................1298 (F3, Thu)

228

U

Uccelli, Emanuele............................. 1723 (P6, Mon) Uchida, Hiroyuki............................... 1065 (F3, Tue), . ................................. 1153 (F3, Tue), 1202 (F3, Wed) Uchida, Ken...................................... 1760 (P7, Mon) Uchida, Makoto.......1079 (F3, Tue), 1153 (F3, Tue), ................................. 1158 (F3, Tue), 1202 (F3, Wed) Uchida, Noriyuki.........1650 (P3, Tue), 1861 (P8, Mon) Uchida, Satoshi................................... 301 (A5, Wed) Uchida, Seiji........................................2263 (Z1, Tue) Uchimoto, Yoshiharu.............................31 (A1, Tue), ...................................65 (A2, Mon), 253 (A5, Mon), ..................................266 (A5, Mon), 460 (A5, Thu), .................................. 1139 (F3, Tue), 2224 (Z1, Tue) Uddin, Hameed...................................680 (B2, Mon) Uddin, Md. Aman........1033 (F3, Sun), 1229 (F3, Wed) Uebensee, Hartmut............................1663 (P3, Wed) Ueda, Daisuke...................................1962 (Q3, Mon) Ueda, Mikito...................................... 1433 (H6, Tue) Ueda, Miyoka......................................2220 (Z1, Tue) Ueda, Takeshi.................................... 1766 (P7, Mon) Ueda, Tetsuzo....................................1962 (Q3, Mon) Ueda, Wataru......................................1253 (F3, Wed) Uehara, Hiromitsu............................. 1537 (H7, Wed) Uehara, Naoki....................................1274 (F3, Thu), ................................. 1275 (F3, Thu), 1520 (H7, Tue) Uematsu, Kazuyoshi......................... 2157 (R1, Wed) Uemura, Suguru.............. 74 (A2, Tue), 75 (A2, Tue) Ueno, Naofumi.................................. 1768 (P7, Mon) Ueta, Erina...........................................2201 (Z1, Tue) Ugalde, Victor......................................934 (E2, Wed) Ulsh, Michael...................................... 1099 (F3, Tue) Ulvestad, Asbjørn..........393 (A5, Wed), 428 (A5, Wed) Ulyanova, Yevgenia............................2284 (Z2, Tue) Um, Doo-Seung................................. 2014 (Q4, Tue) Um, Han-Don..................................... 2075 (Q6, Tue) Umeda, Hiroaki................................... 1059 (F3, Tue) Uno, Hiroyuki................................... 1638 (P3, Mon) Uomoto, Miyuki................................1754 (P6, Wed) Uosaki, Kohei.......... 1014 (F3, Sun), 1361 (H1, Tue) Urakawa, Satoshi............................. 1921 (Q10, Tue) Uraoka, Yukiharu............................. 1921 (Q10, Tue) Urata, Tomoko.................................. 1555 (H8, Wed) Urban, Alex.........................................249 (A5, Mon) Urs, Necdet........................................... 907 (D3, Tue) Uruchurtu, Jorge...................................731 (C1, Tue), .....................................738 (C1, Tue), 768 (C2, Tue), .....................................770 (C2, Tue), 771 (C2, Tue), .............................1576 (M1, Wed), 1577 (M1, Wed) Uruchurtu-Chavarin, Jorge...................769 (C2, Tue) Uruga, Tomoya................................... 1067 (F3, Tue) Uryadnikov, Alexandr...........................730 (C1, Tue) Usuda, Koji........................................ 1649 (P3, Tue), ..................................1792 (P7, Tue), 1848 (P7, Thu) Usui, Sho............................................1215 (F3, Wed) Uyama, Hiroshi...................................163 (A3, Mon) Uzunlar, Erdal..................................... 1692 (P5, Tue)

V

Vaddiraju, Sreeram............................. 1581 (N1, Tue) Vadivel, S............................................ 827 (D1, Wed) Vahedi, Vahid...................................... 1673 (P4, Tue) Vaiciuniene, Jurate............................. 1123 (F3, Tue), ..................................1127 (F3, Tue), 1174 (F3, Tue), ...................................1175 (F3, Tue), 1177 (F3, Tue) Vais, Abhitosh..................................... 1613 (P1, Tue) Valdovinos, Viridiana..........................2252 (Z1, Tue) Valenzuela-Muñiz, Ana..................... 1080 (F3, Tue), ............................................................. 1141 (F3, Tue) Valincius, Gintaras.............................. 657 (B1, Wed) Valle, Celeste...................................... 2135 (Q8, Tue)

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Vera, Marcos......................................1223 (F3, Wed) Vera-Robles, L. I.................................2261 (Z1, Tue) Verbickas, Rolandas............................ 1177 (F3, Tue) Verbinnen, Greet................................1713 (P5, Wed) Verbrugge, Mark.................................. 437 (A5, Thu) Verdaguer-Casdevall, Arnau............. 1535 (H7, Wed) Verde Gómez, Ysmael....................... 1080 (F3, Tue), ................................ 1141 (F3, Tue), 1214 (F3, Wed), .............................................................2257 (Z1, Tue) Verdier, Marc......................................1757 (P6, Wed) Vereecken, Philippe.....478 (A6, Mon), 481 (A6, Mon), .................................806 (D1, Tue), 886 (D2, Wed), | ................................... 912 (D3, Tue), 2210 (Z1, Tue) Verners, Osvalds.................................221 (A4, Mon) Veys-Renaux, Delphine.......................773 (C2, Tue), ............................................................. 785 (C2, Wed) Veytizou, Christelle........................... 1720 (P6, Mon) Vezzù, Keti...............56 (A2, Mon), 1499 (H7, Mon) Vial, Karine......................................... 1732 (P6, Tue) Vianello, Elisa................................... 2111 (Q7, Wed) Vidal, M. A.......................................... 1798 (P7, Tue) Vidal-Iglesias, Francisco...................2320 (Z3, Wed) Vie, Preben......................................... 359 (A5, Wed), ...................................388 (A5, Wed), 428 (A5, Wed) Vigdorovich, Vladimir.........................729 (C1, Tue), ...............................................................730 (C1, Tue) Vijayakumar, Murugesan................... 491 (A6, Tue), .............................................................. 602 (A9, Tue) Villanueva, Julio................................. 2062 (Q6, Tue) Villanueva-Rodíguez, Minerva...........948 (E2, Wed) Villegas, Iván....................................... 953 (E3, Mon) Villevieille, Claire................................ 241 (A4, Tue) Vinet, Maud........................................1745 (P6, Wed) Virkar, Anil......................................... 1509 (H7, Tue) Virot, Leopold.....................................1832 (P7, Thu) Virtanen, Sannakaisa.......................... 1402 (H2, Tue) Visbal, Heidy....................................... 327 (A5, Wed) Visker, Jakob......................................1713 (P5, Wed) Vitale, Adam........................................ 819 (D1, Wed) Vitale, Alexane.................................... 1672 (P4, Tue) Vivien, Laurent.........1832 (P7, Thu), 1839 (P7, Thu) Vizza, Francesco...............................1374 (H2, Mon) Vladykin, Evgeny.............................. 1453 (H6, Tue) Vo, Dang Khoa.................................... 538 (A7, Wed) Vogel, Alexandra................................. 747 (C1, Wed) Vogel, Dirk.......................................... 747 (C1, Wed) Vogel, Eric...........................................672 (B2, Mon) Vogl, Thomas...................................... 534 (A7, Wed) Voje, Jorunn......................................... 388 (A5, Wed) Volkovich, Vladimir.......................... 1453 (H6, Tue), ................................1455 (H6, Tue), 1456 (H6, Tue), ................................1459 (H6, Tue), 1463 (H6, Tue), ................................1464 (H6, Tue), 1465 (H6, Tue), ................................1466 (H6, Tue), 1467 (H6, Tue), ............................................................1497 (H6, Thu) Volpi, Fabien..................................... 1993 (Q3, Wed) von den Driesch, Nils.........................1827 (P7, Thu) von Känel, Hans.................................1822 (P7, Wed) von Lüders, Christian..........................265 (A5, Mon) von Zamory, Jan................................... 452 (A5, Thu) Voth, Gregory.....................................1259 (F3, Wed) Vrielinck, Henk.................................. 1647 (P3, Tue), .................................. 1656 (P3, Tue), 1658 (P3, Tue) Vu Thi, Hong Phuong......................... 1142 (F3, Tue) Vukmirovic, Miomir........................... 818 (D1, Wed) Vullum, Per Erik................................. 388 (A5, Wed) Vullum-Bruer, Fride........................... 112 (A2, Wed), ...................................113 (A2, Wed), 313 (A5, Wed)

Wada, Kazumi.....................................1838 (P7, Thu) Wadas, Anna.............586 (A8, Wed), 1390 (H2, Tue) Wadayama, Toshimasa......................1022 (F3, Sun), ............................... 1536 (H7, Wed), 2197 (Z1, Tue), .............................................................2201 (Z1, Tue) Wagner, Jakob....................................... 981 (F2, Tue) Wagner, Nicholas..........252 (A5, Mon), 409 (A5, Wed) Wagner, Nils........................................ 313 (A5, Wed) Wagner, Norbert.................................1236 (F3, Wed) Wagner, Peter..........1226 (F3, Wed), 1301 (F3, Thu) WahTzu, Teoh..................................... 600 (A8, Wed) Wahyudi, Wandi.................................... 998 (F2, Tue) Wainright, Jesse.............. 24 (A1, Tue), 25 (A1, Tue), ......................................26 (A1, Tue), 860 (D2, Mon) Wajda, Cory............1612 (P1, Tue), 2088 (Q7, Mon) Wakisaka, Mitsuru.............................. 1065 (F3, Tue) Waldecker, James.............................. 1042 (F3, Mon) Waldron, Niamh................................. 1646 (P3, Tue), ................................1811 (P7, Wed), 1812 (P7, Wed) Walgama, Charuksha....................... 1325 (G1, Wed), ................................1326 (G1, Wed), 1348 (H1, Tue) Wallace, Robert................................... 1609 (P1, Tue) Walsh, Frank....................................... 954 (E3, Mon) Walsh, Nathaniel.............................. 1924 (Q10, Tue) Walukiewicz, Wladek........................ 2071 (Q6, Tue) Wan, Jiayu...........................................476 (A6, Mon) Wan, Lei.............................................. 1610 (P1, Tue) Wandt, Johannes................................. 136 (A2, Wed) Wang, Bin........................................... 2103 (Q7, Tue) Wang, Chao-Yang.....466 (A5, Thu), 1288 (F3, Thu) Wang, Charles..................................... 1779 (P7, Tue) Wang, Chen........................................ 1435 (H6, Tue) Wang, Chongmin................................. 612 (A9, Tue) Wang, Chuan.....................................2003 (Q4, Mon) Wang, Chunlei..................................... 199 (A3, Wed) Wang, Conghua................................... 1053 (F3, Tue) Wang, Dailin....................................... 778 (C2, Wed) Wang, Dapeng................................. 1916 (Q10, Tue), .............................1923 (Q10, Tue), 1925 (Q10, Tue) Wang, David Yaohui............................ 287 (A5, Tue) Wang, Deli........................................... 595 (A8, Wed) Wang, Dong......................................... 1787 (P7, Tue) Wang, Donghai.....................................10 (A1, Mon) Wang, Dunwei...................................... 554 (A8, Sun) Wang, Fu-Ming................................... 297 (A5, Wed) Wang, Gary............ 1091 (F3, Tue), 1189 (F3, Wed), .................................1245 (F3, Wed), 1299 (F3, Thu) Wang, Geon......................................... 895 (D2, Wed) Wang, Hsin........................................... 445 (A5, Thu) Wang, Hsin-Ping................................. 595 (A8, Wed) Wang, Huanhuan............................... 1973 (Q3, Tue), .................................1975 (Q3, Tue), 1984 (Q3, Tue) Wang, Jia................. 818 (D1, Wed), 1256 (F3, Wed) Wang, Jianhui....................................... 515 (A7, Tue) Wang, Jiexi.......................................... 389 (A5, Wed) Wang, Jing............. 1710 (P5, Wed), 2155 (R1, Wed) Wang, Jinghui..........................................2 (A1, Mon) Wang, Jingjing...................................1714 (P5, Wed) Wang, Jingping................................... 1405 (H2, Tue) Wang, John........................................... 437 (A5, Thu) Wang, Ju............................................. 1976 (Q3, Tue) Wang, Jun.................. 310 (A5, Wed), 850 (D1, Thu) Wang, Junjie........................................483 (A6, Mon) Wang, Kaiying......... 694 (B2, Tue), 2118 (Q7, Wed) Wang, Kang........................................1820 (P7, Wed) Wang, Lanxiang..................................1842 (P7, Thu) Wang, Lei.............................................. 990 (F2, Tue) Wang, Naigang....................................903 (D3, Mon) Wang, Po-Hsuan................................. 1878 (P9, Tue) Wang, Qiong.................................... 1949 (Q2, Wed), .............................. 1950 (Q2, Wed), 1953 (Q2, Wed) Wang, Senlin....................................... 384 (A5, Wed) Wang, Shi-Hao....................................2226 (Z1, Tue) Wang, Wan........................................2085 (Q7, Mon)

Wang, Wei.................. 491 (A6, Tue), 601 (A9, Tue), .................................... 602 (A9, Tue), 612 (A9, Tue), ..................................1826 (P7, Thu), 1842 (P7, Thu) Wang, Weihua..................................... 311 (A5, Wed) Wang, Weimin.....................................2230 (Z1, Tue) Wang, Wen-Lin.........1181 (F3, Tue), 1182 (F3, Tue) Wang, Wenjuan................................... 318 (A5, Wed) Wang, Xia..................320 (A5, Wed), 344 (A5, Wed) Wang, Xiaofeng.................................1229 (F3, Wed) Wang, Xiaoming................................. 1139 (F3, Tue) Wang, Xiaoxin....................................1837 (P7, Thu) Wang, Yeong-Her............................... 2060 (Q6, Tue) Wang, Ying.......................................... 368 (A5, Wed) Wang, Yiran........................................ 197 (A3, Wed), ...................................709 (C1, Tue), 1013 (F2, Wed) Wang, Yu-Lin...................................2129 (Q8, Mon), .............................2131 (Q8, Mon), 2132 (Q8, Mon), ..............................2133 (Q8, Mon), 2134 (Q8, Mon) Wang, Yu-Ren..................................... 1802 (P7, Tue) Wang, Yudong....................................1634 (P1, Wed) Wang, Zhaoxiang................................260 (A5, Mon) Wang, Zhihui.................80 (A2, Tue), 450 (A5, Thu) Wang, Zhixing..................................... 389 (A5, Wed) Wang, Zhongqi.................................... 1068 (F3, Tue) Wang, Zhou.......................................... 555 (A8, Sun) Wangstrom, Abbey............................1204 (F3, Wed) Waqar, Zafar........................................1854 (P7, Thu) Ward, Daniel.......................................1849 (P7, Thu) Wardlaw, Phillip..................................1032 (F3, Sun) Wargo, Eric.........................................1219 (F3, Wed) Waser, Rainer.................................... 2034 (Q5, Wed) Watakabe, Atsushi..............................1195 (F3, Wed) Watanabe, Akio..................................2311 (Z3, Wed) Watanabe, Heiji.................................2093 (Q7, Mon) Watanabe, Kaori................................ 1638 (P3, Mon) Watanabe, Manabu............................. 338 (A5, Wed) Watanabe, Masahiro.......................... 1065 (F3, Tue), ..................................1079 (F3, Tue), 1108 (F3, Tue), ..................................1153 (F3, Tue), 1158 (F3, Tue), ................................1202 (F3, Wed), 1243 (F3, Wed) Watanabe, Shin.................................... 1170 (F3, Tue) Watanabe, Takanobu.........................2084 (Q7, Mon) Watanabe, Yuta....................................2175 (Z1, Tue) Watkins, James.................................... 658 (B1, Wed) Watkins, Tylan.......................................62 (A2, Mon) Watson, Mark.......... 1094 (F3, Tue), 1189 (F3, Wed) Watson, Trystan................................... 1885 (P9, Tue) Watson, Venroy................................... 965 (E3, Mon) Webb, Bucknell...................................903 (D3, Mon) Weber, Adam............613 (A9, Tue), 1051 (F3, Mon) Weber, André...........................................40 (A1, Tue) Weber, Philipp..................................... 1115 (F3, Tue) Wei, Bingqing...................................... 502 (A6, Tue) Wei, Fengxia....................................... 103 (A2, Wed) Wei, Huige.................184 (A3, Tue), 197 (A3, Wed), ...................................709 (C1, Tue), 1013 (F2, Wed) Wei, Suying...............184 (A3, Tue), 197 (A3, Wed), .................................... 709 (C1, Tue), 916 (D3, Tue), ............................................................1013 (F2, Wed) Wei, Tzu-Chiao........1877 (P9, Tue), 2153 (Q9, Tue) Wei, Wei David.................................. 2017 (Q4, Tue) Wei, Xiaoliang..................................... 491 (A6, Tue), ..................................... 601 (A9, Tue), 602 (A9, Tue) Wei, Xiaoyun....................................... 1784 (P7, Tue) Weiber, E............................................. 1172 (F3, Tue) Weidenkaff, Anke............................... 890 (D2, Wed) Weimann, Nils..................................... 1776 (P7, Tue) Weisel, Gary.......................................1629 (P1, Wed) Weisman, R. Bruce.......................... 1560 (M1, Wed) Weissmann, Martin.............................. 456 (A5, Thu) Weisz, Mario....................................... 1783 (P7, Tue) Wen, Rui............................................... 234 (A4, Tue) Wen, Tsai-Yu....................................... 1802 (P7, Tue) Wen, Yanwei.......... 1413 (H2, Tue), 1630 (P1, Wed) Werheid, Matthias............................... 1064 (F3, Tue)

W

Wachsman, Eric.................................256 (A5, Mon), ..................................298 (A5, Wed), 975 (F2, Mon), ....................................976 (F2, Mon), 980 (F2, Tue), ......................................988 (F2, Tue), 989 (F2, Tue), ...................................991 (F2, Tue), 2276 (Z2, Mon) Wada, Ayumi...........................................71 (A2, Tue) Meeting Program l October 5-9, 2014 l Cancun, Mexico

229


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Werner, Craig......................................2289 (Z2, Tue) Wernersson, Lars-Erik....................... 2152 (Q9, Tue) Wessel, Silvia...................................... 1083 (F3, Tue) Wessel, Tom....................................... 1989 (Q3, Tue) Wessely, Frank................................... 1895 (Q1, Tue) Wessely, Pia...................................... 1569 (M1, Wed) West, Alan........................................... 871 (D2, Tue), .................................. 893 (D2, Wed), 2290 (Z2, Tue) West, Marcia.......................................1285 (F3, Thu) Westphal, Bastian......328 (A5, Wed), 372 (A5, Wed) Whang, Dongmok.............................. 2009 (Q4, Tue) Wheeldon, Ian................................... 1313 (G1, Wed) Wheeler, Douglas...............................1186 (F3, Wed) White, Neil........................................1381 (H2, Mon) White, Preston..................................... 746 (C1, Wed) Widiez, Julie...................................... 1720 (P6, Mon) Widmann, Daniel................................1836 (P7, Thu) Wieczorek, Piotr.................................. 536 (A7, Wed) Wieczorek, Wladyslaw....................... 144 (A2, Wed) Wiemer, Maik.....................................1755 (P6, Wed) Wienecke, Anja...................................904 (D3, Mon) Wiesbauer, Harald..............................1751 (P6, Wed) Wijesinghe, Sudesh........ 725 (C1, Tue), 784 (C2, Wed) Wikiel, Hanna....................................1709 (P5, Wed) Wikiel, Kazimierz..............................1709 (P5, Wed) Wikle, Howard.................................... 668 (B1, Wed) Wikosz, Deniel....................................1031 (F3, Sun) Wilcox, Geoffrey...............................1710 (P5, Wed) Wild, Peter..........................................1189 (F3, Wed) Wiley, Benjamin................................... 507 (A6, Tue) Wilkening, Martin.........134 (A2, Wed), 398 (A5, Wed) Williams, Geraint.................................13 (A1, Mon), ..................................146 (A2, Wed), 794 (C3, Wed), ..................................796 (C3, Wed), 800 (C3, Wed), ............................................................. 1885 (P9, Tue) Williams, Krystaufeux..........................752 (C2, Tue) Williams, Mark......... 968 (F2, Mon), 969 (F2, Mon) Williams, Zack.................................... 539 (A7, Wed) Williamson, Todd................................1306 (F3, Thu) Willis, Brian.......................................1629 (P1, Wed) Wilson, Benjamin.................................707 (C1, Tue) Wilson, Mahlon................................... 1092 (F3, Tue) Wimplinger, Markus.......................... 1732 (P6, Tue), ................................1752 (P6, Wed), 1759 (P6, Wed) Winkler, Wolfgang...............................969 (F2, Mon) Wint, Natalie.............795 (C3, Wed), 796 (C3, Wed) Winter, Charles.................................... 1614 (P1, Tue) Winter, Martin...................................... 517 (A7, Tue) Wirths, Stephan................................ 1769 (P7, Mon), ..................................1827 (P7, Thu), 1846 (P7, Thu) Wishart, James................................... 1421 (H6, Sun) Witte, Ralf...........................................480 (A6, Mon) Witten, Thomas..................................1259 (F3, Wed) Wittenberg, Stefanie..........................1336 (H1, Mon) Witters, Liebeth................................... 1675 (P4, Tue) Witters, Liesbeth.................................1847 (P7, Thu) Wodarz, Siggi...........901 (D3, Mon), 2233 (Z1, Tue) Wohlmuth, Dominik........................... 398 (A5, Wed) Wolf, M. Juergen............................... 1681 (P5, Mon) Wolfenstine, Jeff................................. 307 (A5, Wed) Won, Jaihyung......... 1667 (P4, Tue), 1711 (P5, Wed) Won, Jonghan...................................... 1131 (F3, Tue) Wood, David..............240 (A4, Tue), 323 (A5, Wed) Wood, Vanessa....................................268 (A5, Mon) Woodford, William......... 83 (A2, Tue), 86 (A2, Tue) Woodley, Scott.................................... 141 (A2, Wed) Wook, Ahn..................191 (A3, Tue), 396 (A5, Wed) Workman, Michael.......1303 (F3, Thu), 1304 (F3, Thu) Worsley, David.....................................13 (A1, Mon), .................................... 707 (C1, Tue), 800 (C3, Wed) Wostyn, Kurt.....................................1825 (P7, Wed), ..................................1855 (P7, Thu), 1856 (P7, Thu) Woytasik, Marion..................................687 (B2, Tue) Wragg, David.....................................2312 (Z3, Wed) Wrรณbel, Mirosล aw................................ 838 (D1, Thu)

Wu, Billy.....................23 (A1, Tue), 229 (A4, Mon), .................................... 438 (A5, Thu), 467 (A5, Thu) Wu, Cheng-Da....................................2226 (Z1, Tue) Wu, Chien-Hung.......... 848 (D1, Thu), 1946 (Q2, Wed) Wu, Chuan...............................................7 (A1, Mon) Wu, Chung-Lun.................................. 1875 (P9, Tue) Wu, Fan............................................... 137 (A2, Wed) Wu, Fei..................... 547 (A8, Sun), 1628 (P1, Wed) Wu, Feixiang....................................... 106 (A2, Wed) Wu, Feng.................................................7 (A1, Mon) Wu, Gang............................................ 1117 (F3, Tue), ................................1305 (F3, Thu), 1528 (H7, Wed) Wu, J.................................................... 1802 (P7, Tue) Wu, James.......................................... 370 (A5, Wed), ....................................407 (A5, Wed), 513 (A7, Tue) Wu, Jiang............................................ 2013 (Q4, Tue) Wu, Jie Jun......................................... 2151 (Q9, Tue) Wu, Jiyuan......................................... 2026 (Q4, Wed) Wu, Junqiao........................................ 2071 (Q6, Tue) Wu, Jyh Ming....................................2004 (Q4, Mon) Wu, Lijun............................................. 818 (D1, Wed) Wu, Ming............................................ 1743 (P6, Tue) Wu, Mingyan......................................474 (A6, Mon) Wu, Nae-Lih....................................... 129 (A2, Wed), ..................................... 179 (A3, Tue), 269 (A5, Tue) Wu, Nick.................. 549 (A8, Sun), 560 (A8, Mon), ..............562 (A8, Mon), 581 (A8, Tue), 664 (B1, Wed) Wu, Ping............................................1960 (Q3, Mon) Wu, Qiang...............................................70 (A2, Tue) Wu, Tao............................................... 1873 (P9, Tue) Wu, Wei-Hsin...................................... 412 (A5, Wed) Wu, Yu-Shiang..................................... 269 (A5, Tue) Wu, Yue............................................. 1869 (P8, Mon) Wuertz, Stefan....................................2302 (Z2, Wed) Wujcik, Kevin.......................................17 (A1, Mon) Wurz, Marc............... 905 (D3, Mon), 923 (D3, Wed) Wycisk, Ryszard.......614 (A9, Tue), 1199 (F3, Wed), .................................1250 (F3, Wed), 1281 (F3, Thu)

Xu, Wei................................................ 1883 (P9, Tue) Xu, Wu................................................. 491 (A6, Tue), ..................................... 497 (A6, Tue), 602 (A9, Tue) Xu, Xueping......................................1960 (Q3, Mon) Xuan, Xiangchun............................. 1936 (Q2, Wed), ........................................................... 1940 (Q2, Wed) Xue, Chundong................................. 1939 (Q2, Wed) Xue, Kanhao...................................... 2111 (Q7, Wed) Xue, Tong............................................. 193 (A3, Tue)

230

X

Xia, Hui......................283 (A5, Tue), 349 (A5, Wed) Xia, Jian.....................296 (A5, Wed), 317 (A5, Wed) Xia, Jiaxin..........................................1385 (H2, Mon) Xia, Xifeng.......................................... 318 (A5, Wed) Xiang, Jie........................................... 1866 (P8, Mon) Xiang, Kai........................................... 308 (A5, Wed) Xianwei, Han.................................... 1943 (Q2, Wed) Xiao, Ang............................................. 516 (A7, Tue) Xiao, Feiyi........................................... 596 (A8, Wed) Xiao, Peng............................................ 182 (A3, Tue) Xiao, Xingcheng................................. 300 (A5, Wed) Xie, Jian.............................................. 383 (A5, Wed), .................................. 608 (A9, Tue), 1210 (F3, Wed) Xie, Qi................................................. 1613 (P1, Tue) Xie, Rong-Jun.......2163 (R1, Wed), 2165 (R1, Wed) Xie, Yahong........................................ 2151 (Q9, Tue) Xin, Le........................580 (A8, Tue), 589 (A8, Wed) Xin, Meng...............1408 (H2, Tue), 1415 (H2, Tue) Xing, Feng...............................................21 (A1, Tue) Xing, Huili Grace...............................1818 (P7, Wed) Xing, Lidan......................................... 530 (A7, Wed) Xing, Wenting..................................... 308 (A5, Wed) Xing, Yangchuan.....................................72 (A2, Tue) Xiong, Deijun....................................... 441 (A5, Thu) Xiong, Shisheng.................................. 1610 (P1, Tue) Xiong, Zhongping.........1144 (F3, Tue), 1145 (F3, Tue) Xu, Chunchuan................................... 1118 (F3, Tue) Xu, Hui............................................... 1093 (F3, Tue), ................................1222 (F3, Wed), 1239 (F3, Wed) Xu, Jeff................................................ 329 (A5, Wed) Xu, Jimmy..........................................1627 (P1, Wed) Xu, Jing.............................................. 1394 (H2, Tue) Xu, Junli............................................. 1442 (H6, Tue) Xu, Kang................... 225 (A4, Mon), 510 (A7, Tue) Xu, Mengqing...........530 (A7, Wed), 531 (A7, Wed) Xu, Qingmin........................................ 114 (A2, Wed)

Y

Yablonsky, Gregory.......................... 1554 (H8, Wed) Yabuuchi, Naoaki...................................1 (A1, Mon), ......................................94 (A2, Wed), 151 (A2, Thu) Yadav, Gautam.................................... 124 (A2, Wed) Yager, Kevin........................................ 1095 (F3, Tue) Yagi, Ichizo............ 1537 (H7, Wed), 2218 (Z1, Tue) Yagi, Mamiko...................................... 1800 (P7, Tue) Yagi, Shunsuke.....................................68 (A2, Mon), ....................................116 (A2, Wed), 913 (D3, Tue) Yagi, Yuki.......................................... 1315 (G1, Wed) Yaji, Koichiro......................................1274 (F3, Thu) Yamabuki, Kazuhiro............................111 (A2, Wed) Yamada, Atsuo.................................... 156 (A2, Thu), ...................................302 (A5, Wed), 515 (A7, Tue), .............................................................. 519 (A7, Tue) Yamada, Kohta...................................1195 (F3, Wed) Yamada, Koji.......................................1838 (P7, Thu) Yamada, Suzuya................................ 2158 (R1, Wed) Yamada, Takatoshi............................. 2007 (Q4, Tue) Yamada, Yasuhiro.............................1962 (Q3, Mon) Yamada, Yuki............. 515 (A7, Tue), 519 (A7, Tue), .................................. 1000 (F2, Tue), 1002 (F2, Tue) Yamada, Yuto......................................264 (A5, Mon) Yamada-Kaneta, Hiroshi.................. 1637 (P3, Mon) Yamagata, Masaki..........16 (A1, Mon), 301 (A5, Wed) Yamaguchi, Hiroyuki.......................... 293 (A5, Wed) Yamaguchi, Makoto...........................1196 (F3, Wed) Yamaguchi, Masao.............................. 1170 (F3, Tue) Yamaguchi, Susumu...........................1283 (F3, Thu) Yamaguchi, Takeo..............................1036 (F3, Sun), ...............................1221 (F3, Wed), 1247 (F3, Wed), .................................1279 (F3, Thu), 1287 (F3, Thu), .............................................................1295 (F3, Thu) Yamaha, Takashi.................................1834 (P7, Thu) Yamahori, Shunta.........1804 (P7, Tue), 1987 (Q3, Tue) Yamakata, Akira................................... 548 (A8, Sun) Yamaki, Junichi.......................................31 (A1, Tue) Yamaki, Tetsuya..................................1283 (F3, Thu) Yamamoto, Daisuke........................... 1000 (F2, Tue), ............................................................. 1002 (F2, Tue) Yamamoto, Keisuke............................ 1787 (P7, Tue) Yamamoto, Kentaro............................253 (A5, Mon) Yamamoto, Masahiro......................... 1353 (H1, Tue) Yamamoto, Osamu.................................71 (A2, Tue) Yamamoto, Ryou................................. 463 (A5, Thu) Yamamoto, Shogo...........................1908 (Q10, Mon) Yamamoto, Shotaro............................1848 (P7, Thu) Yamamoto, Takayuki............................ 97 (A2, Wed) Yamamoto, Tomoyuki........................ 896 (D2, Wed) Yamamoto, Tsuyoshi..........................1838 (P7, Thu) Yamamoto, Yoshitaka........................2054 (Q5, Thu) Yamamoto, Yuji..................................1823 (P7, Wed) Yamanaka, Shinsuke......................... 1861 (P8, Mon) Yamanaka, Yuka................................. 1437 (H6, Tue) Yamane, Tomokazu................................31 (A1, Tue) Yamano, Masayuki.........................1906 (Q10, Mon) Yamashige, Hisao................................ 461 (A5, Thu) Yamashina, Kenji.............................. 2156 (R1, Wed) Yamashita, Taira.................................. 299 (A5, Wed) Yamashita, Yasunobu.......................... 319 (A5, Wed) Yamashita, Yuya.................................. 1153 (F3, Tue) Yamauchi, Akira.................................1750 (P6, Wed) Yamauchi, Takeshi............................ 1557 (H8, Wed) Yamazaki, Akiyoshi............................. 236 (A4, Tue) Meeting Program l October 5-9, 2014 l Cancun, Mexico


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Yamazaki, Shin-ichi........................... 1130 (F3, Tue), ............................................................ 1522 (H7, Tue) Yamazaki, Shunpei......................... 1913 (Q10, Tue), ............................................................2054 (Q5, Thu) Yamshchikov, Leonid....................... 1456 (H6, Tue), ............................................................ 1467 (H6, Tue) Yan, Blossom.....................................1241 (F3, Wed) Yan, Feng.........................................1933 (Q10, Wed) Yan, Xingru.......................................... 184 (A3, Tue) Yan, Yushan............. 1171 (F3, Tue), 1259 (F3, Wed) Yanagi, Hiroyuki................................. 1170 (F3, Tue) Yanagisawa, Masahiro........................ 896 (D2, Wed) Yang, Bo..................................................19 (A1, Tue) Yang, Bo-Yi.........................................2226 (Z1, Tue) Yang, Chenguang....................................19 (A1, Tue) Yang, Ching-Hao.............................. 1946 (Q2, Wed) Yang, Chongyin................................... 555 (A8, Sun) Yang, Choongmo................................ 622 (A9, Wed) Yang, Deren........................................1666 (P3, Wed) Yang, Eui-Hyeok....... 1562 (M1, Wed), 1883 (P9, Tue) Yang, Fan.............................................. 608 (A9, Tue) Yang, Fuling..........................................649 (B1, Tue) Yang, Jer.....................283 (A5, Tue), 349 (A5, Wed) Yang, Jong-Heon.............................. 1918 (Q10, Tue) Yang, Jun................1118 (F3, Tue), 1937 (Q2, Wed), ............................. 1941 (Q2, Wed), 1944 (Q2, Wed), ............................. 1948 (Q2, Wed), 1949 (Q2, Wed), ............................. 1950 (Q2, Wed), 1952 (Q2, Wed), ............................. 1953 (Q2, Wed), 1954 (Q2, Wed), ........................................................... 1955 (Q2, Wed) Yang, Li............................................... 384 (A5, Wed) Yang, Liju............................................ 660 (B1, Wed) Yang, Lin............................................2052 (Q5, Thu) Yang, Luyi......................................... 1531 (H7, Wed) Yang, Moon Young........................... 2114 (Q7, Wed) Yang, Sejong......................................1708 (P5, Wed) Yang, Shuo......................................... 1361 (H1, Tue) Yang, Sunhye.............. 186 (A3, Tue), 189 (A3, Tue) Yang, Tae-Hyun.................................. 1148 (F3, Tue) Yang, Tao............................................... 994 (F2, Tue) Yang, Xiao-Qing.................................260 (A5, Mon) Yang, Yang.................. 182 (A3, Tue), 183 (A3, Tue) Yang, Yong Suk................................. 2121 (Q7, Wed) Yang, Yongan......................................257 (A5, Mon) Yang, Yooseong................................... 109 (A2, Wed) Yang, Yuan...............970 (F2, Mon), 1261 (F3, Wed) Yang, Yue.............................................1842 (P7, Thu) Yang, Zhaochu......... 694 (B2, Tue), 2118 (Q7, Wed) Yang, Zhenzhen..................................263 (A5, Mon) Yang, Zhiwei.......................................1020 (F3, Sun) Yanguas-Gil, Angel.......................... 1604 (P1, Mon), ............................................................ 1974 (Q3, Tue) Yao, Da-Jeng........2129 (Q8, Mon), 2133 (Q8, Mon) Yao, Masaru.............. 522 (A7, Tue), 2240 (Z1, Tue) Yao, Shigeru........................................1295 (F3, Thu) Yao, Takeshi................30 (A1, Tue), 304 (A5, Wed), ................................. 427 (A5, Wed), 2236 (Z1, Tue), .............................................................2250 (Z1, Tue) Yao, Yan............................................. 2032 (Q4, Wed) Yarekha, Dmitri...........172 (A3, Tue), 448 (A5, Thu) Yarlagadda, Venkata.......615 (A9, Tue), 964 (E3, Mon) Yashiro, Hitoshi.................................... 853 (D1, Thu) Yasuda, Kazuaki.................................. 1130 (F3, Tue) Yasuda, Kouji..........1438 (H6, Tue), 1491 (H6, Thu) Yasuzawa, Mikito......676 (B2, Mon), 693 (B2, Tue) Yatabe, Zenji......................................2311 (Z3, Wed) Yatsuda, Koichi................................... 1689 (P5, Tue) Yazami, Rachid................................... 103 (A2, Wed) Yazdanpour, Maryam...........................15 (A1, Mon), ............................................................. 397 (A5, Wed) Ye, Hui.................................................. 516 (A7, Tue) Ye, Ji-Xun.......................................... 1683 (P5, Mon) Ye, Siyu................... 1083 (F3, Tue), 1256 (F3, Wed) Ye, Xiao............................................. 1534 (H7, Wed) Ye, Zhiyuan.........................................1853 (P7, Thu) Yedra, Lluis.......................................... 470 (A5, Thu)

Yeh, J. Andrew.........2129 (Q8, Mon), 2133 (Q8, Mon) Yeh, Li-Hsien.................................... 1938 (Q2, Wed) Yelton, W............................................. 810 (D1, Tue), ....................................814 (D1, Tue), 920 (D3, Wed) Yeo, Hwankug................................... 1641 (P3, Mon) Yeo, Y. C..............................................1842 (P7, Thu) Yeon, Daeyong.................................... 415 (A5, Wed) Yeon, Dong-Hee................................. 311 (A5, Wed) Yeon, Subin......................................... 416 (A5, Wed) Yeon, Sun-Hwa..........191 (A3, Tue), 396 (A5, Wed) Yersak, Thomas.................................... 272 (A5, Tue) Yi, Eongyu...........................................2230 (Z1, Tue) Yi, Hyeon-Seok......... 164 (A3, Mon), 190 (A3, Tue) Yi, Sok Ho........................................... 889 (D2, Wed) Yilmaz, Ceren...................................... 1064 (F3, Tue) Yim, Sung-Dae......... 1131 (F3, Tue), 1280 (F3, Thu) Yim, Taeeun........................................ 418 (A5, Wed) Yin, Jun................................................. 495 (A6, Tue) Yip, Ronnie....................................... 1045 (F3, Mon) Yliniemi, Kirsi......................................707 (C1, Tue) Yoder, Tara..........................................257 (A5, Mon) Yogi, Chihiro...........................................81 (A2, Tue) Yokogawa, Ryo...................................1848 (P7, Thu) Yokoi, Masayuki.........1679 (P5, Mon), 1695 (P5, Tue), ................................. 1697 (P5, Tue), 1699 (P5, Wed) Yokoyama, Masafumi......................... 1645 (P3, Tue) Yokoyama, Shun................................2317 (Z3, Wed) Yoneda, Masakazu.............................1034 (F3, Sun), ...................................1108 (F3, Tue), 1158 (F3, Tue) Yonekura, Eisuke................................ 1804 (P7, Tue) Yonezawa, Yoshiyuki........................1959 (Q3, Mon) Yoo, Bongyoung................................ 895 (D2, Wed), .................................. 1688 (P5, Tue), 2265 (Z1, Tue) Yoo, Jaeseung....................................... 464 (A5, Thu) Yoo, Jeeyoung.................................... 332 (A5, Wed), ..................................2183 (Z1, Tue), 2192 (Z1, Tue) Yoo, Jinkyoung................................. 2109 (Q7, Wed) Yoo, Jung-Joon..................................... 191 (A3, Tue) Yoo, Seung-Eul.........316 (A5, Wed), 1183 (F3, Tue) Yoo, Sung Jong.................................. 1078 (F3, Tue), ..................................1149 (F3, Tue), 1151 (F3, Tue), ................................. 1152 (F3, Tue), 1238 (F3, Wed) Yoo, Sunyoung.................................... 305 (A5, Wed) Yoo, Woo Sik.................................... 1766 (P7, Mon) Yoo, Yong Kyoung................................692 (B2, Tue) Yook, Jong Min................................... 889 (D2, Wed) Yoon, Chong seung.......130 (A2, Wed), 423 (A5, Wed) Yoon, Dae Ho.................................... 2157 (R1, Wed) Yoon, Ha-Na....................................... 396 (A5, Wed) Yoon, Hana........................................... 191 (A3, Tue) Yoon, Hee Sung................................... 980 (F2, Tue), .......................................988 (F2, Tue), 989 (F2, Tue) Yoon, Jaegu......................................... 311 (A5, Wed) Yoon, Jaesang....................................... 464 (A5, Thu) Yoon, Jeongbae................................... 421 (A5, Wed) Yoon, Jin-sang.................................. 1568 (M1, Wed) Yoon, Kyung Byung............................ 551 (A8, Sun) Yoon, Mi Young.................................. 1001 (F2, Tue) Yoon, Songhak.................................... 890 (D2, Wed) Yoon, Soobok.......... 1920 (Q10, Tue), 1922 (Q10, Tue) Yoon, Won-Sub........153 (A2, Thu), 251 (A5, Mon), ..................................417 (A5, Wed), 418 (A5, Wed), ................................... 421 (A5, Wed), 464 (A5, Thu) Yoon, Woo Young.............................. 115 (A2, Wed), ..................................363 (A5, Wed), 375 (A5, Wed), ............................................................. 414 (A5, Wed) Yoon, Young-Gi.................................. 1131 (F3, Tue) Yoon, Youngjun.................................2137 (Q9, Mon) Yoshida, Hiroaki.................................. 151 (A2, Thu) Yoshida, Kenichi.................................2179 (Z1, Tue) Yoshida, Shinichi................................ 1646 (P3, Tue) Yoshida, Takuya.................................. 1113 (F3, Tue) Yoshihara, Mami...............................1424 (H6, Mon) Yoshii, Kazuki........1447 (H6, Tue), 1477 (H6, Wed) Yoshikawa, Mitsuru..........................1959 (Q3, Mon)

Yoshimatsu, Ryo............................... 2158 (R1, Wed) Yoshimoto, Masahiro........................ 1766 (P7, Mon) Yoshimoto, Nobuko.............................111 (A2, Wed) Yoshimura, Hideto.............................. 1108 (F3, Tue) Yoshimura, Kimio...............................1283 (F3, Thu) Yoshinaga, Masashi............................ 1000 (F2, Tue) Yoshioka, Shohei............................... 2068 (Q6, Tue) Yota, Jiro............................................2139 (Q9, Mon) You, Eunyoung.................................... 1072 (F3, Tue) You, In-Kyu....................................... 2121 (Q7, Wed) Youn, S.-J............................................ 424 (A5, Wed) Younes, Enas...................................... 2081 (Q6, Tue) Younesi, Reza....................................... 242 (A4, Tue) Young, Alan......................................... 1083 (F3, Tue) Youssry, Mohamed.................................29 (A1, Tue) Yu, Chan-yeop...................................... 148 (A2, Thu) Yu, Edward........................................ 2113 (Q7, Wed) Yu, Guihua..............488 (A6, Mon), 2028 (Q4, Wed) Yu, Hongmei..................................... 1046 (F3, Mon) Yu, Hongyu........................................ 1892 (Q1, Tue) Yu, Ji-Cheng......................................2130 (Q8, Mon) Yu, Ji-Sang.......................................... 418 (A5, Wed) Yu, Kin Man....................................... 2071 (Q6, Tue) Yu, Kyeong Min............................... 1919 (Q10, Tue) Yu, Lu.................................................1707 (P5, Wed) Yu, Sheng........................................... 1899 (Q1, Tue) Yu, Shui-Qing..........1830 (P7, Thu), 1844 (P7, Thu), ..................................1845 (P7, Thu), 1854 (P7, Thu) Yu, Ted............................................... 1530 (H7, Wed) Yu, Xiqian............................................260 (A5, Mon) Yu, Yang......................974 (F2, Mon), 996 (F2, Tue) Yufit, Vladimir............23 (A1, Tue), 229 (A4, Mon), .................................. 339 (A5, Wed), 438 (A5, Thu), ..................................... 467 (A5, Thu), 982 (F2, Tue) Yuk, Young-Jae.................................... 190 (A3, Tue) Yun, Deok-hwan.................................2264 (Z1, Tue) Yun, Eui Jung................................... 1919 (Q10, Tue) Yun, Ho-Gyeong............................... 2121 (Q7, Wed) Yun, Ju-Ho........................................... 316 (A5, Wed) Yun, Juyoung...................................... 2107 (Q7, Tue) Yun, Sung-Hyun.................................. 512 (A7, Tue) Yun, Sungdo................ 186 (A3, Tue), 189 (A3, Tue) Yushin, Gleb........................................ 106 (A2, Wed) Yusoff, C. M........................................1848 (P7, Thu)

Meeting Program l October 5-9, 2014 l Cancun, Mexico

Z

Zabel, Thomas....................................1814 (P7, Wed) Zabielaite, Ausrine........1127 (F3, Tue), 1173 (F3, Tue), ......................................1176 (F3, Tue), 1177 (F3, Tue) Zabinski, Piotr..................................... 838 (D1, Thu), .................................. 925 (D3, Wed), 2181 (Z1, Tue) Zachara, Janusz................................... 325 (A5, Wed) Zack, Jason..........................................1016 (F3, Sun) Zafferoni, Claudio.............................1374 (H2, Mon) Zaghib, Karim...................................... 462 (A5, Thu) Zagubien, Ewelina............................. 1390 (H2, Tue) Zahoor, Awan...................................... 128 (A2, Wed) Zaikov, Yurii.........1427 (H6, Mon), 1430 (H6, Mon) Zaima, Shigeaki..........1772 (P7, Mon), 1834 (P7, Thu) Zaldívar Huerta, Ignacio................... 2174 (R1, Wed) Zaleta, E...............................................2215 (Z1, Tue) Zaleta-Alejandre, Efrain................... 2171 (R1, Wed) Zalineeva, Anna........1120 (F3, Tue), 1121 (F3, Tue) Zamarayeva, Alla................................479 (A6, Mon) Zambrano-Rengel, Griselda.................738 (C1, Tue) Zamora, Christian.................................770 (C2, Tue) Zamudio-Torres, Ildefonso................2305 (Z3, Wed) Zan, Lingxing.................................... 1529 (H7, Wed) Zangari, Giovanni..........840 (D1, Thu), 901 (D3, Mon) Zanna, Sandrine..................................227 (A4, Mon) Zargouni, Yafa...................................... 806 (D1, Tue) Zaumseil, Peter.................................. 1769 (P7, Mon) Zavadil, Kevin..........520 (A7, Tue), 1538 (H7, Wed) Zawodzinski, Thomas........................ 139 (A2, Wed), ....................................603 (A9, Tue), 1082 (F3, Tue) Zayas Pérez, Teresa..............................946 (E2, Wed) 231


Author Index Author................................................................Abs No.

Author................................................................Abs No.

Author................................................................Abs No.

Zeitner, Uwe...................................... 1715 (P6, Mon) Zelenay, Piotr................................... 1049 (F3, Mon), .................................1305 (F3, Thu), 1306 (F3, Thu), .............................. 1528 (H7, Wed), 1532 (H7, Wed) Zeng, Lisa.......................................... 1948 (Q2, Wed) Zeng, Zhigang...................................... 216 (A3, Thu) Zentel, Rudolf.....................................2176 (Z1, Tue) Zerounian, Nicolas.............................. 1794 (P7, Tue) Zetterlund, Bjorn................................. 1782 (P7, Tue) Zhai, Yunfeng...........1268 (F3, Thu), 1271 (F3, Thu) Zhang, Andy...................................... 1997 (Q3, Wed) Zhang, Bingzi.......... 1171 (F3, Tue), 1259 (F3, Wed) Zhang, Chuanfang................................ 185 (A3, Tue) Zhang, De-yan................................... 1951 (Q2, Wed) Zhang, Guangsheng............................. 466 (A5, Thu) Zhang, Huamin......................................20 (A1, Tue), ....................................... 21 (A1, Tue), 609 (A9, Tue) Zhang, Hui............................................ 566 (A8, Tue) Zhang, Ji-Guang................................... 497 (A6, Tue) Zhang, Jin........................................1907 (Q10, Mon) Zhang, Jingxin....................................1249 (F3, Wed) Zhang, Jinyu....................................1911 (Q10, Mon) Zhang, Junying..................................... 549 (A8, Sun) Zhang, Kai..............1601 (P1, Mon), 1620 (P1, Tue), ..................................1872 (P8, Tue), 2083 (Q6, Tue) Zhang, Liping...................................... 1689 (P5, Tue) Zhang, Long..........................................57 (A2, Mon) Zhang, Lu............................................ 102 (A2, Wed) Zhang, Qi............................................ 1442 (H6, Tue) Zhang, Qianpeng........2027 (Q4, Wed), 2072 (Q6, Tue) Zhang, Rui................ 1645 (P3, Tue), 1780 (P7, Tue) Zhang, Ruigang.........108 (A2, Wed), 138 (A2, Wed) Zhang, Sanliang..................................165 (A3, Mon) Zhang, Shumao..................................2056 (Q5, Thu) Zhang, Tian.........................................2184 (Z1, Tue) Zhang, Wanjie...................................... 514 (A7, Tue) Zhang, X.............................................. 1611 (P1, Tue)

Zhang, Xi............................................ 2068 (Q6, Tue) Zhang, Xia.......................................... 1442 (H6, Tue) Zhang, Xiaofei....................................169 (A3, Mon) Zhang, Xiaoning............................... 2161 (R1, Wed) Zhang, Xintong.......................................33 (A1, Tue) Zhang, Xuejie.................................... 2155 (R1, Wed) Zhang, Ya....................283 (A5, Tue), 349 (A5, Wed) Zhang, Yihang..................................... 1615 (P1, Tue) Zhang, Yu................ 818 (D1, Wed), 1256 (F3, Wed) Zhang, Yuanyuan................................ 665 (B1, Wed) Zhang, Yucheng.................................. 891 (D2, Wed) Zhang, Yuefei.............. 499 (A6, Tue), 501 (A6, Tue) Zhang, Yuegang................................. 2008 (Q4, Tue) Zhang, Yunhuai.................................... 182 (A3, Tue) Zhang, Yunyan................................... 2013 (Q4, Tue) Zhang, Zhengcheng..............................63 (A2, Mon) Zhang, Zhengxi................................... 384 (A5, Wed) Zhang, Zhenli...................................... 373 (A5, Wed) Zhao, Dan............................................1307 (F3, Thu) Zhao, Jianqing..................................... 368 (A5, Wed) Zhao, Liang....................................... 2114 (Q7, Wed) Zhao, Shuai........................................1204 (F3, Wed) Zhao, Xiangyu........... 105 (A2, Wed), 451 (A5, Thu) Zhao, Xiaojing...................................1200 (F3, Wed) Zhao, Xiuyun...................................... 429 (A5, Wed) Zhao, Xuan........................................2124 (Q8, Mon) Zhao, Yi............................................... 1780 (P7, Tue) Zhao, Yu................... 104 (A2, Wed), 488 (A6, Mon) Zhao-Karger, Zhirong..........................66 (A2, Mon), ............................................................. 105 (A2, Wed) Zheng, Fei.......................................... 1955 (Q2, Wed) Zheng, J. P...............................................70 (A2, Tue) Zheng, Jianming................................... 497 (A6, Tue) Zheng, Jim...............................................43 (A1, Tue) Zheng, Kun.................985 (F2, Tue), 1524 (H7, Tue) Zheng, Qianpeng............................... 2026 (Q4, Wed) Zheng, Qiong..........................................21 (A1, Tue)

Zheng, Shu.......................................... 1096 (F3, Tue) Zheng, Xiao-lin................................ 1951 (Q2, Wed), .............................. 1954 (Q2, Wed), 1955 (Q2, Wed) Zhilyakov, Arkadiy............................ 1465 (H6, Tue) Zhong, Lanlan...................................... 274 (A5, Tue) Zhou, Haijun........................................ 216 (A3, Thu) Zhou, Han............................................ 1606 (P1, Tue) Zhou, Hui................. 248 (A4, Wed), 483 (A6, Mon) Zhou, Yong-Ning................................260 (A5, Mon) Zhu, Hao............................................2145 (Q9, Mon) Zhu, Huilong...................................... 1893 (Q1, Tue) Zhu, Jie.............................................. 1313 (G1, Wed) Zhu, Jiefang...........................................60 (A2, Mon) Zhu, Liang........................................... 139 (A2, Wed) Zhu, Zhiyuan....................................... 1692 (P5, Tue) Zhuo, Kai............................................ 1890 (Q1, Tue) Zibart, Christina................................ 1471 (H6, Wed) Ziegelbauer, Joseph........290 (A5, Tue), 1019 (F3, Sun) Zieliene, Albina.........837 (D1, Wed), 1174 (F3, Tue) Ziemer, Katherine............................... 919 (D3, Wed) Zimin, Yuriy............................................49 (A1, Tue) Zimmer, Thomas................................. 1783 (P7, Tue) Zimmerman, Darin............................1629 (P1, Wed) Zimmermann, Christina....................2092 (Q7, Mon) Zimmermann, Lars........................... 1761 (P7, Mon) Zingan, Valentin..................................1032 (F3, Sun) Zinth, Veronika....................................265 (A5, Mon) Zitoun, David.....................................485 (A6, Mon), ....................................811 (D1, Tue), 1075 (F3, Tue) Zlotorowicz, Agnieszka...................... 1086 (F3, Tue) Zmich, Nicole..................................... 1421 (H6, Sun) Zoll, Stephane..................................... 1674 (P4, Tue) Zong, Hua........................................... 2151 (Q9, Tue) Zou, Yuquan.......................................1244 (F3, Wed) Zukowska, Grazyna............................. 96 (A2, Wed), ................................... 325 (A5, Wed), 546 (A7, Thu) Zvirbliene, Aurelija............................. 657 (B1, Wed) Zwieback, Ilya...................................1960 (Q3, Mon)

232

Meeting Program l October 5-9, 2014 l Cancun, Mexico


Notes


Notes


Notes


Notes


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06/20/2014


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