UNIST_2021 Research Profiles by leeborn11

Publications Registration Number

UNIST-Research Promotion Team-2021-001

FA C U LT Y RESEARCH PROFILES

2021

2021 FA C U LT Y RESEARCH PROFILES

2021 Faculty Research Profiles

Contents 004

President’s Message

006

Vision, Goals & Strategies

008

UNIST at a Glance

010

Ranking & Research Excellence

012

UNIST Facilities

Faculty Research Profiles

017 041 063 087 124

139 163 175

203 213 238 248 269 279 300

College of Engineering Department of Mechanical Engineering Department of Urban and Environmental Engineering Department of Materials Science and Engineering School of Energy and Chemical Engineering Department of Nuclear Engineering College of Natural Sciences Department of Physics Department of Mathematical Sciences Department of Chemistry College of Information and Biotechnology Department of Design Department of Biomedical Engineering Department of Industrial Engineering Department of Biological Sciences Graduate School of Artificial Intelligence Department of Electrical Engineering Department of Computer Science and Engineering

314

Graduate School of Technology & Innovation Management

320

School of Business Administration

338

School of Liberal Arts

356

UNIST Central Research Facilities

362

Index

President’s Message

A university that excels at “things that must be done” rather than simply “doing well,” UNIST will change the world UNIST’s remarkable growth to this day was made possible by its single-track focus on “Doing well.” The strategy of overcoming a newly founded university and effectively using limited resources and time made it possible for UNIST to become an innovative, researchcentered university. We must move from simply “doing well” to excel at the “things that must be done.” We live in an era where the presence of technology is overwhelming. Research-centered universities should thus be able to effectively educate talented people who will lead the future through these times, to lead technological innovation, and to provide a foundation for new industrial development. UNIST’s mandate is to carry out education and R&D beyond the speed of technological innovation. To do so, we would like to propose five major tasks to realize this goal. First, we will lead the innovation of the educational system. Second, we will start convergence research centered on Artificial Intelligence. Third, we will lead Ulsan to become a Smart Industrial City. Fourth, we will continue to pursue change and innovation through cooperation and communication. Fifth, we will establish the foundation for the sustainable growth of UNIST. We will make every effort to secure excellent new professors, the best scholars and talent needed to establish the research and education infrastructure. In particular, we will cooperate with the central government, the City of Ulsan and the Ulju-gun municipal government, to expand contributions, discover new programs and attract large-scale projects. “First In Change,” the slogan of UNIST, denotes the willingness pioneer innovation, not simply to follow the latest trends. In order to become an innovative school, we must have an innovative culture and system within the school. We will exert every effort with splendid cooperation in this regard to achieve sustainable growth of UNIST. Thank you in advance for your continued support and interest.

President

VISION & GOALS, STRATEGIES

VISION

World Leading University to Advance Science and Technology for the Prosperity of Humankind Cultivating creative global leaders who will usher in new scientific paradigms through convergence in science and technology

GOALS

Vision, Goals & Strategies

To be ranked within the Top 10 science and technology universities by 2030 Securing USD 10 billion Development Fund by 2040

STRATEGIES Education

Creativity Flipped Learning Self-direcred Learning

Interdisciplinary Non-major Matriculation 2 or more interdisciplinary majors

Globalization 100% English-taught Courses

Research

Nurturing Researcha Brands (Interdisciplinary Group Research)

Local and Industry Specific Research

Domestic/ International Research Collaboration

Contribution to the National Economy

Creation of New Industries Based on Original Core Technologies

Development of One-Stop Startup Ecosystem

Creation of Innovation-led Growth Engines

WORLD TOP 10 UNIVERSITY BY 2030 7

UNIST at a Glance

2007 · Eastalished the Ulsan national University of Science and Technology, A national university corporation.

2013 · Held the first commencement ceremony · Concerned authority transferred to the ministry of science, ICT and Future Planning · Campus Research Center of the Institute for Basic Science(IBS), established the Center for Multidmensional Carbon Materials(Director: Rodney S.Ruoff, distinguished professor of the School of Natural Science)

2009 · UNIST’s 1st Entrance Ceremony · Selected two assignments for the promotion project of world class University Focused on research

2007

Rodney S.Ruoff

2011

2014

· Selected as the united campus of the Institute for Basic Science(IBS) · Selected one of the four leading science and technolgy univerisities especially supported by the Ministry of Education, Science and Technology

· Campus Research Center of the Institute for Basic Science(IBS), established the Center for Soft and Living Matter(Director: Steve Granick, distinguished professor of the school of Natural Science) · Campus Research Center of the Institute for Basic Science(IBS), established the Center for Genomic Integrity(Director: Kyungjae Myung: distinguished professor of the School of Life Sciences)

Steve Granick

Kyungjae Myung

UNIST at a Glance

2015 · Eastablished the Ulsan National Institute of Science and Technology · Launchred the UNIST Global Innovation Campus at UC Berkeley · Completed the construction of the Low Dimensional Carbon Materials Center

2018 · Established the Industry-UniversityConvergence Campus

2016 · Established the Corporate Innovation Center

2020

2017 · Inaugurated the Research Center in collaboration with the Big Three German Research Institutes uniquely in Korea: Max Planck-Hans Scholler Stem Cell Research Center(Aug.2010)/Fraunhofer Project Center(Dec.2016)/Helmholtz Julich Joint Research Center for Future Energy Solution(May.2017) · Launched the Industry-Academia Battery R&D Center for Secondary Batteries

2019 · Held the 10th anniversary event of UNIST opening ·Yong Hoon Lee, incumbent president of UNIST

2020 · Selected to run Government-funded Al Graduate School

Ranking & Research Excellence

2020 THE World Univ. Ranking(Citations)

THE Young Univ. Ranking 2020 (Citation)

3rd In Korea

Normalized output

9.12

17th

POSTECH nd

2 in Korea ; 8 in the world

KAIST

POSTECH

Seoul National Univ.

SUNGKYUNKWAN Univ.

67.8

KOREA Univ.

67.6

70.4 68.8

2020 THE world’s Best Small Universities Small universities Universities that have fewer than 5000 undergraduate and praduate students.

Nature Index Young Universities 2019 Normalized output

GIST

9.12

4th in Korea, 27th in the world

DGIST 5th in Korea, 50th in the world

Ranking & Research Excellence

8th In the World

In the World

1st in Korea / 5th in the world

90.8

UNIST

3rd In Korea

10th In the World

2020 CWTS Leiden Ranking

in Korea

13.9 10.8

(4 consecutive years)

2020 Leiden Ranking by 10% Publication Ratio(Nationwide) ※ Fractional Counting ※ The ranking is based on publication indexed in clarivate Analytics’ web of Science in the period of 2015-2018, as well as their percentage of highly cited publications where a publications considered highly cited if it belongs to the top 10% most cited publications in its field.

UNIST

POSTECH

KAIST

Clarivate Analytics 2020 Highly Cited Researchers

6 professors

Proportion of top 10% publications

2nd in Korea

Kwangsoo Kim

Rodney S. Ruoff

Jongbeom Baek

Natural Science Cross-Field

Natural Science Materials Science, Chemistry

Energy and Chemical Eng. Cross-Field

Sangil Seok

Hyunwook Lee

Jaephil Cho

Energy and Chemical Eng. Chemistry

Energy and Chemical Eng. Cross-Field

Energy and Chemical Eng. Material Science

IBS The Institute for Basic Science

Research funding

UNIST hosts three IBS campus research centers (Research funding of USD 300 millon for 10 years) IBS(The Institute for Basic Science) will serve as a model of Korean scientific excellence to position as the world’s leading institute in basic science researches.

USD

300 million

(for 10 years)

Director

Rodney S. Ruoff Center for Multidimensional Carbon Materials from University of Texas, USA

The goals of the Center for Multidimensional include making entirely new classes of carbom and related materials and characterzing their structures, physical and chemical properties.

Director

Steve Granick Center for Soft and Living Matter from University of Illinois, USA

The subjects encompass the chemistry and physics of biomolecular science, the intellectual complexity of complex materials, the puzzles of understanding structure and dynamical processes of matter far from equilibrium.

Director

Kyung Jae Myung Center for Genomic Integrity from National Institutes of Health, USA

The Center for Genomic Integrity studies the molecular mechanism of DNA repair pathways that are important to conserve genetic information in biological systems.

UNIST Facilities

UCRF UNIST Central Research Facilities

Main Research Laboratories •Material Analysis Lab •Nano Fabrication Center •Environmental Analysis Center •Design and Manufacturing Center •In Vivo Research Center •UNIST-Olympus Bio-Med Imaging Center •Radioisotope Safety Lab •UNIST Synchrotron Radiation Center

USD

61 million

The amount of total investment

429 The number of research equipment

97,509 2020 Annual research request

USD

3.6 million

2020 Annual income

COLLEGE OF ENGINEERING 공과대학

01 Department of Mechanical Engineering 기계공학과 Department of Urban and Environmental Engineering 도시환경공학과 Department of Materials Science and Engineering 신소재공학과 School of Energy and Chemical Engineering 에너지화학공학과 Department of Nuclear Engineering 원자력공학과

Department of Mechanical Engineering 기계공학과

Robotics and Rehabilitation Engineering Lab (R2EL)

R2EL aims to research and develop medical/rehabilitation/diagnostic robotic and mechatronic systems that can be used in real clinics. With this aim, currently, we are studying on various robotics and rehabilitation engineering areas including robust nonlinear controllers/ observers, real-time biofeedback systems, and upper/lower-limb multi-joint/DOF diagnostic and measurement devices and methods. 유니스트 로봇 및 재활공학 연구실은 로봇 공학과 생체역학 등의 융합된 연구를 통한 의료/재활/진단로 봇 및 메카트로닉 시스템의 개발 및 이의 임상응용 등을 목표로, 비선형 강인 제어기 개발, 실시간 생체

강상훈

_Sang Hoon Kang

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 601-13 Tel : +82-52-217-2729 E-mail : sanghkang@unist.ac.kr http://robotics.unist.ac.kr/

피드백 시스템 개발, 상/하지 다관절 진단 및 측정 장비 및 방법 개발 등 다양한 연구를 진행하고 있다.

Curriculum Vitae

Major research field Rehab. Robotic / Mechatronic Tools, Biomechanics, Human Limb Impedance Estimation, Assistive / Healthcare robotics, Robust robot control

· 2015 - Present : Assistant/Associate Professor, UNIST · 2018 - Present : Univ. of Maryland, Physical Therapy and Rehab. Science Dept., Adj. Asst. Professor · 2015 - 2017 : Northwestern Univ., Physical Medicine & Rehab. Dept., Adj. Asst. Professor · 2012 - 2013 : Northwestern Univ., Biomedical Engineering Dept., Instructor · 2010 - 2015 : Northwestern Univ., Phys. Med. & Rehab. Dept., Postdoctoral Research Fellow · 2010 - 2015 : Rehabilitation Institute of Chicago (RIC), Research Associate

Research Keywords and Topics

Academic Credential

• Reliable biomechanical analysis and diagnosis (including the estimation of upper/lower limb mechanical impedance) using medical/rehabilitation robot systems 의료/재활로봇을 이용한 생체역학적 분석 및 진단 (상/하지 기계적 임피던스 측정 등) • Development of rehabilitation training using medical/rehabilitation robot systems 의료/재활로봇을 이용한 재활 훈련 개발 • Robot systems and robust control methods (Internal Model Control, Time-Delay Control, robust impedance control) 로봇 시스템 및 비선형강인제어 연구개발

· 2009 : Ph.D. Mechanical Eng., KAIST · 2002 : M.S. Mechanical Eng., KAIST · 2000 : B.S. Mechanical Eng., KAIST (Cum Laude) · 1996 : Hansung Science High School (1 year early graduation)

Research Publications (selected) • IEEE Trans. Neural Syst. Rehabil. Eng / Real-Time Three-Dimensional Knee Moment Estimation in Knee Osteoarthritis: Toward Biodynamic Knee Osteoarthritis Evaluation and Training / Sang Hoon Kang, S. J. Lee, J. Press, L. -Q. Zhang* / 2019-06 • IEEE/ASME Trans. Mechatronics / Robust Control of Robot Manipulators Using Inclusive and Enhanced Time Delay Control / M. Jin, Sang Hoon Kang*, P. H. Chang, and J. Lee. / 2017-10 • IEEE Trans. Neural Syst. Rehabil. Eng. / In Vivo Estimation of Human Forearm and Wrist Dynamic Properties. / K. Park, P. H. Chang, and Sang Hoon Kang* / 2017-05 (Featured Article)

Patents (selected) • [국내] 임피던스 추정 로봇의 상하 구동장치 및 이를 구비하는 임피던스 추정 로봇 구동 시스템 / Sang Hoon Kang, H. Kang, H. J. Kim / 2020 • [국내] 상지 다관절 임피던스 측정 방법 및 그 장치 (upper limb multi-joint impedance measurement method and apparatus thereof) / Sang Hoon Kang, S. S. Kim, H. Kang2019 • [국외] Spring array device for verifying reliability and accuracy of mechanical impedance estimating robot and connecting structure therebetween / Sang Hoon Kang, H. Kang / 2020 • [국외] Upper limb multi-joint impedance measurement method and apparatus using the same / Sang Hoon Kang, S.S. Kim, H. Kang / 2017

Awards/Honors/Memberships · 2021 - Present : Board member, KROS · 2020 : Hakbo-ART award, KROS · 2020 - Present : Associate Editor, IEEE RAS/EMBS BIOROB · 2020 - Present : Reviewer board, Applied Sciences · 2019 - Present : Chair, Technical Committee on Rehab. Robotics of KROS · 2019 - Present : Board Member, Korean Society of Medical Robotics · 2019 - Present : Academic board member, The KSME BioEngineering Division (BED) · 2017 - 2019 : Associate Editor, IEEE IROS · 2010 - 2012 : An award on research excellence and contribution to the knowledge and treatment of disabling conditions, Rehabilitation Institute of Chicago (RIC) · 2003 : Silver Prize, IEEE ICORR

College of Engineering

Department of Mechanical Engineering

로봇 및 재활공학 연구실

High-assurance Mobility Control Lab 고신뢰 모빌리티 제어 연구실

권철현

_Cheolhyeon Kwon

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 701-4 Lab : Bldg. 112 Rm. 806 Tel : +82-52-217-2433 E-mail : kwonc@unist.ac.kr http://hmc.unist.ac.kr

Our research interest lies in modeling, control and estimation of CPS(Cyber-Physical System), developing unified control framework for assured CPS autonomy in terms of security, safety and performance. While focusing on both fundamental theory and applications, we tackle dynamical behavior of CPS from controls domain view points. Safe and Reliable Integration of Autonomous Driving Technologies is also our major research goal. While putting In-vehicle fault diagnostics and fail-safe mechanism development as our priority concern, we estimate vehicle dynamics state by implementing Software/ECU/Hardware-in-the-loop System (SILS, EILS, HILS) test platform. 우리의 연구 관심사는 CPS(사이버 물리 시스템)의 모델링, 제어 및 추정에 있으며 보안, 안전 및 성능 측면에서 보장된 CPS 자율성을 위한 통합 된 제어 프레임 워크를 개발하는 데 있습니다. 기본 이론 및 응용 프로그램에 중점을 두면서 제어 도메인 관점에서 CPS의 동적 거동을 다룹니다. 자율 주행 기 술의 안전하고 안정적인 통합 또한 우리의 주요 연구 목표입니다. 차량 내 결함 진단 및 페일 세이프 메커니즘 개발을 최우

Curriculum Vitae · 2019 - Present : Assistant Professor, UNIST · 2018 - 2019 : Senior Research Engineer, Hyundai Autonomous Driving Technology Center · 2017 - 2018 : Visiting Assistant Professor, Purdue University

선으로, Software / ECU / Hardware-in-the-loop System(SILS, EILS, HILS) 테스트 플랫폼을 구현 하여 차량의 역학 상태 를 추정합니다.

Academic Credential · 2017 : Ph.D. in Aeronautics and Astronautics Engineering, Purdue University · 2013 : M.S. in Aeronautics and Astronautics Engineering, Purdue University · 2010 : B.S. in of Mechanical and Aerospace Engineering, Seoul National University

Major research field Cyber-Physical System(CPS), Intelligent and High Assurance Autonomy, Networked Multi-Agent Systems (MAS), Fault Tolerant Control(FTC), Planning, Estimation 사이버-물리 시스템, 지능형 및 높은 보증 자율성, 네트워크로 연결된 다중 에이전트 시스템, 고장 허용 제어, 계획, 예측

Research Keywords and Topics • Cyber-Physical System(CPS), Fault Tolerant Control(FTC), HD-Map, Localization, Perception, Motion/Route/Behavior Planning, Control, UAS(unmanned aircraft system), Autonomous driving, Sensor fusion 사이버 물리 시스템, 고장 허용 제어, 고정밀 지도, 위치추정, 인지 판단, 경로 계획, 제어, 무인 항공 시스템, 자율주행, 센서 융합

Research Publications (selected) • IET CONTROL THEORY AND APPLICATIONS / Cyber attack mitigation for cyberphysical systems: hybrid system approach to controller design / Kwon, Cheolhyeon; Hwang, Inseok / 2016-04 • IEEE TRANSACTIONS ON AUTOMATIC CONTROL / Reachability Analysis for Safety Assurance of Cyber-Physical Systems Against Cyber Attacks / Kwon, Cheolhyeon; Hwang, Inseok / 2018-07 • IEEE TRANSACTIONS ON AUTOMATIC CONTROL / Sensing-Based Distributed State Estimation for Cooperative Multiagent Systems / Kwon, Cheolhyeon; Hwang, Inseok / 2019-06

Patents (selected) • [국내] “불안정 측위 상황에서 자율주행 차량의 측위 활성화 방안” 권철현/최진하 (2018-11) • [국내] “응급 상황을 위한 자동차 자율주행 우선순위 처리 시스템” 권철현 / 이종윤 / 최주희 / 김현우 (2018-12)

Laser Processing and Artificial Intelligence Lab

In our lab, we study advanced laser manufacturing technologies including not only conventional macro processing applications, such as laser heat treatment, laser welding, and laser cladding, but also laser microfabrication and dual-beam pulsed laser deposition for advanced functional coatings. Our recent focus is on the development of innovative technologies by extensively using artificial intelligence in various aspects of laser materials processing. 본 연구실에서는 레이저 열처리, 레이저 용접, 레이저 클래딩과 같은 Macro Processing 기술과 레이

기형선

_Hyungson Ki

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 701-7 Tel : +82-52-217-2310 E-mail : hski@unist.ac.kr https://www.ptlresearch.com/

저를 이용한 초정밀 가공, Dual-Beam 펄스 레이저 증착 기술을 포함한 다양한 레이저 가공 기술을 연구해 오고 있습니다. 최근에는 인공지능 기술을 활용하여 레이저 가공기술을 고도화하는 연구에 중점을 두고 있습니다. AI를 방대하게 활용하여 선도적인 레이저 가공 기술을 개발하면서, 시대의 흐 름에 맞는 연구자를 양성하기 위해 노력하고 있습니다.

Curriculum Vitae · 2009 - Present : Associate Professor/Professor, UNIST · 2003 - 2008 : Assistant Professor, Mechanical Engineering Department, Michigan State University · 2001 - 2003 : Postdoctoral Research Fellow, The University of Michigan, Ann Arbor

Major research field 딥러닝 응용 기술 딥러닝을 이용한 레이저 가공 공정 예측 및 모니터링 기술 레이저 가공 공정 멀티피직스 해석 기술 레이저 용접, 레이저 열처리, 레이저 패터닝, 레이저 정밀가공 펨토초 레이저 LIPSS 현상을 이용한 표면 패터닝 기술

Research Keywords and Topics

Academic Credential · 2001 : Ph.D. in Mechanical Engineering, The University of Michigan, Ann Arbor - Advisor : Prof. Jyoti Mazumder · 1998 : M.S. in Mechanical Engineering, The University of Michigan, Ann Arbor · 1996 : B.S. in Mechanical Engineering, POSTECH

• Laser Materials Processing, Deep Learning Applications, Laser Welding, Laser Heat Treatment, Laser Micromachining 레이저 가공, 인공지능 응용, 레이저 용접, 레이저 열처리, 레이저 정밀가공

Research Publications (selected) • Unified momentum equation approach for fluid-structure interaction problems involving linear elastic structures, H. Yeo and H. Ki*, Journal of Computational Physics 415, 109482 (2020) • Cross-section bead image prediction in laser keyhole welding of AISI 1020 steel using deep learning architectures, S. Oh and H. Ki*, IEEE Access 8, 73359-73372 (2020) • Fabrication of compound infrared microlens array with ultrashort focal length using femtosecond laser-assisted wet etching and dual-beam pulsed laser deposition, C. Deng, H. Kim, and H. Ki*, Optics Express 27 (20), 28679-28691 (2019) • Deep learning model for predicting hardness distribution in laser heat treatment of AISI H13 tool steel, S. Oh and H. Ki*, Applied Thermal Engineering 153, 583-595 (2019) • A study of keyhole behavior and weldability in zero-gap laser welding of zinc-coated steel sheets at subatmospheric pressures, J. Kim, S. Oh, M. Son and H. Ki*, Journal of Materials Processing Technology 249, 135-148 (2017)

College of Engineering

Department of Mechanical Engineering

레이저가공 및 인공지능 응용 연구실

SoftHeat lab 연성물질 열물리 연구실

김건호

_Gunho Kim

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-7 Tel : +82-52-217-2413 E-mail : gunhokim@unist.ac.kr https://sites.google.com/view/softheat group/home?authuser=0

Our lab focuses on understanding of heat transfer in soft materials including polymers and living tissues, their applications in electronic devices and medicines, and development of materials of exotic thermal properties. For example, our lab develops rapid and precision cooling technology to identify unique animal behaviors at low temperatures and methods of controlling tissue functions by thermal energy. In addition, we are developing low cost manufacturing methods of graphene related materials for various gaseous species sensors, enhanced mechanical properties of carbon based composites, high-performance thermal systems, and functional filtration sheet. With these topics, we aim for not only pioneering research findings but also another spin-off lab technology for commercialization. 우리 연구실은 폴리머 및 생체 조직을 포함한 연질 재료의 열 전달 이해, 전자 장치 및 의약품 관련 응 용, 이색적인 열적 특성의 재료 개발에 중점을 둡니다. 예를 들어, 우리 실험실은 저온에서 고유한 동 물 행동을 식별하고 열 에너지로 조직 기능을

Curriculum Vitae

제어하는 방법을 식별하는 빠르고 정밀한 냉

· 2016 - Present : Assistant Professor Mechanical Engineering, UNIST · 2016 - Present : CEO/CTO Recens Medical Inc. · 2015 - 2016 : Postdoctoral Fellow, Materials Science and Engineering, University of Michigan · 2014 - 2015 : Energy Research Fellow Michigan Energy Institute

각 기술을 개발합니다. 또한 다양한 기체 종 센

Academic Credential · 2013 : Ph.D Mechanical Engineering, University of Michigan · 2010 : MSE Mechanical Engineering, University of Michigan · 2007 : BS Mechanical and Aerospace Engineering, Seoul National University

Awards/Honors/Memberships · 2020 : Merit awarded by Korea Health Industry Development Institute · 2017 : Winner of the Investment Relation competition in Busan-Ulsan area, Ministry of SMEs and startups · 2017 : 1st U-star, Ulsan city, $18,692 USD · 2016 : Winner of Biomedical Innovation Cup, Michigan Medical School (one awardee per year), $2,500 USD · 2014 : Samsung 2014 Global Research Outreach, $100,000 USD · 2014 : Partnerships for Innovation in Sustainable Energy Technologies, $80,000 USD

서용 그래핀 관련 소재의 저비용 제조 방법, 탄 소계 복합 재료의 기계적 물성 강화, 고성능 열 시스템, 기능성 여과 시트를 개발하고 있습니 다. 이러한 주제를 통해 우리는 연구 결과를 개 척 할뿐만 아니라 상용화를 위한 또 다른 스핀 오프 랩 기술을 목표로 합니다.

Major research field 고성능 의료용 냉각 기술, 그래 핀 관련 소재, 센서 제작, 탄소 기반 복합재

Desired field of research 저온 임상 치료

Research Keywords and Topics • High performance medical cooling technology 고성능 의료용 냉각 기술 • Graphene related materials 그래핀 관련 소재 • Sensor fabrication 센서 제작 • Carbon based composites 탄소 기반 복합재

Research Publications (selected) • COMPOSITES PART B-ENGINEERING / Direct growth of thermally reduced graphene oxide on carbon fiber for enhanced mechanical strength / Cho, Beom-Gon; Joshi, Shalik Ram; Lee, Jaekyo; Park, Young-Bin; Kim, Gun-Ho / 2020-07 • NATURE MATERIALS / High thermal conductivity in amorphous polymer blends by engineered interchain interactions / Kim, Gun-Ho; Lee, Dongwook; Shanker, Apoorv; Shao, Lei; Kwon, Min Sang; Gidley, David; Kim, Jinsang; Pipe, Kevin / 2015-03 • NATURE MATERIALS / Engineered doping of organic semiconductors for enhanced thermoelectric efficiency / Kim, Gun-Ho; Shao, Lei; Zhang, Kejia; Pipe, Kevin / 2013-08

Patents (selected) • 국부 냉각 마취 장치, 국부 냉각 마취 장치의 제어 방법 및 국부 냉각 마취 장치의 냉각 온도 조절기, 김건호, 2015

• Applicator for cryoanesthesia and analgesia, Cagri Besirli, Stephen Smith, Kevin Pipe, Gun-Ho Kim, 2015

UNIST Computer-integrated Manufacturing (CIM)

UNIST-CIM Lab. develops advanced manufacturing technologies with emphasis on additive manufacturing (3D printing), manufacturing system analysis and agent-based simulation. We aim to research and develop 1) the advanced design and process engineering technology of 3D printing for industrial applications, 2) analytic model of complexity and flexibility in manufacturing systems, and 3) agent-based advanced simulation with human-inclusion in complex system dynamics (e.g., manufacturing operation, social safety systems, etc.). 유니스트 생산기술 연구실에서는 3D 프린팅 응용, 생산시스템 분석, 행위자 기반 시뮬레이션 기술을

김남훈

_Namhun, Kim

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 601-11 Lab : Bldg. 112 Rm. 604-3 Tel : +82-52-217-2776 E-mail : nhkim@unist.ac.kr http://ucim.unist.ac.kr/

기반으로 첨단 생산 기술 개발을 수행하고 있다. 특히, 1) 3D 프린팅 기반의 산업 응용 설계 및 생산기술 개발, 2) 생산시스템 복잡도와 유연성 해석 기 법 개발, 3) 복합 시스템 (예, 생산시스템 운용, 사회 안전 시스템 등)의 행위자 기반 응용 시뮬레이션 기법을 사용한 연구와 시스템 개발을 목표로 한다.

Curriculum Vitae · 2020 - Present : IE Department Head · 2015 - Present : Director, 3D Advanced Additive Manufacturing Research Center, UNIST · 2016 - Present : Associate Professor, UNIST · 2010 - 2016 : Assistant Professor, UNIST · 2000 - 2005 : Senior Researcher, Samsung Corning, Co., LTD.

Desired field of research

Major research field Additive Manufacturing (3D Printing), Agent-based Modeling and Simulation, Smart Manufacturing

DFAM(Design for Additive Manufacturing), Advanced Manufacturing, Digital Twins of Complex Systems

Research Keywords and Topics • DFAM(Design for Additive Manufacturing), Additive Manufacturing, Smart Manufacturing, Agent-based Modeling and Simulation 적층 제조 적합 설계, 적층 제조(3D프린팅), 스마트 제조, 행위자 기반 모델링 및 시뮬레이션

Academic Credential · 2010 : Ph.D. in Industrial and Manufacturing Engineering, Penn State University, University Park, PA, USA · 2000 : M.S. in Mechanical Engineering, KAIST · 1998 : B.S. in Mechanical Engineering, KAIST

Awards · 2020 : 산업부장비통합관리 유공자표창,

Research Publications (selected) • RELIABILITY ENGINEERING & SYSTEM SAFETY / Adaptive SVM-based Real-time Quality Assessment for Primer-Sealer Dispensing Process of Sunroof Assembly Line / Oh, YeongGwang; Ransikarbum, Kasin; Busogi, Moise; Kwon, Daeil; Kim, Namhun / 2017-07 • IEEE ACCESS / Sequence Based Optimization of Manufacturing Complexity in a Mixed Model Assembly Line / Busogi, Moise; Song, Donghwan; Kang, Sang Hoon; Kim, Namhun / 2019-02 • RAPID PROTOTYPING JOURNAL / A dimensional compensation algorithm for vertical bending deformation of 3D printed parts in selective laser sintering / Ha, Sangho; Ransikarbum, Kasin; Han, Hweeyoung; Kwon, Daeil; Kim, Hyeonnam; Kim, Namhun / 2018-08

산업통상자원부 (장관상)

· 2020 : 울산자동차의날 유공자표창, 울산광역시 (시장상)

· 2018 : Outstanding Faculty Award (Education), UNIST

Memberships · Member of ASME · Member of KSME · Member of KIIE · Member of KSPE · Member of KPMI · Member of KPHM

Patents (selected) • 적층가공 제한을 고려한 격자 구조 생성에 도움이 되는 웹 기반 라이브러리를 위한 빌딩블록 추천 알고리즘 / 정해권, 강민수, 김남훈 / 2020-01 (출원)

• 격자구조 생성 알고리즘을 이용한 설계방법 / 최해준, 김남훈 / 2019-02 (출원)

College of Engineering

Department of Mechanical Engineering

UNIST 생산기술연구실

Computational Advanced Nanomechanics (CAN) 전산나노역학

김성엽

_Sung-youb, Kim

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-6 Lab : Bldg. 112 Rm. 802 Te : +82-52-217-2387 E-mail : sykim@unist.ac.kr https://can.unist.ac.kr

CAN is investigating various characteristics of nanoscale materials using computation, specially emphasizing on the mechanics or mechanics-mediate characteristics of them. CAN is studying the validity and limitation of continuum (solid) mechanics theories in the applications for nanoscale materials. In addition, CAN is working on tradtional CAE using FEM for various applications such as batteries, electronic skin, auxetic materials, acoustic topological insulators and so on. 깡통(CAN) 연구실에서는 전산해석을 이용하여 나노스케일 재료의 기계적 성질 또는 기계적 변형과 연동 된 특성 변화를 연구하고 있습니다. 특히, 연속체(고체)역학 이론과의 비교연구를 통해, 나노재료의 독특한 역학적 거동을 예측하고 그 원인을 규명하고 있습니다. 또한, 전통적인 전산원용해석으로서, 유한요소법 을 이용하여 배터리 안정성, 전자피부, 횡팽창 구조, 음향위상부도체 등의 주제에 대해 연구하고 있습니다.

Curriculum Vitae · 2019 - Present : Professor, UNIST · 2014 - 2019 : Associate Professor, UNIST · 2009 - 2014 : Assistent Professor, UNIST · 2010 - 2020 : Director, UNIST Supercomputing Center

Pictures or other visual items relating to your lab

Academic Credential · 2006 : Ph.D. in Mechanical Engineering, KAIST · 2000 : M.S. in Mechanical Engineering, KAIST · 1998 : B.S. in Mechanical Engineering, KAIST

Awards/Honors/Memberships · 2019 : 한국전산역학회 젊은연구자상 · 2017 : 한국멀티스케일역학회 학술상 · 2016 : 대한기계학회 CAE 및 응용역학부문 젊은연구자상

· 2013 : 미래창조과학부장관 표창

Major research field

Desired field of research

나노역학(Nanomechanics), 전산원용해석(CAE), 나노 파괴역학(Fracture Mechanics), 전위론(Dislocation theory), 기타역학(Unusual Mechanical Behavior)

다수 전위(dislocation) 및 결정립계 상호 작용, 비상호성/비대칭성(non-Hermitian) 역학 이론, 기계적 위상부도체(phononic TI) 설계 및 해석, 인공지능을 활용한 재료 설계

Research Keywords and Topics 위상부도체 : 특정주파수의 기계적 진동이나 음향을 온전하게 전파하거나 아예 전파를 막는 인위 적인 구조의 원리규명 및 설계 연구 ● 전위론 : 재료 내 전위가 이동할 때 주변의 응력장 및 전위의 속도 변화, 에너지 손실 등, 움직이는 전위의 역학적 특성 및 이동성에 관한 연구 ● 나노균열 : 재료 내 나노스케일의 균열이 존재할 때 J-적분 및 파괴(fracture) 특성에 관한 연구 (연 속체 파괴역학과 비교 연구) ● 음의 물성을 갖는 재료 : 프와송 비나 열팽창 계수가 음인 구조 또는 나노 재료에 대한 원리 규명 및 특성에 관한 연구 ● 역학적 특이 특성 : 역학적 상호성이 깨지거나 (non-reciprocity) 또는 강성행렬의 대칭성이 깨지는 (non-Hermitian) 특이 구조 연구 ●

Research Publications (selected) • International Journal of Plasticity / Inertial effect inducing drag on fast-moving dislocation in discrete systems / Soon Kim, Hokun Kim, Keonwook Kang, and Sung Youb Kim / 2020 • Nanoscale / Vally-dependent topological protected elastic waves using continuous graphene memebranes on patterned substrates / Jaehyung Hong, Joo Hwan Oh, Harold S. Park, and Sung Youb Kim / 2020 • Nature Communications / Negative Poisson's ratios in metal nanoplates / Duc Tam Ho, Soon-Dong Park, Soon-Yong Kwon, Kibog Park, and Sung Youb Kim / 2014

Patents (selected) • Mass measuring devices and methodology using graphene sheets, 10-1229730 (한국), 2013 • Graphene sheet, transparent electrode, active layer including the same, display, electronic device, optoelectronic device, battery, solar cell, and dye-sensitized solar cell including the electrode or active layer, US 9,385,281 B2 (미국), 2016

Fluid-Based Convergence Lab

We, Fluid-Based Convergence laboratory (FBC), are mainly interested in the convergence between fluid mechanics and other areas such as biology, sports, robotics, etc. Based on the state-of-the-art experimental approaches and theoretical analysis, we solve interesting phenomena arising in fluid mechanics and develop innovative control methods that can be applied to various turbulent & separated flows. 유체기반 융합 연구실에서는 유체 역학을 기반으로 생물학, 스포츠, 로보틱스 등 타 학제와의 융합연 구를 수행하고 있다. 본 연구실에서는 최신 실험기법과 이론적인 분석을 토대로 유체 역학적 관점에

김주하

_Jooha Kim

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 401-6 Tel : +82-52-217-2378 E-mail : kimjooha@unist.ac.kr http://fbc.unist.ac.kr

서 발생하는 여러가지 흥미로운 현상을 해결하는 동시에 다양한 난류 및 박리 유동에 적용할 수 있 는 혁신적인 유동 제어 기법을 개발하는 것을 목표로 한다.

Curriculum Vitae · 2015 - Present : Assistant Professor, UNIST · 2015 : Post-doctoral Research Associate, Department of Mechanical & Aerospace Engineering, Seoul National University

Academic Credential · 2015 : Ph.D. Mechanical Engineering, Seoul National University · 2007 : B.S. Mechanical Engineering, Seoul National University

Desired field of research

Major research field Experimental fluid mechanics, Flow control, Flow visualization

UAV aerodynamics Large-scale wind-tunnel testing

Research Keywords and Topics • Convergence between fluid mechanics and other areas such as biology, sports, robotics, etc. 유체역학과 생물학, 스포츠, 로보틱스 등의 융합연구

• Experimental fluid mechanics

Awards/Honors/Memberships · 2017 : Promising Engineer Award, The Korean Society of Mechanical Engineers · 2017 : Young Engineer Award, The Korean Society of Visualization · 2016 : Outstanding Teaching Award, Ulsan National Institute of Science and Technology · 2015 : Young Researcher Award, Institute of Advanced Machines and Design, Seoul National University

실험 유체 역학

• Flow control 유동 제어

Research Publications (selected) • Physics of Fluids / Adaptive-passive control of flow over a sphere for drag reduction / Chae, S., Lee, S., Kim, J. & Lee, J. H. / 2019-01 • PHYSICAL REVIEW FLUIDS / Control of flow around a low Reynolds number airfoil using longitudinal strips / Cho, Seunghyun; Kim, Jooha; Choi, Haecheon / 2018-11 • BIOINSPIRATION & BIOMIMETICS / Flow structure modifications by leading-edge tubercles on a 3D wing / Kim, Heesu; Kim, Jooha; Choi, Haecheon / 2018-11

College of Engineering

Department of Mechanical Engineering

유체기반 융합 연구실

MicroFluidics & NanoMechatronics Lab 미세유체 및 나노메카트로닉스 연구실

김태성

_Taesung Kim

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.112 Rm .703 Tel : +82-52-217-2402 E-mail : tskim@unist.ac.kr http://www.ufnm.unist.ac.kr/

The long term research goal of MicroFluidics and NanoMechatronics (µFNM) lab. is to create novel micro-/nanofluidic technologies that develop a broad spectrum of interdisciplinary research fields. Currently, of µFNM lab. focuses on four research fields such as Microfluidics (Fluid Mechanics at Micro/Nano-scale), NanoMechatronics (Automation of Micro-/Nano scale Systems and Device), Multi-Physics simulation (Numerical Simulation of Fluids, Ions, Colloids and Devices) and Printing in 2D and 3D Manners (Micro/Nanofabrication). μFNM Lab.은 마이크로/나노 스케일의 유체역학 현상 연구 및 나노공정 기술과 메카트로닉스 기술 을 기반으로 한 학제간 융합 연구를 목표로 한다. 현재는 마이크로/나노스케일의 유체역학, 나노디 바이스 자동화를 위한 메카트로닉스 기술, 다중물리 기반 열·유체해석기술, 2D·3D 프린팅 기반 나노 공정 기술을 접목하여 차세대 초미세유체디바이스 및 나노패터닝 기술을 주로 연구하고 있다.

Curriculum Vitae · 2017 - Present : Professor, UNIST · 2013 - 2020 : Director of BK21PLUS · 2012 - 2017 : Associate Professor, UNIST · 2009 - 2012 : Assistant Professor, UNIST · 2008 : Postdoctoral Fellow, EECS, Univ. of California Berkeley, Lawrence Berkeley National Lab (LBNL) / Joint Bio Energy Institute (JBEI) · 2006 - 2007 : Postdoctoral Fellow, EECS, Univ. of Michigan at Ann Arbor · 2002 : Research Scientist, KIST · 1999 - 2001 : Research Engineer Nextech Co. Ltd

Academic Credential · 2006 : Ph.D., Mechanical Engineering, Univ. of Michigan at Ann Arbor · 1999 : M. S., Mechanical Engineering, Seoul National University · 1997 : B. S., Mechanical Engineering, Seoul National University

Awards/Honors/Memberships · The Best Paper and / or Excellence Prizes in Conferences : KSME (20102020), Samsung HumanTech (Gold, 2015), MRS 2019, Asiasense 2011, and BAMN 2013 · National Government Scholarship Grantee for Overseas Students (2002-2004) · Member of BSAC, KSME, KBCS, Society of Micro Nanos Systems · Editorial Committee Member of KOSE, MDPI Biosensors

Desired field of research

Major research field Micro-/Nanofluidics, Bio-MEMS, Nanomechatronics, Lab on a chip, Material Patterning and Printing

Multi-physics simulation, Functionalized Ion Transport, Nanoparticle Seperation

Research Keywords and Topics • Micro- / Nanofluidics and Transport Control (Biosensors, Lab-on-a-chip) 마이크로- / 나노유체역학 (바이오센서, 랩칩)

• Unconventional Micro- / Nanofabrication (Mixed-scale Patterning, Crack-photolithography) 마이크로- / 나노공정기술 (혼합스케일 패터닝, 크랙기반 포토리소그래피)

• Nano Mechatronics (Automation of Micro-/Nanofluidic Devices) 메카트로닉스 (마이크로- / 나노유체장치 자동화기술)

• Multiphysics Simulations (Thermo-Fluid Dynamics, Electrokinetics) 다중물리기반 열 / 유체 / 유동 해석

Research Publications (selected) • Nature Communications / Controlled Open-cell Two-dimensional Liquid Foam Generation for Micro- and Nanoscale Patterning of Materials / Juyeol Bae, Kyunghun Lee, Sangjin Seo, Jun Gyu Park, Qitao Zhou and Taesung Kim / 2019-07 • ACS Nano / Dynamic Transport Control of Colloidal Particles by Repeatable Active Switching of Solute Gradients / Dogyeong Ha, Sangjin Seo, Kyunghun Lee and Taesung Kim / 2019-10 • Advanced Materials / Multimodal and Covert-Overt Convertible Structural Coloration Transformed by Mechanical Stress / Qitao Zhou, Jun Gyu Park, Juyeol Bae, Dogyeong Ha, Jungyul Park, Kyungjun Song, and Taesung Kim / 2020-06 (inside front cover)

Patents (selected) • Microfluidic cell culture device, KR10-1554777 (2015), US14 / 908,124 (2016) • Transformable grating composite, manufacturing method thereof, and anti-fake device using the same, KR10-2019-0169059 (2019, Tech Transfer to NBST)

Functional Intelligent Materials Lab (FIMLab)

Dr. Park’s research interests are in the field of advanced composite and nanocomposite technologies for development of functional and intelligent materials and structures, that is, materials that “think” and “respond.” In particular, his research focus is on the application of high-performance nanoscale materials, especially graphene and carbon nanotubes, to multifunctional composites and structures. An example would be a “smart” automotive vehicle or aircraft that can self-sense its structural health, protect itself from external disturbances or hazards, and ultimately self-adjust or take necessary measures with minimal human intervention. More recently, Dr. Park has expanded his scope of research into novel technologies for rapid, affordable manufacturing of fiber-reinforced composites, particularly targeted for automotive industry. Currently, Dr. Park is serving as the director of the UNIST Composites Research Center in collaboration with Fraunhofer ICT.

박영빈

_Young-Bin Park

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 601-1 Lab : Bldg. 112 Rm. 607 Tel : +82-52-217-2314 E-mail : ypark@unist.ac.kr http://parklab.unist.ac.kr/

인간은 몸에 분포되어 있는 신경망을 통해서 통증을 느낄 때, 치료를 받거나 병원을 찾습니다. 소재나 구조 물에도 이러한 “신경망” 을 부여하면, 외부 환경뿐만 아니 라, 변형, 파손과 같은 내부 상태를 감지할 수 있게 됩니 다. FIMLab에서는, 2개 이상의 소재를 혼합하고 (복합재 료), 소재 시스템을 구조적으로 설계함으로써 (“Material

Curriculum Vitae

Systems by Design”), 구조건전성 자가센싱과 같은 스마 트한 기능을 갖는 소재 및 구조물 연구를 수행하고 있습 니다. 뿐만 아니라, 무거운 금속을 대체할 수 있는 경량 복 합재료 제조 및 설계 연구도 수행하고 있습니다.

Desired field of research

Major research field Composite Materials Nanocomposites Smart Materials and Structures Innovative Automotive Composites

Lightweight Composites for Green/Smart Mobility, Structural Health Monitoring (SHM) and AI-based Prognostics and Health Management (AI-PHM)

Research Keywords and Topics • Piezoresistive composite based strain/tactile sensing and structural health monitoring 복합재 압저항 거동 기반 변형/촉각 감지 및 구조 상태 모니터링

• Self-sensing carbon fiber composites for prognostics and health management (machine learning) 고장 예지 및 수명 관리를 위한 자감지 탄소섬유 복합재 (머신 러닝)

• Multiscale hybrid composites containing carbon nanomaterials (graphene, CNT) and fiber reinforcement 탄소나노소재 (그래핀, CNT)와 보강섬유를 포함하는 멀티스케일 하이브리드 복합재

• Design and rapid manufacturing of fiber-reinforced and hybrid composites for automotive and aerospace 경량 자동차 및 항공우주용 섬유강화 및 하이브리드 복합재 설계 및 제조 (고속성형)

• CFRP-based triboelectric generation (energy harvesting) CFRP 기반 마찰 발전 및 에너지 하베스팅

Research Publications (selected) • ACS APPLIED MATERIALS & INTERFACES / Bioinspired, High-Sensitivity Mechanical Sensors Realized with Hexagonal Microcolumnar Arrays Coated with Ultrasonic-Sprayed Single-Walled Carbon Nanotubes / Jeong, Changyoon; Ko, Hangil; Kim, Hyun-Tak; Sun, Kahyun; Kwon, TaeHyuk; Jeong, Hoon Eui; Park, Young-Bin / 2020-04 • COMPOSITE STRUCTURES / Deformation and interlaminar crack propagation sensing in carbon fiber composites using electrical resistance measurement / Roh, Hyung Doh; Lee, SooYoung; Jo, Eonyeon; Kim, Hyegyu; Ji, Wooseok; Park, Young-Bin / 2019-05 • COMPOSITES SCIENCE AND TECHNOLOGY / Synergistic interfacial reinforcement of carbon fiber / polyamide 6 composites using carbon-nanotube-modified silane coating on ZnO-nanorod-grown carbon fiber / Kim, Byeong-Joo; Cha, Sang-Hyup; Kong, Kyungil; Ji, Wooseok; Park, Hyung Wook; Park, Young-Bin / 2018-09

Patents (selected) • 10-2145246, Composite PHM with piezoresistivity (전기저항 변화율을 바탕으로 한 복합재 고 장예지 및 관리 기술) • 10-1554264, Method for manufacturing the carbon fiber composite and the carbon fiber composite (탄소섬유복합재의 제조방법 및 탄소섬유복합재)

· 2009 - Present : Assist./Assoc./Full Professor, UNIST · 2007 - 2008 : Research Scientist, Emitech, USA · 2004 - 2007 : Assistant Professor, Florida A&M University, USA · 1997 - 1999 : Research Engineer, Hyundai Motor Company

Academic Credential · 2003 - 2004 : Postdoctoral Fellow, Georgia Tech · 2003 : Ph.D. in Mechanical Engineering, Georgia Tech · 1997 : M.S. in Mechanical Design and Production Engineering, Seoul National University · 1995 : B.S. in Mechanical Design and Production Engineering, Seoul National University

Awards/Honors/Memberships · Faculty of the Year Award, UNIST (2017) · Academic Achievement Award, Korean Society for Composite Materials (2015) · Best Teaching Award, UNIST (2013, 2016) · City of Ulsan Mayor Commendation, 5th Ulsan Automotive Day (2011) · Best Paper/Poster Awards : SPE ANTEC, ACCM, AMSM, Korean Society for Composite Materials, Korean Society for Precision Engineering, Korean Society of Mechanical Engineers, Korea Carbon Society, etc.

College of Engineering

Department of Mechanical Engineering

기능성 지능형 재료연구실

Multiscale Hybrid Manufacturing Lab 다차원 하이브리드 생산공학연구실

박형욱

_Hyungwook Park

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 601-6 Lab : Bldg. 112 Rm. 608 Tel : +82-52-217-2332 E-mail : hwpark@unist.ac.kr http://mhm.unist.ac.kr

Based on past and current research experience, my long term research goal is to establish and develop “Multi-Physics based Micro/Meso-scale Manufacturing (MP-M2) Processes and Systems.” In order for this goal to be achieved, it will be necessary to conduct fundamental research into the MP-M2 process as well as to develop a design technique for components and an overall system. In this system, various mechanical micro-machining processes will be performed to produce micro-features, such as micromolds, bio-sensors, and micro-patterns for portable fuel cells, using diverse materials IT, ET, BT 산업이 개인 정보통신으로 접목된 다중매체 유비쿼터스 장비의 증가, 마이크로 의료기기 산업 및 신재생 태양전지 산업의 일반화 등, 첨단산업이 일상생활로 파급되면서 복합형상에 대한 다 차원 하이브리드 가공의 고부가가치 제품 수요가 증가함에 따라서, 본 연구실은 다차원 가공 공정 해 석 알고리즘/시스템 및 차세대 복합재에 대해서 연구하고 있다.

Curriculum Vitae · 2009 - Present : Professor, UNIST · 2008 - 2009 : Senior researcher, Korea Institute of Machinery and Materials(KIMM) · 2002 - 2003 : Researcher, Hyundai Motor Company

Academic Credential · 2008 : Ph.D. School of Mechanical Engineering, Georgia Institute of Technology · 2002 : M. S. School of Mechanical and Aerospace Engineering, Seoul National University · 2000 : B.S. School of Mechanical and Aerospace Engineering, Seoul National University

Major research field

Desired field of research

Multiscale hybrid manufacturing process and system, Multi-functional composite

Metallic nanowire based composite, Electron beam based surface treatment

멀티 스케일 하이브리드 제조 공정 및 시스템, 다 기능 복합재

금속 나노 와이어 기반 복합재, 전자빔 기반 표 면 처리

Awards/Honors/Memberships · Best presentation award at ISGMA 2016 · 3rd international Inside edge paper competition, Samsung ElectroMechanics, Bronze medal (2006) · ATD Goodie Drawer Award, Intel Packaging R&D Center (2006) · Associate Fellow of the Korean Society for Precision Engineering · Member of American Mechanical Society · Member of the Korean Society of Mechanical Engineers

Research Keywords and Topics • Multiscale hybrid manufacturing process, Composite, Electron beam 멀티 스케일 하이브리드 제조 공정, 복합 재료, 전자빔

Research Publications (selected) • COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING / Electrical thermal heating and piezoresistive characteristics of hybrid CuO-woven carbon fiber/vinyl ester composite laminates / Kong, Kyungil; Cheedarala, Ravi Kumar; Kim, Myungsoo; Roh, Hyung-Doh; Park, Young-Bin; Park, Hyung Wook / 2016-06 • JOURNAL OF MATERIALS PROCESSING TECHNOLOGY / Influence of a micropatterned insert on characteristics of the tool-workpiece interface in a hard turning process / Kim, Dong Min; Kim, Sun Keel; Kim, Bo Hyun; Park, Hyung Wook / 2016-03 • COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING / Interfacial resistive heating and mechanical properties of graphene oxide assisted CuO nanoparticles in woven carbon fiber / polyester composite / Deka, Biplab K; Hazarika, Ankita; Kong, Kyungil; Kim, DoYoung; Park, Young-Bin; Park, Hyung Wook / 2016-01

Patents (selected) • Method of manufacturing composite material having nano structure grown on carbon fiber and composite material having nano structure manufactured using the same 14/495,961 (2014)

Bio-Robotics and Control (BiRC) Lab

In this laboratory, human-robot interaction systems for virtual reality, tele-operation, and rehabilitation are investigated using robotics, control, and advanced sensing technologies. The design, manufacture, and control of conventional wearable systems, which feature rigid structures and actuators, may be appropriate from the point of view of a ‘robot’, but have not been widely applied in practice because they are heavy, hard, and difficult to wear from the point of view of a ‘human’. To overcome these issues, we have sought to develop innovative and practical wearable systems by comprehensive research with human-centered design and control of the wearable systems; the wearable systems are developed from the point of view of a ‘human’ not a ‘robot’. Also, structures and mechanisms used by animals and plants have informed the development of wearable human-robot interaction systems, creating the discipline of biomimetic robot research.

배준범

_Joonbum Bae

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-9 Lab : Bldg. 112 Rm. 811 Tel : +82-52-217-2335 E-mail : jbbae@unist.ac.kr http://birc.unist.ac.kr/

본 실험실에서는 로봇, 제어 및 센서 기술을 이용하여 가상 현실, 원격 조종, 재활 등을 위한 웨어러블 인간-로봇 상호 작용 시스템에 대해 연구합니다. 기존의 웨어러블 시스템은 '로봇'의 관점에서 개발 되어 딱딱한 구조와 구동기를 갖기 때문에 '인간'의 관점에서 널리 적용되기 어려웠습니다. 이러한

Curriculum Vitae

문제를 극복하기 위해 본 실험실에서는 혁신적이고 실용적인 웨어러블 시스템 개발을 위해 인간 중

· 2016 - Present : Associate Professor, UNIST · 2012 - 2016 : Assistant Professor, UNIST · 2011 - 2012 : Postdoctoral Researcher, University of California, Berkeley

심의 웨어러블 시스템 설계, 제작 및 제어에 대한 연구를 수행하고 있습니다. 또한 동식물의 구조와 메커니즘을 응용하여 향상된 이동성을 갖는 생체 모방 로봇에 대한 연구도 수행합니다.

Academic Credential

Research Keywords and Topics • Design and control of physical human-robot interaction systems, Soft robotics, Human interface for virtual reality and rehabilitation, Tele-operation system with wearable interface, Bio-inspired robots for improved mobility and dexterous manipulation 물리적 인간-로봇 상호작용 시스템의 설계 및 제어, 소프트 로보틱스, 가상현실과 재활을 위한 인터 페이스, 외골격 기반 인터페이스의 원격 조종 시스템, 향상된 이동성과 조작성을 위한 생체모방로봇

Research Publications (selected) • ADVANCED FUNCTIONAL MATERIALS / A Liquid Metal Based Multimodal Sensor and Haptic Feedback Device for Thermal and Tactile Sensation Generation in Virtual Reality / Oh, Jinhyeok; Kim, Suin; Lee, Sangyeop; Jeong, Seongmin; Ko, Seung Hwan; Bae, Joonbum / 2020-12 • IEEE-ASME TRANSACTIONS ON MECHATRONICS / Torque Control of a Series Elastic Tendon-sheath Actuation Mechanism / Jung, Yeongtae; Bae, Joonbum / 2020-05 • SOFT ROBOTICS / Consistent and Reproducible Direct Ink Writing of Eutectic GalliumIndium for High-Quality Soft Sensors / Kim, Suin; Oh, Jinhyeok; Jeong, Dahee; Park, Wookeun; Bae, Joonbum / 2018-10

Patents (selected) • [미국] A FINGER MOTION MEASUREMENT SYSTEM AND MEASUREMENT METHOD OF FINGER MOTION, Joonbum Bae / Yeongyu Park / Jeongsoo Lee (2020.07) • [미국] FORCE REFLECTING SYSTEM, Joonbum Bae / Jeongsoo Lee / Inseong Jo / Yeongyu Park / Bum Jae You (2020.02)

· 2011 : Ph.D. in Mechanical Engineering, University of California, Berkeley. · 2010 : M.A. in Statistics, University of California, Berkeley. · 2008 : M.S. in Mechanical Engineering, University of California, Berkeley. · 2006 : B.S. in Mechanical and Aerospace Engineering, Seoul National University. (summa cum laude)

Awards/Honors/Memberships · Korean Government Minister Award (Ministry of Science, ICT and Future Planning) : 제 1회 미래성장동력 챌린지 데모데이 (March, 2017) · Best Teaching Award : UNIST (Dec. 2016) · Korean Government Minister Award (Ministry of Public Safety and Security) : 대한민국 안전기술대상 (Nov. 2016) · Young Researcher Award : Korea Robotics Society (KROS) (Oct. 2015) · Samsung Scholarship : 7th Samsung Scholarship Program (Jan. 2009 Aug. 2011)

College of Engineering

Department of Mechanical Engineering

바이오 로보틱스 및 제어 실험실

Electromechanical System and control Lab (ESCL) 전자기 시스템 및 제어 실험실

손흥선

_Hungsun Son

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-7 Tel : +82-52-217-2343 E-mail : gtg208j@unist.ac.kr http://hson.unist.ac.kr/

ESCL has been established to develop concepts, fundamental theories, and methodologies for integration of electrical, mechanical and aerospace engineering with advanced electronics and control system. Currently, we are working on the areas of Magnetism for developing electromagnetic actuators and sensors; magnetic induction tomography, design and control of Unmanned Aerial Vehicle (UAV) and Personal Aerial Vehicle (PAV). ESCL은 전기, 기계 및 항공 우주 공학과 고급 전자 및 제어 시스템을 통합하기 위한 개념, 기본 이론 및 방 법론을 개발하기 위해 설립되었습니다. 현재 우리는 전자기 액추에이터 및 센서를 개발하기위한 자기 분 야 [자기 유도 단층 촬영, 무인 항공기 (UAV) 및 개인용 항공기 (PAV)의 설계 및 제어]를 연구하고 있습니다.

Curriculum Vitae · 2020 - Present : Associate Prof., UNIST · 2013 - 2020 : Assistant Prof., UNIST · 2008 - 2013 : Assistant Prof., NTU Singapore · 2007 - 2008 : Senior Researcher, KIMM

Academic Credential · 2007 : Ph.D. Department of Mechanical Engineering, Georgia Institute of Technology, Atlanta, Georgia, U.S. · 2002 : M.S. Department of Aeronautics & Astronautics, Stanford University, California, U.S. · 2000 : B.S. Mechanical / Aerospace Engineering, Inha University, Korea

Awards/Honors/Memberships · Award from Minister of Science, ICT and Future Planning, Korea 2015 · Singapore Amazing Flying machine competition, May / 2011- 3rd rank in Most Creative Award · Taiwan UAV Design Competition, April / 2011 - Best award in advance level and 3rd in fundamental design

Desired field of research

Major research field Mechatronics, Unmanned Aerial Vehicle, Personal Aerial Vehicle, Spherical multiDOF actuator, Motor, Sensor, Control

Smart actuators and sensor for various control applications of future demand

Research Keywords and Topics • Electromechanical system and magnetism 전자 기계 시스템 및 자기

• Magnetic field of distributed multi-pole model for permanent magnet-based actuators 영구 자석 기반 액추에이터용 분산 다극 모델의 자기장

• Intelligent multi-degree of freedom actuator systems with embedded sensors and control based on multi-physics 다중 물리에 기반한 제어 및 센서가 내장된 지능형 다중 자유도 액추에이터 시스템

• Magnetic induction imaging for biomedical sensor 생체 의학 센서용 자기 유도 이미징

• MR actuator for smart vibration contro 스마트 진동 제어를 위한 MR 액추에이터

• Unmanned Aerial Vehicle (UAV) formation control 무인항공기 군집 비행 제어

• Hybrid Powered Unmanned Aerial Vehicle (HUAV) 하이브리드 동력 무인 항공기 (HUAV)

• Personal Aerial Vehicle 개인용 항공기

• Robotics 로봇 공학

Research Publications (selected) • IEEE TRANSACTIONS ON CONTROL SYSTEMS TECHNOLOGY / Antisway Control of a Multirotor With Cable-Suspended Payload / S. Lee and H. Son* / 2020-11 • IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS / Robust Tracking Control of Spherical Motion Platform for Virtual Reality / Lee, Seong-min; Xia, Kewei; Son, Hungsun / 2021-01 • IEEE-ASME TRANSACTIONS ON MECHATRONICS / Fault-tolerant Control of Multirotor UAVs by Control Variable Elimination / Chung,Wonmo; Son, Hungsun / 2020-10

Patents (selected) • 손흥선, “무인항공기 운용시스템”, 대한민국, 등록번호 (1018285120000), 2018 • 손흥선, 김호영, “드론용 아암”, 대한민국, 등록번호 (3010112810000), 2019

Micro/Nano Integrated Systems Laboratory

The MNIS lab is dedicated to the variety fields of interdisciplinary research bridging micro/nanofabrication with nanotechnology, biotechnology, and electrochemistry. This research endeavor is sprouting and blooming into the development of novel nano-systems such as carbon nanowire based electrochemical/gas/bio sensors, nanofluidic devices, and nanofabrication technologies. 마이크로/나노 집적 시스템 연구실은 마이크로/나노공정과 나노테크놀로지, 바이오테크놀로지, 전 기화학과의 연결고리 역할을 하는 다양한 학제간 연구를 수행하고 있다. 이러한 연구 방향에 따라 독 창적인 탄소 나노와이어 기반 전기화학/가스/바이오센서, 나노플루이딕 디바이스, 나노공정기술 등

신흥주

_Heungjoo Shin

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 701-6 Lab : Bldg. 112 Rm. 709 Tel : +82-52-217-2315 E-mail : hjshin@unist.ac.kr http://mnis.unist.ac.kr/

을 개발하고 있다.

Curriculum Vitae · 2021 - Present : Full Professor, UNIST · 2014 - 2020 : Associate Professor, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2006 - 2008 : Post-doctoral Fellow, School of Chemistry & Biochemistry, Georgia Institute of Technology

Academic Credential

Major research field Microelectromechanical Systems. Nanofabrication, Gas sensors, Biosensors, Environment sensors

Desired field of research IoT micor/nanosensors, Disposable micro/nanosensors

Research Publications • MEMS, Carbon-MEMS, Nanofabrication, Gas sensors, Biosensors, Electrochemical sensors, Environmental sensors, Disposable sensors MEMS, Carbon-MEMS, Nanofabrication, 가스 센서, 바이오 센서, 전기 화학 센서, 환경 센서, 일회용 센서

Research Publications (selected) • NANOSCALE / Mixed-scale poly(methyl methacrylate) channel network-based singleparticle manipulation via diffusiophoresis / Hong, Jisoo; Kim, Beomsang; Shin, Heungjoo / 2018-08 • BIOSENSORS & BIOELECTRONICS / An electrochemical immunosensor based on a 3D carbon system consisting of a suspended mesh and substrate-bound interdigitated array nanoelectrodes for sensitive cardiac biomarker detection / Sharma, Deepti; Lee, Jongmin; Shin, Heungjoo / 2018-06 • SENSORS AND ACTUATORS B-CHEMICAL / A highly sensitive gas-sensing platform based on a metal-oxide nanowire forest grown on a suspended carbon nanowire fabricated at a wafer level / Lim, Yeongjin; Kim, Soosung; Kwon, Yeong Min; Baik, Jeong Min; Shin, Heungjoo / 2018-05

Patents (selected) • Biosensor and method for manufacturing same, H. Shin, Y. Lim, J.-I. Heo (US9,671,360), (2017/06/06) • Gas sensor and Method for Manufacturing Same, H. Shin, Y. Lim, J.-I. Heo (US10,132,768), (2018/11/20)

· 2006 : Ph. D. School of Mechanical Engineering, Georgia Institute of Technology · 2000 : M. S. Department of Mechanical Design & Production Engineering, Seoul National University · 1998 : B. S Department of Mechanical Design & Production Engineering, Seoul National University

Awards/Honors/Memberships · Best Poster Award, The 15th International Workshop on Nano mechanical Sensing (2018) · Best Paper Award Poster Session, Korean MEMS Conference (2020, 2018, 2016, 2015, 2013) · Best Paper Award, the KSME Meeting (2014, 2011) · Best Poster Presentation Award, the KSME Meeting (2020, 2017, 2015, 2014, 2013) · Yangsong Poster Award, the Korean Ceramic Society (2017) · Best Paper Presentation Award, the Korean BioChip Society (2011) · Widmer Poster Award, the 18th microTAS conference (2014)

College of Engineering

Department of Mechanical Engineering

마이크로/나노 집적 시스템 연구실

Wave, Acoustics and Vibration Laboratory 파동 및 진동 실험실

오주환

_Joohwan Oh

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-11 Tel : +82-52-217-3051 E-mail : joohwan.oh@unist.ac.kr http://wavlab.unist.ac.kr

Curriculum Vitae · 2021 - Present : Associate Professor, UNIST · 2016 - 2021 : Assistant Professor, UNIST · 2016 - 2016 : Post-doctoral Researcher, CNRS, France · 2014 - 2016 : Assistant Research Professor, SNU

Academic Credential · 2008 - 2014 : Combined M.S./Ph.D. Seoul National University, Department of Mechanical and Aerospace Engineering · 2008 : B.S. Seoul National University, Department of Mechanical and Aerospace Engineering

Awards/Honors/Memberships · Young Researcher Award, Institute of Advanced Machines and Design, Seoul National University (2015) · Samsung Humantech. Paper Competition, Gold Award (2014) · Presentation Award, The Korean Society of Noise and Vibration Engineering (2012)

Just take a look around, and you’ll immediately find that your life is very closely related to the vibration, acoustic and waves. Conversations in your daily life, noise from outside the window, vibrations in cars and buses, medical or industrial ultrasonic technologies, etc. Vibration, acoustics and waves are everywhere in our daily life. In fact, vibration, acoustics and wave technologies have been considered as a core technique not only in reducing undesired noise in our daily life but also in suppressing vibrations for ultra-high precision mechanical machines and obtaining extremely high resolution in cutting-edge medical devices. WAV Lab is focusing on developing new vibration, acoustics and wave systems that can break-through the current technical limits and open a new way to future mechanical systems. Especially, we are focusing on the research topic of ‘Metamaterial’. Metamaterials are artificial materials consisting of the array of very small microstructure. Owing to the microstructure’s unique configuration, metamaterials can exhibit extraordinary properties that cannot be observed generally. Above all, metamaterials can provide negative density or stiffness, which have been considered to be impossible to be achieved. Below is a photo of elastic metamaterial which actually realized negative density and stiffness. Accordingly, metamaterials exhibit interesting dynamic phenomena that are largely different from general materials, and by utilizing their extraordinary characteristics, metamaterials can be used to design very interesting vibration, acoustics and wave systems. 잠시 주위를 둘러보시면 여러분의 일상 생활은 진동, 음향 및 파동과 매우 밀접한 관련이 있음을알게 될 것입니다. 일상 생활의 대화나 창밖에서 들려오는 소음, 더 나아가서는 자동차나 버스에서의 진동과 첨 단 초음파 기술 등등, 진동, 음향 및 파동은 우리 주변 어느 곳에나 있습니다. 실제로, 원치 않는 생활 소 음을 줄이는 기술에서부터 초고정밀 기계의 정확성을 위한 진동 억제 기술, 그리고 최첨단 의료초음파 나 구조안전진단 기술에서의 정확성을 높이는 기술에 이르기까지, 진동, 음향 및 파동 기술은 수많은 기 계 시스템의 핵심 원천 기술로 여겨지고 있습니다. WAV Lab.은 기존 기술의 한계를 뛰어넘는 새로운 진동, 음향 및 파동 시스템을 개발하여 미래형 기계 시스템으로 나아가는 연구를 수행하고 있습니다. 특히 본 연구실에서는 메타물질 이라는 연구주제에 집중하고 있습니다. 메타물질이란 매우 작은 미소구조의 배열로 이루어진 물질로, 일반적인 물질에서 는 볼 수 없는 독특한 특성을 가지는 물질을 의미합니다. 무엇보다도 메타물질은 미소구조의 형상에 따 라 기존에는 불가능하다 여겨 진 음의 밀도와 음의 강성을 구 현하는 것이 가능한 특징이 있 습니다. 이러한 독특한 특성으 로 인하여 메타물질은 기존 물 질과는 전혀 다른 동적인 특성 을 보이며, 이를 잘 응용한다면 흥미로운 진동, 음향 및 파동 시 스템을 만들어 낼 수 있습니다.

Research Keywords and Topics • Elastic Metamaterials, Phononic Crystals, Elastic Waves, Vibration 탄성 메타 물질, 음파 결정, 탄성파, 진동

Research Publications (selected) • PHYSICAL REVIEW APPLIED / Continuum Flexural Metamaterial for Broadband LowFrequency Band Gap / Hong Woo Park, Hong Min Seung, Miso Kim, Wonjae Choi, and Joo Hwan Oh / 2021-02 • APPLIED PHYSICS LETTERS / Broad-angle refractive transmodal elastic metasurface / Sung Won Lee, Hong Min Seung, Wonjae Choi, Miso Kim, Joo Hwan Oh / 2020-11 • JOURNAL OF THE MECHANICS AND PHYSICS OF SOLID / Amplitude-induced bandgap : New type of bandgap for nonlinear elastic metamaterials / Bae, Myung Hwan; Oh, Joo Hwan / 2020-06

Autonomous Systems Laboratory

To implement a fully autonomous cooperative unmanned vehicle system in a safe, timely and appropriate manner with a little or no human intervention, two aspects of unmanned vehicles need to be addressed: i) increasing the level of autonomy with high-level mission and path planning algorithm developments; and ii) improving situational awareness with sensor/information fusion techniques with domain knowledge for safer operations and better mission performance. Although vehicle dynamics and control is also an important area, our focus is on high-level planning and dynamic signal processing as they are still immature yet critical for the autonomous operation of unmanned vehicles.

오현동

_Hyondong Oh

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-4 Tel : +82-52-217-3048 E-mail : h.oh@unist.ac.kr https://sites.google.com/site/aslunist/

드론이나 자율주행차가 대중화됨에 따라 무인이동체의 신뢰성과 자율성을 높이는 연구의 필요성이 더욱 증대되고 있습니다. 특히, 다수의 무인이동체를 효율적으로 자율 운용하기 위한 센서 정보 처리 /융합, 개체 간의 네트워크 통신, AI 기반 의사결정 등의 기술은 4차산업 혁명 시대에 그 활용 가치가 높은 핵심기술입니다. 자율 시스템 연구실은 기존의 최적화, 정보이론, 제어 기법과 더불어 인공지 능, 특히 기계학습 기법을 이용하여 다수의 지상/공중 무인이동체의 협력 임무 및 경로를 계획하는 기법을 개발합니다. 이를 통해 환경 모니터링, 감시 및 정찰, 조난자 탐색, 폭발물 탐지와 같은 다양한

Curriculum Vitae

민간 및 국방 관련 현실의 문제에 적용하고 실험을 통해 검증하는 연구를 수행하고 있습니다.

· 2019 - Present : Associate Professor, Mechanical Engineering, UNIST, Korea · 2016 - 2019 : Assistant Professor, Mechanical Engineering, UNIST, Korea · 2016 - Present : Visiting Research Fellow, Aero. and Automotive Eng., Loughborough University, UK · 2014 - 2016 : Lecturer, Aero. and Automotive Eng., Loughborough University, UK · 2013 - 2014 : Postdoctoral Research Associate, University of Surrey, UK · 2010 - 2013 : Research Assistant, Cranfield University, UK · 2008 - 2010 : Research Assistant, KAIST, Korea · 2004 - 2007 : Quality Control Officer, Republic of Korea Air Force, Korea

Major research field

Desired field of research

Autonomy, Decision making Unmanned vehicles, Control, Estimation, Machine learning

Multi-agent reinforcement learning, SLAM

Research Keywords and Topics • Autonomy and decision making for unmanned vehicles • Machine / Deep learning applications for unmanned vehicles • Cooperative control and path planning for unmanned vehicles • Nonlinear guidance and control • Estimation and sensor/information fusion

Research Publications (selected) • INFORMATION FUSION / Cooperative Information-Driven Source Search and Estimation for Multiple Agents / Park, Minkyu; Oh, Hyondong / 2020-02 • IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS / Gaussian Process-Based Channel Prediction for Communication Relay UAV in Urban Environments / Ladosz, Pawel; Oh, Hyondong; Zheng, Gan; Chen, Wen-Hua / 2020-02 • IEEE ACCESS / Decentralized Multi-Subgroup Formation Control With Connectivity Preservation and Collision Avoidance / Choi, Joonwon; Song, Yeongho; Lim, Seunghan; Kwon, Cheolhyeon; Oh, Hyondong / 2020-04

Academic Credential · 2016 : Postgraduate Certificate in Academic Practice, Loughborough University, UK · 2013 : PhD in Unmanned Autonomous Systems, Cranfield University, UK · 2010 : MSc in Mechanical and Aerospace Engineering, KAIST, Korea · 2004 : BSc in Mechanical and Aerospace Engineering, KAIST, Korea

Awards/Honors/Memberships · Early Career Scientist and Engineer Award, The Korean Scientists and Engineers Association in the UK (2013) · Minister of Trade, Industry and Energy award (top prize), International UAV paper competition, Korea Aerospace Industries Association (2013) · KAIST faculty selected academic excellence scholarship (4 students per faculty / granted till graduation) (20022003)

College of Engineering

Department of Mechanical Engineering

자율시스템

Combustion and Propulsion Lab 연소 및 추진 연구실

유춘상

_Chun Sang Yoo

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 701-8 Tel : +82-52-217-2389 E-mail : csyoo@unist.ac.kr http://csyoo.unist.ac.kr

Curriculum Vitae · 2009 - Present : Assistant / Associate / Full Professor, UNIST, Korea · 2006 - 2009 : Post-doctoral Research Fellow, Combustion Research Facility, Sandia National Laboratories, CA, USA · 1998 - 2001 : Lecturer, Department of Mechanical Engineering, Republic of Korea Naval Academy, Korea

Academic Credential · 2005 : Ph.D. in Mechanical Engineering, University of Michigan, Ann Arbor, MI, USA · 1998 : M.S. in Mechanical Engineering, Seoul National University, Korea · 1996 : B.S. in Mechanical Engineering, Seoul National University, Korea

In Combustion and Propulsion laboratory, we are investigating the characteristics of laminar/turbulent reacting flows using direct numerical simulations (DNS), large eddy simulations (LES), and Reynolds-Averaged Navier-Stokes Simulations (RANS) to understand flame instability, turbulence/chemistry interaction, etc. An indepth understanding of fundamental characteristics of laminar/turbulent flames can help us develop next-generation IC engines, gas turbines (GT), and commercial boilers. We are also interested in hydrogen/ammonia/supercritical/plasma combustion to develop low carbon/high-efficient IC engines and GT combustors. Hydrogen and ammonia are carbon-free energy source such that they are now being applied to conventional GT combustors. Recently, a supercritical GT combustion emerges as a next-generation technology for power generation, and hence, we are investigating the characteristics of supercritical combustion at 250 bar or above. To reduce NOx emission, fuel-lean combustion is inevitable, which ultimately induces flame instabilities in the combustor. To control such flame instabilities, plasma-assisted combustion is also actively investigated. 연소 및 추진실험실에서는 화염불안정성, 난류/화학반응 상호작용 등을 이해하기 위해 직접 수치 모사 (DNS), 대형 와류 모사 (LES) 및 레이놀즈 평균 Navier-Stokes 모사 (RANS)을 사용하여 층류/난류 반응 유동장의 특성을 연구하고 있습니다. 층류/난류 화염의 기본 특성에 대한 심층적인 이해는 차세대 엔진, 가스 터빈 및 상용 보일러를 개발하는 데 도움이 될 수 있습니다. 또한 우리 연구실에서는 저탄소/고효 율 IC엔진 및 가스터빈(GT) 엔진 개발을 위해 수소/암모니아/초임계/플라즈마 연소에 주목하고 있습니 다. 수소는 탄소를 포함하고 있지 않아 CO2 발생이 없는 청정 연료로 기존 GT 연소기에 적용하는 저탄 소 연소 연구가 이루어지고 있습니다. 최근 기존의 GT 연소 방식이 아닌 초임계 GT 연소 방식이 새롭게 대두되었고 이에 본 연구실에서는 250 bar 이상의 초임계 상태의 연소 특성을 연구하고 있습니다. 이와 같은 연소 방식들은 NOx 저감을 위해 희박 연소 영역에서 작동이 이루어지고 있고 이 때 발생할 수 있 는 연소 불안정성을 제어하기 위한 플라즈마 적용 연소방식 또한 활발히 연구하고 있습니다.

Journal Editor/Editorial Board · Journal of Mechanical Science and Techonology, Associate editor, 2019 Present · Journal of The Korean Society of Combustion, Associate editor, 2020 Present · Energies, Editorial Board, 2020 Present · Transactions of the Korean Society of Mechanical Engineers B, Associate editor, 2016 - 2020

Awards & Honors · The Best Research Award, The Korean Society of Combustion (KOSCO), Nov. 2016 · The Young Investigator Award, AsiaPacific Conference on Combustion, Jul. 2015 · Outstanding Preformance Award, UNIST, Jun. 2014 · 2009 US DOE SciDAC’s OSCAR Awards for Top Scientific Visualization

Research Keywords and Topics • Turbulent Combustion, Direct Numerical Simulation, Engine Combustion, Gas Turbine Combustion, Plasma-assisted Combustion, sCO2 Oxy-fuel Combustion 난류 연소, 직접 수치 시뮬레이션, 엔진 연소, 가스 터빈 연소, 플라즈마 보조 연소, sCO2 순산소 연소

Research Publications (selected) • Combustion and Flame, Effects of non-thermal plasma on the lean blowout limits and CO/NOx emissions in swirl-stabilized turbulent lean-premixed flames of methane/air, Kim, G.T., Yoo, C.S., Chung, S.H., and Park, J., 2020. • Combustion and Flame, Direct Numerical Simulations of Ignition of a Lean nHeptane/Air Mixture with Temperature Inhomogeneities at Constant Volume: Parametric Study, Yoo, C.S., Lu, T., Chen, J.H., and Law, C. K., 2011. • Journal of Fluid Mechanics, Three-dimensional Direct Numerical Simulation of a Turbulent Lifted Hydrogen Jet Flame in Heated Coflow : Flame Stabilization and Structure, Yoo, C.S., Sankaran, R., and Chen, J.H., 2009.

Patents (selected) • [국내] 예혼합 압축 착화 엔진의 연소 제어 방법, 유춘상 (2012.03)

Innovative Thermal Engineering Lab

Our mission is to investigate the fundamental thermo-fluid physics and respond to the challenges related to emerging thermo-fluid applications. Theoretical/computational analysis and experimental approaches will be taken to understand single phase and phase change heat transfer problems and their applications. Research interests are expanded to emerging energy issues, which include thermal management of battery and electric vehicle (EV) components, solar thermal power generation, solar air-conditioning, and effective utilization of waste heat resources.

이재선

_Jaeseon Lee

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 407 Tel : +82-52-217-2370 E-mail : jaeseonlee@unist.ac.kr

우리 연구실은 열유체의 기본 물리 현상과 그 실제 응용을 다룹니다. 이론적인 또는 컴퓨터를 이용 한 해석과 실험을 통한 단상 및 다상유동에서의 열전달 현상과 그 응용분야가 주요 연구의 주제입니 다. 이러한 연구활동은 실제 응용에 있어 전자기기의 냉각 및 여러 신재생에너지 분야, 태양열 발전 및 냉방과 폐열회수를 통한 발전 등 다양한 분야에 적용될 수 있습니다.

Major research field Heat Transfer, Phase Change, Boiling, Condensation, Heat exchanger, Power generation, Thermal management, Energy harvesting

Desired field of research Thermal management, Electronics cooling, Refrigeration, Air conditioning, Thermal Analysis

Research Keywords and Topics • Heat Transfer, Phase Change, Boiling, Condensation, Heat exchanger, Power generation, Thermal management, Energy harvesting 열전달, 상 변화, 비등, 응축, 열교환기, 발전, 열 관리, 에너지 하베스팅

Research Publications (selected) • ENERGY CONVERSION AND MANAGEMENT / Comprehensive assessment of the impact of operating parameters on sub 1-kW compact ORC performance / Jang, Yongtae; Lee, Jaeseon / 2019-02 • INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER / 1-D two-phase flow analysis for interlocking double layer counter flow mini-channel heat sink / Lim, Kihoon; Lee, Jaeseon / 2019-06 • INTERNATIONAL JOURNAL OF THERMAL SCIENCES / Influence of shock structure on heat transfer characteristics in supersonic under-expanded impinging jets / Kim, Dongsu; Lee, Jaeseon / 2019-07

Curriculum Vitae · 2013 - Present : Assistant/Associate Professor, Dept. of Mechanical Engineering, Ulsan National Institute of Science and Technology (UNIST), Ulsan, Korea (ROK) · 2007 - 2013 : Sr. Research Engineer/Scientist, United Technologies Research Center (UTRC), East Hartford, CT, USA

Academic Credential · 2008 : Ph.D. Purdue University Mechanical Engineering · 2004 : M.S. Purdue University Mechanical Engineering · 1999 : B.S. Yonsei University (S. Korea) Mechanical Engineering

Patents (selected) • “High Gliding Fluid Power Generation System with Fluid Component Separation”, US 8,857,185 B2, Oct 14, 2014. • “Falling film evaporator for mixed refrigerants”, US 9,933,191 B2, Apr 3, 2018.

College of Engineering

Department of Mechanical Engineering

혁신 열공학 실험실

Flow Physics and Control Lab 유동 물리 및 제어 연구실

이재화

_Jae Hwa Lee

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 401-7 Tel : +82-52-217-2350 E-mail : jhlee06@unist.ac.kr http://flow.unist.ac.kr

About 25% of the total energy used in industry is known to spend in moving vehicles through air or water, or fluids along pipes and canals, and fluids can be a process carrier or material through which transport, separation and conversion processes occur. Thus, understanding of flows is of huge technological importance in aerodynamic and hydrodynamic applications. In this aspect, we perform research on topics of energetic flows both ranging from fundamental to applied engineering to understanding, predicting and controlling flows. The research includes studies of turbulent flows with physical modeling, fluid-structure interaction problems and multi-phase flows with computational modeling, aiming at development of high-efficient energy-generating (or -saving) systems based on numerical simulations and experimental measurement (or visualization). 산업에서 사용되는 총 에너지의 약 25 %는 공기나 물 또는 파이프와 운하를 따라 유체를 통해 차량 을 이동하는 데 소비되는 것으로 알려져 있으며, 유체는 운송, 분리 및 변환 프로세스가 발생하는 프

Curriculum Vitae

로세스 캐리어 또는 재료가 될 수 있습니다. 따라서 흐름에 대한 이해는 공기 역학 및 유체 역학 응용

· 2018 - Present : Associate Professor, UNIST, South Korea · 2014 - 2018 : Assistant Professor, UNIST, South Korea · 2012 - 2014 : Post-doctoral Researcher, School for Engineering of Matter, Transport and Energy, Arizona State University, Tempe, AZ, USA · 2012 - 2012 : Post-doctoral Researcher, in Mechanical Engineering, KAIST, South Korea

분야에서 기술적으로 매우 중요합니다. 이러한 측면에서, 우리는 기초에서 응용 공학에 이르기까지, 흐름을 이해하고 예측하고 통제하는 것 에 이르는 에너지 흐름의 주제에 대한 연구를 수행한다. 이 연구에는 수치 시뮬레이션과 실험 측정 (또는 시각화)에 기반 한 고효율 에너지 생성 (또는 절약) 시스템의 개발을 목표로 물리적 모델링이 있는 난류 흐 름, 유체 구조 상호작용 문제, 컴퓨터 모델링이

Academic Credential

있는 다상 흐름 연구가

· 2012 : Ph.D. in Mechanical Engineering, KAIST, South Korea · 2008 : M.S. in Mechanical Engineering, KAIST, South Korea · 2006 : B.S. in Mechanical Engineering, Pusan National University, South Korea

포함된다.

Major research field

Desired field of research

Turbulence, Multi-phase flow, Flowstructure interaction, Numerical Method

AI-based Fluid Mechanics, Compressible Flow, Multi-Phase Flow with Phase Change

Awards/Honors/Memberships · 2019, Best Paper Award, Annual Meeting of Korean Soc. Comput. Fluids Eng. (KSCFE), Korea · 2019, Best Paper Award, Annual Meeting of Korean Soc. Mech. Eng. (KSME), Korea · 2018, Best Paper Award, Annual Meeting of Korean Soc. Comput. Fluids Eng. (KSCFE), Korea · 2018, Best Paper Award, The 10th National Congress on Fluids Eng. (NCFE), Korea · 2018, Best Paper Award, Annual Meeting of Korean Soc. Mech. Eng. (KSME), Korea · 2017, Best Paper Award, Annual Meeting of Korean Soc.

Research Keywords and Topics • Turbulence, Flow Control for Drag Reduction and Flow-Induced Noise and Vibration • Numerical Simulations and Methods : DNS, LES, Two-Phase Flow, Immersed Boundary Method, Parallel Computing • Incompressible and Compressible Flows • Fluid-Structure Interaction Problem

Research Publications (selected) • Journal of Fluid Mechanics / Flow-mediated interactions between two self-propelled flexible fins near sidewalls / Jeong, Young Dal; Lee, Jae Hwa, Park, Sung Goon / 2021-03 • Computers & Fluids / A modified monotonicity-preserving high-order scheme with application to computation of multi-phase flows / Ha, Cong-Tu; Lee, Jae Hwa / 2020-01 • Physics OF Fluids / Wake transitions of flexible foils in a viscous uniform flow / Kim, Min Je; Lee, Jae Hwa / 2019-11 • Journal of Fluid Mechanics / Space-time formation of very-large-scale motions in turbulent pipe flow / Lee, Jae Hwa; Sung, Hyung Jin; Adrian, Ronald J. / 2019-12

Sensors & Aerosols Laboratory

A main topic is to develop multi-scale (MEMS, NEMS, or macro-scale) sensors for biomedical and industrial applications and explore the underlying physics of the sensors. Another main one is to investigate the collection, control, and detection of airborne (biological) particles and the removal of biological particles using aerosols. 본 연구실은 의학 및 산업적 목적으로 사용할 다양한 크기의 센서를 제작하고 이 센서들의 근본적인 원리도 규명하고자 한다. 또한, 공기 중의 미세먼지, 미세입자, 바이러스, 박테리아 등을 신속히 채집 하고, 센서를 이용하여 원인 물질을 규명, 또한 원인 물질을 제어, 제거하는 일도 수행한다.

장재성

_Jaesung Jang

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 701-10 Lab : Bldg. 112 Rm. 705 Tel : +82-52-217-2323 E-mail : jjang@unist.ac.kr https://sites.google.com/site/salabunist/

Curriculum Vitae · 2010 - Present : Assist./Assoc./Full Professor, UNIST · 2007 - 2010 : Assistant Professor, Chung-Ang Univ. (CAU), Seoul · 2004 - 2007 : Postdoctoral Fellow, Electrical and Computer Engineering, Purdue University, West Lafayette

Academic Credential

Research Keywords and Topics • Multi-scale Sensor Systems for Biomedical and Industrial Applications 다양한 크기의 의학적 & 산업적 용도의 센서

• Bio-Aerosol and Aerosol Technology 공기 중의 미세 입자 및 생물 입자의 포집, 측정, 제어 및 제거

• Removal of Biofilms and Bio-residues using Aerosols 에어로졸 입자를 이용한 생물막 및 표면 잔류물질 제거

• Fundamental Gas and Liquid Flows in Microchannels 미세 채널에서의 기체 및 액체 유동

• Electrical Particle & Fluid Manipulation 전기식 기체 및 액체상 입자/유동 제어

Research Publications (selected) • C.-H. Han, J. Jang*, 2021 (Jan. 7), “Integrated Microfluidic Platform with Electrohydrodynamic Focusing and a Carbon-nanotube-based Field-Effect Transistor Immunosensor for Continuous, Selective, and Label-free Quantification of Bacteria.” Lab on a Chip, 21 (1), pp. 184-195. • J. Bhardwaj, M.-W. Kim, J. Jang*, 2020 (Sep. 1), “Rapid Airborne Influenza Virus Quantification using an Antibody-based Electrochemical Paper Sensor and Electrostatic Particle Concentrator.” Environmental Science and Technology, 54 (17), pp. 10700-10712. • N. D. Ngo, J. Lee, M.-W. Kim, J. Jang*, 2019 (Nov. 25) “Measurement of PM2.5 Mass Concentration using an Electrostatic Particle Concentrator-based Quartz Crystal Microbalance.” IEEE Access, 7, pp. 170640-170647. • J. Kim, J. Jang*, 2018 (May 1) “Inactivation of Airborne Viruses using Vacuum Ultraviolet Photocatalysis for a Flow-through Indoor Air Purifier with Short Irradiation Time.” Aerosol Science and Technology, 52 (5), pp. 557-566. • S. Hong, J. Bhardwaj, C.-H. Han, J. Jang*, 2016 (Nov. 15) “Gentle Sampling of Submicrometer Airborne Virus Particles using a Personal Electrostatic Particle Concentrator.” Environmental Science and Technology, 50 (22), pp. 12365-12372.

· 2004 : Ph.D. in Mechanical Engineering, Purdue University, West Lafayette · 1999 : M.S. in Mechanical Engineering, POSTECH · 1997 : B.S. in Mechanical Engineering, POSTECH, Minor: Electronic and Electrical Eng. (Graduated with magna cum laude)

Awards/Honors/Memberships · Member of the Korean BioChip Society · Member of the Korean Society of Mechanical Engineers · Member of the Korean Association for Particle and Aerosol Research

College of Engineering

Department of Mechanical Engineering

센서 및 에어로졸 연구실

Intelligent Manufacturing and Materials Lab 지능형 생산 및 소재 연구실

정임두

_Im Doo Jung

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 601-5 Tel : +82-52-217-3060 E-mail : idjung@unist.ac.kr https://imm.unist.ac.kr/

Intelligent Manufacturing and Materials (IMM) Lab aims to develop material, components and system with artificial intelligence and 3d printing technology to realize digitalization of current manufacturing industries. We develop self-cognitive metal via additive manufacturing to enable big data generation from metal components and apply neural network technology for ultimate prediction of parts deformation, temperature, vibration, fatigue or fracture. In addition, we aims to develop nano materials and components to develop for 3d printing of battery, IoT sensors or semiconductor components which can lead to revolution of previous stacking based manufacturing of electric components. With the comprehensive understanding of A.I., manufacturing and materials, integrated sense of research is raised in this 4th industrial revolutionary age. For future works, in-depth digital technology for “metaverse based manufacturing” will be studied. IMM (Intelligent Manufacturing and Materials) 연구실은 현재 제조 및 소재 산업의 디지털화를 실현하 기 위해 인공 지능과 3D 프린팅 기술을 활용한 지능형 부품 및 제조 기술을 개발하는 것을 목표로 합

Curriculum Vitae · 2020 - Present : Assistant Professor, Department of Mechanical Engineering, UNIST, South Korea · 2020 : Assistant Professor, Department of Mechanical and Control Engineering, Handong Global University, Korea · 2017 - 2020 : Senior Researcher, 3D Printing Materials Center, Korea Institute of Materials Science (KIMS), Korea · 2016 - 2017 : Postdoc., School of EEE, Nanyang Technological University, Singapore · 2015 : Visiting Researcher, Dept. Of Mechanical Engineering, TU/e, Eindhoven, Netherlands · 2011 - 2012 : Associate, POSCO, Korea · 2008 - 2009 : Visiting Researcher, Dept. of Mechanical Engineering, University of Waterloo, Canada

Academic Credential · 2012 - 2016 : Ph.D. Mechanical Engineering, Pohang University of Science and Technology (POSTECH) · 2003 - 2011 : B.S. Mechanical Engineering, Pohang University of Science and Technology (POSTECH)

Awards/Honors/Memberships · Referee, Materials Characterization, Elesvier, Amsterdam, Netherlands, 2019.4~Current · Referee, Metals and Materials International, Springer, Newyork, USA, 2018.9~Current · Referee, Biofabrication, IOP Publishing, London, UK, 2016.10~Current · Referee, Journal of Physics D : Applied Physics, IOP Publishing, London, UK, 2015.12~Current

니다. 적층 제조를 통해 자기인지 금속을 개발하여 금속 부품에서 빅 데이터를 생성하고 부품 변형, 온 도, 진동, 피로 또는 파단을 궁극적으로 예측하기 위해 심층 신경망 기술을 적용합니다. 또한 기존 적 층 기반 전기 부품 제조의 혁신을 가져올 수 있는 배터리, IoT 센서 나 노 소재 및 부품 개발을 목표로 하 고 있습니다. 향후 “메타버스 제조 시대” 및 “인공 지능의 빠른 제조 영 역에의 적용”을 위해 4차 산업 혁명 지능형 제조 및 소재 기술의 통합 연구 의식을 고양하고 있습니다.

Major research field Artificial Intelligence for Manufacturing, Material and Medical Innovation. Additive Manufacturing for Intelligent Metal Components, Digital Twin

Desired field of research Metaverse for Virtual Manufacturing, Blockchain for Safe Data Protection for Manufacturing

Research Keywords and Topics • Additive Manufacturing for IT integrated Metal Parts • A.I. Augmented Metal Parts for Smart Mechanical System & Smart Factory • Smart Self-Powered IoT Sensor Development for Remote Monitoring of Factory • Intelligent Titanium Components Manufacturing for Smart Bio-Medical Implant • Microstructural/Numerical Analysis for Manufacturing Process Verification • Digital Twin, Metaverse for Advanced Maintenance of Mechanical System/Factory

Research Publications(selected) • ADDITIVE MANUFACTURING / Embedding sensors using selective laser melting for self-cognitive metal parts / Jung, Im Doo; Lee, Min Sik; Lee, Jungsub; Sung, Hyokyung; Choe, Jungho; Son, Hye Jin; Yun, Jaecheol; Kim, Ki-bong; Kim, Moobum; Lee, Seok Woo; Yang, Sangsun; Moon, Seung Ki; Kim, Kyung Tae; Yu, Ji-Hun / 2020-05 • NANO LETTERS / Selective Ion Sweeping on Prussian Blue Analogue Nanoparticles and Activated Carbon for Electrochemical Kinetic Energy Harvesting / Jung, Im Doo; Kim, Moobum; Gao, Caitian; Liu, Yezhou; Park, Changhyun; Lee, Hyun-Wook; Lee, Seok Woo / 2020-03 • MATERIALS CHARACTERIZATION / Microstructural effects on the tensile and fracture behavior of selective laser melted H13 tool steel under varying conditions / Lee, Jungsub; Choe, Jungho; Park, Junhyeok; Yu, Ji-Hun; Kim, Sangshik; Jung, Im Doo; Sung, Hyokyung / 2019-09

Computational Structural Mechanics &Design

The overarching research theme of Computational Structural Mechanics & Design (CSMD) Lab is to understand and harness the mechanical behavior of solids and structures with the aid of numerical analysis and design. In particular, we are actively thrusting the following technical areas, but not limited to: 1. Multiscale and multi-physics analysis of additive manufacturing process 2. Multiphysics topology optimization of large-deforming body 3. AI-driven acceleration of structural analysis and design 4. Improvement of the states-of-the-art numerical structural analysis method We believe that these are particularly important in multifunctional materials (aka smart), which are prospect game-changers in soft-robotics, adaptive structures, and biomimetic systems. To this aim, we are developing and integrating computational methods to simulate and design structures with inhomogeneities and distinctive topology with the ever-increasing computing power.

정하영

_Hayoung Chung

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-12 Lab : Bldg. 112 Rm. 803 Tel : +82-52-217-2434 E-mail : hychung@unist.ac.kr http://csmd.unist.ac.kr

컴퓨터의 발전에 따라, 구조물의 설계에 있어 전산 기법의 활용은 빼놓을 수 없는 요소가 되었습니 다. 그러나, 적층 제조물, 유연-미세 구조체 등에서 발생하는 구조, 재료적 특이 거동은 종래의 기법

Curriculum Vitae

으로는 그 이해와 설계가 곤란하며, 이는 해당 기술의 파급력을 저해하는 요소입니다. 해당 문제를

· 2019 - Present : Assistant Professor, UNIST · 2017 - 2019 : Postdoctoral Researcher, UC San Diego, USA

해결하기 위해, 전산 구조 해석 및 설계 연구실 (CSMD)에서는 유한요소법, 분자동역학 전산모사, 이 산요소법 등의 다양한 수치 해석기법과 더불어, 위상 최적 설계로 대표되는 구조체 설계 기법을 연 구하고 더 나아가 이를 개선하기 위한 노력을 경주하고 있습니다.

Academic Credential · 2017 : PhD., in Mechanical and Aerospace Engineering, Seoul National University · 2010 : B.S., in Mechanical and Aerospace Engineering, Seoul National University

Awards/Honors/Memberships · Member of AIAA; USACM; KSME; COSEIK · Best Poster award, MMM14 · Best Poster award, ACLC2015 · Member of AIAA; USACM; KSME; COSEIK

Major research field Computational Solid Mechanics, Design Optimization, Structural Nonlinearity, Multiscale and Multiphysics Modeling

Desired field of research Multifidelity Analysis, AI-assisted numerical methods, Discrete Mechanics

Research Keywords and Topics • Mutiscale & multiphysics modeling of materials and structures, Topology optimization, Structural nonlinearity, 멀티스케일 & 다물리 기반 재료 및 구조 해석, 위상 최적 설계, 구조 비선형성

Research Publications (selected) • COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING / Level-set topology optimization considering nonlinear thermoelasticity / Chung, Hayoung; Amir, Oded; Kim, H. Alicia / 2020-04 • PHYSICAL REVIEW E / Numerical study of light-induced phase behavior of smectic solids / Chung, Hayoung; Park, Jaesung; Cho, Maenghyo / 2016-10 • SCIENTIFIC REPORTS / Nonlinear photomechanics of nematic networks: upscaling microscopic behaviour to macroscopic deformation / Chung, Hayoung; Choi, Joonmyung; Yun, Jung-Hoon; Cho, Maenghyo / 2016-02

College of Engineering

Department of Mechanical Engineering

전산 구조해석 및 설계 연구실

Multiscale Biomimetics and Manufacturing Lab 멀티스케일 생체모사 및 공정기술 연구실

정훈의

_HoonEui Jeong

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 701-5 Lab : Bldg. 112 Rm. 707 Tel : +82-52-217-2339 E-mail : hoonejeong@unist.ac.kr http://mbm.unist.ac.kr/

Elucidating the underlying principles of biological systems will enable us to develop more reliable, efficient, and environment-friendly biomimetic devices and systems with advanced performances. Our group’s efforts are focused on the development of advanced biomimetic structures, devices, and systems to tackle current engineering challenges. To achieve this goal, we investigate the mechanics of macro, micro, and nanoscale components in nature using fundamental principles of mechanical engineering, and mimic their unique structures and functions with innovative multiscale manufacturing techniques. 오랜 기간 진화를 거듭하여 최적화된 자연물의 구조와 시스템의 근본적인 원리를 이해하게 되면 우 리는 기존의 구조물보다 신뢰할 수 있고 효율적이며 자연 친화적인 생체모사 디바이스와 시스템을 개발할 수 있습니다. 우리 연구실은 기존 공학 기술이 가진 문제를 해결하기 위해 자연에서 중요한 기능을 수행하는 매크로, 마이크로 및 나노 스케일 구성 요소를 연구하고 응용하여 혁신적인 기능을 가진 생체 모사 구조의 디바이스와 멀티 스케일 공정 기술을 개발하고자 합니다.

Curriculum Vitae · 2018 - Present : Assoc. Professor, UNIST · 2012 - 2018 : Assist. Professor, UNIST · 2009 - 2012 : Postdoctoral Fellow, UC, Berkeley · 2009 - 2009 : Postdoctoral Fellow, Seoul Nat’l Univ.

Academic Credential · 2009 : Ph. D. Mechanical and Aerospace Engineering, Seoul National University · 2004 : B.S. Biosystems Engineering, Seoul National University

Awards/Honors/Memberships · The gold prize, The Samsung Humantech Paper Award (2020) · Best Poster Award, The Korean Society of Mechanical Engineers Bioengineering 2017 Spring Conference (2017) · Outstanding Paper Award, International Symposium on NatureInspired Technology 2016 (2016) · The grand prize, Korean Society for Precision Engineering 2015 Winter Conference (2015) · Outstanding Paper Award, Korean Society of Manufacturing Technology Engineers 2015 Autumn Conference (2015)

Research Keywords and Topics • Multiscale manufacturing, Micro/nanofabrication, Bio-Inspired Structures, Materials and Systems, BioMEMS and Biomedical Devices 멀티스케일 공정 기술, 마이크로/나노 공정, 생체 모사 구조, 소재 및 시스템, 바이오멤스 시스템 및 의료 기기

Research Publications (selected) • Advanced Functional Materials, “Low-resistant electrical and robust mechanical contacts of self-attachable flexible transparent electrodes with patternable circuits”, I. Hwang/M. Seong/H. Yi/H. Ko/H.-H. Park/J. Yeo/W.-G. Bae/H. W. Park/H. E. Jeong, (2020.02) • Science Advances, “Undulatory topographical waves for flow-induced foulant sweeping”, H. Ko/H.-H. Park/H. Byeon/M. Kang/J. Ryu/H. J. Sung/S. J. Lee/H. E. Jeong, (2019.11) • Science Translational Medicine, “Snake fang-inspired stamping patch for transdermal delivery of liquid formulations”, W.-G. Bae/H. Ko/J.-Y. So/H. Yi/C.-H. Lee/D.-H. Lee/Y. Ahn/S.-H Lee/K. Lee/J. Jun/H.-H. Kim/N. L. Jeon/W. Jung/C.-S. Song/T. Kim/Y.-C. Kim/H. E. Jeong, (2019.07)

Patents (selected) • [국내] 전기장 반응 능동 변형 표면 및 이를 활용한 방오, 고한길/정훈의 (2020.05) • [국내] 투명 전도성 건식 접착 필름 및 이의 제조방법, 황인솔/정훈의 (2020.01)

Composite Materials and Structures Laboratory

Composite materials are composed of more than two different constituents to obtain a superior mechanical performance that would not be found from a monolithic material. However, it is not an easy task to find such an optimal combination tailored for a specific application and the combination itself results in very complicated damage and failure mechanisms, so different than metals. The primary focus of our research group is to develop a fundamental understanding of the underlying damage and failure mechanisms in various types of composite materials. Our goal is to enhance the field of composite materials in lightweight structures, through the state-of-the-art computational methods combined with advanced experimental techniques, which can expedite the process of developing reliable composite materials for structures under extreme loading conditions.

지우석

_Wooseok Ji

Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 801-10 Tel : +82-52-217-2345 E-mail : wsji@unist.ac.kr https://sites.google.com/site/wsjilab/

복합소재는 두 가지 이상의 다른 소재로 구성되어 단일 재료에서는 불가능한 우수한 기계적/물리적 성능을 발휘합니다. 그러나 특정 응용 분야에 최적인 소재 조합을 찾는 것은 쉽지 않습니다. 이종 소 재의 결합으로 발현되는 기계적 거동이 매우 복잡하여 예측하기 쉽지 않기 때문입니다. 복합소재를 자동차나 비행기 구조에 적극 활용하여 경량화를 극대화하기 위해서는 소재의 역학적 거동을 예측

Curriculum Vitae

하는 설계 기술이 선행되어야 합니다. 우리 연구 그룹의 주요 목표는 다양한 유형의 복합재료에 대

· 2019 - Present : Associate Professor, UNIST. · 2013 - 2019 : Assistant Professor, UNIST. · 2010 - 2013 : Research Fellow, University of Michigan at Ann Arbor, USA. · 2010 - 2012 : Technical Specialist, Comet Technology Corporation, Ann Arbor, MI, USA. · 2009 - 2010 : Research Scientist, Illinois Rocstar LLC, Champaign, IL, USA. · 2009 : Postdoctoral Research Associate, Computational Science and Engineering, University of Illinois at Urbana-Champaign, USA. · 1999 - 2003 : Tooling Engineer, Korean Air Tech Center, Busan, Korea.

해 역학적 분석을 바탕으로 복합재료의 기계적 특성 및 성능을 예측하는 기술을 개발하는 것입니다. 이를 위해 최첨단 실험 기술과 전산역학 기법을 결합하여 실험적/수치적 연구를 수행하고 있습니다.

Major research field

Desired field of research

Mechanics of composite materials, Predictive model for damage and failure in composite structures, In situ experiments

Crashworthiness of composite structure, Innovative design of textile architecture using 3D printer, Recycled composites, Virtual manufacturing process

Research Keywords and Topics • Computational analysis of damage and failure in composite structures 복합소재 구조의 손상 예측에 대한 수치해석 모델

• In situ characterization of fracture evolution in composite materials using X-ray micro-computed tomography X선 단층 촬영을 이용한 복합소재 내부 균열 발생 실시간 관측 기술

• Multi-physics simulation of a composite fabrications process 복합소재 제품 제조 공정의 다중 물리 시뮬레이션

• Out-of-autoclave manufacturing processes for automobile and aerospace applications 자동차 및 항공 우주 응용 분야를 위한 고속성형 기술

• High-speed response of composite materials and structures 복합 재료 및 구조의 고속 응답 특성

• Computational micromechanics of composite materials 전산모사 기반 복합소재 미시구조역학

Research Publications (selected) • COMPOSITES PART B-ENGINEERING / Digital volume correlation technique for characterizing subsurface deformation behavior of a laminated composite / Sooyoung Lee, Eonyeon Jo, Wooseok Ji / 2020-08 • COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING / In situ observation of interactive failure modes in a single-edge notched symmetric cross-ply laminate using synchrotron X-ray tomography / Eonyeon Jo, Sooyoung Lee, Chaeyoung Hong, Wooseok Ji / 2020-01 • COMPOSITE STRUCTURES / An efficient homogenization technique for fiber tows in textile composites with emphasis on directionally dependent nonlinear stress-strain behavior / Heeyoung Choi, Christian Heinrichb, Wooseok Ji / 2019-01

Academic Credential · 2008 : Ph.D. in Aerospace Engineering University of Michigan, Ann Arbor, Michigan, U.S. · 2005 : M.S. in Aerospace engineering University of Michigan, Ann Arbor, Michigan, U.S. · 1999 : B.S.E. in Mechanical and Aerospace Engineering Seoul National University, Seoul, Korea.

Awards/Honors/Memberships · 우수발표논문상, 한국복합재료학회 2019년 추계학술대회 · 우수발표논문상(포스터), 한국복합재료학회 2019년 춘계학술대회

· Lockheed Martin RoKST&R (The Republic of Korea Science, Technology and Research) program fund award, 2015

College of Engineering

Department of Mechanical Engineering

복합소재구조연구실

Department of Urban and Environmental Engineering 도시환경공학과

Climate Dynamics Lab 기후역학연구실

론, 관측, 계층화 모델 등 다양한 방식의 접근을 활용하여 연구한다. 특히 기후변화가 지역적으로 국 한되지 않고 다른 지역에 미치는 다양한 원격상관에 초점을 맞추고 있다. 그중에서도 고위도 기후 섭 동이 열대의 대기 순환장 및 강수 패턴에 미치는 영향과 그 역학 메커니즘을 집중적으로 연구한다. 최 근에는 연구 범위를 넓혀 고위도-열대 원격상관에서 해양의 역할을 이해하기 위해 국제 프로젝트 (Extratropical-Tropical Interaction Model Intercomparison Project: ETIN-MIP)를 총괄하였다.

We combine theory, observational analyses, and hierarchical models to understand the fundamental mechanisms of climate change induced by greenhouse gases, ozone depleting substances, and air pollutants. In particular, we attempt to identify the mechanism of how climate change in one region does not remain local, but brings about substantial climate change in other remote regions. One emphasis is on Earth's high-to-low latitude teleconnection. We strive to better understand how high latitude climate perturbations affect the tropical atmospheric circulation and hydrological cycle. Recently, we have led the internationally coordinated project, Extratropical-Tropical Interaction Model Intercomparison Project (ETIN-MIP), where nine modeling groups have participated to understand the role of ocean adjustment in the high-to-low latitude teleconnection.

강사라

_Sarah Kang

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-7 Lab : Bldg. 110 Rm. 1008-2 Tel : +82-52-217-2820 E-mai : skang@unist.ac.kr https://sites.google.com/site/cdlunist/

Curriculum Vitae · 2015 - Present : Associate Professor, UNIST · 2011 - 2015 : Assistant Professor, UNIST · 2009 - 2011 : Postdoctoral Researcher, Applied Physics and Applied Mathematics, Columbia University

Academic Credential

Major research field Climate model hierarchy, atmospheric general circulation, global warming, high latitude-tropical interaction 기후 모델 계층, 대기대순환, 지구온난화, 고위도-열대 상호작용

Desired field of research Inter-Tropical Convergence Zone, climate dynamics, global warming, climate model uncertainty, high latitude-tropical interaction, Arctic amplification 열대수렴대,기후역학,지구온난화,기후모델불확실성, 고위도-열대 상호작용, 북극증폭

Research Keywords and Topics • Climate change, ITCZ, Atmospheric general circulation 기후변화, 열대수렴대, 대기대순환

• Extratropics-to-tropics and tropics-to-extratropics interaction 저위도 고위도 간 상호작용

• Identifying the global warming pattern 지구온난화의 패턴 분석

• Mechanism for polar amplification 극증폭 현상의 역학적 메커니즘

Research Publications (selected) • SCIENCE ADVANCES / Walker circulation response to extratropical radiative forcing / Kang, Sarah M. et al. / 2020-11 • SCIENCE / Impact of Polar Ozone Depletion on Subtropical Precipitation / Kang, Sarah M.; Polvani, L. M.; Fyfe, J. C.; Sigmond, M. / 2011-05 • CLIMATE DYNAMICS / Tropical precipitation, SSTs and the surface energy budget: a zonally symmetric perspective / Kang, Sarah M.; Held, Isaac M. / 2012-05 • JOURNAL OF THE ATMOSPHERIC SCIENCES / The tropical response to extratropical thermal forcing in an idealized GCM: The importance of radiative feedbacks and convective parameterization / Kang, Sarah M.; Frierson, Dargan M. W.; Held, Isaac M. / 2009-09

· 2009 : Ph.D. Atmospheric and Oceanic Sciences, Princeton University · 2004 : B.S. Atmospheric Sciences, Seoul National University

Awards/Honors/Memberships · CLIVAR Climate Dynamics Panel Co-chair (2021 -) · Editor, AGU Advances (2019 -) · AOGS Kamide Award (2018) · CLIVAR Climate Dynamics Panel Member (2018 - 2020) · CFMIP Committee Member (2017 -) · AOGS Early Career Distinguished Lecturer in Atmospheric Sciences Section (2017) · President Award for Best Teaching, UNIST (2011) · NCAR Advanced Studies Program Fellowship offered (2009) · Charlotte and Morris Tanenbaum Graduate Student Aid Fund (2004) · Member, American Meteorological Society · Member, American Geophysical Union

College of Engineering

Department of Urban and Environmental Engineering

기후역학 연구실은 지구온난화를 필두로 오존층 파괴나 대기오염에 의해 나타나는 기후변화를 이

SMART lab 스마트랩

권영남

_Young-Nam, Kwon

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1101-6 Lab : Bldg. 110 Rm. 1107-3 Tel : +82-52-217-2810 E-mail : kwonyn@unist.ac.kr http://smartlab.unist.ac.kr/

SMART lab (Superior Membrane-based Advanced Research & Technology lab) - Aquatic chemistry and its application to the analysis and solution of specific chemical problems in aqueous solutions. - Better understanding and application of membrane technology to water or wastewater treatment - Development of innovative technologies for the treatment of contaminated water - Investigation and application of freezing desalination 스마트랩은 물리화학적 수처리, 특히 분리막 (membrane) 연구를 수행하고 있다. 분리막을 이용한 분리공정은 수처리/폐수처리/해수담수 처리 등의 분야에서 최근 많은 관심을 받고 있고 급속히 성장 하고 있는 기술이다. 분리막과 관련한 이동/분해 기작 연구, 적합한 분리막의 소재 합성과 제막을 통 한 분리 공정에의 적용 등의 연구를 포함하고 있다. 더불어, 수질 화학을 바탕으로 한 수계의 환경 문 제해석과 이를 해결하기 위한 기술 개발 등과 관련해서도 연구를 진행하고 있다.

Curriculum Vitae

Major research field

Desired field of research

· 2018 - Present : Prof., UNIST · 2013 - 2018 : Assoc. Prof., UNIST · 2009 - 2013 : Assist. Prof., UNIST · 2006 - 2008 : Postdoctoral Scholar, Civil and Environmental Engineering, Stanford University

Research Keywords and Topics

Academic Credential

• Membrane, Water treatment, Desalination, Separation 등

· 2001 - 2006 : Ph.D. in Environmental Engineering, Stanford University · 1999 - 2001 : M.S. in Environmental Engineering, Stanford University · 1992 - 1996 : B.S. in Natural Fiber Science, Seoul National University

Awards/Honors/Memberships · Best Poster Award, Spring Conference of Korean Membrane Society (2018) · Best Poster Award, Fall Conference of Korean Membrane Society (2016) · Excellent Paper Presentation Award, Fall Conference of The Korean Society of Industrial and Engineering Chemistry (2016) · Outstanding Oral Presentation Award, Spring Conference of Korean Membrane Society (2015) · Best Poster Award, Spring Conference of Korean Membrane Society (2014) · Best Poster Award, Spring Conference of Korean Membrane Society (2013)

Membrane, Water treatment, Desalination, Fabrication & Modification, etc.

Water Reuse, Reclamation, Gas Separation, Freezing Desalination, etc.

멤브레인, 수처리, 담수화, 제작 및 수정 등

물 재사용, 매립, 가스 분리, 동결 담수화 등

분리막, 수처리, 담수화, 분리 등

Research Publications (selected) • CHEMICAL ENGINEERING JOURNAL / Surface engineering for anti-wetting and antibacterial membrane for enhanced and fouling resistant membrane distillation performance / Ray, Saikat Sinha; Dangayach, Raghav; Kwon, Young-Nam / 2021-02 • POLYMERS / Review on Blueprint of Designing Anti-Wetting Polymeric Membrane Surfaces for Enhanced Membrane Distillation Performance / Ray, Saikat Sinha; Lee, Hyung-Kae; Kwon, Young-Nam / 2020-01 • APPLIED SURFACE SCIENCE / Surface modification of polyvinylidene fluoride membrane for enhanced wetting resistance / Lee, Hyung Kae; Kim, Woojeong; Kim, Young Mi; Kwon, Young-Nam / 2019-10 • DESALINATION / Investigation on the factors determining permeate pH in reverse osmosis membrane processes / Park, Hyung-Gyu; Kwon, Young-Nam / 2018-03

Patents (selected) • 막 표면 및 기공 내에 성장되어 소수성 개질된 세라믹 나노 입자를 이용한 초소수성 분리막 및 이의 제조방법 / 권영남, 이형개 / 2020-04

• 이산화탄소 분리 방법 및 이산화탄소 분리 장치 / 권영남 / 2015-06 • 하이드레이트 해리열을 이용한 해수 담수화 방법 / 권영남, 한상우 / 2017-06 • 폴리아마이드 분리막을 재활용한 한외여과막의 제조방법 / 권영남, 김유경, 임지원 / 2017-04

Smart Materials and Intelligent Structures Lab 건설 신소재 지능 구조 랩

김건

_Gun Kim

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Lab : Bldg. 110 Rm. 911-2 Tel : +82-52-217-2800 E-mail : gunkim@unist.ac.kr http://smis.unist.ac.kr

저희 건설 신소재 지능 구조 연구실에서는 사회기반시설물의 건전성 및 안전성과 더불어 친환경성, 지 속가능성 확보를 위한 차세대 스마트 구조 기술에 관한 연구를 수행하고 있습니다. 이를 위한 중점 추 진 연구 분야로 응력 시각화 고분자 센서 개발, 비선형 초음파를 활용한 구조물의 초기 손상 진단, 인공 지능을 활용한 건설 재료의 생애 주기 예측, 음화학 등이 있으며, 건설분야에서 재료, 화학, 바이오 분야 까지 아우르는 다학제간 연구를 추구합니다.

Curriculum Vitae

Major research field Development of Smart Materials and Sensors, Ultrasound (Linear/Nonlinear), Sonochemistry, AI-based Structural Health Management, Nondestructive Evaluation

Desired field of research Therapeutic Ultrasound, Bioacoustics, Soft materials, Translational Research

Research Keywords and Topics • Smart Sensors and Materials 스마트 센서 및 재료 • AI-based Structural Health Management AI를 이용한 구조물 건전성 평가 및 관리 • Ultrasound and Acoustics 초음파 및 음향학 • Multifunctional Polymers 건설 신소재 개발

· 2020 - Present : Assistant Professor, UNIST, Ulsan, South Korea · 2017 - 2020 : Postdoctoral Research Associate, University of Illinois Urbana-Champaign, IL, USA · 2017 : Postdoctoral Fellow and Instructor, Georgia Institute of Technology, GA, USA · 2012 - 2016 : Graduate Research Assistant, Georgia Institute of Technology, GA, USA

Academic Credential · 2016 : Ph.D., Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, USA · 2016 : M.S., Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA, USA · 2011 : M.S., Civil and Environmental Engineering, Yonsei University, Seoul, Korea · 2009 : B.S., Civil and Environmental Engineering, Yonsei University, Seoul, Korea

Awards/Honors/Memberships

Research Publications (selected) • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / High-intensity focused ultrasound-induced mechanochemical transduction in synthetic elastomers / Kim, Gun; Lau, Vivian M.; Halmes, Abigail J.; Oelze, Michael L.; Moore, Jeffrey S.; Li, King C. / 2019-05 • CONSTRUCTION AND BUILDING MATERIALS / Nonlinear Rayleigh surface waves to characterize microscale damage due to alkali-silica reaction (ASR) in full-scale, nuclear concrete specimens / Kim, Gun; Park, Sangyun; Kim, Jin-Yeon; Kurtis, Kimberly E.; Hayes, Nolan W.; Jacobs, Laurence J. / 2018-10 • CEMENT AND CONCRETE RESEARCH / Drying shrinkage in concrete assessed by nonlinear ultrasound / Kim, Gun; Kim, Jin-Yeon; Kurtis, Kimberly E.; Jacobs, Laurence J. / 2017-02

Patents (selected)

· Cancer Center at Illinois (CCIL) Research Grant, $ 25,000 USD (2019) · Outstanding Paper Award, Materials and Structures, ISSN 1871-6873 (2015) · Member of American Ceramic Society (ACerS), Acoustical Society of America (ASA), American Society of Civil Engineers (ASCE), American Society for Nondestructive Testing (ASNT), Korean Society for Nondestructive Testing (KSNT), Korea Concrete Institute (KCI), etc.

• U. S. Patent, Sonodynamic therapy for cancer (Invention disclosure, April 2019)

College of Engineering

Department of Urban and Environmental Engineering

The mission of the Smart Materials and Intelligent Structures (SMIS) Laboratory is to design adaptive structural components/systems for next-generation urban infrastructure, which possess unprecedented properties and functionalities. Our research in the SMIS Lab is thus directed towards advancing multi-disciplinary knowledge at the crossroads between ultrasonics, dynamics/mechanics, chemistry, and bioengineering, with the particular goal of developing a new sensing material that can seamlessly interact with structures and environments. At the intersections of these fields, we develop a unique set of ultrasonic tools capable of not only quantifying the current state of damage evolution in solid materials, but also stimulating molecules, and biological cells in soft materials.

Geotechnical Earthquake Engineering Research Group 지반지진공학연구실

김병민

_Byungmin Kim

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 901-5 Tel : +82-52-217-2823 E-mail : byungmin.kim@unist.ac.kr http://byungminkim.unist.ac.kr/

Earthquakes generate strong ground motions that ultimately lead to the destruction of existing infrastructure and loss of life, and are a major threat to sustainability. Our research group focuses on predicting the hazards from earthquakes and secondary effects by seismic hazard analysis, site response analysis, slope stability analysis, liquefaction analysis, and soil-structure interaction analysis. These efforts can facilitate designing new earthquake-resistant structures and seismically mitigating existing structures. 2016년 경주지진과 2017년 포항지진 등 잇따른 지진들을 통해 알수 있듯이 우리나라에서도 큰 지 진이 발생할 수 있습니다. 특히 우리나라는 인구가 대도시에 밀집되어 있고 산업단지, 발전소 등 주 요 시설물들이 많기 때문에 지진 발생 시 막대한 피해 를 입을 수 있습니다. 따라서 지진 관련 연구를 열심 히 수행하여 이러한 지진 재난을 대비할 필요가 있습 니다. 우리나라 뿐만 아니라 일본, 중국, 동남아시아, 유럽, 중남미 등 매년 수많은 인명 및 재산피해가 발

Curriculum Vitae

생하는 지역에서의 지진에 대해서도 사명감을 가지

· 2021 - Present : Associate Prof., UNIST · 2017 - 2021 : Assistant Prof., UNIST · 2016 - 2017 : Texas Tech University, Department of Civil and Environmental Engineering, Assistant Professor · 2014 - 2016 : Risk Management Solution, Inc., Senior Modeler · 2014, 2016 : Missouri University of Science and Technology, Adjunct Professor · 2013 : University of Illinois at UrbanaChampaign, Post-doctoral Researcher

고 연구를 하고 있습니다. 지진 분야 이외에도 지반공 학 전분야를 아우르고 각종 4차 산업혁명 관련 기술 들을 접목하는 다양한 연구를 수행하고 있습니다.

Major research field Earthquake, ground motion, seismology, deep learning, landslide, liquefaction 지진, 지진파, 지진학, 딥러닝, 산사태, 액상화

Desired field of research AI, multi-disaster AI, 복합재난

Research Keywords and Topics • Prediction of ground motion amplifications due to site and basin effects 부지 및 분지에 의한 지진파 증폭 예측

Academic Credential · 2012 : Ph.D. Civil Engineering, University of Illinois at UrbanaChampaign · 2009 : M.S. Civil Engineering, University of Illinois at UrbanaChampaign · 2007 : B.S. Civil Engineering, Hanyang University

• Development of ground motion prediction model 지진파 예측 모델 개발

• Prediction of seismically induced landslides 지진에 의한 산사태 예측

• Damage due to earthquakes 지진에 의한 피해

• Ground motion prediction using deep learning techniques 딥러닝 기법을 활용한 지진파 예측

• Prediction of liquefaction 지반액상화 예측

Research Publications (selected) • JOURNAL OF EARTHQUAKE ENGINEERING / Building damage caused by the 2017 M5.4 Pohang, South Korea, earthquake, and effects of ground conditions / Kim, Byungmin; Ji, Yumin; Kim, Mirae; Lee, Young-Joo; Kang, Hyeonggu; Yun, Nu-Ri; Kim, Hyewon; Lee, Junghan / 2021 • SOIL DYNAMICS AND EARTHQUAKE ENGINEERIN / Ground motion amplification models for Japan using machine learning techniques / Kim, Sunyul; Hwang, Youngdeok; Seo, Hwanwoo; Kim, Byungmin / 2020-05 • BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA / Ground-Motion Amplifications in Small-Size Hills: Case Study of Gokgang-ri, South Korea, during the 2017 M-L 5.4 Pohang Earthquake Sequence / Kang, Sinhang; Kim, Byungmin; Cho, Hyungik; Lee, Junyoung; Kim, Kiseog; Bae, Sungjin; Sun, Chang-Guk / 2019-12

Urban Planning and Analytics Lab 도시계획 및 분석 연구실

Urban Planning and Analytics Lab.은 주택 및 지역 사회 개발 문제를 분석 하고 데이터 기반 도시 계획 및 설계

김정섭

_Jeongseob Kim

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-4 Tel : +82-52-217-2830 E-mail : jskim14@unist.ac.kr http://jskim.unist.ac.kr/

를 기반으로 문제를 해결하기위한 정책 대안을 제시함으로써 지속 가 능하고 탄력적인 미래 도시를 건설 하는 것을 목표로합니다. 연구 분야 에는 주택 정책, 이웃 변화, 인간 이 동성 패턴 및 행동, 도시 복원력이 포

Curriculum Vitae

함됩니다.

· 2014 - Present : Assistant/Associate Professor, School of Urban and Environmental Engineering, UNIST · 2014 - 2014 : Postdoctoral Associate, Shimberg Center for Housing Studies, University of Florida · 2013 - 2013 : Consultant, Inter-American Development Bank

Major research field Urban planning, smart city, housing policy, urban regeneration, socioeconomic impact of disaster, urban big data analysis 도시계획, 스마트시티, 주택정책, 도시재생, 재난의 사회경제적 영향, 도시 빅데이터 분석

Desired field of research Social innovation, technology impact assessment, future city 사회혁신, 기술영향평가, 미래도시

Academic Credential · 2012 : Ph.D. in Design, Construction and Planning , University of Florida · 2003 : M.S. in Civil, Urban and Geosystem Engineering, Seoul National University · 2001 : B.S. in Civil, Urban and Geosystem Engineering, Seoul National University

Research Keywords and Topics • urban planning, smart cities, urban analytics, housing policy, gentrification, disaster impact analysis, wifi-sensing, human mobility patterns 도시계획, 스마트시티, 도시 빅데이터분석, 주택정책, 젠트리피케이션, 재난영향분석, wifi센싱, 보 행자행태연구

Research Publications (selected) • CITIES / Is shared housing a viable economic and social housing option for young adults?: Willingness to pay for shared housing in Seoul / Kim, Jeongseob; Woo, Ayoung; Cho, Gi-Hyoug / 2020-07 • LANDSCAPE AND URBAN PLANNING / Economic impacts of a linear urban park on local businesses: The case of Gyeongui Line Forest Park in Seoul / Park, Juhyeon; Kim, Jeongseob / 2019-01 • URBAN STUDIES / Can new urbanism infill development contribute to social sustainability? The case of Orlando, Florida / Kim, Jeongseob; Larsen, Kristin / 2017-12

Patents (selected) • 상권업종별 매출액 및 생존률 예측 방법 및 컴퓨터 판독 가능 기록매체, 김정섭 외, (2019)

College of Engineering

Department of Urban and Environmental Engineering

The research in the Urban Planning & Analytics lab aims to construct sustainable and resilient future cities by analyzing housing and community development issues and suggesting policy alternatives to solve the problems based on the data-driven urban planning and design. Research areas include housing policy, neighborhood change, human mobility patterns and behaviors, as well as urban resilience.

Environmental Radiation Monitoring Laboratory 복사관측연구실

박상서

_Sang Seo Park

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Lab : Bldg. 110, Rm. 1001-10 Tel : +82-52-217-2895 E-mail : sangseopark@unist.ac.kr

Recently, air pollutants(fine particles, and trace gases) are key factors of the regional air quality problems and global climate change. To study the air pollutants, monitoring network developments of air pollutants provides the basic information to the analysis and application studies of air pollutants. We are monitoring air pollutants from remote sensing instruments by using solar light radiation. In addition, we develop the new observation retrieval algorithm of air pollutants including fine particles and gaseous materials for ground, airborne, and satellite sensors. Based on the original retrieval algorithm results, we analyze the long-range transport of pollutants and radiation effects for air pollutants in a regional scale. 최근 들어 미세먼지와 미량기체와 같은 대기오염물질은 지역적인 대기질 문제와 전지구의 기후변화에 중요 한 역할을 한다. 이러한 부분에 대한 연구를 위해서 대기오염물질에 대한 상시관측망은 관련 연구의 기본적 인 정보를 제공할 수 있다. 복사관측연구실에서는 태양광을 이용하여 관측하는 원격탐사측기를 이 용하여 지역적인 대기오염물질의 관측을 직접적 으로 수행하고 있다. 또한 지상, 항공, 위성 등의 다

Curriculum Vitae · 2019 - Current : Assistant Professor, UNIST · 2016 - 2019 : Research Professor, Seoul National University · 2015 - 2016 : Research Assistant Professor, Research Institute for Applied Mechanics (RIAM), Kyushu University · 2013 - 2015 : Postdoctoral Researcher, Yonsei University

양한 플랫폼에 탑재되는 측기에 대한 대기오염물 질의 새로운 산출 알고리즘을 개발하며, 이렇게 개발된 산출 알고리즘으로부터 나온 결과를 바탕 으로 오염물질의 장거리수송과 지역적인 기후복 사 효과 등을 관측 자료로부터 연구하고 있다.

Desired field of research

Major research field Aerosol, Fine particle, Remote Sensing, Radiation, Satellite retrieval 에어로졸, 미세 입자, 원격 감지, 방사선, 위성 검색

Academic Credential

Air quality observation network, retrieval algorithm development, satellite observation, air quality model scheme development 대기질 관측망, 검색 알고리즘 개발, 위성 관측, 대기질 모델 개발

· 2013 : Ph.D. Department of Atmospheric Sciences, Yonsei University · 2007 : B.S. Department of Atmospheric Sciences, Yonsei University

Research Keywords and Topics

Awards/Honors/Memberships

• Vertical distribution retrieval from Korean Geostationary Environmental Satellite (GEMS)

· Member, American Geophysical Union · Member, European Geosciences Union

• Development of pollution retrieval algorithm from the air-borne instrument 항공 원격탐사측기를 이용한 오염물질 산출 알고리즘 개발

• Identifying aerosol properties from satellite remote sensing 위성원격탐사 자료를 이용한 에어로졸 (미세먼지)의 특성 산출 및 분석

• Validation studies for satellite remote sensing dataset 위성원격탐사 산출 자료의 검증 연구 정지궤도 환경위성 에어로졸 고도 산출 알고리즘 개발 및 분석

• Air quality and radiation effect for the Spatio-temporal structure of ozone and fine particles 오존 및 미세먼지의 시공간 변동성에 따른 대기질 및 복사강제효과 분석

Research Publications (selected) • ATMOSPHERIC ENVIRONMENT / Effect of temperature-dependent cross sections on O-4 slant column density estimation by a space-borne UV-visible hyperspectral sensor / Park, Sang Seo; Takemura, Toshihiko; Kim, Jhoon / 2017-03 • ATMOSPHERIC CHEMISTRY AND PHYSICS / Utilization of O-4 slant column density to derive aerosol layer height from a space-borne UV-visible hyperspectral sensor: sensitivity and case study / Park, Sang Seo; Kim, Jhoon; Lee, Hanlim; Torres, Omar; Lee, Kwang-Mog; Lee, Sang Deok / 2016-02 • REMOTE SENSING OF ENVIRONMENT / Combined dust detection algorithm by using MODIS infrared channels over East Asia / Park, Sang Seo; Kim, Jhoon; Lee, Jaehwa; Lee, Sukjo; Kim, Jeong Soo; Chang, Lim Seok; Ou, Steve / 2014-02

Patents (selected) • Apparatus for Retrieving column amounts of ozone and nitrogen dioxide in the air using observation data of Hyperspectral Imaging Sensor / Jin-Su Park, Hyun-Je Kim, Ha-Eun Jeon, Min-Yeong Sung, Yong-Hwan Lee, Joon-Young Ahn, Sang-Bo Lee, Jeong-Su Kim, Sang Seo Park, Hyeon-Ju Park, and Sang-Woo Kim /10-1968087 / 2019.04.05 / South Korea • Apparatus and method for estimating height / Jhoon Kim, Hanlim Lee, and Sang Seo Park / 10-1396992 / 2014.05.13 / South Korea

Advanced Clean Energy (ACE) Lab 청정에너지연구실

청정에너지연구실은 가스 하이드레이트 (gas hydrate)의 에너지 및 환경분야로의 응용에 관한 여러 연구를 수행하고 있다. 특히, 화석에너지의 청정한 사용과 지구 온난화의 완화를 위하여 이산화탄소 회수 및 저장 (carbon dioxide capture and storage, CCS)과 관련한 연구를 주로 수행하고 있으며, 미 래 청정에너지원으로 주목받고 있는 천연가스 하이드레이트의 개발 및 생산, 기체 저장 (천연가스,

서용원

_Yongwon Seo

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1101-10 Lab : Bldg. 110 Rm. 1104-1 Tel : +82-52-217-2821 E-mail : ywseo@unist.ac.kr http://ywseo.unist.ac.kr

H2), 석유 및 천연가스 생산시설에서 가스 하이드레이트에 의한 배관 막힘 현상을 방지하기 위한 유 동안정성 확보 (flow assurance)에 대한 연구도 수행 중이다.

Curriculum Vitae · 2019 - Present : Professor, UNIST · 2012 - 2019 : Assistant/Associate Professor, UNIST · 2006 - 2012 : Assistant/Associate Professor, Changwon National University · 2004 - 2006 : Senior Researcher, Korea Institute of Energy Research · 2003 - 2004 : Postdoctoral Fellow, National Institute of Advanced Industrial Science and Technology (AIST), Japan

Major research field

Desired field of research

Carbon dioxide capture and storage, Gas hydrates, Clean energy, Flow assurance

Greenhouse gas capture, Carbon dioxide utilization, Gas storage and transportation

이산화탄소 포집 및 저장, 가스 하이드레이트, 청정 에너지, 유동안정성 확보

온실 가스 포집, 이산화탄소 활용, 기체 저장 및 수송

Research Keywords and Topics • Gas hydrates, Carbon dioxide capture and storage, Greenhouse gas, Clean energy, Flow assurance 가스 하이드레이트, 이산화탄소 포집 및 저장, 온실 가스, 청정 에너지, 유동안정성 확보

Research Publications (selected) • Lee, Y.; Choi, W.; Seo, Y.-j.; Lee, J. Y.; Lee, J.; Seo, Y. / Structural transition induced by cage-dependent guest exchange in CH4 + C3H8 hydrates with CO2 injection for energy recovery and CO2 sequestration / APPLIED ENERGY / 2018-10 • Ko, G.; Seo, Y. / SF6 hydrate formation in various reaction media: A preliminary study on hydrate-based greenhouse gas separation / ENVIRONMENTAL SCIENCE & TECHNOLOGY / 2019-11 • Lee, D.; Go, W.; Ko, G.; Seo, Y. / Inhibition synergism of glycine (an amino acid) and [BMIM][BF4] (an ionic liquid) on the growth of CH4 hydrate / CHEMICAL ENGINEERING JOURNAL / 2020-08

Academic Credential · 2003 : Ph. D., Chemical Engineering, KAIST · 1999 : M.S., Chemical Engineering, KAIST · 1997 : B. S., Chemical Engineering, KAIST

Awards/Honors/Memberships · 2010 : President Award for Best Teaching, Changwon National University · 2014 : Best Presentation Award, Annual Meeting of Korea Institute of Environmental Engineering · 2008 : Outstanding Paper Award, 8th International Conference on Separation Science and Technology · 2009, 2011, 2017 - 2020 : Secretary of General Affairs, Division of Thermodynamics, Korea Institute of Chemical Engineers · 2015 - Present : Director, Korea Society of Energy & Climate Change

Patents (selected) • [국내] 서용원, 이요한, 한상우 / 슬러리 상태의 하이드레이트를 평형수로 이용한 선박 / 2016-04 • [국내] 서용원, 김은애, 고결 / 가스 하이드레이트 형성을 이용한 불소 가스의 회수 방법 / 2017-10

College of Engineering

Department of Urban and Environmental Engineering

Our major research interests are applications of gas hydrates to energy and environmental systems with a primary focus on CO2 capture and storage, gas storage and transportation (natural gas and H2), and flow assurance. Gas hydrates are solid inclusion compounds in which gas molecules are trapped within a crystal structure of water and have many technical applications due to their ability to capture specific guest components.

Air Quality Impact Assessment Research Lab 대기환경영향연구실

송창근

_Changkeun Song

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-3 Lab : Bldg. 110 Rm. 1010-2 Tel : +82-52-217-2835 E-mail : cksong@unist.ac.kr https://cksong.wixsite.com/unistairlab

We make a comprehensive understanding for various air pollution issues and contribute to develop the solutions to handle real world problems, such as PM2.5 and ozone pollution. Basic to advanced scientific and engineering approaches are performed in us to improve the knowledge about the cause of air pollution and add scientific understanding of complicated atmospheric process. Multi-disciplinary researches are conducted together with many professionals in atmospheric chemistry/engineering, epidemiology, and planning disciplines to derive integrated analyses to derive solutions to real world air quality problems. 우리는 다양한 대기오염 문제에 대해 종합적인 이해를 하고 초미세먼지, 오존 오염 등 현실의 문제를 해결할 수 있는 해결책을 개발하는 데 기여하고 있습니다.대기 오 염의 원인을 규명하고 복잡한 대기 과정에 대한 과학적 인 이해를 더하기 위해 기초부터 진보된 과학 및 공학적

Curriculum Vitae · 2016 - Present : Associate Professor, UNIST · 2007 - 2016 : Director/Senior Researcher, National Institute of Environmental Research · 2004 - 2006 : Post-doctoral Fellow, Univ. of Houston, U.S.

인 접근법이 수행됩니다. 여러 분야에 걸친 연구는 대기 화학/공학, 역학 및 계획 분야의 많은 전문가들과 함께 수행되어 대기질 문제에 대한 해결책을 위한 통합 분석 을 도출합니다.

Major research field Air Quality and Atmospheric Chemistry, Atmospheric Environmental Satellite and Remote Sensing, Identification and Impact Assessments of Air Pollution 대기 질 및 대기 화학, 대기 환경 위성 및 원격 감지, 대기 오염의 식별 및 영향 평가

Academic Credential · 2004 : Ph.D. School of Earth and Environmental Sciences, Seoul National University (SNU) · 1997 : M.S. Dept. of Atmospheric Science, SNU · 1995 : B.S. Dept. of Atmospheric Science, SNU

Awards/Honors/Memberships · 2019 - Present : Expert Committee Member, National Climate and Air Quality Commission · 2016 : Steering Committee Member, National Strategic R&D Project/Fine Particle · 2015 - 2018 : Steering Committee Member, Korea-U.S. Air Quality Campaign · 2013 - 2014 : Committee Member, Climate Change Expert Forum, National Assembly

Research Keywords and Topics • Local Circulation, Chemical Accident(modeling and impact assessment) - Turbulence and diffusion, CFD modeling with Chemistry - Local circulation(e.g., Land-Sea breeze) over East-Southern region(Ulsan city) of Korean peninsular • Atmospheric chemistry and Disaster assessment - Air pollution modeling, Disaster and Impact assessment, Aerosol Dynamics - Numerical algorithms for atmospheric transport and chemistry - Data Analysis by using In situ measurements, Remote Sensing, and Environmental satellite - Comprehensive System of policy-(emission--measurement-modeling -assessment)-science for air quality and disaster • Co-benefit of Climate Change and Air Quality, Future Disaster Identification - Strategy and Planning for reducing both climate and air pollutants with the policy relevance - Future projection of climate condition and air quality over East Asian region - New emission scenarios with consideration of SLCPs(Short-lived Climate Pollutants) Research Publications (selected)

• ENVIRONMENTAL ENGINEERING RESEARCH / Changes in air pollutant emissions from road vehicles due to autonomous driving technology : A conceptual modeling approach / Hwang, Ha; Song, Chang-Keun / 2020-06 • ATMOSPHERIC ENVIRONMENT / Impacts of local vs. trans-boundary emissions from different sectors on PM2.5 exposure in South Korea during the KORUS-AQ campaign / Choi, Jinkyul; Park, Rokjin J.; Lee, Hyung-Min; Lee, Seungun; Jo, Duseong S.; Jeong, Jaein I.; Henze, Daven K.; Woo, Jung-Hun; Ban, Soo-Jin; Lee, Min-Do; Lim, Cheol-Soo; Park, MiKyung; Shin, Hye J.; Cho, Seogju; Peterson, David; Song, Chang-Keun / 2019-04 • ATMOSPHERIC MEASUREMENT TECHNIQUES / Characteristics of vertical velocities estimated from drop size and fall velocity spectra of a Parsivel disdrometer / Kim, DongKyun; Song, Chang-Keun / 2018-06 Patents (selected)

• [국내] 낙하산 / 정지범, 김태형, 조우진, 강태훈, 김병민, 황지원, 신석우, 송창근, 백나연 / 2020-03 / 10-2020-0037037 • [국내] 사이드미러에 포함된 적외선 센서를 이용하는 블랙아이스 감지 방법 및 장치 / 정지범, 김병민, 송창근, 이승 준, 심재웅, 문은비, 지유민, 권재홍 / 2020-03 / 10-2020-0027849

Sustainable Structural Systems Lab 구조시스템연구실

Urban Infrastructure Engineering 분야는 인류의 지속가능한 번영과 생존에 관한 필연적인 사회적 요 구에 응답할 책임을 가지고 있습니다. UNIST의 Sustainable Structural Systems Lab은 이러한 신성한 사명을 다하기 위해서, 도시의 지속가능한 발전과 극심한 복합재난에 복원력을 갖춘 도시기반시설 기술에 대한 연구와 혁신에 전념하고 있습니다.

신명수_Myoungsu (James) Shin Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 901-9 Lab : Bldg. 110 Rm. 902-1 Tel : +82-52-217-2877 E-mail : msshin@unist.ac.kr http://msshin.pe.kr/

Professional Careers

Major research field Seismic design and performance assessment using machine learning, Tall buildings, Carbon-neutral high performance composites, Ultrasonic non-destructive evaluation technologies AI 활용한 내진 설계 및 성능 평가, 초고층 빌딩, 친환경 고성능 복합재, 초음파 비파괴 평가 기술

Research Keywords and Topics • Seismic design and assessment of civil infrastructures using artificial intelligence (AI) 인공지능을 활용한 도시기반시설의 내진 설계 및 성능 평가

• Design optimization of tall building structural systems subjected to multi-hazards 복합재난에 노출된 초고층빌딩 구조시스템의 설계 최적화

• High performance eco-friendly materials (fiber-reinforced, self-healing, sulfur composites) 친환경 고성능 소재 개발 (섬유보강, 자기치유, 유황 복합재)

• Ultrasonic non-destructive evaluation technologies (surface, diffuse, nonlinear waves) 초음파 비파괴 평가 기술 (표면파, 확산초음파, 비선형파)

Research Publications (selected) • ENGINEERING STRUCTURES / Development of extreme gradient boosting model for prediction of punching shear resistance of R/C interior slabs / Nguyen, Hoang D.; Truong, Gia Toai; Shin, Myoungsu / 2021-05 • CONSTRUCTION AND BUILDING MATERIALS / Rheological properties of modified sulfur polymer composites containing cement-fly ash blend at different temperatures / Gwon, Seongwoo; Shin, Myoungsu / 2019-12 • CEMENT AND CONCRETE RESEARCH / Effectiveness of diffuse ultrasound for evaluation of micro-cracking damage in concrete / Ahn, Eunjong; Shin, Myoungsu; Popovics, John S.; Weaver, Richard L. / 2019-10

Patents (selected) • 자기치유형 유황 복합재 / 신명수; 이광명; 권성우 / 2019-08 • 폐고무분말을 이용한 경량 유황콘크리트 및 고강도 경량 유황콘크리트 / 신명수; 권성우 / 2017-02

· 2010 - Present : Professor, Dept. of Urban & Environmental Eng., UNIST, Korea · 2019 - Present : Adjunct Professor, College of Civil Eng. & Architecture, Zhejiang University, Hangzhou, China · 2006 - 2010 : Project Engineer, Rosenwasser Grossman Consulting Engineers, New York, NY, USA · 2004 - 2006 : Assistant Professor, Dept. of Industrial & Engineering Tech., Morehead State University, Morehead, KY, USA · 2008 - Present : Registered Professional Engineer, USA · 한국콘크리트학회 이사 (2020 - 현재) · 한국지진공학회 이사 (2017 - 현재) · 한국구조물진단유지관리공학회 이사 (2019 - 2020)

· 중앙건설기술심의위원회 기준정비분과 위원 (2020 - 현재)

Academic Degrees · 2004 : Ph.D., Civil & Environmental Engineering, University of Illinois at Urbana-Champaign, USA · 1998 : M.S., Civil Engineering, Seoul National University, Korea · 1994 : B.S., Agricultural Civil Engineering, Seoul National University, Korea

Awards & Honors · 2015 - 2020 : Editor-in-Chief & Vice EIC, ACF Journal, Asian Concrete Federation · 2020 - Present : Senior Editor, KSCE Journal of Civil Engineering, Springer · 2015 - Present : Associate Editor & Editorial Board, Journal of Building Engineering, Elsevier · 한국토지주택공사 특별상 (2020) · 한국콘크리트학회 국제활동상 (2016) · UNIST Excellent Achievement Award (2016)

College of Engineering

Department of Urban and Environmental Engineering

The field of Urban Infrastructure Engineering is a profession that has the responsibility to confront desperate social needs toward the mankind’s longevity. With the divine mission, the Sustainable Structural Systems Lab in UNIST is dedicated to research and innovation on the sustainable development of urban infrastructure as well as the resilient protection of built environment against extreme multi-hazards.

Nano-AIMS Structural Materials Lab Nano-AIMS 구조재료연구실

오재은

_Jae Eun Oh

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 901-7 Tel : +82-52-217-2815 E-mai : ohjaeeun@unist.ac.kr https://nanoaims.unist.ac.kr

Nano-AIMS (Nano-based Advanced Infrastructural Materials) is an interdisciplinary laboratory that combines material science and architectural/civil engineering to develop new construction building materials using industrial waste by-products. 건축/토목공학과 신소재 과학을 융합한 건설용 신소재 연구실이며, 산업 부산 폐기물을 활용하여 차 세대 친환경 건설용 구조 재료를 개발합니다.

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2011 - 2020 : Assistant/Associate Professor, UNIST · 2009 - 2011 : Postdoctor, U.C. Berkeley · 2003 - 2004 : Structural Designer, Chungsuk Engineering Co., Ltd · 2002- 2003 : Construction Engineer, Hyundai Engineering & Construction Co., Ltd

Major research field Cementless binders, concrete materials, eco-friendly Construction Materials 무시멘트 결합재, 콘크리트 재료, 친환경 건설재료

Desired field of research Low-carbon concrete, radiation shielding concrete, lightweight concrete 저탄소 콘크리트, 방사선 차폐 콘크리트, 경량 콘크리트

Academic Credential · 2009 : Ph.D. Civil and Environmental Engineering, University of California Berkeley · 2002 : M.S. Architectural Structural Engineering, Architecture, Seoul National University · 2000 : B.S. Materials Science and Engineering, Seoul National University

Research Keywords and Topics • Development of cementless GGBFS and fly ash inorganic binders 제철 부산물 및 발전소 석탄재 기반 무(無)시멘트 결합재 개발

• Development of low-carbon artificial lightweight aggregate and lightweight concrete 저탄소 인공 경량 골재 및 경량 콘크리트 개발

• Development of neutron shielding lightweight concrete 중성자 차폐 경량 콘크리트 개발

Awards/Honors/Memberships

Research Publications (selected)

· 2015 : Best Paper Award, Korean Concrete Institute · Associate Editor of KSCE Journal of Civil Engineering (ISSN : 1226-7988, SCIE) · Member of delegate committee at KCI (Korea Concrete Institute) · 2013 - Present : Faculty advisor for Christian student club (IVF) at UNIST

• CEMENT & CONCRETE COMPOSITES / Strength enhancement of CaO-activated slag system through addition of calcium formate as a new auxiliary activator / Yum, Woo Sung; Suh, Jung-Il; Jeon, Dongho; Oh, Jae Eun / 2020-05 • CEMENT AND CONCRETE RESEARCH / Microstructural and strength improvements through the use of Na2CO3 in a cementless Ca(OH)2-activated Class F fly ash system / Jeon, Dongho; Jun, Yubin; Jeong, Yeonung; Oh, Jae Eun / 2015-01 • CEMENT AND CONCRETE RESEARCH / Use of CaO as an activator for producing a price-competitive non-cement structural binder using ground granulated blast furnace slag / Kim, Min Sik; Jun, Yubin; Lee, Changha; Oh, Jae Eun / 2013-12

Patents (selected) • Technology transfer of two registered patents (10-1228815, 10-1566547) (￦50 million (= ~ US$ 47,000) with 3% of annual turnover). • Technology transfer of one registered patent (10-2016-0046503) (￦30 million (= ~ US$ 28,000) with 2% of annual turnover). • Technology transfer of two registered patents (10-1640804 and 10-1669564) (￦100 million with 1- 1.5% of annual turnover)

UNIST Climate Environment Modeling Lab 기후환경모델링 연구실

날씨에 대한 정확한 예측은 인류의 오랜 숙원이자 현재까지 해결되지 않은 과학적 난제이다. 최근 기후변화 에 대한 높은 관심은 인공위성을 망라하는 지구 관측망의 증대, 수퍼컴퓨터의 비약적인 발전과 함께 기후와 환경 예측을 위한 다양한 예측모델들의 개발로 이어지고 있으며, 이에 대한 고도의 모델링 기술과 전문 인력 이 요구되고 있다. 유니스트 기후환경 모델링 연구실에서는 열대 태풍 및 위 험기상을 모의할 수 있는 고해상도 전 지구 모델, 이산화탄소 순환 모의를 위 한 지구시스템 모델, 계절예보를 위한 앙상블 예측 시스템, 에어로졸 자료동

이명인

_Myong-In Lee

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Lab : Bldg. 110 Rm. 1003-2 Tel : +82-52-217-2873 E-mail : milee@unist.ac.kr http://climate.unist.ac.kr/

Curriculum Vitae · 2010 - Present : Professor, Ulsan National Institute of Science and Technology · 2003 - 2010 : Research Associate, Assistant Research Scientist, NASA Goddard Space Flight Center · 2001 - 2003 : Post-doctoral Research Scientist, Climate Environment System Research Center, Seoul National University

화 및 예측 시스템, 화학재난 대응을 위

Academic Credential

한 대기확산 모델 등을 개발하고 있다.

· 2001 : Ph.D., Atmospheric Sciences Seoul National University · 1996 : M.S., Atmospheric Sciences, Seoul National University · 1994 : B.S., Atmospheric Sciences, Seoul National University

Major research field

Desired field of research

Global climate prediction model, seasonal prediction, heat wave prediction, air quality modeling, data assimilation

Global climate prediction modeling, heatwave mechanism analysis and prediction technology development, polar atmosphere research

전지구 기후예측모델, 계절 예측, 폭염 예측, 대기질 모델링, 자료동화

전지구 기후예측모델링, 폭염 메커니즘 분석 및 예측기술 개발, 극지 대기 연구

Research Keywords and Topics • Global Climate Model, Seasonal Prediction, Heatwave Mechanisms and Prediction, Air Quality Modeling, Data Assimilation, Polar region atmospheric circulation 전 지구 기후예측모델, 계절 예측, 폭염 메커니즘 분석 및 예측기술 개발, 대기질 모델링, 에어로졸 자료동 화, 토양수분 자료동화, 극지 대기 순환

Research Publications (selected) • REMOTE SENSING OF ENVIRONMENT / Assimilation of SMAP and ASCAT soil moisture retrievals into the JULES land surface model using the Local Ensemble Transform Kalman Filter / Seo, Eunkyo; Lee, Myong-In; Reichle, Rolf H. / 2021-02 • JOURNAL OF CLIMATE / Decadal Changes in the Interannual Variability of Heatwaves in East Asia Caused by Atmospheric Teleconnection Changes / Choi, Nakbin; Lee, Myong-In; Cha, Dong-Hyun; Lim, Young-Kwon; Kim, Kyu-Myong / 2020-02 • CRYOSPHERE / Decadal changes in the leading patterns of sea level pressure in the Arctic and their impacts on the sea ice variability in boreal summer / Choi Nakbin, Kim Kyu-Myong, Lim Young-Kwon, Lee Myong-In / 2019-11

Awards/Honors/Memberships · 2019 : Songcheon Academic Award, Korea Meteorological Society · 2018 : Presidential Commendation, Ministry of the Interior and Safety · 2015 : Associate Member, Korean Academy of Science and Engineering · 2014 : Hallim Leading Scientist, Korean Academy of Science and Engineering · 2014 : Outstanding Performance Award, UNIST · 2010 : President Award for Best Teaching, UNIST · 2004 : Outstanding Performance Award, NASA/Goddard Space Flight Center/Global Modeling and Assimilation Office

Patents (selected) • [국내] 폭염 중기예보 시스템 및 그 방법 / 이명인, 탁선래, 최낙빈 / 2019-11 • [국내] 북서태평양 태풍 활동성에 대한 하이브리드 계절 예측 방법 / 이승희, 이명인 / 2016-08

College of Engineering

Department of Urban and Environmental Engineering

We are the UNIST Climate Environment Modeling Laboratory (UCEM), one of dedicated labs at UNIST for climate and environmental studies since 2010. Our research area covers widely classical and recent topics in weather and climate, with a primary emphasis on climate sciences and modeling. We have been developing earth system models with a fully-interactive global carbon cycle, which is being prepared for a national use in responding to the next IPCC climate change scenario projections. We're also developing high-resolution global climate prediction models with improved water cycle, which are known to be better for simulating high-impact weather and climate anomalies. Our lab is also dedicated to understanding and improving the simulations of pronounced weather and climate variability and their changes. These include the various phenomena from the time scale of the daily cycle of warm-season precipitation, to the time scale of tropical waves and cyclones, the Madden-Julian oscillation, and to the interannual and decadal time scales of the El Nino and Southern Oscillation, and beyond. We have been supported and partnered by major research institutes and foundations, including the Korean Meteorological Administration (KMA), National Institute of Meteorological Research (NIMR), APEC Climate Center (APCC), Korea Institute of Atmospheric Prediction Systems (KIAPS), and the National Research Foundation of Korea (NRF). We are also collaborating actively with NASA Goddard Space Flight Center for joint research project and scholar exchanges.

Structural Reliability and Disaster Risk Lab 구조신뢰성 연구실

이영주

_Youngjoo Lee

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 901-10 Lab : Bldg. 110 Rm. 903-2 Tel : +82-52-217-2825 E-mail : ylee@unist.ac.kr http://ylee.unist.ac.kr

The major research interests of the Structural Reliability and Disaster Risk Lab lie on structural reliability, network reliability, disaster risk assessment, and risk-based structural design and maintenance. Using probabilistic approaches and artificial intelligence techniques, we investigate the performance of structures and lifelines under service loads or disasters and use the information for structural design and maintenance and disaster risk management. 구조신뢰성 연구실에서는 구조신뢰성, 네트워크 신뢰성, 재난위험도 평가, 위험도 기반 구조물 설계 및 유지 관리 등을 주요 연구분야로 하고 있다. 본 연구실에서는 확률론적 및 인공지능 기법들을 활용하여 각종 구조 물과 라이프라인(사회기반시설망)들의 사용하중 또는 재난 상황에서의 거동을 평가하고, 그 결과를 구조물 의 설계 및 유지관리, 그리고 각종 재난위험성 관리에 활용하는 연구들을 수행하고 있다.

Curriculum Vitae · 2018 - Present : Associate Professor, UNIST · 2013 - 2018 : Assistant Professor, UNIST · 2014 - 2015 : Visiting Scholar, UC Berkeley · 2012 - 2013 : Research Assistant Professor, UNIST

Academic Credential · 2006 - 2012 : Ph.D., Civil Engineering, Univ. of Illinois, Urbana Champaign · 2004 - 2006 : M.S., Civil Engineering, Seoul National University · 1997 - 2004 : B.S., Civil Engineering, Seoul National University

Desired field of research

Major research field Structural reliability, Disaster risk, Resilience 구조신뢰성, 재난위험성, 복원력

Smart city, Digital twin, Smart factory, Prognostics and Health Management 스마트시티, 디지털트윈, 스마트팩토리, 건전성 예측 및 관리

Research Keywords • Structural Reliability, Disaster Risk, Lifeline, Network Reliability, Uncertainty 구조신뢰성, 재난위험성, 라이프라인, 네트워크 신뢰성, 불확실성

Awards/Honors/Memberships

Research Interests/Topics (selected)

· 2019 : 한국전산구조공학회 학술심포지엄 학술발표 우수논문상 · 2019 : International Symposium on Sea-Crossing Bridges Best Paper Award · 2019 : 한국방재학회 공로상 · 2015 : 한토목학회 정기학술대회 우수논문상 · 2019 - Present : 울산광역시 지하안전위원회 부위원장 · 2019 - Present : 울산광역시 안전관리자문단 위원 · 2019 - Present : The Asian Civil Engineering Coordinating Council (ACECC) Technical Committee Member · 2019 - Present : 대한토목학회 국제위원회 위원 · 2019 - Present : 대한토목학회 지진위원회 위원 등

• Performance/Life assessment and prediction of structures using machine learning techniques

기계학습 기법을 활용한 구조물의 성능/수명 평가 및 예측

• Fragility analysis of structures against disasters using finite element reliability analysis 유한요소 신뢰성해석을 활용한 구조물의 재난 취약성 분석

• System reliability analysis of lifelines and infrastructure 라이프라인 및 사회기반시설에 대한 시스템 신뢰성 해석

Research Publications (selected) • ENGINEERING STRUCTURES / Probabilistic prediction of mechanical characteristics of corroded strands / Lee, Jaebeom; Lee, Young-Joo; Shim, Chang-Su / 2020-01 • MECHANICAL SYSTEMS AND SIGNAL PROCESSING / Continuous fatigue crack length estimation for aluminum 6061-T6 plates with a notch / Lim, Hyung Jin; Lee, Young-Joo; Sohn, Hoon / 2019-04 • JOURNAL OF STRUCTURAL ENGINEERING / Fragility Analysis of Space Reinforced Concrete Frame Structures with Structural Irregularity in Plan / Moon, Do-Soo; Lee, Young-Joo; Lee, Sangmok / 2018-08

Patents (selected) • 재료 파괴 특성 분석 장치 및 방법 / 이영주, Sreehari Ramachandra Prabhu, 이재범 / 2019-5 • 유한요소법을 이용한 구조물 신뢰성 평가를 위한 인터페이스, 시스템 및 방법 / 이영주, 송준호 / 2017-2

Applied Biotechnology Lab for Environment 응용환경생명공학연구실

응용환경생명공학연구실(ABLE Lab)은 지속가능한 폐수/폐기물 처리를 목적으로 하는 환경생물공

이창수

_Changsoo Lee

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1101-9 Lab : Bldg. 110 Rm. 1104-3 Tel : +82-52-217-2822 E-mail : cslee@unist.ac.kr https://www.able-lab.net/

정기술을 연구하고 있다. 특히, 미생물을 이용하여 유기성폐기물을 비롯한 저급 바이오매스를 분해 하여 메탄, 수소, 유기산, 지방산 등의 고부가가치 화학물질과 에너지 산물를 생산하는 생물전환기술 연구에 초점을 두고 있다. 최근에는 미생물의 생물학적 활성과 전기화학적 반응을 동시에 활용하는 미생물전기합성 기술을 이용하 여 이산화탄소를 유용물질로 전

Curriculum Vitae

환하는 연구도 수행하고 있다. 이

· 2020 - Present : Professor, UNIST · 2015 - 2020 : Associate Professor, UNIST · 2012 - 2015 : Assistant Professor, UNIST · 2010 - 2012 : Assistant Professor, Nanyang Technological University (NTU), Singapore · 2007 - 2009 : Marie Curie Experienced Researcher, National University of Ireland, Galway (NUIG), Ireland · 2005 - 2007 : Postdoctoral Fellow, POSTECH

와 더불어, 환경생물공정 내에 존 재하는 다양한 미생물(군) 사이의 상호작용과 군집 동역학을 이해 하기 위한 미생물 생태학적 연구 에도 관심을 가지고 있다.

Major research field Anaerobic bioconversion, Bioelectrochemical systems, Biological waste(water) treatment, Environmental microbial ecophysiology

Desired field of research Biogas upgrading, Long-chain fatty acid production, AI-based bioprocess forecasting

Research Keywords and Topics • Anaerobic digestion, Biogas, Biological treatment, Environmental microbial community, Interspecies electron transfer 혐기소화, 바이오가스, 생물학적 처리, 환경미생물 군집, 종간전자전달

Research Publications (selected) • CHEMICAL ENGINEERING JOURNAL / Magnetite-assisted in situ microbial oxidation of H2S to S0 during anaerobic digestion: a new potential for sulfide control / Jung, Heejung; Baek, Gahyun; Lee, Changsoo / 2020-10 • BIORESOURCE TECHNOLOGY / Treatment of low-strength ammonia wastewater by single-stage partial nitritation and anammox using upflow dual-bed gel-carrier reactor (UDGR) / Jo, Yeadam; Cho, Kyungjin; Choi, Hyungmin; Lee, Changsoo / 2020-05 • BIORESOURCE TECHNOLOGY / Individual and combined effects of magnetite addition and external voltage application on anaerobic digestion of dairy wastewater / Baek, Gahyun; Kim, Jinsu; Kim, Jaai; Lee, Changsoo / 2020-02

Academic Credential · 2005 : Ph.D. School of Environ Science and Engineering, POSTECH · 2000 : B.S. Dept. Biological Sciences, KAIST

Awards/Honors/Memberships · 2019 - Present : International Scientific Committee Member, ICAFEE Conference Series · 2018 - Present : Section Editor (Environmental Science and Engineering), International Journal of Environmental Research and Public Health · 2007 : European Commission (EC) Marie Curie Fellowship, Experienced Researcher under Transfer of Knowledge Program, EU Frame Work 6

Patents (selected) • 철 산화물을 이용한 유기 폐기물 처리 방법 및 처리 장치 / 10-1890721 • 압력지연삼투 및 바이오전기화학 시스템을 결합한 혐기성 폐수처리 시스템 / 10-1775010

College of Engineering

Department of Urban and Environmental Engineering

We study environmental bioprocess engineering for sustainable waste(water) management. We are particularly interested in microbial bioconversion of waste biomass into valuable chemicals and energy products, such as methane, hydrogen, and organic and fatty acids. We are recently exploring microbial electrosynthesis technologies combining biological and electrochemical processes, focusing on the conversion of carbon dioxide into value-added products. Our research also includes microbial ecology studies to better understand the microbial interactions and community dynamics in environmental bioprocesses.

Intelligent Remote sensing and geospatial Information Science 환경원격탐사/인공지능 연구실

임정호

_Jungho Im

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-8 Lab : Bldg. 110 Rm. 1003-1 Tel : +82-52-217-2824 E-mail : ersgis@unist.ac.kr http://iris.unist.ac.kr

The IRIS lab utilizes remote sensing, GIS modeling, and artificial intelligence techniques to broaden and deepen our understanding of the Earth science under climate variability/change, and leverages this knowledge to better manage and control critical functions related to terrestrial, coastal, and polar ecosystems, natural and man-made disasters, water resources, and carbon sequestration. IRIS 랩의 주 연구분야는 원 격탐사 자료와 공간 정보, 인공지능을 활용하여 변화 하는 기후 속에서 지구 상 에서 나타나는 다양한 현상 들을 이해하고, 모니터링 및 예측 분석하여 지구 시 스템을 보다 더 잘 이해할

Curriculum Vitae · 2019 - Present : Full Professor, UNIST · 2014 - 2019 : Associate Professor, UNIST · 2012 - 2014 : Assistant Professor, UNIST · 2007 - 2012 : Assistant Professor, Environmental Resources Engineering, State University of New York, College of Environmental Science and Forestry · 2006 - 2007 : Research Associate, Center for GIS and Remote Sensing, University of South Carolina

수 있도록 하는데 초점을 두고 있다. 특히 최근 들어 많은 이슈가 되고 있는 폭 염, 태풍(집중호우), 미세먼 지, 가뭄, 산불 등 재난재해 분야에 집중하고 있으며, 다양한 소스의 관측 및 모델자료와 최신 인공지능 기법을 융합하여 연구에 활용하고 있다.

Major research field Remote sensing, artificial intelligence, spatial modeling, disaster monitoring and prediction 원격탐사, 인공 지능, 공간 모델링, 재난 모니터링 및 예측

Academic Credential · 2006 : Ph.D. in Geography, University of South Carolina · 2000 : M.C.P. in Environmental Management, Seoul National University · 1998 : B.S. in Oceanography, Seoul National University

Awards/Honors/Memberships · 2014 - Present : Editor-in-Chief, GIScience and Remote Sensing (L1) · 2020 - Present : Associate Editor, ISPRS Journal of Photogrammetry and Remote Sensing (L1) · 2019.12.17 : 교육부총리/장관 표창 (학술연구지원사업 우수연구성과) · 2017.08.30 : 국토부장관 표창

Research Keywords and Topics • Disaster Monitoring and Assessment using Remote Sensing and Artificial Intelligence 원격탐사와 AI 융합 활용한 재난 모니터링 및 평가

• Polar Remote Sensing 극지 원격 탐사

• Remote Sensing for Air Quality, Meteorology, and Climate 대기질/기상/기후 원격탐사

• Remote Sensing for Water Resources and Ocean 수자원 및 해양 원격탐사

Recent Research Publications (selected) • Son, B., Park, S., Im, J.*, Park, S., Ke, Y., Quackenbush, L. (2021). A new drought monitoring approach : Vector-Projection Analysis (VPA). Remote Sensing of Environment, 252, 112145. • Kim, M., Han, H., Im, J.*, Kim, H. (2020). Object-based landfast sea ice detection over West Antarctica using time series ALOS PLASAR data. Remote Sensing of Environment, 242, 111782. • Kim, Y., Kim, H., Han, D., Lee, S., Im, J.* (2020). Prediction of monthly Arctic sea ice concentrations using satellite and reanalysis data based on convolutional neural network deep learning. The Cryosphere, 14, 1083-1104.

Risk Management Policy and Safety Design Lab 안전정책 및 디자인 연구실

안전정책 및 디자인 연구실은 다학제적 접근을 통해 재난 취약성을 저감하고 재난에 대한 예방, 대 비, 대응, 복구 역량을 강화하기 위한 방법론을 연구하며, 이러한 목적을 달성하기 위해 특히 위험관 리 정책과 위험소통, 그리고 도시안전디자인 원칙에 대하여 연구하고 있습니다.

정지범

_Ji-bum Chung

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-6 Tel : +82-52-217-3047 E-mail : learning@unist.ac.kr http://safelab.unist.ac.kr/

Curriculum Vitae

Major research field Risk management, disaster management, risk communication, safety design 위험관리, 재난관리, 위험소통, 안전디자인

Research Keywords and Topics • Methods of Social Research (Quantitative and Qualitative methods such as Survey, Network analysis, Q method, etc) 사회과학 연구방법론(질적, 양적 방법론, 네트워크 분석, Q 분석 등)

• Data Science & Programming (Statistical method and tools such as SPSS, R, Python, etc. 데이터 분석 및 프로그래밍 (통계학적 방법론 활용)

• Theory of Public Administration & Urban Planning 행정학적, 도시계획적 이론

• Design methodologies(CPTED etc.) 디자인 방법론 • GIS 활용 방법론

Research Publications (selected) • International Journal of Disaster Risk Reduction / Research Trends in Vulnerability Studies from 2000 to 2019 : Findings from a Bibliometric Analysis / 2021 • Social Science & Medicine / Korean mothers’ morality in the wake of COVID-19 contact-tracing surveillance / 2021 • ENERGY POLICY / Public deliberation on the national nuclear energy policy in Korea - Small successes but bigger challenges / 2020 • NATURE / Let democracy rule nuclear energy / 2018

Patents (selected) • 재난 피해자 조사 관리 방법 및 장치 / 정지범 외 7인 / 2020-06 • 가변형 차수막 장치 / 정지범 외 3인 / 2019-10

· 2016 - Present : Associate Professor, Head Multi-Hazards Research Center, UNIST · 2008 - 2016 : Research Fellow, Korea Institute of Public Administration · 2013 : Visiting Fellow, Center for East Asia Policy Studies, Brookings Institution · 2001 - 2008 : Academic Advisor, Yonsei University · 2000 - 2001 : Planning Team, Hankyung.com (Internet Korea Economic Daily) · 1995 - 2000 : Researcher, Plant Engineering Center, Institute for Advanced Engineering

Academic Credential · 2007 : Ph.D. Yonsei University, Seoul, Korea · 1995 : M. Sci. Korea Advanced Institute of Science and Technology, Daejon, Korea · 1993 : B. Sci. Seoul National University, Seoul Korea

Awards/Honors/Memberships · 2018 : Outstanding Professor Award (Education) · 2015 - Present : Member of Advisory Committee of Ministry of Public Administration and Security · 2015 : Member of Advisory Committee of Special Investigation Commission on 4/16 Sewol Ferry Disaster · 2014 : Distinguished Research Award, National Disaster Management Institute · 2013, 2012, 2008 : Distinguished Policy Award, National Research Council for Economics, Humanities and Social Sciences (NRCS)

College of Engineering

Department of Urban and Environmental Engineering

‘Risk Management Policy and Safety Design Lab’ researches methodologies to reduce disaster vulnerability through a multidisciplinary approach and enhance disaster prevention, preparedness, response, and recovery capabilities, and research on the principles of urban safety design.

Water-Environmental Informatics Laboratory 물환경정보학연구실

조경화

_Kyung Hwa Cho

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-10 Tel : +82-52-217-2829 E-mail : khcho@unist.ac.kr https://firstkh.wixsite.com/ueeem2

Our Water Environment Informatics Lab has been conducting research on various topics such as remote water quality monitoring, data-based modeling, and low energy water treatment systems. We have been pioneering new research areas by combining in-depth considerations on water environment systems and various information processing technologies. In particular, by actively introducing artificial intelligence-related technologies to environmental issues, we have been conducting various analysis and prediction studies that have not been attempted before. Recent research topics are as follows. 1. Water quality monitoring using hyperspectral sensors mounted on drones/aircrafts 2. Development and optimization of a low-energy seawater desalination system using seawater batteries 3. Water quality prediction and water treatment process optimization using deep learning techniques 저희 물환경 정보학 연구실은 수질 원격 모니터링, 데이터 기반 모델링, 저에너지 수처리 시스템 등 다양 한 주제로 연구를 진행해오고 있습니다. 물환경 시스템에 대한 심도있는 고찰과 다양한 정보처리 기술 등을 결합하여 새로운 연구영역을 개척해오고 있습니다. 특히, 인공지능 관련 기술을 환경문제에 적극 도 입하여, 기존에는 시도되지 않았던 다양한 분석 및 예측 연구를 수행해 오고 있습니다. 최근 연구 주제는 아래와 같습니다. 1. 드론/항공기에 탑재한 초분광 센서를 활용한 수질모니터링 2. 해수전지를 활용한 저에너지 해수담수화 시스템 개발 및 최적화 3. 딥러닝 기법을 활용한 수질 예측 및 수처리 공정 최적화

Major research field Water Quality Monitoring, Water Quality Modeling 환경 모니터링, 환경 모델링

Desired field of research Environmental Monitoring- Harmful algal bloom monitoring with hyperspectral remote sensing- Biofilm monitoring with OCT device

Research Keywords and Topics • Water quality monitoring using hyperspectral sensors mounted on drones/aircrafts 드론/항공기에 탑재한 초분광 센서를 활용한 수질모니터링 • Development and optimization of a low-energy seawater desalination system using seawater batteries 해수전지를 활용한 저에너지 해수담수화 시스템 개발 및 최적화 • Water quality prediction and water treatment process optimization half modeling using deep learning techniques, low energy water treatment system 딥러닝 기법을 활용한 수질 예측 및 수처리 공정 최적화 반 모델링, 저에너지 수처리 시스템

Research Publications (selected) • REMOTE SENSING / An Integrative Remote Sensing Application of Stacked Autoencoder for Atmospheric Correction and Cyanobacteria Estimation Using Hyperspectral Imager / Pyo, JongCheol; Duan, Hongtao; Ligaray, Mayzonee; Kim, Minjeong; Baek, Sangsoo; Kwon, Yong Sung; Lee, Hyuk; Kang, Taegu; Kim, Kyunghyun; Cha, YoonKyung; Cho, Kyung Hwa / 2020-03 • SCIENCE OF THE TOTAL ENVIRONMENT / Evaluating the influence of climate change on the fate and transport of fecal coliform bacteria using the modified SWAT model / Jeon, Dong Jin; Ligaray, Mayzonee; Kim, Minjeong; Kim, Gayoung; Lee, Gil; Pachepsky, Yakov A.; Cha, Dong-Hyun; Cho, Kyung Hwa / 2019-03 • SCIENCE OF THE TOTAL ENVIRONMENT / Sorption of pharmaceuticals to soil organic matter in a constructed wetland by electrostatic interaction / Park, Jongkwan; Cho, Kyung Hwa; Lee, Eunkyung; Lee, Sungyun; Cho, Jaeweon / 2018-09

Patents (selected) • 출원 / MATLAB을 활용한 EFDC 자동화 프로그램 (Chemical Accidents) • 등록 / 영상데이터의 딥러닝 처리에 기반하는 수처리 시스템 및 동작 방법 (UAE) • 출원 / 담수 생산을 위한 이차 전지 및 이를 포함하는 담수화 장치 (UAE)

Sustainable urban planning and design lab 지속가능도시계획연구실

도시가 당면하고 있는 문제들은 끊임없이 변화하고 있으며, 이에 대한 해결방안 역시 매우 다양한 방 식으로 이루어 질 수 있습니다. 과거에는 주택부족, 교통체증, 환경오염 등 전형적인 도시화 문제를 해결하는 것이 도시계획가의 주요한 역할이었습니다. 최근 우리 도시는 기후변화, 도시재생, 도시안

조기혁

_Gihyoug Cho

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-5 Lab : Bldg. 110 Rm. 1013-1 Tel : +82-52-217-2818 E-mail : gicho@unist.ac.kr https://gicho.unist.ac.kr/

전, 에너지고갈 등 새로운 도시문제들을 직면하고 있으며, 이에 당면 문제들을 해결하기 위한 도시계 획가의 역할은 더욱 중요해지고 있습니다. 지속가능도시계획연구실 (Sustainable Urban Planning and design Lab)은 우리 도시가 갖고 있는 물 리적인 문제들을 진단 평가하고 이를 완화하기 위한 방법을 고민하고 있는 사람들의 연구집단입니 다. 과학적이고 계량적인 방식으로 도시현상과 문제들을 분석하고, 최종적으로 지속가능하고 안전

Curriculum Vitae

한 도시환경을 조성하기 위한 정책을 제안하는 연구를 수행합니다.

· 2011 - Present : Associate Professor, Dept. of Urban and Environmental Engineering, Ulsan National Institute of Science and Technology, Ulsan, Korea · 2006 - 2011 : Graduate Research Assistant, Center for Urban and Regional Studies, University of North Carolina, Chapel Hill, NC · 2004 - 2005 : GIS technician, Champaign Country Regional Planning Commission, Urbana, IL · 2001 - 2002 : Research Associate, Seoul Development Institute, Seoul, Korea.

Desired field of research

Major research field Urban planning, pedestrian-friendly urban space design, urban heat island reduction design, pedestrian safety, smart city service technology, space usage behavior analysis

Applications of VR technology to transportation, Big data analysis based on artificial intelligence, healthy city

Research Keywords • Urban Planning, Urban Design, Travel Behavior, Urban Heat Island , VR 도시계획, 도시설계, 교통행태, 도시열섬, 가상현실

Research Interests/Topics • Relationship between human behavior and active built environment 행태와 물리적 도시환경의 관계

• Application of GIS and spatial analysis on urban planning GIS와 공간분석을 이용한 도시계획

• Applications of VR technology to transportation 가상현실 기술을 이용한 교통 안전

• Analyzing micro urban climate for reducing urban heat island 도시열섬완화를 위한 도시미기후 분석

Research Publications (selected) • Accident Analysis and Prevention / An examination of the intersection environment associated with perceived crash risk among school-aged children/ Kwon, Jae-Hong; Cho, Gi-Hyoug • CITIES / Announcement effects of urban regeneration plans on residential property values: Evidence from Ulsan, Korea / Cho, Gi-Hyoug; Kim, Jae Hong; Lee, Gain / 2020-02 • CITIES / Shared housing as a potential resource for community building / Cho, GiHyoug; Kim, Jeongseob; Woo, Ayoung / 2018-10 • BUILDING AND ENVIRONMENT / Temporal and spatial variability of urban heat island by geographical location: A case study of Ulsan, Korea / Kim, Minjun; Lee, Kwanho; Cho, Gi-Hyoug / 2017-12

Academic Credential · 2011 : Ph.D., City and Regional Planning, University of North Carolina, Chapel Hill, NC · 2004 : MPA. Urban and Regional Planning, University of Illinois, Champaign, IL · 2001 : M.S., Civil Engineering, Majored in Urban Design, Seoul National University, Seoul, Korea · 1999 : B.S., Civil Engineering, Majored in Urban Engineering, Seoul National University, Seoul, Korea

Awards/Honors/Memberships · 2018 : Mayor’s Commendation for Community Service - Ulsan Metropolitan Government · 2016 : Achievement Award - Korea Planning Association

College of Engineering

Department of Urban and Environmental Engineering

Sustainable urban planning and design lab explores a wide range of topics relevant to urban development and policy. Visioning innovative future of the cities based on the empirical analysis of the relationships between human behaviors and urban space is one of the main research subjects. For improving thermal condition of the cities, examining the relationship between micro urban climate and the built environment is ongoing research topic.

Science Walden 사이언스월든

조재원

_Jaeweon Cho

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1101-4 Tel : +82-52-217-2833 E-mail : jaeweoncho@unist.ac.kr http://ScienceWalden.org

Science World aims to solve social problems centered on alienation in the era of digital automation through science and art convergence research. In order for science and technology to play a role in the alienation of humans and capital in the digital age, science and technology must be fused with humanities and arts, and science and art convergence research methodology, Science Walden concepts, was proposed. Proposed concepts include Cyborg Thinks, digital vaccine/prevention injection, shit standard currency, artist canvas platform, and street smart education symbol development. 사이언스월든은 과학예술융합 연구를 통해 디지털 자동화시대 소외 중심의 사회문제를 해결하고자 한다. 디지털 시대의 인간소외, 자본으로부터의 소외를 과학기술이 역할을 할 수 있으려면 인문학, 예술 등과 융합해야 한다고 믿고 과학예술융합 연구방법론인 사이언스월든 개념들을 제안하게 되 었다. 제안된 개념으로는 Cyborg Thinks, 디지털백신/예방주사, 똥본위화폐, 아티스트캔버스 플랫폼, Street Smart 교육기호 개발 등이다.

Curriculum Vitae · Director, Science Walden Center

Academic Credential · Ph.D., MS, Environmental Engineering, University of Colorado, Boulder · Bachelor, Civil Engineering, Yonsei University

Research Keywords and Topics • Convergence of Science and Arts, Feces Standard Money (FSM) 과학예술 융합, 공동체공학, 똥본위화폐

• System development of Feces Standard Money with scientific research 똥본위화폐 사회시스템 실현, 미래사회 공동체 공학

Research Publications (selected) • SEPARATION AND PURIFICATION TECHNOLOGY / Charge characteristics (surface charge vs. zeta potential) of membrane surfaces to assess the salt rejection behavior of nanofiltration membranes / Jun, Byung-Moon; Cho, Jaeweon; Jang, Am; Chon, Kangmin; Westerhoff, Paul; Yoon, Yeomin; Rho, Hojung / 2020-09 • DESALINATION / Fouling behavior of marine organic matter in reverse osmosis membranes of a real-scale seawater desalination plant in South Korea / Lee, YongGu; Kim, Sangwon; Shin, Jaegwan; Rho, Hojung; Lee, Younggeun; Kim, Young Mi; Park, Yongeun; Oh, Sang-Eun; Cho, Jaeweon; Chon, Kangmin / 2020-07 • DESALINATION / Comparative performance of FO-RO hybrid and two-pass SWRO desalination processes : Boron removal / Ban, Se-Hyeon; Im, Sung-Ju; Cho, Jaeweon; Jang, Am / 2019-12

Patents (selected) • 친환경 변기 및 이를 이용한 자동 분뇨 처리 방법 / 조재원; 최미진; 한국인; 남태우; 이현경; 박종관 / 2018-07 • 원형 모형의 미래형 물 없는 양변기 / 이현경; 한국인; 조재원; 송수향; 조은호 / 2017-06

Books (selected) • 2020 : Honey Money : fSM new money for a new society, art.earth • 2021 : 이것은 변기가 아닙니다, 개마고원

High-impact Weather Prediction Laboratory 재해기상예측연구실

차동현

_Dong-Hyun Cha

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1001-11 Lab : Bldg. 110 Rm. 1008-1 Tel : +82-52-217-2828 E-mail : dhcha@unist.ac.kr http://dhcha.unist.ca.kr

본 연구실은 수치 모델링을 통해 태풍, 폭설, 집중호우, 폭염, 한파 등과 같은 재해기상을 예측하고, 물 리적/역학적 메커니즘을 연구합니다. 또한, 한 반도 및 동아시아의 상세 기후 모의를 위한 지 역기후모델을 개발하고, 이를 통해 미래 기후변

Curriculum Vitae

화를 예측합니다. 차동현 교수님의 지도 하에

· 2016 - Present : Associate Professor, UNIST · 2012 - 2016 : Assistant Professor, UNIST · 2011 - 2012 : Postdoctoral fellowship, International Pacific Research Center, University of Hawaii · 2009 - 2010 : Postdoctoral researcher, Brain Korea 21 program, Seoul National University · 2009 : Postdoctoral researcher, School of Earth and Environmental Sciences, Seoul National University

연구교수 1명, 박사과정 9명, 석사과정 3명, 연 구원 2명, 인턴 2명 총 17명으로 구성되어 매해 다양한 국내, 국외 학회를 참석하고 연구 성과 를 발표하고 있습니다.

Major research field Typhoon Modeling, Regional Climate Modeling, High-impact Weather Forecast 태풍모델링, 지역기후모델링, 재해기상예측

Desired field of research Data Assimilation, Artificial Neural Network 자료동화, 인공신경망

Research Keywords and Topics • Development and Improvement of Numerical Models / 수치 모델 개발 및 개선 • Real-time Tropical Cyclone Forecasting / 실시간 태풍 예측 • Regional Climate Modeling / 지역 기후 모델링 • High Impact Weather Prediction (Typhoon, Heavy Precipitation & Snowfall, Flood & Drought) / 재해기상 예측 (태풍, 강우, 강설, 홍수, 가뭄) • Atmosphere-Ocean-Land Models Coupling / 대기-해양-지면 모델 커플링

Academic Credential · 2001 - 2009 : Ph.D. (Unified course) in Atmospheric Sciences, Seoul National University · 1997 - 2001 : B.S. in Atmospheric Sciences, Seoul National University

Awards/Honors/Memberships

Research Publications (selected) • ASIA-PACIFIC JOURNAL OF ATMOSPHERIC SCIENCES / Evaluation and Projection of Regional Climate over East Asia in CORDEX-East Asia Phase I Experiment / Kim, Gayoung; Cha, Dong-Hyun; Park, Changyong; Jin, Chun-Sil; Lee, Dong-Kyou; Suh, Myoung-Seok; Oh, Seok-Geun; Hong, Song-You; Ahn, Joong-Bae; Min, Seung-Ki; Kang, Hyun-Suk / 2021-02 • JOURNAL OF CLIMATE / Comparison of tropical cyclone activities over the western North Pacific in CORDEX-East Asia phase I and II experiments / Lee, Minkyu; Cha, Dong-Hyun; Suh, Myoung-Seok; Chang, Eun-Chul Chang; Ahn, Joong-Bae; Min, Seung-Ki; Byun, Young-Hwa / 2020-12 • CLIMATE DYNAMICS / Recent change in heat wave characteristics over Korea / Yoon, Donghyuck; Cha, Dong-Hyun; Lee, Myong-In; Min, Ki-Hong; Kim, Joowan; Jun, SangYoon; Choi, Yonghan / 2020-10

· 2018 : Best Reviewer Awards, Korean Meteorological Society · 2018 : Prime Minister Commendation, Ministry of the Interior and Safety · 2016 : Administrator Commendation, Korea Meteorological Administration · 2010 : Administrator Awards, Korea Meteorological Administration · 2009 : Best Ph.D. Thesis Award, Korean Meteorological Society

Patents (selected) • 품질 보증 인증을 위한 CORDEX 파일 변환 프로그램 / 차동현, 김가영 / 2019-11 • 저지고기압 강도 계산 프로그램 / 차동현, 황지원 / 2019-11

College of Engineering

Department of Urban and Environmental Engineering

The High Impact Weather (HIW) Prediction Laboratory is researching and predicting various natural disasters such as typhoon, heavy snowfall, severe rain storm, heat wave, cold wave and etc. We study not only theoretical basis and mechanism of HIW but also numerical modeling of them. In particular, our researches focus on the real-time forecast of HIW and the investigation of its dynamical and physical processes with observations as well as model results. In addition, future changes in HIW related to climate change are also estimated through dynamical downscaling of climate change scenarios. Under the supervision of Prof. Cha, 1 research professor, 9 doctoral programs, 3 master's programs, 2 researchers, and 2 interns are composed of a total of 17 people, attending various domestic and foreign conferences every year and presenting their research results.

Environmental Analytical Chemistry Lab 환경분석화학연구실

최성득

_Sung-Deuk Choi

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 1101-7 Lab : Bldg. 110 Rm. 1107-1 Tel : +82-52-217-2875 E-mail : sdchoi@unist.ac.kr http://home.unist.ac.kr/professor/sdchoi/

We investigate the level and pattern of persistent organic pollutants (POPs) and various toxic chemicals using mass spectrometers. Long-range atmospheric transport, air-soil and air-water fluxes, and multimedia fates of POPs in various environmental compartments are current research topics in our lab. 첨단분석장비를 이용하여 잔류성유기오염물질(POPs)을 포함한 다양한 독성물질의 오염특성을 평 가한다. 대기오염물질의 장거리 이동, 대기-지표 교환, 수계오염, 극지오염 등 매체 통합적 환경거동 연구를 수행한다.

Curriculum Vitae · 2018 - Present : Professor, UNIST · 2013 - 2018 : Associate Professor, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2006 - 2009 : Postdoctoral Researcher, Department of Physical & Environmental Sciences, University of Toronto · 2005 - 2006 : Postdoctoral Researcher, Institute of Environmental & Energy Technology, POSTECH

Major research field POPs, HAPs, PM2.5, persistent organic pollutants, hazardous air pollutants, fine dust POPs, HAPs, PM2.5, 잔류성유기오염물질, 유해대기오염물질, 미세먼지

Desired field of research Risk assessment Integrated risk assessment and management Risk assessment 통합위해성 평가 및 관리

Academic Credential · 2005 : Ph.D. Environmental Science & Engineering, POSTECH · 2001 : M.S. Environmental Science & Engineering, POSTECH · 1999 : B.S., Earth & Environmental Sciences, Seoul National University

Awards/Honors/Memberships · 2016 : Minister’s citation for the management of POPs, Ministry of Environment · 2012 : Outstanding Scholarly Achievement Award, Korean Society for Environmental Analysis · 2012, 2011, 2008 : Presentation Award, Korean Society for Environmental Analysis · 2010, 2009 : Best Teaching Award, UNIST · 2009 : Young Scientist Award, Korea Society for Atmospheric Environment

Research Keywords and Topics • Persistent organic pollutants, Environmental analysis and monitoring, Multimedia modeling 잔류성유기오염물질, 환경분석/모니터링, 다매체 환경거동 모델링

Research Publications (selected) • ENVIRONMENTAL POLLUTION / Seasonal variation, phase distribution, and source identification of atmospheric polycyclic aromatic hydrocarbons at a semi-rural site in Ulsan, South Korea / Nguyen, Tuyet Nam Thi; Jung, Kuen-Sik; Son, Ji Min; Kwon, Hye-Ok; Choi, Sung-Deuk / 2018-05 • JOURNAL OF HAZARDOUS MATERIALS / Understanding the fate of polycyclic aromatic hydrocarbons at a forest fire site using a conceptual model based on field monitoring / Simon, Erwan; Choi, Sung-Deuk; Park, Min-Kyu / 2016-11 • JOURNAL OF HAZARDOUS MATERIALS / Improving the spatial resolution of atmospheric polycyclic aromatic hydrocarbons using passive air samplers in a multiindustrial city / Choi, Sung-Deuk; Kwon, Hye-Ok; Lee, Yun-Se; Park, Eun-Jeong; Oh, Joo-Yeon / 2012-11

Patents (selected) • Method and apparatus for predicting disaster of chemical substance based on grating structure / 10-2015-0072739 / 2015 • Unmanned flight apparatus for sampling chemical / 10-2015-0159075 / 2015

IMCT (Innovative Materials for Construction and Transportation) Lab 고성능 건설/교통 재료 연구실

저희 고성능 건설/교통 재료 연구실은 건설 및 교통 분야에 대한 다양한 혁신적인 재료의 설계, 성능 분석 및 구조물 적용에 대한 연구와 개발을 하고 있습니다. 초고성능 콘크리트(UHPC)의 구조물 적

표석훈

_Sukhoon Pyo

Department of Urban and Environmental Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 901-6 Tel : +82-52-217-2827 E-mail : shpyo@unist.ac.kr http://imct.unist.ac.kr/

용, 소음저감형 고강도 콘크리트 개발, 폐플라스틱 활용 철도침목 개발 그리고 건설재료 레이저 가공 기술 적용 등과 같이 혁신적인 재료의 개발 및 적용에 초점을 맞추어 연구하고 있습니다.

Curriculum Vitae · 2019 - Present : Assistant Professor, UNIST · 2014 - 2018 : Senior Researcher, Korea Railroad Research Institute, Korea

Academic Credential

Major research field 초고성능 콘크리트 (UHPC), 친환경 건설재료 (Eco-Friendly Construction Materials), 철도 시설 물(Railway Infrastructure), 레이저 가공(Laser Fabrication), 플라스틱 침목(Plastic Sleepers)

Desired field of research 흡음 콘크리트(Sound Absorbable Concrete), 3D Printing for construction, Intelligent materialdesign

Research Keywords and Topics • Construction materials; High-performance materials; Railway; Sustainable; Material Design; Sound-absorbable concrete 건설재료; 고성능 재료; 철도; 지속 가능; 재료설계; 흡음 콘크리트

Research Publications (selected) • ENGINEERING STRUCTURES / Ultra high performance concrete (UHPC) sleeper: Structural design and performance / Bae, Younghoon; Pyo, Sukhoon / 2020-05 • CEMENT & CONCRETE COMPOSITES / Effects of coarser fine aggregate on tensile properties of ultra high performance concrete / Pyo, Sukhoon; Kim, Hyeong-Ki; Lee, Bang Yeon / 2017-11 • CEMENT AND CONCRETE RESEARCH / Direct tensile behavior of ultra high performance fiber reinforced concrete (UHP-FRC) at high strain rates / Pyo, Sukhoon; El-Tawil, Sherif; Naaman, Antoine E. / 2016-10

· 2014 : Ph.D. Civil Engineering, University of Michigan, Ann Arbor, MI, USA · 2013 : M.S.E. Mechanical Engineering, University of Michigan, Ann Arbor, MI, USA · 2009 - 2014 : Research Assistant, University of Michigan, Ann Arbor, MI, USA · 2008 - 2009 : Researcher, KAIST, Korea · 2008 : M.S. Civil and Environmental Engineering, KAIST, Korea · 2006 : B.S. Civil Engineering, Hanyang University, Korea

Awards/Honors/Memberships · 2017 : JEC Asia 2017 Innovation Awards (Category : Railway) · 2017 : Outstanding Young Researcher Award, National Research Council of Research & Technology · 2019 - Present : Editor, Journal of the Korean Society for Railway · 2019 - Present : Editorial Board, Journal of the Korea Concrete Institute · 2017 - Present : Editorial Board, Journal of the Korea Institute for Structural Maintenance Inspection · 2018 - Present : Expert in Technology Level Evaluation, Ministry of Science and ICT

College of Engineering

Department of Urban and Environmental Engineering

IMCT (Innovative Materials for Construction and Transportation) laboratory provides an ideal place for design, characterization and applications of a variety of innovative materials toward construction and transportation fields. Research focuses on both developments and applications of innovative materials such as the structural applications of ultra high performance concrete, the material design of sound absorbable high performance concrete, and applications of innovative laser fabrication to cementitious materials.

Department of Materials Science and Engineering 신소재공학과

Theory of Carbon and Low Dimensional Materials Research Lab 탄소 및 저차원 재료 이론 연구실

풀러렌 (fullerene), 탄소나노튜브 (Carbon nanotube), 그래핀 (graphene) 등의 탄소 동소체 및 저차원 물질들은 미래 첨단 산업 소재로의 적용에 우수한 잠재성을 지니고 있습니다. 본 연구 그룹에서는 이 러한 다양한 탄소 동소체들의 합성, 물리적 특성 및 메커니즘을 이해하고자 이론 및 실험적 관점에 서 연구를 진행하고 있습니다.

딩, 펑 _Feng Ding Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 401-10 Lab : Bldg. 110 Rm. 605-3 Tel : +82-52-217-2317 E-mail : f.ding@unist.ac.kr https://cmcm.ibs.re.kr/cmcm/?MM=02 &SM=03

Curriculum Vitae

Major research field Material simulation, Algorithm development, Fullerene 재료 전산모사, 알고리듬 개발

Desired field of research Carbon nanotubes, Graphene 탄소 나노튜브 , 탄소

Research Keywords and Topics • Methods and algorithms developments for materials simulation and design 재료 전산모사 및 디자인을 위한 알고리즘 개발 및 방식 연구

• The growth mechanism of carbon and two dimensional (2D) materials 탄소 및 2D 물질의 성장 메커니즘 연구

• The kinetics modeling of various physical and chemical systems 복잡한 물리 및 화학 시스템의역학 모델링 연구

• The synthesis and characterization of carbon and other low-dimensional materials 탄소 및 저차원 나노 물질의 합성 및 특성 연구

Research Publications (selected) • NATURE / Arrays of horizontal carbon nanotubes of controlled chirality grown using designed catalysts / Zhang, Shuchen; Kang, Lixing; Wang, Xiao; Tong, Lianming; Yang, Liangwei; Wang, Zequn; Qi, Kuo; Deng, Shibin; Li, Qingen; Bai, Xuedong; Ding, Feng; Zhang, Jin / 2017-03 • SCIENCE ADVANCES / Chemical vapor deposition synthesis of near-zigzag singlewalled carbon nanotubes with stable tube-catalyst interface / Zhao, Qiuchen; Xu, Ziwei; Hu, Yue; Ding, Feng; Zhang, Jin / 2016-05 • NATURE MATERIALS / Fast growth of inch-sized single-crystalline graphene from a controlled single nucleus on Cu-Ni alloys / Wu, Tianru; Zhang, Xuefu; Yuan, Qinghong; Xue, Jiachen; Lu, Guangyuan; Liu, Zhihong; Wang, Huishan; Wang, Haomin; Ding, Feng; Yu, Qingkai; Xie, Xiaoming; Jiang, Mianheng / 2016-01

· 2017 - Present : - Distinguished Professor, Sch. of Mat. Sci. & Engin., UNIST; - Group Leader, the Center for MultiDimensional Carbon Materials, Institute for Basic Science (IBSCMCM) · 2009 - 2013 : Assistant Professor · 2013 - 2017 : Associate Professors, Inst. Text. & Cloth., Hong Kong Polytechnic University, Hong Kong · 2005 - 2009 : Research Scientist, Dept. Mech. Engin. & Mat. Sci., Rice University, USA · 2003 - 2005 : Postdoctoral Researcher, Dept. Phys., Gothenburg University, Sweden

Academic Credential · 2002 : Ph.D. Dept. of Phys., Nanjing University, China · 1996 : M.S. Dept. of Phys., Fudan University, China · 1993 : B.S. Dept. of Phys., Huazhong University of Science and Technology, China

Awards/Honors/Memberships · 2014 : Faculty Award for Excellent Research Hong Kong Polytechnic University

College of Engineering

Department of Materials Science and Engineering

Various carbon materials, from fullerene to carbon nanotube and graphene, together with other low-dimensional materials, hold great potential in many applications for our future. Our research group dedicates great efforts on the fundamental understanding of these materials, their properties, synthesis and applications via both theoretical and experimental approaches.

Frontier, Innovative Nanomaterials and Devices (FIND) Laboratory 첨단혁신 나노 소재 및 소자 연구실

권순용

_Soon-Yong Kwon

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 501-6 Tel : +82-52-217-2394 E-mail : sykwon@unist.ac.kr http://sykwon.blogspot.com/

Curriculum Vitae · 2008 - Present : Full/Associate/Assistant Professor, School of Materials Science and Engineering, UNIST · 2020 - Present : Dean, Office of University-Industry Relations, UNIST · 2015 - 2016 : Visiting Scholar, Department of Physics, University of Washington, Seattle, Washington · 2007 - 2008 : Postdoctoral Scholar, Department of Materials Science and Engineering, University of California at Los Angeles (UCLA), Los Angeles, California

Academic Credential · 2005 : Ph.D. degree in Materials Science and Engineering, Seoul National University · 2001 : M.S. degree in Materials Science and Engineering, Seoul National University · 1999 : B.S. degree in Materials Science and Engineering, Seoul National University

FIND 실험실에서는 원자 단위의 제어가능한 나노 신소재 설계 및 합성법 개발을 통해 소재의 신물 성을 구현하고 이에 기반한 전자, 에너지, 및 환경 분야 응용연구를 선도하고자 한다.

< Research Interests > “Semiconductor Epitaxy, van der Waals Epitaxy, Functional Nanocoating, Phase Change Memory Materials, 0D/1D/2D Functional Nanomaterials” for Potential Applications in Flexible Optoelectronics, Photovoltaics, and Environmental & Energy Devices · Novel Synthesis and Applications of One-, Two-Dimensional van der Waals Atomic Crystals beyond Graphene, and Hybrid Systems with MOVPE-grown III-V & II-VI Compound Semiconductors for Flexible Optoelectronics, Photovoltaics, and Environmental & Energy Devices · Low Temperature Engineering with Graphene and Related Low-Dimensional Nanomaterials for Multi-Functional Coatings and Interfaces in a Number of Graphene-Enhanced Products (e.g., Coating for hetero-epitaxy, for oxidation/corrosion/diffusion/gas barriers, for bio-scaffolds, for membranes etc.) · Advanced III-V & II-VI Epitaxy (with reduced dimensionalities) on Si via Metal-Organic Chemical Vapor Deposition (MOCVD) for Advanced Optoelectronics/Photovoltaics and Flexible RBG & White Light Emitters

Major research field Epitaxy, Nanocoating, Thin Film Technology & Surface/Interface Science

Research Topics • Compound Semiconductors / Optoelectronic Materials·Devices / Metal-Organic Chemical Vapor Deposition (MOCVD) 화합물 반도체 / 광전자 재료 · 소자 / 금속 유기 화학 기상 증착 (MOCVD) • 0D / 1D / 2D van der Waals (single/few-atomic-layer) Metals·Semiconductors·Insulators 0D / 1D / 2D van der Waals (단일 / 미소 원자 층) 금속 · 반도체 · 절연체 • Phase Change Memory Materials, (Flexible) Electrode Materials 상 변화 기억 재료, (유연) 전극 재료

Research Publications (selected) • NATURE ELECTRONICS / Wafer-scale production of patterned transition metal ditelluride layers for two-dimensional metal-semiconductor contacts at the Schottky-Mott limit / Song, Seunguk; Sim, Yeoseon; Kim, Se-Yang; Hwa, Jung; Oh, Inseon; Na, Woongki; Lee, Do Hee; Wang, Jaewon; Yan, Shili; Liu, Yinan; Kwak, Jinsung; Chen, Jian-Hao; Cheong, Hyeonsik; Yoo, Jung-Woo; Lee, Zonghoon; Kwon, Soon-Yong / 2020-04 • ADVANCED MATERIALS / Recent Developments in Controlled Vapor‐Phase Growth of 2D Group 6 Transition Metal Dichalcogenides / Kim, Se-Yang; Kwak, Jinsung; Ciobanu, Cristian V.; Kwon, Soon-Yong / 2019-05 • ADVANCED MATERIALS / Single-Crystalline Nanobelts Composed of Transition Metal Ditellurides / Kwak, Jinsung; Jo, Yongsu; Song, Seunguk; Kim, Jung Hwa; Kim, Se-Yang; Lee, Jae-Ung; Lee, Sungwoo; Park, Jungmin; Kim, Kangwon; Lee, Gun-Do; Yoo, Jung-Woo; Kim, Sung Youb; Kong, Young-Min; Lee, Gwan-Hyoung; Lee, Wan-Gyu; Park, Jucheol; Xu, Xiaodong; Cheong, Hyeonsik; Yoon, Euijoon; Lee, Zonghoon; Kwon, Soon-Yong / 2018-07 • NATURE COMMUNICATIONS / Oxidation behavior of graphene-coated copper at intrinsic graphene defects of different origins / Kwak, Jinsung; Jo, Yongsu; Park, Soon-Dong; Kim, Na Yeon; Kim, Se-Yang; Shin, Hyung-Joon; Lee, Zonghoon; Kim, Sung Youb; Kwon, Soon-Yong / 2017-11

Patents (selected) • Method for manufacturing graphene, transparent electrode and active layer comprising the same, and display, electronic device, optoelectronic device, battery, solar cell, and dye-sensitized solar cell including the electrode and the active layer / 권순용, 곽진성, 윤의준, 박기복 / 2015-09

Robust Multifunctional Materials Lab 로버스트 다기능 재료 연구실

김주영

_Ju-Young Kim

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 401-6 Lab : Bldg. 102 Rm. 707 Tel : +82-52-217-2334 E-mail : juyoung@unist.ac.kr http://www.jyklab.org

울산과학기술원(UNIST) 신소재공학과 김주영 교수님의 Robust Multifunctional Materials Lab(R. Lab) 에 오신 것을 환영합니다. R. Lab에서는 나노 역학 기반의 다기능 소재 개발에 주력하고 있습니다. 우 리의 연구 관심사는 아래와 같습니다. (1) 가혹한 환경에서 실시간 나노 역학 (2) 재료 및 구조 미세 구조를 제어하여 나노 다공성 금의 기계적 성능 향상

Curriculum Vitae

(3) 유연하고 신축성 있는 전자 및 에너지 소자의 기계적 신뢰성

· 2011 - Present : UNIST, Republic of Korea / Professor, Department of Materials Science and Engineering · 2007 - 2011 : Caltech, Pasadena, CA, USA / Postdoctoral Scholar, Department of Applied Physics & Materials Science · 2007 : Seoul National University, Seoul, Republic of Korea / Postdoctoral Scholar, Department of Materials Science and Engineering · 2004 : NIST, Boulder, CO, USA / Guest Researcher, Materials Reliability Division

(4) 유연하고 신축성 있는 OLED 및 페로브스카이트 태양 전지의 봉지 재료 및 공정 개발

Major research field Nanomechanics, Nanoporous Gold, Device Reliability, Encapsulation.

Research Keywords and Topics • Nanomechanics - In-situ nano-emchanical testing - Mechanical properties at harsh environments • Nanoporous Gold - Low density and high surface area-to-volume - Strong and tough nanoporous materials • Device Reliability - Reliability of flexible/stretchable devices - Reliability modeling • Encapsulation - Encapsulation of perovskite solar cell - Materials and processes for flexible and stretchable encapsulation

Academic Credential · 2007 : Ph.D., Materials Science and Engineering, Seoul National University, Korea · 2001 : B.S., Materials Science and Engineering, Seoul National University, Korea

Research Publications (selected) • NANO LETTERS / Self-healing of nanoporous gold under ambient conditions / Gwak, Eun-Ji; Jeon, Hansol; Song, Eunji; Kim, Ju-Young / 2020-09 • NATURE / Ultralow-dielectric-constant amorphous boron nitride / Hong, Seokmo; Lee, Chang-Seok; Lee, Min-Hyun; Lee, Yeongdong; Ma, Kyung Yeol; Kim, Gwangwoo; Yoon, Seong In; Ihm, Kyuwook; Kim, Ki-Jeong; Shin, Tae Joo; Kim, Sang Won; Jeon, Eunchae; Jeon, Hansol; Kim, Ju-Young; Lee, Hyung-Ik; Lee, Zonghoon; Antidormi, Aleandro; Roche, Stephan; Chhowalla, Manish; Shin, Hyeon-Jin; Shin, Hyeon Suk / 2020-06 • Acta Materialia / Tension-compression asymmetry in plasticity of nanoporous gold / Jeon, Hansol; Kim, Hangeul; Kim, Ju-Young / 2020-02

College of Engineering

Department of Materials Science and Engineering

Welcome to R. Lab led by Prof. Ju-Young Kim of School of Materials Science and Engineering at UNIST (Ulsan National Institute of Science and Technology), Republic of Korea. We focus on development of multifunctional materials based on nano-mechanics. Our research interests are (1) Nanomechanics of functional materials by in-situ nano-mechanical testing at harsh environments, (2) Enhancement of mechanical performance of nanoporous gold by controlling material and structural microstructures, (3) Mechanical reliability of flexible and stretchable electronic and energy devices, (4) Development of materials and processes for encapsulation of flexible and stretchable OLED and Perovskite solar cell.

Material Intelligence Lab 물질지능연구실

김지윤

_Jiyun Kim

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 701-2 Lab : Bldg. 102 Rm. 705-3 Tel : +82-52-217-3052 E-mail : jiyunkim@unist.ac.kr http://themilab.com

A robot is a machine capable of carrying out a complex series of actions automatically, mimicking forms and functions of specific living organisms, such as human, cheetah, octopus, etc. Beyond mimicking, if we are able to directly program the morphology, body properties and transformation of a robot body, the boundary between virtual and real world will be dramatically blurred. Therefore, we aim to develop universal matters or objects that anyone can program its forms, properties and sequential motions for specific tasks. This robotic matter in which our lab is interested is a universal platform capable of programming its morphological and material properties by pixelated unit control of body through computing. In this paradigm of robotics, challenges require the innovation in all levels of system including materials, components, architecture to integrate them, manufacturing process and operation. In that respect, we study about programmable matter, smart materials, metamaterial structures, soft robotics, human-machine interfaces, etc. 생체모방 로봇은 인간, 치타, 문어 등과 같은 특정 생물체의 독창적인 형태와 기능을 모방하여 복잡한

Curriculum Vitae · 2021 - Present : Associate Professor in MSE, UNIST, Korea · 2016 - 2021 : Assistant Professor in Department of Material Science and Engineering, Ulsan National Institute of Science and Technology (UNIST), Korea · 2014 - 2016 : Visiting Fellow, National Cancer Institute, National Institute of Health (NIH), USA · 2013 - 2014 : Postdoctoral Researcher, Seoul National University, Korea

Academic Credential · 2010 - 2013 : Ph.D., Electrical Engineering, Seoul National University, Korea · 2006 - 2010 : B.S., Electrical Engineering, Seoul National University, Korea

Awards/Honors/Memberships · 2015 : Outstanding Poster Award, Inaugural Symposium on US-Korea Biomedical Research · 2014 - 2016 : Korean Visiting Scientists Training Award (KVSTA) $45,455/year, funded by Korea Health Industry Development Institute · 2012 : Merk Young Scientist Award, IMID Conference · 2010 : Best Oral Presentation Award, KMEMS Conference · 2009 : Best Poster Presentation Award, KMEMS Conference · 2006 - 2010 : Presidential Science Scholarship of Korea, $10,000/year, funded by Korea Student Aid Foundation

일련의 동작을 자동으로 수행 할 수 있는 기계입니다. 하지만, 이러한 특정 기능의 모방을 넘어서 로봇 혹은 사물의 형태/물성/운동을 사람과 환경이 직접 프로그래밍 할 수 있다면, 인공지능을 필두로 고도 화되고 있는 가상세계에서의 지능화와 더불어, 우리를 둘러싼 물리적 세계의 환경 역시 매우 고도화될 수 있을 것입니다. 이러한 맥 락에서, 본 연구실에서는 이 러한 새로운 패러다임의 로 봇을 개발하기 위해, 창발적 인 소재, 구조, 시스템, 제작, 제어에 이르기까지 전 스케 일에서 다양한 연구를 수행 하고 있습니다.

Major research field

Desired field of research

Programmable matter, Robotics, 4D Printing, Metamaterial

Human-machine Interface, Robotics, Machine learning

프로그래머블 매터, 로봇공학, 4D 프린팅, 메타 물질

인간-기계 인터페이스, 로봇공학, 기계 학습

Research Keywords and Topics • Programmable Matter, Smart Materials, Metamaterial, Origami, Tensegrity, Auxetics, 3D printing, 4D printing, Soft robotics, Hybrid robotics, Sensors, Human-machine Interfaces, etc.

Research Publications (selected) • SCIENCE ADVANCES / Direct 2D-to-3D transformation of pen drawings / Song, Seowoo; Lee, Sumin; Choe, Jun Kyu; Kim, Na-Hyang; Kang, Junwon; Lee, Amos; Choi, Yeongjae; Choi, Ahyoun; Jeong, Yunjin; Kim, Ju-Young; Kown, Sunghoon*; Kim, Jiyun* / 2021, Accepted • SCIENCE ROBOTICS / 3D-printed programmable tensegrity for soft robotics / Lee, Hajun; Jang, Yeonwoo; Choe, Jun Kyu; Lee, Suwoo; Song, Hyeonseo; Lee, Jin Pyo; Lone, Nasreena; Kim, Jiyun* / 2020-08 • NANO LETTERS / Reprogrammable ferromagnetic domains for reconfigurable soft magnetic actuators / Song, Hyeonseo; Lee, Hajun; Lee, Jaebyeong; Choe, Jun Kyu; Lee, Suwoo; Yi, Jee Yoon; Park, Sunghoon; Yoo, Jung-Woo; Kwon, Min Sang*; Kim, Jiyun* / 2020-06

Patents (selected) • [국내] Shape Variable Composite and Manufacturing Method / Jiyun Kim, Jee Yoon Yi, Jun Kyu Choe, Yeonwoo Jang, Hyeonseo Song / 2020-08, Registered • [국내] Tensegrity Structure Composite Material and the Manufacturing Method / Jiyun Kim, Hajun Lee, Hyeonseo Song, Suwoo Lee, Jun Kyu Choe / 2019-11, Applied

Metal Alloy Design Lab 합금설계 연구실

유니스트 ‘MADe’ 실험실에서는 주로 경량 합금 (Mg / Al / Ti 합금), 벌크 비정질 및 하이엔트로피 합

박성수

_Sung Soo Park

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 401-7 Lab : Bldg. 102 Rm. 710 Tel : +82-52-217-2393 E-mail : sspark@unist.ac.kr http://www.sspark.kr/

금과 같은 다성분 금속 합금의 설계, 개발 및 분석 연구에 중점을 두고 있습니다. 이러한 연구 활동은 모델링 및 시뮬레이션으로 보완되어 개발 중인 새 로운 합금의 미세조직, 속성 및 성능 간의 관계를 보다 면밀히 제어하고 이해할 수 있습니다.

Major research field Alloy design, Processing technology, Multi-scale materials analysis, Metal-based biomaterials 합금 설계, 가공 기술, 멀티 스케일 재료 분석, 금속 기반 생체 재료

Curriculum Vitae · 2011 - Present : Professor, UNIST, Korea · 2006 - 2011 : Senior Researcher, Korea Institute of Materials Science (KIMS), Korea · 2005 - 2006 : Postdoctoral Fellow, Georgia Tech, USA

Academic Credential

Research Keywords • 합금 설계 (마그네슘, 알루미늄, 니켈계 합금), 부식, TEM, 부식, 소성 변형 • Light alloys, Magnesium alloys, Alloy design, TEM, Corrosion, Plastic deformation

Research Topics • Development of fine-grained & high-strength Mg alloys via isothermal indirect extrusion 등온 간접 압출을 통한 미세 결정 구조 및 고강도 Mg 합금 개발

• Study on the microstructure and corrosion behavior of novel corrosion-resistant Mg alloys 고내식성 Mg 신 합금의 미세조직 및 부식 거동 연구

• Multi-scale analysis of oxide layers of ignition-proof Mg alloys 발화 방지 Mg 합금의 산화물 층에 대한 다중 스케일 분석

• Atomic-scale TEM analysis of high-strength steels with enhanced toughness 인성이 강화된 고강도 강의 원자 스케일 TEM 분석

Research Publications (selected) • CORROSION SCIENCE / Role of trace additions of Mn and Y in improving the corrosion resistance of Mg-3Al-1Zn alloy / Baek, Soo-Min; Lee, Si-Young; Kim, Jong Chan; Kwon, Jaeho; Jung, Hoseok; Lee, Sooseok; Lee, Ki-Suk; Park, Sung Soo / 2021-01 • SCRIPTA MATERIALIA / Factors affecting the grain refinement of extruded Mg-6Zn0.5Zr alloy by Ca addition / Kim, Beomcheol; Hong, Chang Hee; Kim, Jong Chan; Lee, Si-Young; Baek, Soo-Min; Jeong, Hu Young; Park, Sung Soo / 2020-10 • JOURNAL OF MAGNESIUM AND ALLOYS / Fabrication of high-strength duplex nanoporous Cu by dealloying a dual-phase Mg-Cu precursor alloy / Lee, Si-Young; Baek, Soo-Min; Gwak, Eun-Ji; Kang, Na-Ri; Kim, Ju-Young; Kim, Su-Hyeon; Lee, Jung Gu; Park, Sung Soo / 2020-09

· 2005 : Ph.D., Materials Science and Engineering, POSTECH, Korea · 2000 : B.S., Materials Science and Engineering, POSTECH, Korea

Awards/Honors/Memberships · 2019 : Outstanding Research Award, Asia Pacific Society for Materials Research · 2013, 2011, 2007 : Best Paper Award, Asian Symposium on Magnesium Alloys · 2008 : Young Scientist Award, Korean Institute of Metals & Materials · 2008 : Micrography Award, Korean Institute of Metals & Materials · Editorial Board Member of Korean Journal of Metals & Materials · Editorial Board Member of Metals · Member of the Korean Institute of Metals & Materials

Patents (selected) • Magnesium Alloy Materials and Method for Producing the Same / 박성수, 백수민 / 2021-01 마그네슘 합금 및 이의 제조방법 / 박성수, 백수민 / 2021-01

College of Engineering

Department of Materials Science and Engineering

Our work in the 'MADe' laboratory has been mainly focused on the design, development and analysis of multi-component metal alloys such as lightweight alloys (Mg/Al/Ti alloys), bulk-amorphous and high-entropy alloys with high specific strength, and steels with enhanced toughness, all of which are needed for structural and/or biomedical applications. Our research activities are mostly supplemented with modeling and simulations to more clearly understand atomistic mechanisms governing relationships among microstructure, property, and performance for our novel alloys under development.

Multi-Dimensional Functional Materials and Energy Solution Lab 다차원 기능성 소재 및 에너지 솔루션 랩

박혜성

_Hyesung Park

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 501-3 Lab : Bldg. 102 Rm. 503 Tel : +82-52-217-2580 E-mail : hspark@unist.ac.kr http://hspark.unist.ac.kr

Nanotechnology, by taking advantage of interesting physical phenomena occurring at the nanoscale, offers great potentials in resolving many of today’s challenges such as discovering reliable and sustainable source of clean energy or mitigating biologically challenging problems. Our research group focuses on the synthesis and characterization of low-dimensional nanostructured materials and investigates how these material systems can be integrated into functional devices, e.g. for applications in nanoelectronics, nanophotonics or energy harvesting systems. 나노 사이즈 영역에서 발견되는 새롭고 흥미로운 물리적인 현상에 바탕을 둔 나노 기술은 현대 사회 가 직면하고 있는 다양한 문제점들을 (지속 가능한 클린 에너지 개발, 바이오 기술 향상 등) 극복하는 데 큰 역할을 할 것으로 기대된다. 본 연구 그룹은 차세대 신소재 물질로 각광받고 있는 저차원 물질 들을 (2차원 박막, 1차원 나노 와이어, 나노 복합체 등) 개발하는데 초점을 맞추고 있다. 나아가서, 이 렇게 만들어진 물질 들을 활용하여 차세

Curriculum Vitae

대 소자 부문에 (태

· 2018 - Present : Associate Professor, UNIST · 2014 - 2018 : Assistant Professor, UNIST · 2014 : Postdoctoral Fellow, Materials Science and Engineering, Northwestern University · 2012 - 2013 : Postdoctoral Associate, Electrical Engineering and Computer Science/Materials Science and Engineering, Massachusetts Institute of Technology

양 전지, 발광 다이 오드, 센서, 전기화 학촉매 등) 성공적 으로 적용하는 것을 목표로 한다.

Major research field 2D materials, solar cells, electro-catalysts, sensor / 2D 재료, 태양 전지, 전기 촉매, 센서

Academic Credential

Research Keywords and Topics

· 2012 : Ph. D. Electrical Engineering and Computer Science, Massachusetts Institute of Technology · 2007 : M. S. Mechanical Engineering, Massachusetts Institute of Technology · 2004 : B. S. Physics, Illinois State University

• 2D materials, graphene, transition metal dichalcogenides, organic solar cells, perovskite solar cells, hybrid electrode, electro-catalysts, sensors

Awards/Honors/Memberships · Member of Materials Research Society · 2020 : 한국물리학회 신진물리학자상 수상 · 2018 : 교육부 학술연구지원사업 우수성과 50선 선정

이차원 물질, 그래핀, 전이금속 디칼코게나이드, 유기태양전지, 페로브스카이트 태양전지, 하이브 리드 전극, 전기촉매, 센서

Research Publications (selected) • ADVANCED MATERIALS / Phase Engineering of Transition Metal Dichalcogenides with Unprecedentedly High Phase Purity, Stability, and Scalability via Molten-Metal-Assisted Intercalation / Park, Sanghyeon; Kim, Changmin; Park, Sung O.; Oh, Nam Khen; Kim, Ungsoo; Lee, Junghyun; Seo, Jihyung; Yang, Yejin; Lim, Hyeong Yong; Kwak, Sang Kyu; Kim, Guntae; Park, Hyesung / 2020-08 • JOULE / Flexible Organic Solar Cells Over 15% Efficiency with Polyimide-Integrated Graphene Electrodes / Koo, Donghwan; Jung, Sungwoo; Seo, Jihyung; Jeong, Gyujeong; Choi, Yunseong; Lee, Junghyun; Lee, Sang Myeon; Cho, Yongjoon; Jeong, Mingyu; Lee, Jungho; Oh, Jiyeon; Yang, Changduk; Park, Hyesung / 2020-05 • NATURE COMMUNICATIONS / In-situ local phase-transitioned MoSe2 in La0.5Sr0.5CoO3-δ heterostructure and stable overall water electrolysis over 1000 hours / Oh, Nam Khen; Kim, Changmin; Lee, Junghyun; Kwon, Ohhun; Choi, Yunseong; Jung, Gwan Yeong; Lim, Hyeong Yong; Kwak, Sang Kyu; Kim, Guntae; Park, Hyesung / 2019-04

Patents (selected) • [국외] Devices comprising graphene and a conductive polymer and related systems and methods / Hyesung Park, Rachel M. Howden, Jing Kong, Karen K. Gleason / 2013-12 • [국외] Nanowire-modified graphene and methods of making and using same / Hyesung Park, Sehoon Chang, Jing Kong, Silvija Gradečak / 2015-04

Semiconductor Nanotechnology Lab 반도체 나노기술 연구실

서준기

_Joonki Suh

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 401-2 Lab : Bldg. 102 Rm. 403 Tel : +82-52-217-2461 E-mail : jsuh@unist.ac.kr http://joonkisuhlab.org

반도체 나노기술 연구실은 차세대 지능형 반도체 소자 구현을 위한 전자소재 합성, 공정 최적화 및 소자 평가 연구를 수행하고 있습니다. 이를 위해, i) 칼코게나이드계 2D 물질 및 상변화 메모리 소재

Curriculum Vitae

의 합성, ii) 초미세, 초절전, 고신뢰 반도체 소자 제작 공정 및 iii) 나노소재 내 열전달 현상 규명 및 열

· 2019 - Present : Assistant Professor, UNIST · 2016 - 2019 : Postdoctoral Researcher, University of Chicago + Cornell University

전소재 개발을 세부목표로 세우고, 더 나아가 근미래 기술인 신경모방 컴퓨팅 시스템을 위한 요소 기 술로 활용될 수 있는 플랫폼 제시에 역량을 집중하고 있습니다.

Academic Credential · 2015 : Ph.D. in Materials Science and Engineering, UC Berkeley · 2009 : M.S. in Materials Science and Engineering, Stanford University · 2006 : B.S. in Materials Science and Engineering, Yonsei University

Awards/Honors/Memberships

Major research field Electronic Materials, Nanofabrication, Phase Change Memory, Thermal Energy Transfer and Conversion 반도체 및 전자 재료, 나노소자공정, 상변화 메모리, 열에너지 전달 및 변환

Desired field of research

· 2014 : Jane Lewis Fellowship, UC Berkeley · 2014 : Ovshinsky Student Award, APS · 2010 : Energy Experts Development Program, KETEP

Neuromorphic Devices, Quantum Materials, Thermoelectrics 뉴로모픽 /시냅스 소자, 양자 소재, 열전소자

Research Keywords and Topics • Semiconductor materials and devices, Nanoelectronics, 2D materials, Phase change memory, Heat transfer 반도체 소재 및 공정, 나노전자소자, 2D 반도체, 상변화 메모리, 열전달 및 열전소자

Research Publications (selected) • Nature Communications / Reconfiguring crystal and electronic structures of MoS2 by substitutional doping, J. Suh et al. / 2018-01 • Advanced Materials / Simultaneous enhancement of electrical conductivity and thermopower of Bi2Te by multi-functionality of native defect, J. Suh et al. / 2015-06 • Nano Letters / Doping against the native propensity of MoS2 : degenerate hole doping by cation substitution, J. Suh et al. / 2014-12

College of Engineering

Department of Materials Science and Engineering

Semiconductor technology has revolutionized our world over the past decades enabling modern consumer electronics, and the success has relied on the development of emerging electronic materials and devices. In this regard, our research has aided in the development of understandings of material physics and engineering in nanoscale semiconductors and manipulation their properties at all relevant length scales. Thus, the core of our research is to design artificially structured semiconductors to meet the growing material challenge for next-generation computing, memory technology, and thermal energy harvesting. It will be led by our vision is to innovate semiconductor nanotechnologies stepping from i) synthesis of novel nanomaterials including two-dimensional (2D) layered crystals, phase change materials and nanostructured metal oxide/halide and ii) manipulation/assembly with atomic precision and spatial control, and ultimately iii) integrating them into high-performance devices, which will help our society achieve energy security as well as enter the next chapter of semiconductor innovation.

Nanomaterials Science and Engineering Lab (NSE) 나노재료연구실

손재성

_Jaesung Son

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 601-6 Lab : Bldg. 102 Rm. 607 Tel : +82-52-217-2348 E-mail : jsson@unist.ac.kr http://nse.unist.ac.kr/

The NSE focus on the development of novel architectured materials in multi-dimensions through programmed assembly or printing of tailored nanoscale building blocks. To this end, we study the chemical strategies to control over physicochemical properties of individual building blocks as well as their many-body interactions. Moreover, we develop new processing to build up designed architectures from nano- or micro-building blocks. Ultimately, we explore the application areas of architectured materials in multiple length scales as electronic and energy materials. NSE는 맞춤형 나노 스케일 빌딩 블록의 프로그래밍 된 조립 또는 인쇄를 통해 다차원의 기능성 재료 개발에 중점을두고 있습니다. 이를 위해 개별 빌딩 블록의 물리 화학적 특성은 물론 상호 작용을 제 어하는 화학적 전략을 연구합니다. 또한, 우리는 나노 또는 마이크로 빌딩 블록으로부터 설계된 아키 텍처를 구축하기 위해 새로운 기법 및 공정을 개발합니다. 궁극적으로 우리는 에너지 및 전자 재료 응용 분야를 탐구하고 있습니다.

Curriculum Vitae · 2018 - Present : Associate Professor, School of Materials Science and Engineering UNIST · 2014 - 2018 : Assistant Professor, School of Materials Science and Engineering UNIST · 2012 - 2014 : Postdoctoral Researcher, University of Chicago. Department of Chemistry (Advisor : Prof. Dmitri V. Talapin) · 2011 - 2012 : Postdoctoral Researcher, Creative and Fundamental Research Division KERI · 2011 - 2012 : Postdoctoral Researcher, School of Chemical and Biological Engineering Seoul National University (Advisor : Prof. Taeghwan Hyeon)

Research Keywords and Topics

Academic Credential

• Nanoparticles, Colloid, Thermoelectrics, 3D printing, Electronics

· 2011 : Ph.D. (Thesis Title : Synthesis and Characterization of Cadmium Nanocrystals) Thesis Advisor : Prof. Taeghwan Hyeon, Interdisciplinary of Nanoscience and Technology. Seoul · 2005 : B.S., School of Chemical and Biological Engineering. Seoul National University Cum laude

Awards/Honors/Memberships · 2019 - 2022 : UNIST Rising-Star Distinguished Professor · 2019 : UNIST Outstanding Faculty Award 2018 · 2016 : Best Award at the 3rd International Conference & Exhibition for Nanotechnology (NANOPIA 2016) · More information : http://nse.unist.ac.kr/

Major research field

Desired field of research

Nanoparticle, colloid, thin film, 3D printing, thermoelectrics, electronics

Nano 3D printing, thermoelectrics, electronics

나노 입자, 콜로이드, 박막, 3D 프린팅, 열전, 전자

나노 3D 프린팅, 열전, 전자

나노입자, 콜로이드, 열전 소재 및 소자, 3D 프린팅, 전자 소자

Research Publications (selected) • Advanced Materials / “Ink processing for thermoelectric materials and power generating devices” / Seungki Jo, Seungjun Choo, Fredrick Kim, Seung Hwae Heo, and Jae Sung Son* / 2019-05 • Nature Communications / “Composition change-driven texturing and doping in solution-processed SnSe thermoelectric thin films” / Seung Hwae Heo†, Seungki Jo†, Hyo Seok Kim, Garam Choi, Jae Yong Song, Jun-Yun Kang, No-Jin Park, Hyeong Woo Ban, Fredrick Kim, Hyewon Jeong, Jaemin Jung, Jaeyoung Jang, Won Bo Lee, Hosun Shin* and Jae Sung Son* / 2019-02 • Nature Energy / “3D printing of shape-conformable thermoelectric materials using allinorganic Bi2Te3-based inks” / Fredrick Kim, Beomjin Kwon, Youngho Eom, Ji Eun Lee, Sangmin Park, Seungki Jo, Sung Hoon Park, Bong-Seo Kim, Hye Jin Im, Min Ho Lee, Tae Sik Min, Kyung Tae Kim, Han Gi Chae, William King, and Jae Sung Son* / 2018-03

Patents (selected) • 3D 프린팅 열전 소재용 잉크, 3D 프린팅된 열전 소재를 포함하는 열전 소자 및 그 제조방법 / 손재 성, 김민석 / 2019-05

• Bi2Te3계 열전 소재용 페인트 및 열전 소재와 그 제조방법 / 손재성, 박성훈 / 2018-01

Organic Photonics & Optoelectronics Lab 유기광전소자실험실

본 실험실은 유기 혹은 고분자기반의 광전소자 (발광소자, 태양전지, 레이징소자 등)의 효율을 향상 시키는 연구에 중점을 두고 노력하고 있다. 특히, ZnO, SnO, 페로브스카이트 나노결정 등과 같은 나 노물질 합성에서 부터 전기광학적인 분석 및 소자제작 및 적용까지 종합적인 방법으로 연구를 지속

송명훈

_Myounghoon Song

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 701-8 Lab : Bldg. 102 Rm. 704 Tel : +82-52-217-2316 E-mail : mhsong@unist.ac.kr http://mhsong.unist.ac.kr/

적으로 진행하고 있다.

Major research field Perovskite/Organic-Based Optoelectronic Devices (LEDs, Solar Cells, Tandem Solar Cells), Photonic Crystals, Flexible Devices, Organic Diode Laser 페로브스카이트 / 유기 기반 광전자 장치 (LED, 태양 전지, 탠덤 태양 전지), 광결정, 플렉시블 장치, 유기 다이오드 레이저

Desired field of research Nanocrystals-Based Optoelectronic Devices, Energy Conversion System, Photo-Detector/Sensor, Water splitting 나노 결정 기반 광전자 장치, 에너지 변환 시스템, 광 검출기 / 센서, 물 분할

Research Keywords • Organic Optoelectrics, Perovskite Light-Emitting Diodes and solar cells, Tandem Solar Cells, Photonic Crystals,Liquid Crystals 유기광전소자, 페로브스카이트 발광소자 태양전지, 탠덤태양전지, 광결정, 액정

Research Interests/Topics • Perovskite Based Optoelectronic Devices (LED / Solar Cells, Diode Laser etc) 페로브스카이트 기반의 광전소자 (발광소자, 태양전지 등)

• Tandem Solar Cells 탠덤태양전지

• Organic or Polymer Based Optoelectronic Devices (LED / Solar Cells, Diode Laser etc) 유기 혹은 고분자 기반의 광전소자 (발광소자, 태양전지, 다이오드 레이저 등)

• Flexible Organic Optoelectronic Devices 플렉서블 유기 광전소자

• Photonic Devices Using Liquid Crystal 액정 기반의 광결정 소자

Research Publications (selected) • ADVANCED MATERIALS / Multiply Charged Conjugated Polyelectrolytes as a Multifunctional Interlayer for Efficient and Scalable Perovskite Solar Cells / Jung, Eui Dae; Harit, Amit Kumar; Kim, Do Hui; Jang, Chung Hyeon; Park, Jong Hyun; Cho, Shinuk; Song, Myoung Hoon; Woo, Han Young / 2020-07 • ADVANCED MATERIALS / Conjugated Polyelectrolytes as Multifunctional Passivating and Hole-Transporting Layers for Efficient Perovskite Light-Emitting Diodes / Lee, Seungjin; Jang, Chung Hyeon; Nguyen, Thanh Luan; Kim, Su Hwan; Lee, Kyung Min; Chang, Kiseok; Choi, SuSeok; Kwak, Sang Kyu; Woo, Han Young; Song, Myoung Hoon / 2019-06 • ADVANCED MATERIALS / High-performance planar perovskite optoelectronic devices : A morphological and interfacial control by polar solvent treatment / Yu, Jae Choul; Kim, Da Bin; Baek, Gyoelim; Lee, Bo Ram; Jung, Eui Dae; Lee, Seungjin; Chu, Jae Hwan; Lee, Doh-Kwon; Choi, Kyoung Jin; Cho, Shinuk; Song, Myoung Hoon / 2015-06

Curriculum Vitae · 2018 - Present : Professor, UNIST · 2009 - 2018 : Assistant, Associate Professor, UNIST · 2007 - 2009 : Research Associate, University of Cambridge, Cavendish lab. · 2006 : Postdoctoral Fellow, KAIST

Academic Credential · 2005 : Ph. D. Organic and Polymeric Materials, Tokyo Institute of Technology (Tokyo Tech) · 2002 : M. S. Chemical and Biomolecular Engineering, KAIST · 2000 : B.S. Chemical Engineering, Hanyang University

Awards/Honors/Memberships · 2015 - 2016 : Overseas Research Professor Fellowship, SBS Cultural Foundation · 2002 : Award in Honor of Outstanding Graduation Thesis (Tejima Seiichi Commemorative Foundation; Tokyo Tech.) · Member of Materials Research Society · Member of International Conference on Synthetic Metals · Member of Korean Society of Optoelectronics · Member of the Polymer Society of Korea

College of Engineering

Department of Materials Science and Engineering

My research group team has devoted our best efforts to optimize and enhance the efficiencies of organic or perovskite-based optoelectronic devices such as light-emitting diodes (LEDs), solar cells, and lasing applications by using combined multidisciplinary approach from synthesis and preparation of nanomaterials of ZnO, SnO, perovskite, and optical and electrical characterization through several methods, and applications for optoelectronic fields.

Nanoscale Materials Science Laboratory 나노재료과학연구실

신형준

_Hyung-Joon Shin

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 501-7 Lab : Bldg. 102 Rm. 509 Tel : +82-52-217-5703 E-mail : shinhj@unist.ac.kr https://sites.google.com/site/stmshinlab

Our main research interests lie in developing detailed physical and chemical understandings of nanoscale materials by means of Scanning Tunneling Microscopy (STM) and Scanning Probe Microscopy (SPM). In addition to the intrinsic properties of materials itself, we are interested in the local variations of electronic properties arising from the external perturbations. Since invention of STM in 1981, the STM studies have enabled us to observe and manipulate single atoms and molecules as well as to understand fundamental quantum phenomena. We are aiming to develop useful insights for basic questions regarding the nature of nanostructures and their interfaces, and ultimately pursue novel nanoscale devices and sensors having better performance. 나노 기술의 발달로 소자나 재료의 사이즈가 점차 줄어들어가고 있으며, 이로 인해 거시적 규모에서 예측 되지 못한 현상들이 무수히 발생하고 있습니다. 이러한 현상들을 이해하고, 실제 소자에 응용하 기 위해서는 단원자, 단분자 레벨에서의 재료의 이해가 필수적입니다. 우리 연구실은 주사터널링현 미경 및 원자 현미경을 사용하여 반도체, 센서,

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2015 - 2020 : Associate Professor, UNIST · 2011 - 2014 : Assistant Professor, UNIST · 2006 - 2011 : Researcher, RIKEN, Japan · 2002 - 2006 : Postdoctoral Researcher, Physics, Seoul National University

Academic Credential · 2001 : Ph.D. Materials Science and Engineering, Seoul National University · 1998 : M.S. Metallurgical Engineering, Seoul National University · 1996 : B.S. Metallurgical Engineering, Seoul National University

Awards/Honors/Memberships · 2018 : Outstanding Faculty Award · 2011 - 2014 : “Marquis Who’s Who in the World” · 2010 : “Top 100 Scientists 2010” IBC., Cambridge · 2010 : “2000 Outstanding Intellectuals of the 21st Century 2010” IBC, Cambridge · 2001 : “The SNU Graduate Student Awards in Materials Research” - Member of the Korean Institute of Metals and Materials - Member of the Korean Physics Society - Fellow of the Korean Vacuum Society - Member of the American Vacuum Society - Member of the American Physical Society

에너지 변환 및 촉매 재료 등 다양한 신소재의 모델 시스템을 구현하고 이것들의 근본적인 물 성과 나노세계에서 일어나는 현상들을 규명하 는 연구를 하고 있습니다. 또한 이렇게 얻은 결 과들을 기초 지식을 넘어 실생활과 제품에 응 용할 수 있는 기술로 발전 시키기 위한 연구를 병행하고 있습니다. 근본 원리로부터 작게는 원 자부터 크게는 벌크 상태의 재료까지 다양한 스 케일의 재료를 탐구하고 있습니다.

Major research field Low dimensional materials, Catalysis, Semiconductor, Hydrogen storage 저차원 재료, 촉매, 반도체, 수소 저장

Desired field of research Water splitting, Molecular electronics, Charge control, Nanocatalyst, Singlemolecule chemistry, Energy conversion, Water splitting, Molecular electronics 전하 제어, 나노 촉매, 단일 분자 화학, 에너지 변환

Research Keywords and Topics • Scanning Tunneling Microscopy, Surface Science, Interface Science, Nanomaterials, Single molecule, Single atom, Nanocatalyst, Hydrogen storage 주사터널링현미경, 표면 및 계면 과학, 나노 재료, 단분자, 단원자, 나노 촉매, 수소저장

Research Publications (selected) • SCIENCE / Colossal grain growth yields single-crystal metal foils by contact-free annealing / Jin, Sunghwan; Huang, Ming; Kwon, Youngwoo; Zhang, Leining; Li, BaoWen; Oh, Sangjun; Dong, Jichen; Luo, Da; Biswal, Mandakini; Cunning, Benjamin V; Bakharev, Pavel V; Moon, Inyoung; Yoo, Won Jong; Camacho-Mojica, Dulce C; Kim, Yong-Jin; Lee, Sun Hwa; Wang, Bin; Seong, Won Kyung; Saxena, Manav; Ding, Feng; Shin, Hyung-Joon; Ruoff, Rodney S. / 2018-11 • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Two-dimensional polyaniline (C3N) from carbonized organic single crystals in solid state / Mahmood, Javeed; Lee, Eun Kwang; Jung, Minbok; Shin, Dongbin; Choi, Hyung-Jung; Seo, Jeong-Min; Jung, Sun-Min; Kim, Dongwook; Li, Feng; Lah, Myoung Soo; Park, Noejung; Shin, Hyung-Joon; Oh, Joon Hak; Baek, Jong-Beom / 2016-07 • Nature Communications / Nitrogenated holey two-dimensional structures / Mahmood, Javeed; Lee, Eun Kwang; Jung, Minbok; Shin, Dongbin; Jeon, In-Yup; Jung, Sun-Min; Choi, Hyun-Jung; Seo, Min-Jeong; Sohn, So-Dam; Park, Noejung; Oh, Joon Hak; Shin, Hyung-Joon; Baek, Jong-Beom / 2015-08

Nano Spin Transport Lab 나노스핀수송연구실

NSTL그룹의 주요 연구는 저차원 소재, 하이브리드 소재 및 계면을 이용한 스핀트로닉스와 전자소자 연구입니다. 저차원 소재, 하이브리드 박막 및 계면에서 나타나는 스핀산란, 스핀 수송, 자성 등의 다

유정우

_Jungwoo Yoo

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 501-4 Lab : Bldg. 102 Rm. 504 Tel : +82-52-217-2330 E-mail : jwyoo@unist.ac.kr http://jwyoo.unist.ac.kr

양한 물성에 대한 전기적 신호 검출과 소자 응용에 관심을 두고 연구하고 있습니다.

Major research field Nanomechanics, Gold, Device Encapsulation. Spintronics, NanoNanoporous spin transport, Spin logic,Reliability, Spin charge conversion, Magnetism in hybrid materials, Spin thermoelectrics, 2D electronics 스핀 트로닉스, 나노 스핀 수송, 스핀 로직, 스핀 전하 변환, 하이브리드 소재의 자성 특성, 스핀 열전, 2D 전자

Research Keywords and Topics • Spintronics, Spin transport in low dimensional system, Spin charge conversion, Spin logic, 2D electronics, Magnetism in hybrid materials, Spin thermoelectrics 스핀트로닉스, 저차원계에서의 스핀수송, 스핀전하 변환, 스핀로직, 2D 전자소자, 하이브리드 자 성, 스핀열전

Research Publications (selected) • Nature Communications / A scalable molecule-based magnetic thin film for spinthermoelectric energy conversion / Inseon Oh, Jungmin Park, Daeseong Choe, Junhyeon Jo, Hyeonjung Jeong, Mi-Jin Jin, Younghun Jo, Joonki Suh, Byoung-Chul Min, Jung-Woo Yoo / 2021-02 • Nature Communications / Gate-tunable giant nonreciprocal charge transport in noncentrosymmetric oxide interfaces / Daeseong Choe, Mi-Jin Jin, Shin-Ik Kim, Hyung-Jin Choi, Junhyeon Jo, Inseon Oh, Jungmin Park, Hosub Jin, Hyun Cheol Koo, Byoung-Chul Min, Seokmin Hong, Hyun-Woo Lee, Seung-Hyub Baek, Jung-Woo Yoo / 2019-10 • Nano Letters / Nonlocal Spin Diffusion Driven by Giant Spin Hall Effect at Oxide Heterointerfaces / M.-J. Jin, S.Y. Moon, J. Park, V. Modepalli, J. Jo, S.-I. Kim, H.C. Koo, B.-C. Min, H.-W. Lee, S.-H. Baek, J.-W. Yoo / 2017-01 • Nature Materials / Spin injection/detection via an organic-based magnetic semiconductor / Jung-Woo Yoo, C.-Y. Chen, H. W. Jang, C. W. Bark, V. N. Prigodin, C. B. Eom, A. J. Epstein / 2010-07

Curriculum Vitae · 2021 - Present : Professor, School of Materials Science and Engineering, UNIST · 2016 - 2021 : Associate Professor, School of Materials Science and Engineering, UNIST · 2011 - 2015 : Assistant Professor, School of Materials Science and Engineering, UNIST · 2007 - 2011 : Postdoctoral Fellow, Physics, The Ohio State University

Academic Credential · 2007 : Ph.D., Physics, The Ohio State University · 2000 : M.S., Physics, Sungkyunkwan University · 1998 : B.S., Physics, Sungkyunkwan University

Awards/Honors/Memberships · 2019 UNIST 우수교원 · Korean Physical Society · Korean Mangetic Society · American Physical Society

Patents (selected) • [국내] 그래핀 표면 AU CLUSTER 도핑을 바탕으로한 스핀전류 발생 / 유정우, 박정민, 진미진, 조준 현, 오인선 / 2018-12

College of Engineering

Department of Materials Science and Engineering

The focus of our research group is the intersection of the fields of spintronics and organic/molecular electronics with exploiting low-dimensional systems, metal-organic hybrid materials, and interfaces. Within this umbrella we are pursuing projects involving electrical studies of spin scattering, spin transport, and magnetic interactions in nanoscale hybrid structures with developing new hybrid materials with desired magnetic and electronic properties, films from low dimensional systems to multi-layers, and novel hybrid hetero-structures.

Nano Semiconductor Research Laboratory 반도체 나노소자 연구실

윤태식

_Tae-Sik Yoon

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.102 Rm.401-3 Tel : +82-52-217-2464 E-mail : tsyoon@unist.ac.kr https://jstsyoon.wixsite.com/nsrl

Nano Semiconductor Research Laboratory(NSRL) performs the research on semiconductor materials, processes, and devices, particularly next generation semiconductor devices including artificial synaptic devices for brain-inspired neuromorphic computing system, mem-computing devices, and nonvolatile memory devices, which are supported by National Research Foundation of Korea and Samsung Research Funding & Incubation Center for Future Technology. 반도체 나노소자 연구실(NSRL) 은 반도체 재료, 공정, 소자 연구 를 수행하는 연구실로서, 현재 한 국연구재단과 삼성미래기술육성 사업의 지원을 받아 차세대 반도 체 소자로서 뉴로모픽 시스템의 인공 시냅스 소자, 멤컴퓨팅 소자,

Curriculum Vitae

비휘발성 메모리 소자 연구를 수

· 2021 - Present : Professor, UNIST · 2017 - 2020 : Professor, Myongji University · 2012 - 2016 : Associate Professor, Myongji University · 2007 - 2011 : Assistant Professor, Myongji University · 2007 : Senior Researcher, Memory Division, Samsung Electronics Co. Ltd. · 2004 - 2006 : Postdoctoral researcher, UCLA · 2002 - 2004 : Postdoctoral researcher, Seoul National University

행하고 있습니다.

Academic Credential · 2002 : Ph.D. Materials Science and Engineering, Seoul National University · 1998 : M.S. Metallurgical Engineering, Seoul National University · 1996 : B.S. Metallurgical Engineering, Seoul National University

Awards/Honors/Memberships · 2020 : Commendation from Minister of Ministry of Science and ICT for the contribution to semiconductor technology development · 2021 - 2022 : International Editorial Board Member of Materials Science in Semiconductor Processing (ELSEVIER) · 2017 : Best Poster Award from Materials Research Society (MRS) Fall Meeting, USA · Member of Materials Research Society · Member of Electrochemical Society · Member of The Korean Institute of Metals and Materials

Major research field Semiconductor materials and devices, Nonvolatile memory, Neuromorphic devices, Thin-film transistors 반도체 재료 및 소자, 비휘발성 메모리, 뉴로모픽 소자, 박막 트랜지스터

Desired field of research Semiconductor materials and devices 반도체 재료 및 소자

Research Keywords and Topics • Semiconductor materials and devices, Nonvolatile memory, Thin-film transistors, Neuromorphic devices 반도체 재료 및 소자, 비휘발성 메모리, 박막트랜지스터, 뉴로모픽 소자

Research Publications (selected) • Advanced Electronic Materials / Nonvolatile memory and artificial synaptic characteristics in thin-film transistors with atomic layer deposited HfOx gate insulator and ZnO channel layer / Hyerin Lee, Keonwon Beom, Minju Kim, Chi Jung Kang, and Tae-Sik Yoon / 2020-08 • APL Materials / A Pt/ITO/CeO2/Pt memristor with an analog, linear, symmetric, and long-term stable synaptic weight modulation / Hyung Jun Kim, Minju Kim, Keonwon Beom, Hyerin Lee, Chi Jung Kang, and Tae-Sik Yoon / 2019-07 • Journal of Alloys and Compounds / Reversible capacitance changes in the MOS capacitor with an ITO/CeO2/p-Si structure / Daehoon Park, Minju Kim, Keonwon Beom, Seong-Yong Cho, Chi Jung Kang, and Tae-Sik Yoon / 2019-05

Patents (selected) • 아날로그 멤리스터 및 멤캐패시터 특성을 갖는 전자소자와 그 제조방법 / 윤태식, 노영준 / 등록번 호 : 10-1803740 / 2017-11

• 이중 게이트를 이용한 시냅틱 트랜지스터 소자 / 윤태식, 박종성 / 등록번호 : 10-1785949 / 2017-10

Creative Laboratory for Advanced Spin Systems(CLASS) 자성재료연구실

이기석

_ Ki-Suk Lee

Department of Materials Science and Engineering Ulsan National Institute of Science and Office : Bldg. 102 Rm. 401-5 Lab : Bldg. 102 Rm. 703 Tel : +82-52-217-2336 E-mail : kisuk@unist.ac.kr http://class.unist.ac.kr

본 연구실은 나노구조체에서의 스핀의 동적 거동에 대한 기초적 이해와 이를 이용한 스핀트로닉 소 자에 관한 연구를 하고 있습니다. 특히, 스핀을 이용한 새로운 개념의 지능형 반도체 소재 소자 개발 과 더불어 다체계 계산을 기반으로 하는 희토류 없는 영구자석 신소재 개발에 목표를 두고 있습니다.

Curriculum Vitae · 2017 - Present : Associate Professor, UNIST · 2012 - 2017 : Assistant Professor, UNIST · 2010 - 2012 : Postdoctoral Fellow, Seoul National University

Major research field Magnetism, spintronics, spin dynamics, magnetic solitons, rare-earth free magnet

Academic Credential

Research Keywords and Topics

· 2010 : Ph. D. Material Science & Engineering, Seoul National University · 2003 : B. S. Material Science & Engineering, Seoul National University

• Rare-earth (free) magnetic materials

Awards/Honors/Memberships

자성, 스핀트로닉스, 스핀 동역학, 자성 솔리톤, 탈 희토류 자석

탈 희토류 자석

• Spin caloritronics 스핀 열전 소자

• Spintronic devices: magnetic random access memory, magnetic logic devices 스핀트로닉 소자: 자성 메모리, 자성 논리 소자

• Magnetic solitons and their topological properties 자성 솔리톤의 위상기하학적 특성

Research Publications (selected) • NATURE COMMUNICATIONS / Dynamics of the Bloch point in an asymmetric permalloy disk / Im, Mi-Young; Han, Hee-Sung; Jung, Min-Seung; Yu, Young-Sang; Lee, Sooseok; Yoon, Seongsoo; Chao, Weilun; Fischer, Peter; Hong, Jung-Il; Lee, KiSuk / 2019-02 • NPG ASIA MATERIALS / Simultaneous control of magnetic topologies for reconfigurable vortex arrays / Im, Mi-Young; Fischer, Peter; Han, Hee-Sung; Vogel, Andreas; Jung, Min-Seung; Chao, Weilun; Yu, Young-Sang; Meier, Guido; Hong, JungIl; Lee, Ki-Suk / 2017-02 • NATURE COMMUNICATIONS / Stochastic formation of magnetic vortex structures in asymmetric disks triggered by chaotic dynamics / Im, Mi-Young; Lee, Ki-Suk; Vogel, Andreas; Hong, Jung-Il; Meier, Guido; Fischer, Peter / 2014-12

· 2016 : AUMS Young Research Award by the Asian Union of Magnetic Societies · 2008 : BK 21 Young Brain by Korea Research Foundation · 2007 : Best 10th Joint MMM/Intermag Conference Poster Presentation from AIP & The Magnetics Society of the IEEE · 2005, 2006, 2008, 2009, 2010 : Best Graduate Student Award by Department of Materials Science & Engineering, Seoul National University · 2004 : Best Poster Award by the Korean Physics Society · 2009 : Best Poster Award by the Korean Magnetics Society

Patents (selected) • 미국 / 스커미온 다이오드 및 그 제조 방법 / 이기석, 정대한, 한희성, 김남규 / 2019-12 • 대한민국 / 플렉서블 복합 소자 및 그 제조방법과 그를 이용하여 제조된 열전 디바이스 / 2019-12

College of Engineering

Department of Materials Science and Engineering

We focus on the spin dynamics in patterned magnetic nanomaterials and its applications to spintronic devices. Our research aims at exploring the fundamental understandings of new concepts in spintronic devices by harnessing a “spin”, quantum states of an electron and its dynamics. Particular interests are concerned with the development of new information processing technology to break through the energy dissipation limit of current charge-based logic devices as well as the development of innovative materials for the rare-earth free permanent magnet based on the multi-scale numerical calculations.

Multidimensional Structural Materials Lab 다차원 구조재료 연구실

이석빈

_Sukbin Lee

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.102 Rm.701-7 Lab : Bldg.102 Rm.702 Tel : +82-52-217-2412 E-mail : sukbinlee@unist.ac.kr https://sites.google.com/site/smleelab/

Curriculum Vitae · 2019 : Associate Professor, MSE, UNIST · 2012 : Assistant Professor, MAME, UNIST · 2010 - 2011 : Postdoctoral Fellow, Materials Science and Engineering, CARNEGIE MELLON UNIVERISTY, Pittsburgh, PA, USA · 2009 - 2010 : Postdoctoral Fellow, School of Materials Engineering, PURDUE UNIVERISTY, West Lafayette, IN, USA · 2008 - 2009 : Postdoctoral Fellow, Materials Science and Engineering, CARNEGIE MELLON UNIVERISTY, Pittsburgh, PA, USA

Academic Credential · 2008 : Ph D Materials Science and Engineering, CARNEGIE MELLON UNIVERISTY, Pittsburgh, PA, USA · 2003 : M.S. Materials Science and Engineering & M.S. Information Systems Management CARNEGIE MELLON UNIVERISTY, Pittsburgh, PA, USA · 1999 : B.S. Metallurgical Science and Engineering, HANYANG UNIVERSITY, Seoul, KOREA

Awards/Honors/Memberships · 2008 : Krivobok Award, Visualization of 3D microstructure of a Nickel superalloy, Carnegie Mellon University · 2007 : Young Scientist Award, The 3rd International Conference on Recrystallization and Grain Growth (Rex & GG), Jeju, Korea

For many years, experiments and computer modeling methods have been significantly used for characterizing the microstructures of mesoscopic materials in order to study their relationship to desired properties and in order to optimize the materials design and performance. In fact, many problems related to the properties of materials, such as corrosion, fatigue crack formation, fracture, mechanical responses, piezoelectric responses, and etc, are three-dimensional in nature because most practical mesoscopic materials have a polycrystalline or multi-phase structure with significant complexity in the spatial arrangement of the microstructural units (for example, spatial and size distributions of grains and particles, grain boundary and interphase boundary character/energy distributions, orientation texture, and etc.). This is especially true for metallic and ceramic structural and functional materials, since they are subject to various processes (for example, rolling, extrusion, tempering, sintering and etc) before commercializing. Therefore, it is of great interest to characterize microstructural parameters and to reveal their effects on the properties of the materials in three dimensions for studying microstructure-property relationships.

Major research field Computational materials science, Microstructure-property relationship, Microstructural characterization

Desired field of research Microstructural evolution, characterization and property relationship study using computational/experimental methods, Data analytics, Structural metals, ceramics and composites, Developing new computational methods

Research Keywords and Topics • Mesoscopic microstructology • Coupled simulation of working and coarsening of metallic materials • Grain boundary character-energy relation • Multiscale micromagnetics vs. microstructure • Simulation of grain growth and sintering • Data analytics on mechanical fields distribution in composites • Abnormal grain growth in electrical steel • Multiscale simulation for heat-current transport in perovskite LED device • Evolution and characterization of bicontinuous system • Mesoscopic microstructural characterization of Li+ ion battery cathode particles

Research Publications (selected) • JOURNAL OF THE EUROPEAN CERAMIC SOCIETY / A two-dimensional Monte Carlo model for pore densification in a bi-crystal via grain boundary diffusion: Effect of diffusion rate, initial pore distance, temperature, boundary energy and number of pores / Son, Youngkyun; Chung, Hyesoo Belinda; Lee, Sukbin / 2020-07 • SCRIPTA MATERIALIA / A three-dimensional Monte Carlo model for coarsening kinetics of the bi-continuous system via surface diffusion and its application to nanoporous gold / Son, Gaeun; Son, Youngkyun; Jeon, Hansol; Kim, Ju-Young; Lee, Sukbin / 2020-01 • MODELLING AND SIMULATION IN MATERIALS SCIENCE AND ENGINEERING / Three-dimensional digital approximations of grain boundary networks in polycrystals / Lee, Sukbin; Rohrer, G.S.; Rollett, A.D. / 2014-03

Atomic-Scale Electron Microscopy Lab 원자스케일 전자현미경 연구실

우리 연구는 원자 수준에서 새로운 소재의 분석, 디자인 및 합성에 집중하고 있으면, 또한 수차보정 투과전자현미경 및 분광법을 사용하여 이차원 재료, 탄소 재료 및 연성 소재를 포함한 첨단 재료들 의 구조, 물성, 화학 연구에 중점을 두고 있습니다. 더 나아가 원자 수준과 나노 수준의 고분해능에서 실시간 전자현미경 실험의 구현을 위한 연구를 진행하고 있습니다.

Major research field

Desired field of research

Advanced TEM/STEM/EELS, In Situ TEM Study, Graphene, 2D Materials, Carbon Materials, Low-Dimensional Crystals, Nanostructured Materials

Atomic-Scale In Situ TEM/STEM Study, New Carbon Materials, Low-Dimensional Materials

첨단 TEM/STEM/EELS, 현장 TEM 연구, 그래핀, 2D 재료, 탄소 재료, 저차원 결정, 나노구조 재료

원자 수준 실시간 TEM/STEM 실험 및 분석 연구, 새로운 나노 탄소 재료, 저차원 재료

Research Keywords and Topics • Exploring 2D Crystals and its Hybrid: Graphene, hBN, TMDs, and Brand-new etc. 새로운 이차원 소재와 하이브리드 소재의 탐구

• Carbon Nano Materials 카본 나노 소재

• Defect Formation of 2D Materials and its Applications 이차원 소재의 결함 및 응용

• In Situ TEM (environmental TEM) Study at Nano and Atomic Scale 원자수준 실시간 투과전자현미경 실험 연구 (수차보정 TEM 기반)

• Imaging and Spectroscopy Study for Carbon Materials and Soft Matter 탄소 및 연성 소재의 이미징 및 분광 연구

• Deformation Mechanism of Low-Dimensional Materials 저차원 소재의 변형 기구

Research Publications (selected) • ADVANCED SCIENCE / Antiphase Boundaries as Faceted Metallic Wires in 2D Transition Metal Dichalcogenides / Kim, Jung Hwa; Kim, Se-Yang; Park, Sung O.; Jung, Gwan Yeong; Song, Seunguk; Sohn, Ahrum; Kim, Sang-Woo; Kwak, Sang Kyu; Kwon, SoonYong; Lee, Zonghoon / 2020-06 • NATURE / Ultralow-dielectric-constant Amorphous Boron Nitride/ Hong, Seokmo; Lee, Chang-Seok; Lee, Min-Hyun; Lee, Yeongdong; Ma, Kyung Yeol; Kim, Gwangwoo; Yoon, Seong In; Ihm, Kyuwook; Kim, Ki-Jeong; Shin, Tae Joo; Kim, Sang Won; Jeon, EunChae; Jeon, Hansol; Kim, Ju-Young; Lee, Hyung-Ik; Lee, Zonghoon; Antidormi, Aleandro; Roche, Stephan; Chhowalla, Manish; Shin, Hyeon-Jin; Shin, Hyeon Suk / 2020-06 • SCIENCE ADVANCES / One-dimensional Hexagonal Boron Nitride Conducting Channel / Park, Hyo Ju; Cha, Janghwan; Choi, Min; Kim, Jung Hwa; Tay, Roland Yingjie; Teo, Edwin Hang Tong; Park, Noejung; Hong, Suklyun; Lee, Zonghoon / 2020-03 • NATURE NANOTECHNOLOGY / Chemically Induced Transformation of CVD-grown Bilayer Graphene into Fluorinated Single Layer Diamond / Bakharev, Pavel V.; Saxena, Manav; Lee, Suk Woo; Huang, Ming; Dong, Jichen; Joo, Se Hun; Park, Sung O; Camacho, Dulce; Jin, Sunghwan; Kwon, Youngwoo; Kwak, Sang Kyu; Ding, Feng; Lee, Zonghoon; Ruoff, Rodney S. / 2020-01 • NANO LETTERS / Double-Spiral Hexagonal Boron Nitride and Shear Strained Coalescence Boundary / Park, Hyo Ju; Tay, Roland Yingjie; Wang, Xiao; Zhao, Wen; Kim, Jung Hwa; Ruoff, Rodney S.; Ding, Feng; Teo, Edwin Hang Tong; Lee, Zonghoon / 2019-07

이종훈

_Zonghoon Lee

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 501-5 Lab : Bldg. 102 Rm. 507 Tel : +82-52-217-2327 E-mail : zhlee@unist.ac.kr http://ASEMLab.org/

Curriculum Vitae · 2019 - Present : Group Leader, Center for Multidimensional Carbon Materials (CMCM), IBS (Institute for Basic Science) · 2014 - 2018 : Head, School of MSE, UNIST · 2011 - Present : Professor (Full, Associate & Assistant), UNIST · 2006 - 2010 : Senior Staff Member · 2005 - 2006 : Postdoctoral Scientist Fellow, National Center for Electron Microscopy, Lawrence Berkeley National Lab · 2004 : Postdoctoral Researcher, USC · 1992 - 1997 : Researcher, KETI

Academic Credential · 2003 : Ph.D. & M.S. in Materials Science, University of Southern California (USC) · 1990, 1992 : B.S. & M.S., Yonsei University

Awards/Honors/Memberships · Journal Editor-in-Chief : Applied Microscopy (Springer Nature Open) · Editorial Board of Nanomaterials, Scientific Reports · Vice President of Korean Society of Microscopy · 2020 : Special Award, Korean Society of Microscopy · 2013 : Best Paper Award, Korean Society of Microscopy · Member of Korean Microscopy Society · Member of Microscopy Society of America · Member of Microanalysis Society

College of Engineering

Department of Materials Science and Engineering

Our research focuses on atomic-scale characterization, design, and synthesis as well as the properties of advanced materials including 2D materials, carbon materials, and soft matter by means of aberration-corrected transmission electron microscopy and spectroscopy. In situ experiments at both the atomic and nano scales are implemented for our study.

Laboratory of Nanophotonics & Metamaterials (NanoMeta Lab) 나노광학 및 메타물질 실험실

전영철

_Young Chul Jun

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 601-3 Lab : Bldg. 102 Rm. 604 Tel : +82-52-217-2353 E-mail : ycjun@unist.ac.kr https://sites.google.com/site/youngchu ljun/

Over the last few decades, we have witnessed revolutionary developments in photonics technology, such as optical fiber communication, optical disc storage, lasers, LEDs, solar cells, etc. This photonics revolution has brought enormous beneficial impacts to society. More recently, dramatic developments in nanofabrication and numerical modeling techniques have enabled patterning of deep subwavelength photonic nanostructures. Many new opportunities are opening in this field, called nano-optics. These opportunities can lead to dramatic developments in all areas of optical science and technologies. Nano-optics will be a key research field for resolving many critical problems in the 21st century, such as large scale information processing, efficient energy harvesting/conversion, ultra-sensitive environmental sensing, etc. 지난 수십 년 동안 우리는 광섬유 통신, 광학 저장매체, 레이저, LED, 태양 전지 등과 같은 포토닉스 기술의 혁명적인 발전을 목격했습니다. 이 포토닉스 혁명은 사회에 막대한 영향을 가져 왔습니다. 최 근에는 나노팹 및 전산모사 기술의 도약적인 발

Curriculum Vitae

전으로 다양한 광자 나노구조의 설계 및 제작이

· 2019 - Present : Associate Professor, UNIST · 2015 - 2019 : Assistant Professor, UNIST · 2013 - 2015 : Assistant Professor, Department of Physics, Inha University · 2011 - 2013 : Postdoctoral Researcher at Sandia National Laboratories · 2007 - 2010 : Research Assistant at Stanford (PhD Advisor : Prof. Mark Brongersma)

가능해졌습니다. 나노광학이라고 불리는 이 분

Academic Credential · 2005 - 2010 : Stanford University, Ph.D. Applied Physics. · 1997 - 2002 : Korea Advanced Institute of Science and Technology B.S. Physics

Awards/Honors/Memberships · 2005 - 2009 : Samsung Scholarship · 2002 : Science & Technology Ministry Award (University graduation award) · 1996 : 8th (Korea) National Mathematics Competition, Silver medal (High school division) · 1994 : 6th (Korea) National Mathematics Competition, Gold medal (Middle school division)

야에서 많은 새로운 기회가 열리고 있습니다. 이 러한 기회는 과학기술의 모든 영역에 유익한 발 전으로 이어질 수 있습니다. 나노 광학은 대규모 정보 처리, 효율적인 에너지 수확 및 변환, 초고감 도 환경감지 등과 같은 21 세기의 중요한 문제를 해결하기 위한 핵심 연구분야가 될 것입니다.

Major research field Nano-Optics, Plasmonics, Metamaterials, Optical physics and devices, 3D and 4D Printing 나노광학, Plasmonics, Metamaterials, 3D 및 4D 프린팅

Desired field of research Nanofabrication, Nanomaterials 나노 제조, 나노 소재

Research Keywords and Topics • Nanophotonics: Plasmonics and Metamaterials • Optical physics and devices in general • 4D Printing & Programmable materials

Research Publications (selected) • NANOPHOTONICS / Fourier-plane investigation of plasmonic bound states in the continuum and molecular emission coupling / Seo, In Cheol; Kim, Seongheon; Woo, Byung Hun; Chung, Il-Sug; Jun, Young Chul / 2020-09 • OPTICS EXPRESS / Enhancement of sub-bandgap light absorption in perovskite semiconductor films via critical coupling / Woo, Byung Hoon; Seo, In Cheol; Heo, Jungwoo; Yoon, Yung Jin; Kim, Jin Young; Jun, Young Chul / 2019-09 • ADVANCED OPTICAL MATERIALS / Electron-beam-induced nanopatterning of Jaggregate thin films for excitonic and photonic response control / Seo, In Cheol; Woo, Byung Hoon; An, Soo-Chan; Lee, Eunsongyi; Jeong, Hoon Yeub; Lim, Yeonsoo; Jun, Young Chul / 2018-10

Patents (selected) • Korea Patent 10-1968650, “Rotational bistable structure manufactured by a 3D printing and use thereof” / 2019 • US Patent 9086510, “Electrically tunable infrared metamaterial devices” / 2015

Future Semiconductor Technology 미래 반도체 연구실

미래 반도체 연구실은 More Moore와 More Than Moore 관련 원천 기술 연구 그리고 반도체 소재/부품/ 장비 기술 지원 연구를 통한 원천 연구와 개발된 기술의 산업화에 기여하는 것이 목표임 º More Moore - 고유전 소재, 저유전 소재 연구 개발 - 2D 소재를 이용한 반도체 소자의 극한 Scaling 연구 - 적층형 차세대 반도체 소자 연구 º More Than Moore - 차세대 Memristor 소자 연구 - Memristor 기반 AI Chip 연구 º 반도체 소재/부품/장비 기술 지원 - 반도체 소재 국산화 및 원천 기술 지원으로 반도체 산업의 지속 발전에 기여 - Test BED 구축 및 기술 지원

Major research field Semiconductor, Memristor, Artificial intelligence device 반도체, 멤리스터, 인공지능 소자

Desired field of research Semiconductor material/device/design convergence research, Construction of future semiconductor research platform 반도체 소재/소자/설계 융합 연구, 미래 반도체 연구 플랫폼 구축

정홍식

_Hongsik Jeong Department of Materials Science and Engineering

The Future Semiconductor Lab aims to contribute to the industrialization of the developed technology and source research through research on the source technology related to More Moore and More Than Moore, as well as technology support for semiconductor materials/parts/equipment. º More Moore - Research and development of high dielectric materials and low dielectric materials - Research on extreme scaling of semiconductor devices using 2D materials - Research on stacked next-generation semiconductor devices º More Than Moore - Research on next-generation Memristor devices - Research on Memristor-based AI Chip º Semiconductor material/part/equipment technical support - Contribute to the sustainable development of the semiconductor industry by localizing semiconductor materials and supporting original technology - Test bed construction and technical support

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 401-4 Lab : Bldg. 102 Rm. 505 Tel : +82-52-217-2460 E-mail : jeonghs1@unist.ac.kr

Curriculum Vitae · 2019 - Present : 울산과학기술원 신소재공학 교수, 미래 반도체 연구센터장

· 2016 - 2019 : 칭화대(베이징 소재) 전자공학과 교수인공지능 센터 교수

· 2014 - 2016 : 연세대학교 융합기술원 연구 교수

· 1992 - 2014 : 삼성 반도체 DRAM과 신 메모리 개발 임원

Academic Credential · 1992 : 연세대학교 물리학과 박사 · 1987 : 연세대학교 물리학과 석사 · 1985 : 연세대학교 물리학과 학사

Awards/Honors/Memberships · 2005 : 대통령 표창 (신 메모리소자 개발) · IEEE Senior Member

Research Keywords and Topics • Memory device and semiconductor process 메모리 소자 및 반도체 공정

• New memory (STT-MRAM / PCM) research and development 신메모리 (STT-MRAM/ PCM) 연구 및 개발

• AI device and energy efficient computing research AI 소자 및 에너지 효율적 컴퓨팅 연구

Research Publications (selected) • Nature Communications, “Spontaneous sparse learning for PCM-based memristor neural networks”, Dong-Hyeok Lim, Shuang Wu, Rong Zhao, Jung-Hoon Lee, Hongsik Jeong & Luping Shi / 2021-1 • IEEE TRANSACTIONS ON ELECTRON DEVICES, “Exploring Cycle-to-Cycle and Deviceto-Device Variation Tolerance in MLC Storage-Based Neural Network Training”, Lee Jung-Hoon, Jeong Hongsik, Lim Dong-Hyeok, Ma Huimin, Shi Luping / 2019-05 • JOURNAL OF PHYSICS D-APPLIED PHYSICS, “Memristor devices for neural networks”, Jeong Hongsik, Shi Luping / 2019-01

Patents (selected) • Artificial neuron semiconductor element having three-dimensional structure and artificial neuron semiconductor system using same / US10014348B2 / Hongsik Jeong et. al • Variable resistance memory device and a variable resistance memory system including the same / US 9230642B2 / Hongsik Jeong et. al.

College of Engineering

Metal Oxide DEsign Laboratory (MODEL) 금속산화물 디자인 연구실

조승호

_Seungho Cho

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 701-3 Lab : Bldg. 102 Rm. 705-2 Tel : +82-52-217-2320 E-mail : scho@unist.ac.kr http://scho.unist.ac.kr

Our group is interested in metal oxide syntheses and applications. Metal oxides are abundant in nature and exhibit high chemical and thermal stabilities because we are always exposed to oxygen. The feature, high stability, is one of the most important requirements in a wide range of technology areas. In addition, the metal elements are able to form a large diversity of oxides. Furthermore, properties of oxides can be tailored by controlling their growth. Our research goal is to create unprecedentedly useful metal oxide structures for which we investigate in depth growth of metal oxides that is at the heart of emerging technology. ‘Metal Oxide DEsign Laboratory (MODEL)’는 금속 산화 물 합성 및 응용을 연구합니다. 지구에서 물질은 산화제 인 산소에 노출되기 때문에, 금속산화물은 화학적 및 열 적 안정성이 높습니다. 이러한 높은 안정성은 기술 분야 에서 가장 중요한 요구 사항 중 하나입니다. 또한 금속

Curriculum Vitae

원소 종류에 따라 다양한 산화물을 형성할 수 있으며, 산

· 2017 - Present : Assistant Professor, School of Materials Science and Engineering, Ulsan National Institute of Science and Technology (UNIST), Republic of Korea · 2014 - 2017 : Postdoctoral Research Associate, Department of Materials Science and Metallurgy, University of Cambridge, United Kingdom · 2012 - 2013 : Postdoctoral Research Associate, Department of Chemistry, Pohang University of Science and Technology (POSTECH), Republic of Korea

화물의 성장을 제어하여 산화물의 특성을 조절할 수 있

Academic Credential · 2012 : Ph.D. Department of Chemical Engineering, Pohang University of Science and Technology (POSTECH), Republic of Korea · 2008 : M.S. Department of Chemical Engineering, Pohang University of Science and Technology (POSTECH), Republic of Korea · 2006 : B.S. Department of Chemical Engineering, Pohang University of Science and Technology (POSTECH), Republic of Korea

Awards/Honors/Memberships · 2012 : Chang Kun Soo Best Thesis Award, POSTECH (1 of 1 in POSTECH 2012) · 2011 - 2012 : PCE Graduate Fellowship, Department of Chemical Engineering, POSTECH · 2010 - 2012 : Ph.D. Candidate Scholarship, Seoam Scholarship Foundation

습니다. 본 연구실의 연구 최종 목표는 미래 기술들의 핵심 파트로 활용될 수 있는 새로운 금속 산화물 구조체 를 만드는 것입니다.

Major research field

Desired field of research

Metal oxides, syntheses, crystal growth, applications

Photocatalysts, hydrogen generation, supercapacitors, solar fuels

금속 산화물, 합성, 결정 성장, 응용

광촉매, 수소 생성, 슈퍼 커패시터, 태양열 연료

Research Keywords and Topics • Metal oxides, syntheses, crystal growth, growth mechanisms, applications, precursor, metal hydroxides 금속산화물, 합성, 결정성장, 성장기작, 응용, 합성 전구체, 금속수산화물

Research Publications (selected) • ADVANCED ENERGY MATERIALS / Origin of Improved Photoelectrochemical Water Splitting in Mixed Perovskite Oxides / Li, Weiwei; Jiang, Kai; Li, Zhongguo; Gong, Shijing; Hoye, Robert L. Z.; Hu, Zhigao; Song, Yinglin; Tian, Chuanmu; Kim, Jongkyoung; Zhang, Kelvin H. L.; Cho, Seungho; MacManus-Driscoll, Judith L. / 2018-11 • ADVANCED SCIENCE / Nanoporous Films and Nanostructure Arrays Created by Selective Dissolution of Water-Soluble Materials / Kim, Yoon Seo; Song, Jaejung; Hwang, Chihyun; Wang, Xuejing; Wang, Haiyan; MacManus-Driscoll, Judith L.; Song, Hyun-Kon; Cho, Seungho / 2018-11 • ADVANCED FUNCTIONAL MATERIALS / Use of Mesoscopic Host Matrix to Induce Ferrimagnetism in Antiferromagnetic Spinel Oxide / Park, Chaewoon; Wu, Rui; Lu, Ping; Zhao, Hui; Yang, Jinbo; Zhang, Bruce; Li, Weiwei; Yun, Chao; Wang, Haiyan; MacManus-Driscoll, Judith L.; Cho, Seungho / 2018-03

Patents (selected) • Porous structure produced by selective dissolution of water-soluble materials / Seungho Cho / 2021 • Multiple metal oxide and method for manufacturing the same / Seungho Cho, Kwangjin An, Wonsik Jang, and Sinmyung Yoon / 2021

Sustainable Functional Ceramics 친환경 기능성 세라믹스

조욱

_Wook Jo

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 601-4 Lab : Bldg. 102 Rm. 602 Tel : +82-52-217-2347 E-mail : wookjo@unist.ac.kr http://sfc.unist.ac.kr

세라믹 커뮤니티에서 떠오르는 두 가지 키워드는 지속 가능성과 고급 애플리케이션을 위한 맞춤형 기능입니다. 이 고효율 지향적이고 친환경적인 접근 방식은 점점 더 엄격해지는 환경 규제에 적절하 게 대응하는 것입니다. 이 연구에서 가장 큰 도전 중 하나는 가장 유용한 세라믹 재료가

Curriculum Vitae

결국 제거해야하는 명목상 독성 요소를 포함

· 2014 - Present : Associate Professor (UNIST) · 2019 - Present : Executive officer at Korean Sensors Society · 2017 - Present : Head of the JülichUNIST joint Leading Institute for Advanced energy research (JULIA) · 2015 - Present : Executive officer at Korean Ceramic Society · 2014 - Present : Executive officer at Korean Institute of Electrical and Electronic Material Engineers · 2007 - 2013 : Assistant Professor at Institute of Materials Science, Technische Universität Darmstadt

하고 있다는 사실입니다. 우리의 목표는 환경 적 적절성에 따라 실제 적용 가능한 요구 사 항을 충족하기 위해 세라믹 재료의 기능을 가 장 잘 조정하는 것입니다. 이와 함께 우리는 세라믹 산업과 적극적으로 협력하여 병목 문 제를 해결하고 전례 없는 새로운 종류의 재 료를 찾고 있습니다.

Major research field Room temperature multiferroics, next generation MLCC, textured piezoceramics, fundamentals of ferroelectrics, oxide catalysts

Research Keywords and Topics • Lead-free piezoceramics, Multiferroics, Dielectric materials, Electrocatalysts 무연 피에조 세라믹, 다 강성, 유전체 재료, 전기 촉매

Research Publications (selected) • NPG ASIA MATERIALS / Forced electrostriction by constraining polarization switching enhances the electromechanical strain properties of incipient piezoceramics / Ahn, Chang Won; Choi, Gangho; Kim, Ill Won; Lee, Jae-Shin; Wang, Ke; Hwang, Younghun; Jo, Wook / 2017-01 • JOURNAL OF THE KOREAN PHYSICAL SOCIETY / A brief review on relaxor ferroelectrics and selected issues in lead-free relaxors / Ahn, Chang Won; Hong, Chang-Hyo; Choi, Byung-Yul; Kim, Hwang-Phil; Han, Hyoung-Su; Hwang, Younghun; Jo, Wook; Wang, Ke; Li, Jing-Feng; Lee, Jae-Shin; Kim, Ill Won / 2016-06 • JOURNAL OF MATERIOMICS / Lead-free piezoceramics - Where to move on? / Hong, Chang-Hyo; Kim, Hwang-Pill; Choi, Byung-Yul; Han, Hyoung-Su; Son, Jae Sung; Ahn, Chang Won; Jo, Wook / 2016-03

Patents (selected) • PCT/KR2020/005267 : 상경계 유도에 의한 상온 다강 물성 최적화 • 10-2019-0067130 : 고온 극저손실 유전체 • 10-2019-0061961 : 압전 세라믹 소재 성능 향상을 위한 이종 템플릿 입자 배양법

Academic Credential · 2005 : Ph. D. Materials Science & Engineering, Seoul National University · 2003 : M. S. Materials Science & Engineering, Seoul National University · 2001 : B. S. Ceramic Engineering, Yonsei University

Awards/Honors/Memberships · 2018 - Present : Associate Editor at International Journal of Ceramic Science & Engineering · 2018 - Present : Associate Editor at Journal of the Asian Ceramic Society · 2013 - Present : Associate Editor at Journal of the American Ceramic Society · 2012 - Present : Associate Editor at Scientific Reports · 2012 - 2014 : Associate Editor at Journal of Electroceramics · 2018 : Best Paper Award from 2018 Fall Meeting of Korean Physical Society · 2018 : Best Paper Award from KOFST · 2017 : Achievement Award from KIEEME

College of Engineering

Department of Materials Science and Engineering

Two emerging keywords in the ceramic community are sustainability and tailored functionality for advanced applications. This high-efficient-oriented and eco-friendly approach is to respond properly to the environmental regulations getting tougher and tougher. One of the biggest challenges on this quest lies in the fact that most useful ceramic materials contain nominally toxic elements that should be eventually removed. Our goal is to best-tailor the functionality of ceramic materials to meet the requirements for practical applications in accordance with the environmental appropriateness. Alongside this, we are working actively together with ceramic industries to resolve the bottle-neck challenges and also looking for unprecedented new classes of materials with educated creativity.

Intergrative Biomaterials Engineering Lab 생명공학소재연구실

차채녕

_Chaenyung Cha

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 601-1 Lab : Bldg. 102 Rm. 610 Tel : +82-52-217-5328 E-mail : ccha@unist.ac.kr http://ccha.unist.ac.kr

Our mission is to develop state-of-the-art biomaterials based on multi-functional biopolymers and nano- & micro-structures that are innovative and yet also practical for various biomedical applications, such as tissue engineering, drug delivery, and biosensors. To realize our goal, we are using highly interdisciplinary research efforts, encompassing the principles of chemistry, physics, biochemistry, materials science and engineering. We aim to achieve groundbreaking discoveries that can have a huge impact on our lives, and develop the next generation of scientists and engineers. Intergrative Biomaterials Engineering Lab은 다기능 바이오 폴리머와 nano- & micro- 구조, 약물 전 달 및 바이오 센서와 같은 다양한 생체 의학 응용 분야에 혁신적이면서도 실용적인 미세 구조를 연 구하고 있습니다. 우리의 목표를 실현하기 위해 우리는 화학, 물리학, 생화학, 재료 과학 및 공학의 원 리를 포함하는 고도의 학제간 연구에 노력을 기울이고 있습니다. 우리는 우리 삶에 큰 영향을 미칠 수 있는 획기적인 발견을 하고 차세대 과학자 및 엔지니어를 육성하는 것을 목표로 합니다.

Curriculum Vitae · 2019 - Present : Associate Professor, UNIST · 2014 - 2019 : Assistant Professor, School of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST), Korea · 2012 - 2014 : Research Fellow Brigham and Women's Hospital, Harvard Medical School, USA

Academic Credential · 2007 - 2011 : Ph.D. in Chemistry University of Illinois, UrbanaChampaign (UIUC), USA · 2001 - 2007 : B.S. in Chemistry Korea Advanced Institute of Science and Technology (KAIST), Korea

Awards/Honors/Memberships · 2020 - Present : Associate Editor, Macromolecular Research (SCI Journal) · 2020 : PHI BIOMED Young Investigator Award, Korean Society for Biomaterials · 2016 : Best Presentation Award, Materials Research Society of Korea Spring Meeting · 2015 : Young Scientist Award, Young Scientist Forum at Chinese Biomaterials Congress · 2010 - 2011 : Harry G. Drickamer Graduate Fellowship, Department of Chemistry, UIUC

Major research field

Desired field of research

Biomaterials, Biotechnology, Bioprinting

Eco-friendly materials

생체소재, 생명공학, 바이오프린팅

친환경소재

Research Keywords and Topics • Biopolymer, Biomaterials, Tissue Engineering, Drug Delivery, Microfabrication, Biomechanics, Bioprinting 생체 고분자, 생체 재료, 조직 공학, 약물 전달, 미세 가공, 생체 역학, 바이오 프린팅

Research Publications (selected) • BIOMATERIALS / Synergistic control of mechanics and microarchitecture of 3D bioactive hydrogel platform to promote the regenerative potential of engineered hepatic tissue / Kim, Suntae; Park, Myung Rae; Choi, Cholong; Kim, Jeong Beom; Cha, Chaenyung / 2021-03 • BIOFABRICATION / Enhanced mechanical and electrical properties of heteroscaled hydrogels infused with aqueous-dispersible hybrid nanofibers / Kim, Suntae; Cha, Chaenyung / 2020-01 • ADVANCED FUNCTIONAL MATERIALS / Complex Tuning of Physical Properties of Hyperbranched Polyglycerol‐Based Bioink for Microfabrication of Cell‐Laden Hydrogels / Hong, Jisu; Shin, Yoonkyung; Kim, Suntae; Lee, Jiseok; Cha, Chaenyung / 2019-03

Research Publications (selected) • 폴리아스팔트아미드 가교제 및 이의 제조 방법(Polyaspartamide cross-linking agent and method of producing the same) / C. Cha, J. Jang / Reg. NO #10-2008809 / 2019 • 이중 이온가교된 상호침투 네트워크형 알지네이트-셀룰로오스 비드 및 이의 제조방법(Dual ionic crosslinked interpenetrating network (IPN) of alginate-cellulose beads) / C. Cha, K. Lee, J. Hong / Reg. NO #10-1929293 / 2018

PnC Laboratory 고분자나노복합소재 및 탄소섬유 연구실

채한기

_Hangi Chae

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 701-9 Lab : Bldg. 102 Rm. 609 Tel : +82-52-217-2325 E-mail : hgchae@unist.ac.kr https://pncmember.wixsite.com/pnc-lab

PnC lab의 주요 연구분야는 나노탄소(탄소나노튜브, 그래핀 등)와 다양한 나노필러 등을 이용하여 높은 기계적물성과 기능성을 가지는 고분자나노복합소재를 개발하고 극한환경에서 이용할 수 있 는 기계적물성을 가지는 차세대 탄소섬유를 개발하는데 초점이 있다. 나노복합소재 물성향상은 단 순하게 나노필러를 포함시키는 방법이 아닌 나노필러와 계면의 고분자 간에 상호작용을 화학적/물 리적 방법을 이용하여 최대한 도출하여 새로운 특성을 가지는 소재를 개발하고자 한다. 또한 기계

Curriculum Vitae

적 물성의 향상 외에도 기능성 소재를 개발, 에너지 전환/저장 소재 분야로 연구를 확장해 나가고

· 2015 - Present : Associate Professor in Materials Science and Engineering, Ulsan National Institute of Science and Technology · 2011 - 2014 : Senior Research Engineer in Materials Science and Engineering, Georgia Institute of Technology · 2008 - 2010 : Vice president of Nano Engineered Materials Corporation · 2008 - 2010 : Post-doctoral fellow in Materials Science and Engineering, Georgia Institute of Technology · 2001 - 2003 : Researcher in Polymer Hybrid Research Center, KIST

있다.

Major research field Polymer nanocomposites, Carbon fiber, Polymer processing 고분자 나노 복합재, 탄소 섬유, 고분자 가공

Desired field of research Materials for extreme environment, energy conversion, energy storage 극한 환경용 물질, 에너지 변환 물질, 에너지 저장용 재료

Research Keywords and Topics • Polymer nanocomposites, Carbon fiber, structural materials, functional materials, extreme environment, energy conversion, energy storage, Hydrogen evolution 고분자나노복합소재, 탄소섬유, 구조재료, 기능성 재료, 극한환경, 에너지 전환, 에너지 저장, 수소 발생

Academic Credential

Research Publications (selected) • JOURNAL OF POWER SOURCES / Structure-dependent sodium ion storage mechanism of cellulose nanocrystal-based carbon anodes for highly efficient and stable batteries / Kim, Yea Eun; Yeom, Su Jeong; Lee, Jung-Eun; Kang, Sujin; Kang, Haisu; Lee, Ga-Hyeun; Kim, Min Jeong; Lee, Seung Geol; Lee, Hyun-Wook; Chae, Han Gi / 2020-08 • Carbon / Structure evolution mechanism of highly ordered graphite during carbonization of cellulose nanocrystals / Eom, Youngho; Son, Sung Min; Kim, Yea Eun; Lee, Jung-Eun; Hwang, Sang-Ha; Chae, Han Gi / 2019-09 • JOURNAL OF MATERIALS CHEMISTRY A / Sewing machine stitching of polyvinylidene fluoride fibers : programmable textile patterns for wearable triboelectric sensors / Shin, Young-Eun; Lee, Jeong-Eun; Park, Yoojeong; Hwang, Sang-Ha; Chae, Han Gi; Ko, Hyunhyub / 2018-12

· 2003 - 2008 : Ph.D. in Polymer Engineering, Georgia Institute of Technology · 1999 - 2001 : M.S. in Polymer, Textile and Fiber Engineering, Hanyang University · 1992 - 1999 : B.S. in Polymer, Textile and Fiber Engineering, Hanyang University

Patents (selected) • [국내] 금속촉매가 담지된 탄소섬유의 제조방법 및 이에 의해 제조된 수전해 전극 제조용 탄소섬유 / 채한기, 백종범, 김석진, 이가현, 이정은 / 2020-04

• [국내] 그래핀 산화물을 포함하는 폴리비닐리덴 플루오라이드 나노섬유의 제조방법 및 이를 이용 한 스마트 섬유의 제조방법 / 채한기, 고현협, 이정은, 엄영호, 황상하, 신영은 / 2020-02

College of Engineering

Department of Materials Science and Engineering

Polymer Nano-composites and Carbon fiber (PnC) lab focus its attention on understanding nano- and/or micro-structure of polymer-based nano-composite materials and manipulating them to tailor and enhance the resulting material properties. In addition, we are actively working on development of next generation Carbon Fiber based on the thorough comprehension of aforementioned polymer-based materials. The interdisciplinary research topic of our laboratory includes polymer chemistry, physics, and processing. Our specialty on carbonaceous material may also contributes to various research fields such as extreme environment structural materials, energy storage, energy conversion, sensing, etc.

Energy Conversion Materials Lab (EcoLab) 에너지변환재료연구실

최경진

_Kyoungjin Choi

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 501-10 Lab : Bldg. 102 Rm. 502 E-mail : choi@unist.ac.kr http://choi.units.ac.kr

For the survival of human civilization, carbon neutrality is a problem facing humanity as a whole, not just a specific individual, company, city, or country. The Republic of Korea also actively participated in the global trend and declared the 2050 carbon neutral plan. The realization of carbon neutrality in 2050 is possible through the use of electricity and hydrogen energy, energy efficiency improvement using digital technology, construction of a circular economy, absorption of natural and ecological carbon, and CCUS. In addition, it is very important to increase the utilization of hydrogen energy while converting carbon into a resource using electricity produced by renewable energy technology. At Ecolab, we are actively conducting research on next-generation solar cells, thermoelectric generators, and electrocatalysts for water decomposition and carbon resources in order to take the lead to achieve the carbon neutrality. 인류문명의 생존을 위해서 탄소중립성은 어느 특정한 개인, 기업, 도시, 국가만이 아닌 인류전체가 당면한 문제이다. 대한민국도 세계적 흐름에 적극 동참하여 2050 탄소중립 계획을 천명하였다.

Curriculum Vitae

2050 탄소중립 실현은 전기 및 수소에너지의 활용, 디지털 기술을 활용한 에너지 효율 향상, 순환경

· 2012 - Present : Full / Associate Professor, UNIST · 2010 - 2012 : Principal / Senior Scientist, KIST · 2002 - 2006 : Postdoctoral Fellow, UW-Madison / Mater. Sci. Eng. · 2001 - 2002 : Postdoctoral Fellow, POSTECH / Mater. Sci. Eng.

제 구축, 자연·생태 탄소 흡수, CCUS를 통하여 가능하다. 또한 신재생에너지기술로 생산된 전기를 이

Academic Credential

발히 연구를 진행하고 있다.

· 2001 : Ph.D. POSTECH/Mater. Sci. Eng. · 1998 : M.S. POSTECH/Mater. Sci. Eng. · 1996 : B.S. SNU/Inorganic Mater. Sci. Eng.

Awards/Honors/Memberships · 2008 - Present : Editorial board of NANO KOREA and guest editor of J. Nanosci. Nanotechnol. · 2002 - 2006 : Full Post-doc Fellow of University of Wisconsin, Madison · Guest editor of J. Electroceramics · Member of NANO KOREA · Member of Materials Research Society · Member of The Korean Institute of Metals and Materials · Member of The Korean Vacuum Society

용하여 탄소를 자원화함과 동시에 수소에너지의 활용을 증대시키는 것은 매우 중요하다. Ecolab에 서, 탄소중립성 이슈를 선도 적으로 해결하기 위하여 차 세대 태양전지, 열전발전기, 물분해 및 탄소자원화을 위 한 전기촉매 등에 대해서 활

Research Keywords and Topics • Next-generation photovoltaics: perovskite / Si tandem cell, transparent & colorful solar cell 차세대 태양전지 기술: 페로브스카이트/실리콘 텐덤셀, 투명 및 컬러풀 태양전지

• Wearable energy harvest devices: wearable thermoelectric generator, stretchable solar cell 웨어러블 에너지 하베스팅 소자: 웨어러블 열전 발전기, 스트레처블 태양전지

• Electrocatalyst for water splitting and carbon reduction 물분해 및 탄소자원화용 전기촉매

Research Publications (selected) • ADVANCED FUNCTIONAL MATERIALS / Ambipolar Passivated Back Surface Field Layer for Silicon Photovoltaics / 2020-12 • NANO ENERGY / Optimization of device design for low cost and high efficiency planar monolithic perovskite/silicon tandem solar cells / 2019-06 • ENERGY & ENVIRONMENTAL SCIENCE / Two-terminal DSSC/silicon tandem solar cells exceeding 18% efficiency / 2016-12 • ACS NANO / Wafer-Scale Production of Uniform InAsyP1-y Nanowire Array on Silicon for Heterogeneous Integration / 2013-06 • ADVANCED MATERIALS / Phase-Transition Temperatures of Strained Single-Crystal SrRuO3 Thin Films / 2010-02 • SCIENCE / Probing nanoscale ferroelectricity by ultraviolet Raman spectroscopy / 2006-09 • SCIENCE / Enhancement of ferroelectricity in strained BaTiO3 thin films / 2004-11

Nano/Bio Electronics Lab 나노/바이오 전자소자 연구실

본 연구실에서는 양자점, 금속 나노와이어, 페로브스카이트 등 다양한 나노물질의 계면 특성을 개질

최문기

_Moon Kee Choi

Department of Materials Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 701-1 Lab : Bldg. 102 Rm. 709 Tel : +82-52-217-2357 E-mail : mkchoi@unist.ac.kr https://sites.google.com/view/moonke echoigroup

하여 고해상도로 전사/적층하는 기술 개발과 나노 물질 기반의 복합체 형성 기술 개발을 통해 미래 를 선도하는 새로운 폼펙터의 차세대 광전자소자 (LED, photodetector)및 소프트로봇을 개발하고자 합니다. 이를 이용하여 신개념 웨어러블/생체삽입형 전자소자를 개발하고 인류의 삶과 복지를 향상 시키는데 이바지하는 연구를 진행하려 합니다.

Curriculum Vitae · 2019 - Present : Assistant Professor · 2017 - 2019 : Postdoctoral Fellow, Bioengineering, UC Berkeley · 2016 - 2017 : Postdoctoral Fellow, Chemical & Biological Engineering, Seoul Nat'l Univ.

Academic Credential

Major research field Wearable Quantum Dot LEDs, 4D printing, Soft Robotics 웨어러블 퀀텀 닷 LED, 4D 프린팅, 소프트 로봇

Desired field of research Flexible & Stretchable Electronics, Wearable Electronics, Soft Robotics, 4D printing, Self-Healing, Artificial Electronic Organs 유연하고 신축성있는 전자 기기, 웨어러블 전자 기기, 소프트 로봇 공학, 4D 프린팅, 자가 치유, 인공 전자 장기

Research Keywords and Topics • Stretchable electronic device, quantum dot display, wearable, bio-implantable, 4D printing 스트레처블 전자소자, 양자점 디스플레이, 웨어러블, 생체삽입형, 4D 프린팅

Research Publications (selected) • ADVANCED MATERIALS / Extremely Vivid, Highly Transparent, and Ultrathin Quantum Dot Light-Emitting Diodes / Choi, Moon Kee; Yang, Jiwoong; Kim, Dong Chan; Dai, Zhaohe; Kim, Junhee; Seung, Hyojin; Kale, Vinayak S.; Sung, Sae Jin; Park, Chong Rae; Lu, Nanshu; Hyeon, Taeghwan; Kim, Dae-Hyeong / 2018-01 • NATURE COMMUNICATIONS / Human eye-inspired soft optoelectronic device using highdensity MoS2-graphene curved image sensor array / Choi, Changsoon; Choi, Moon Kee; Liu, Siyi; Kim, Min Sung; Park, Ok Kyu; Im, Changkyun; Kim, Jaemin; Qin, Xiaoliang; Lee, Gil Ju; Cho, Kyoung Won; Kim, Myungbin; Joh, Eehyung; Lee, Jongha; Son, Donghee; Kwon, Seung-Hae; Jeon, Noo Li; Song, Young Min; Lu, Nanshu; Kim, Dae-Hyeong / 2017-11 • NATURE COMMUNICATIONS / Wearable red-green-blue quantum dot light-emitting diode array using high-resolution intaglio transfer printing / Choi, Moon Kee; Yang, Jiwoong; Kang, Kwanghun; Kim, Dong Chan; Choi, Changsoon; Park, Chaneui; Kim, Seok Joo; Chae, Sue In; Kim, Tae-Ho; Kim, Ji Hoon; Hyeon, Taeghwan; Kim, Dae-Hyeong / 2015-05

Patents (selected)

· 2016 : Ph. D. School of Chemical & Biological Engineering, Seoul Nat'l Univ. · 2009 - 2010 : Research Engineer, Institute of Chemical Process, Seoul Nat'l Univ. · 2009 : B. S. School of Chemical & Biological Engineering, Seoul Nat'l Univ.

Awards/Honors/Memberships · 2020 : The Miwon Commercial Young Scientist Award · 2016 : KVS Student Grants by 20th International Vacuum Congress · 2016 : The Best Research Award by Seoul Natl Univ. & Dongjin Co. · 2016 : QD 2016 JACS Award by The 9th International Conference on QDs · 2016 : Outstanding Student Award by The Korean Institute of Chemical Engineers · 2014 : KBSI Exhibition Prize for Bioimaging by Korea Basic Science Institute · Member of the Polymer Society of Korea & Korean Institute of Chemical Engineers

• Quantum dot electronic device and quantum dot transfer printing method / 김대형, 현 택환, 최문기, 양지웅, 강광훈 / US Patent (10,026,913) / 2018-09 • Electronic Device for Artificial Eyeball and Artificial Eyeball Comprising the Same / 김 대형, 현택환, 최문기, 최창순 / Korea Patent (10-1978549) / 2019-05

College of Engineering

Department of Materials Science and Engineering

To achieve the soft and stretchable nature in high performance electronics and to apply this technology to wearable biomedical electronics/optoelectronics/soft-robotics, several strategies need to be employed, such as the designed assembly of high-quality nanomaterials and new design of individual devices with deformable structures. We seek to develop novel nanocomposites and their printing technologies by controlling their interfacial properties to achieve multidimensional form factors and deformability while maintaining the unique optical/electrical/mechanical properties of each nanomaterial. We want to develop high performance wearable/implantable electronic devices and soft robots to improve human life and well-being.

School of Energy and Chemical Engineering 에너지화학공학과

Smart Materials for Energy Lab 스마트 에너지재료 연구실

본 연구실에서는 저차원 (low-dimensional) 물질의 기본적인 전기 적 이해를 바탕으로 혁신적인 리

강석주

_Seokju Kang

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 701-2 Lab : Bldg. 113 Rm. 308 Tel : +82-52-217-3021 E-mail : sjkang@unist.ac.kr http://seokjukang.wix.com/smel

튬(소듐)-산소 배터리와 차세대 유 연 메모리를 연구하고 있습니다. 구체적인 연구는 (1) 금속-산소 배 터리, (2) 카본 양극물질 개발, (3) 금속 dendrite 성장 억제 (4) 나노

Curriculum Vitae

기공 분리막 개발입니다. 본 연구

· 2019 - Present : Associate Professor · 2015 - 2019 : Assistant Professor, School of Energy and Chemical Engineering, UNIST, Ulsan, Korea · 2014 - 2015 : Assistant Professor, Materials Science and Engineering, Hanbat National University, Daejeon, Korea · 2012 - 2014 : Post-doc, IBM Almaden Research Center, San Jose, CA · 2010 - 2012 : Post-doc, Chemistry Department, Columbia University, New York, NY

실은 궁극적으로 재료의 구조를 이해하고 산업적으로 필요한 유용 한 에너지 소재 및 소자를 개발하 는 것을 목표로 합니다.

Major research field Metal-Gas batteries, Seawater battery 금속-가스 배터리, 해수 배터리

Desired field of research Low dimensional materials, Flexible electronics 저차원 물질, 유연소자

Research Keywords and Topics

Academic Credential

• Metal-Gas batteries, Seawater battery, Li-ion battery, Low dimensional materials, Flexible electronics

· 2010 : Ph.D. Materials Science and Engineering, Yonsei University, Seoul, Korea · 2005 : B.S. Metallurgical Engineering, Yonsei University, Seoul, Korea

금속-가스 배터리, 해수전지, 리튬-이온 배터리, 저차원물질, 유연소자

• NANO ENERGY / Co-solvent induced piezoelectric γ-phase nylon-11 separator for sodium metal battery / TNguyen Dien Kha Tu; Park, Jaehyun; Na, Sangyun; Kim, Kwang Min; Kwon, Tae-Hyuk; Ko, Hyunhyub; Kang, Seok Ju / 2020-04 • NATURE COMMUNICATIONS / Synergistic effect of quinary molten salts and Ruthenium catalyst for high-power-density Lithium-carbon dioxide cell / Synergistic effect of quinary molten salts and Ruthenium catalyst for high-power-density Lithiumcarbon dioxide cell / 2020-01 • ADVANCED FUNCTIONAL MATERIALS / Organic Semiconductor Cocrystal for Highly Conductive Lithium Host Electrode / Park, Jaehyun; Joo, Se Hun; Kim, Yoon-Jeong; Park, Ju Hyun; Kwak, Sang Kyu; Ahn, Seokhoon; Kang, Seok Ju / 2019-08

Research Publications (selected)

Awards/Honors/Memberships · 2006 - Present : Materials Research Society · 2009 - Present : American Physical Society · 2005 - Present : The polymer Society of Korea

Patents (selected) • Solid-state materials formed of molecular clusters and method of forming same / Colin Nuckolls, Michael Louis Steigerwald, Xavier Roy, Philip Kim, Chulho Lee, Seok Ju Kang, US / Patent number: 985628 / 2018-01 • Lithium oxygen battery and electrolyte composition / Seok J Kang, Bryan D McCloskey, Takashi Mori, Satoru Narizuka, Gregory M Wallraff / US / Application number: 15486957 / 2017-08

College of Engineering

School of Energy and Chemical Engineering

Our research group is interested in the overlap between fundamentals of soft and low dimensional materials and applied studies of energy storage and flexible thin-film devices such as a metal-oxygen battery, memory, and solar cells. We design and fabricate smart electronic devices by using modern state-of-the-art techniques and advancing the new materials system. The research is being carried out on low dimensional and functional organic and inorganic materials.

Functional Nanomaterials & Devices 기능성 나노소재 및 소자 연구실

고현협

_Hyunhyub Ko

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.104 Rm. 601-3 Lab : Bldg.104 Rm. 610 Tel : +82-52-217-2532 E-mail : hyunhko@unist.ac.kr http://hko.unist.ac.kr/

Curriculum Vitae · 2010 - Present : Assistant, Associate, Full Professor, School of Energy and Chemical Engineering, Ulsan National Institute of Science and Technology (UNIST), Ulsan, Republic of Korea · 2008 - 2010 : Postdoctoral Scholar, Electrical Engineering & Computer Sciences, UC Berkeley, Berkeley, CA · 2001 - 2002 : Research Engineer Chemical Research Center, Hyosung Corporation, Anyang, South Korea

Our research interests are centered on the development of functional nanomaterials and devices based on the assembly of organic/inorganic materials into micro- and nanostructures. We are interested in exploiting the fabrication strategies combining “bottom-up” assembly and “top-down” lithography to hierarchically organize organic and inorganic nanomaterials on multiple length scales. For the solution-based “bottom-up” assembly of nanomaterials (carbon nanotubes, graphenes, nanowires, nanoparticles, etc.), we engineer the surface properties of nanomaterials and substrates for the controlled molecular interactions between nanomaterials, solvents, and substrates. For the “top-down” lithography, we exploit various unconventional lithography methods (soft-lithography, colloids assembly, polymer self-assembly, etc.) in addition to the conventional photolithography and e-beam lithography. By controlling the surface chemistry of nanomaterials and physical confinement of lithographic templates, we understand the principles of nanomaterials assembly and find exact strategies for the specific design of hierarchical structures. We also seek to understand the fundamental physical properties of individual nanomaterials and the collective behavior of the organized micro- and nanostructures, which is central to the rational development of functional devices. Ultimately, we intend to use these microand nanostructures in electronics, optics, sensors, and biomedical devices.

Major research field Metal-Gas batteries, Seawater battery Polymers, Nanomaterials 금속-가스 배터리, 해수 배터리 고분자, 나노 물질

Academic Credential · 2008 : Ph.D., Materials Science and Engineering, Georgia Institute of Technology, Atlanta, GA · 2004 : M.S., Materials Science and Engineering, Iowa State University, Ames, IA · 2001 : M.S., Chemical Engineering, Yonsei University, Seoul, South Korea · 1999 : B.S., Chemical Engineering, Chung-Ang University, Seoul, South Korea

Awards/Honors/Memberships · 2018 : Rising-Star Distinguished Professor, UNIST · 2013 : UNIST commendation, UNIST · 2011 : NRF Excellent Young Investigator Award, Ministry of Education of Science and Technology (MEST) · 2004 : MSE Graduate Research Excellence Award (Best thesis award in MSE dept.), Iowa State University, IA · 2002 : Research Excellence Award, Hyosung Corporation, Anyang, South Korea

Desired field of research Flexible sensors, Wearable Low dimensional materials, devices, Flexible Bioinspired materials, Smart materials electronics 플렉서블 센서, 웨어러블 기기, 바이오 영감 소재, 저차원 물질, 유연소자 스마트 소재

Research Keywords and Topics • Functional nanomaterials : hybrid structures of polymers and nanomaterials (metallic and semiconducting nanoparticles, nanotubes, nanowires, graphenes, 2D materials, etc) • Flexible and wearable electronic devices : electronic skin sensors, flexible/stretchable electrodes, transistors, and diodes • Bio-inspired materials : functional micro/nanomaterials micking the multifunctinal micro/nanostructures of biological systems • Smart materials : stimuli (light, pressure, pH, temperature, etc) responsive materials

Research Publications (selected) • SCIENCE ADVANCES / Soft and ion-conducting hydrogel artificial tongue for astringency perception / Yeom, Jeonghee; Choe, Ayoung; Lim, Seongdong; Lee, Youngsu; Na, Sangyun; Ko, Hyunhyub / 2020-06 • SCIENCE ADVANCES / Transparent and conductive nanomembranes with orthogonal silver nanowire arrays for skin-attachable loudspeakers and microphones / Kang, Saewon; Cho, Seungse; Shanker, Ravi; Lee, Hochan; Park, Jonghwa; Um, DooSeung; Lee, Youngoh; Ko, Hyunhyub / 2018-08 • SCIENCE ADVANCES / Fingertip skin-inspired microstructured ferroelectric skins discriminate static/dynamic pressure and temperature stimuli / Park, Jonghwa; Kim, Marie; Lee, Youngoh; Lee, Heon Sang; Ko, Hyunhyub / 2015-10

Patents (selected) • 강유전성 복합 소재 기반 인공 전자 피부 / 고현협, 박종화, 이헌상 / 2015-09 • 은나노와이어 기반의 고효율 투명전극 제조장치 및 투명전극 제조방법 / 고현협 / 2015-06

Kyu's MolSim Lab Kyu’s 분자 모델링 및 전산모사 연구실

곽상규

_Sangkyu Kwak

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.104 Rm. 601-4 Lab : Bldg.104 Rm. 607 Tel : +82-52-217-2936 E-mail : skkwak@unist.ac.kr http://home.unist.ac.kr/professor/skkw ak/index.html

Curriculum Vitae

Major research field 다차원 분자모델링 및 전산모사, 밀도범함수이론, 분자동역학, 중규모 전산모사, 연속체 전산모사, 열역학, 통계역학

Desired field of research 탄소재료, 촉매, 전지 전분야, 환경 및 에너지, 바이오재료 및 암치료

Research Keywords and Topics • Energy & Environment / Battery and electronic materials, C1 refinery, CO2 capture & sequestration 에너지 & 환경 / 전지 및 전자 재료, C1 리파이너리, CO2 포집 및 처리

• Materials / Multi-dimensional carbon, Catalytic materials , Localized Surface Plasmon 재료 / 다차원 탄소, 촉매 재료, 국소 표면 플라즈몬

• Bio / Antibody-Receptor Modeling, Virus-Cancer Cell Modeling, Drug Delivery System 바이오 / 항체-수용체 모델링, 바이러스-암세포 모델링, 약물 전달체

Research Publications (selected) • ADVANCED ENERGY MATERIALS / An Antiaging Electrolyte Additive for High‐ Energy‐Density Lithium‐Ion Batteries / Han, Jung-Gu; Hwang, Chihyun; Kim, Su Hwan; Park, Chanhyun; Kim, Jonghak; Jung, Gwan Yeong; Baek, Kyungeun; Chae, Sujong; Kang, Seok Ju; Cho, Jaephil; Kwak, Sang Kyu; Song, Hyun-Kon; Choi, Nam-Soon / 2020-05 • ADVANCED ENERGY MATERIALS / Cyclic Aminosilane‐Based Additive Ensuring Stable Electrode-Electrolyte Interfaces in Li‐Ion Batteries / Kim, Koeun; Hwang, Daeyeon; Kim, Saehun; Park, Sung O; Cha, Hyungyeon; Lee, Yoon-Sung; Cho, Jaephil; Kwak, Sang Kyu; Choi, Nam-Soon / 2020-04 • NATURE NANOTECHNOLOGY / Chemically induced transformation of chemical vapour deposition grown bilayer graphene into fluorinated single-layer diamond / Bakharev, Pavel V.; Huang, Ming; Saxena, Manav; Lee, Suk Woo; Joo, Se Hun; Park, Sung O; Dong, Jichen; Camacho-Mojica, Dulce C,; Jin, Sunghwan; Kwon, Youngwoo; Biswal, Mandakini; Ding, Feng; Kwak, Sang Kyu; Lee, Zonghoon; Ruoff, Rodney S. / 2020-01

Patents (selected)

· 2020 - Present : Professor, UNIST · 2018 - 2019 : Dean of Student Affairs and Admissions · 2014 - 2020 : Associate Professor, UNIST · 2012 - 2018 : HOD of Chemical Engineering Department, UNIST · 2012 - 2014 : Assistant Professor, UNIST · 2005 - 2011 : Assistant Professor, School of Chemical and Biomedical Engineering, Nanyang Technological University (NTU), Singapore

Academic Credential · 2005 : Ph.D. Department of Chemical and Biological Engineering, University at Buffalo, SUNY Buffalo · 1999 : B.S. Department of Chemical and Biological Engineering, University at Buffalo, SUNY Buffalo

Awards/Honors/Memberships · Member of Korean Institute of Chemical Engineers (KIChE) · Member of American Chemical Society (ACS) · Member of American Institute of Chemical Engineers (AIChE) · Members of Tau Beta Phi and Golden Key Honor Societies · 2012 : UNIST Awards, Excellence in Teaching · 2009 : Nanyang Awards, Excellence in Teaching · 1999 : Presidential Fellowship Award from SUNY Buffalo · 1999 : AlliedSignal Inc. Award

• 금속이 함침된 탄소계열 물질 및 그의 제조방법 / 김영식, 고우석, 박정선, 곽상규 / 2018-10 • 양극성 첨가제를 이용한 중질유 전환 방법 / 조정모, 이철위, 박선영, 정진환, 박철우, 곽상규 / 2017-11

College of Engineering

School of Energy and Chemical Engineering

Advances in molecular modeling and simulation have made great impacts on almost all research fields due to their well-defined ability to describe atomistic behaviors representing macroscopic phenomena. Increase of the computer technology complementarily fulfills its implementations further into the topics that have never been dreamed to work on 30 some years ago; nano-and biomaterials and their related systems. As artificial exploration into atomistic world became possible via simulation approaches developed over last decades, the research trend, which has been experiment-orientated, turns to greet the collaborative effort with computational study. The principal investigator has prepared for the advent of this trend, and targets and works on various interesting topics.

Molecular Catalysis Laboratory 분자촉매 연구실

곽자훈

_Jahun Kwak

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 801-3 Lab : Bldg. 104 Rm. 810 Tel : +82-52-217-2552 E-mail : jhkwak@unist.ac.kr

My general research interests are in the synthesis and characterization of supported metal/metal oxide catalysts. Particular interests are focused on novel synthesis methods for the precise control of the chemical properties of heterogeneous catalytic materials including morphology and corresponding catalytic properties. I utilize a wide array of chemical and spectroscopic characterization techniques of the prepared catalyst materials. Combining catalysts with both physical and chemical characterization can bring us closer to designing new, highly active and selective catalytic materials. 우리 연구실은 금속이나 금속산화물 촉매의 합성과 특성분석에 대한 연구를 진행하고 있다. 특히 촉 매의 화학적 특성이나 구조를 조절하여 촉매 활성에 미치는 영향을 알아내고자 하고있다. 다양한 물 리화학적, 분광학적 특성분석과 촉매의 반응 특성을 분자수준에서 이해하고 새로운 촉매개발을 위 한 기반을 마련하는 연구를 수행하고 있다.

Curriculum Vitae · 2013 - Present : Associate Professor, UNIST · 2005 - 2013 : Scientist, Senior Scientist I and II, PNNL, WA, USA · 2002 - 2004 : Post Doc. PNNL, WA, USA · 1996 - 2002 : Senior Scientist, LG Chem · 1987 - 1991 : Scientist, KOLON

Academic Credential · 1993 - 1996 : Ph.D. Physical Chemistry, KAIST · 1991 - 1993 : M. S. Physical Chemistry, KAIST · 1983 - 1987 : B.S. Chemistry, SNU

Major research field heterogeneous catalysis, supported single atom catalysis, molecular catalysis

Awards/Honors/Memberships

Research Keywords and Topics

· Member of Korean Chemical Engineering Society · Member of North American Catalysis Society · Member of American Chemical Society

• Heterogeneous Catalysis, Alumina, Zeolite, Emission control, Supported single atom catalysis, Molecular catalysis

Research Publications (selected) • JOURNAL OF CATALYSIS / Morphology and size of Pt on Al2O3 : The role of specific metal-support interactions between Pt and Al2O3 / Lee, Jaekyoung; Jang, Eun Jeong; Oh, Dong Gun; Szanyi, Janos; Kwak, Ja Hun / 2020-05 • JOURNAL OF CATALYSIS / Excellent activity and selectivity of Cu-SSZ-13 in the selective catalytic reduction of NOx with NH3 / Kwak, Jahun; Tonkyn, Russell G.; Kim, Do Heui; Szanyi, Janos; Peden, Charles H. F. / 2010-10 • SCIENCE / Coordinatively Unsaturated Al3+ Centers as Binding Sites for Active Catalyst Phases of Platinum on gamma-Al2O3 / Kwak, Jahun; Hu, Jianzhi; Mei, Donghai; Yi, Cheol-Woo; Kim, Do Heui; Peden, Charles H. F.; Allard, Lawrence F.; Szanyi, Janos / 2009-09

Patents (selected) • Biocatalytic Material Comprising Multilayer Enzyme Coated Fiber / Jungbae Kim, Ja Hun Kwak, Jay W. Grate / USP 7,611,878 issued / 2009-11 • Continuous method for preparing aromatic carbonate using a heterogeneous catalyst and a reaction apparatus for the same / Woo-Gon Woo, Ja Hun Kwak, Moo-Ho Hong, Mi-Jeung Hong / USP 7,417,161 issued / 2008-08

Electrochemistry Lab for Energy and Environment 에너지 및 환경 전기화학 실험실

미래의 지속가능한 에너지 및 환경을 위해 청정에너지인 수소를 에너지원으로 개발하는 연구가 세 계적으로 큰 관심을 받고 있으며, 특히 탄소 및 질소를 수소 매개체로 활용한 전기화학적 촉매전환 시스템 개발연구가 활발히 진행되고 있습니다. 본 연구실에서는 탄소 및 질소 매개 수소에너지의 전

권영국

_Youngkook Kwon

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-13 Lab : Bldg. 108 Rm. 603 Tel : +82-52-217-1467 E-mail : ykwon@unist.ac.kr http://elee.unist.ac.kr/

기화학적 전환 시스템 개발을 위해 1) 높은 활성 및 선택성의 촉매와 전해질 개발, 2) 원자수준에서부 터 대규모의 전기화학 전극 및 시스템 개발, 3) 반응중간체 및 최종 생성물의 실시간 모니

Curriculum Vitae

터링 기술 개발에 집

· 2019 - Present : UNIST, Assistant Professor · 2016 - 2019 : Korea Research Institute of Chemical Technology (KRICT), Senior Researcher · 2013 - 2016 : Lawrence Berkeley National Laboratory (LBNL), Joint Center for Artificial Photosynthesis (JCAP), Post-Doc Researcher (advisor : Prof. Alexis T. Bell)

중하고 있습니다.

Major research field Electrocatalysis (전기화학 촉매반응), H2 Cycle (수소 생산, 저장, 활용), CO2-to-Fuels (이산화탄소 연료화), N2/NOx Conversion (질소화합물 고부가화), in-situ Analysis (실시간 분석기술)

Desired field of research Low dimensional materials, Flexible electronics Biomass Valorisation (바이오매스 활용),

저차원 물질, 유연소자 Seawater Electrolysis (바닷물 전해)

Research Keywords and Topics • Electrocatalysis for CO2 reduction 이산화탄소 전기화학적 환원

• Electrocatalytic NxOy conversion to valuable chemicals (i.e. ammonia) 전기화학 촉매반응 활용 질소화합물 전환 및 고부가화

Academic Credential · 2013 : Ph.D. Chemistry, Leiden University (advisor : Prof. Marc T.M. Koper) · 2009 : M.S. Environmental Engineering, Gwangju Institute of Science and Technology · 2005 : B.S. Environmental Engineering, Kwangwoon University

• In-situ IR, Raman, DEMS, online GC, HPLC, IC analysis 실시간 분석기술 활용 반응 중간체와 생성물 분석을 통한 반응 메커니즘 연구

Research Publications (selected) • ACS Energy Letters / Unveiling Electrode-Electrolyte Design-Based NO Reduction for NH3 Synthesis / Kim, Dong Yeon; Shin, Dongyup; Heo, Juheon; Lim, Hyungseob; Lim, Jung-Ae; Jeong, Hyung Mo; Kim, Beom-Sik; Heo, Iljeong; Oh, Inhwan; Lee, Boreum; Sharma, Monika; Lim, Hankwon; Kim, Hyungjun; Kwon, Youngkook / 2020-11 • ACS Energy Letters / Electric Field Mediated Selectivity Switching of Electrochemical CO2 Reduction from Formate to CO on Carbon Supported Sn / Lee, Mi-Young; Ringe, Stefan; Kim, Hyungjun; Kang, Seoktae; Kwon, Youngkook / 2020-09 • Adv. Energy Mater / Influence of atomic-scale spacing between copper facets on the electrochemical reduction of carbon dioxide / Kwon et al. / 2020-03

Patents (selected) • 원자-스케일 채널을 포함하는 입자, 이의 제조방법, 및 이를 포함하는 촉매 / 권영국 외 3인 / 한국

Awards/Honors/Memberships · 2018 : Miwon Young Scientist Award, The Korean Society of Industrial and Engineering Chemistry · 2016 : Marie Sklodowska‐Curie Individual Fellowships (IF‐EF) · 2014 : ISE Travel Award for Young Electrochemists, ISE · 2013 : Nominee for the Best PhD Thesis of the Year, Leiden University · Member of International Society of Electrochemistry (ISE), The Electrochemical Society (ECS), American Chemical Society (ACS), American Institute of Chemical Engineers (AIChE) 외 다수 국내학회

10-2035215 (2019) / 미국 10,760,005 (2020)

• 전기화학 촉매반응을 이용한 알도오스의 키톤으로의 전환방법 / 권영국 외 4인 / 한국10-1904356 (2018), PCT/KR2017/008277

College of Engineering

School of Energy and Chemical Engineering

Electrocatalytic hydrogen cycle with carbon and nitrogen resources is of emerging interest for renewable energy and environment. ELEE focuses on developing efficient and high-performing electrocatalysis system for carbon and nitrogen mediated hydrogen cycle via 1) designing reactive and selective electrocatalysts and electrolytes, 2) fabricating atomic- to large-scale electrode and system, and 3) developing on-line analytical techniques to identify reaction intermediates and products.

gunslab 건즈랩

김건태

_Guntae Kim

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 501-2 Lab : Bldg. 112 Rm. 310 Tel : +82-52-217-2917 E-mail : gtkim@unist.ac.kr http://gunslab.unist.ac.kr/

There is an ever-increasing demand for energy conversion & storage devices as the hydrogen becomes more important in energy source of future. guns lab investigates various devices from high temperature to low temperature such as solid oxide fuel cells, solid oxide electrolyzer, oxygen membrane reactor, direct carbon fuel cells, proton conducting oxides, dry reforming of methane, stream reforming of methane, water electrolysis, metal-air batteries, polymer electrolyte membrane fuel cells, metal-CO2 battery, ammonia synthesis via standard state Haber-Bosch process, and ammonia electrolysis based on the studies of perovskite-type material.

Curriculum Vitae · 2018 - Present : Professor, School of Energy and Chemical Engineering,UNIST, Ulsan, Korea · 2013 - 2018 : Associate Professor, School of Energy and Chemical Engineering, UNIST, Ulsan, Korea · 2009 - 2013 : Assistant Professor, School of Energy and Chemical Engineering, UNIST, Ulsan, Korea · 2007 - 2009 : Postdoctoral fellow, University of Pennsylvania(Prof. Raymond J. Gorte) · 2005 - 2007 : Postdoctoral fellow, University of Houston, (Prof. Allan J.Jacobson)

Academic Credential · 2005 - 2007 : Postdoctoral fellow, Department of Chemistry, University of Houston, (Prof. Allan J. Jacobson) · 2001 - 2005 : Ph. D., Chemistry, University of Houston, TX, US (Prof. Allan J. Jacobson) · 1998 - 2000 : M. S., Industrial Chemistry, Kyungpook National University, Daegu, Korea (Prof. M.H. Lee) · 1991 - 1995 : B. S., Industrial Chemistry, Kyungpook National University, Daegu, Korea

Awards/Honors/Memberships · 2020 : Minister of Science and ICT, Minister’s Award · 2019 : Outstanding Faculty Awards in UNIST · 2015 : Best 50 research award of Ministry of Education, Ministry of Education

Major research field solid oxide fuel cells, solid oxide Metal-Gas batteries, Seawater battery electrolyzer, oxygen membrane reactor, 금속-가스 배터리, 해수 배터리 direct carbon fuel cells, proton conducting oxides, dry reforming of methan

Desired field of research Low dimensional Flexible Metal-CO Optimizations for energy 2 battery,materials, electronics and storage system using artificial conversion intelligence 저차원 물질,methods, 유연소자 and ammonia synthesis via standard state Haber-Bosch process

Research Keywords and Topics solid oxide fuel cells, solid oxide electrolyzer, oxygen membrane reactor, direct carbon fuel cells, proton conducting oxides, dry reforming of methane, stream reforming of methane, water electrolysis, metal-air batteries, polymer electrolyte membrane fuel cells, metal-CO2 battery, ammonia synthesis via standard state Haber-Bosch process, and ammonia electrolysis. A. 고온구동(500-1000 oC)용 장치 고체산화물 연료전지, 고체 산화물 수전해장치, 산소 막 반응기, 직접 탄소 연료전지 및 양성자 전 도 산화물 기반 연료전지 및 수전해 장치, 메탄 습/건식 개질 B. 저온구동(25-70 oC)용 장치 금속 공기전지, 금속 이산화탄소 전지, 고분자 전해질 막 연료전지, 상온 하버보슈법을 이용한 암 모니아 합성, 암모니아 전기분해

Research Publications (selected) • ANGEWANDTE CHEMIE-INTERNATIONAL EDITION / Highly Efficient CO2 Utilization via Aqueous Zinc- or Aluminum-CO2 Systems for Hydrogen Gas Evolution and Electricity Production / Kim, Changmin; Kim, Jeongwon; Joo, Sangwook; Yang, Yejin; Shin, Jeeyoung; Liu, Meilin; Cho, Jaephil; Kim, Guntae / 2019-07 • NATURE COMMUNICATIONS / Cation-swapped homogeneous nanoparticles in perovskite oxides for high power density / Joo, Sangwook; Kwon, Ohhun; Kim, Kyeounghak; Kim, Seona; Kim, Hyunmin; Shin, Jeeyoung; Jeong, Hu Young; Sengodan, Sivaprakash; Han, Jeong Woo; Kim, Guntae / 2019-02 • NATURE MATERIALS / Layered oxygen-deficient double perovskite as an efficient and stable anode for direct hydrocarbon solid oxide fuel cells / Sengoda, Sivaprakash; Choi, Sihyuk; Jun, Areum; Shin, Tae Ho; Ju, Young-Wan; Jeong, Hu Young; Kim, Jeeyoung; Irvine, John T. S.; Kim, Guntae / 2015-02

Patents (selected) • SECONDARY BATTERY USING CARBON DIOXIDE AND COMPLEX ELECTRIC POWER GENERATION SYSTEM HAVING THE SAME / Guntae Kim, Changmin Kim, and Jeongwon Kim / application number : 10-2019-0019810 • Power generation system utilizing carbon dioxide / Guntae Kim, Changmin Kim, and Jeongwon Kim / 2018 (application number : PCT/KR2019/002896)

Systems Biology and Machine Learning Lab 시스템 생물학 머신러닝 실험실

시스템 생물학 및 머신러닝 실험실은 시스템 생물학과 머신러닝 기법을 이용해 산업용 균주와 병원 성 미생물을 포함한 다양한 박테리아에 대해 연구합니다. 차세대염기서열분석법(NGS)를 이용한 실 험과 컴퓨터 계산을 이용한 in silico 시뮬레이션을 이용해 박테리아의 유전체와 전사체를 연구하고, 대량의 데이터의 복잡도를 낮추기 위해 머신러닝 기법을 적용하고 있습니다. 최근에는, 박테리아에

_Donghyuk Kim

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.104 Rm. 401-1 Lab : Bldg.108 Rm. 306 Tel : +82-52-217-2945 E-mail : dkim@unist.ac.kr https://sites.google.com/view/systems kimlab

Curriculum Vitae · 2020 - Present : 울산과학기술원 에너지화학공학과 부교수

· 2018 - 2020 : 울산과학기술원 에너지및화학공학부 조교수

· 2016 - 2018 : 경희대학교 유전공학과 조교수

Academic Credential

Major research field 시스템생물학, 머신러닝, 대사공학

Desired field of research 시스템생물학, 머신러닝, 대사공학

· 2014 - 2016 : University of California San Diego, Bioengineering, 포스닥연구원 · 2008 - 2014 : University of California San Diego, Bioengineering, 박사 · 1998 - 2006 : 서울대학교, 컴퓨터공학과/ 생명과학부, 학사

Research Keywords and Topics • Transcriptional regulation of industrial and pathogenic bacteria • Characterization of high-value bacterial strains • Anti-microbial resistance • Machine learning approaches for bio/chemical information

Research Publications (selected) • Proceedings of the National Academy of Sciences of the United States of America / Functional cooperation of the glycine synthase-reductase and Wood-Ljungdahl pathways for autotrophic growth of Clostridium drakei / Song, Yoseb; Lee, Jin Soo; Shin, Jongoh; Lee, Gyu Min; Jin, Sangrak; Kang, Seulgi; Lee, Jung-Kul; Kim, Dong Rip; Lee, Eun Yeol; Kim, Sun Chang; Cho, Suhyung; Kim, Donghyuk; Cho, ByungKwan / 2020-03 • METABOLIC ENGINEERING / Genome-scale evaluation of core one-carbon metabolism in gammaproteobacterial methanotrophs grown on methane and methanol / Nguyen, Anh Duc; Park, Joon Young; Hwang, In Yeub; Hamilton, Richard; Kalyuzhnaya, Marina G.; Kim, Donghyuk; Lee, Eun Yeol / 2020-01 • NUCLEIC ACIDS RESEARCH / Systematic discovery of uncharacterized transcription factors in Escherichia coli K-12 MG1655 / Gao, Ye; Yurkovich, James T.; Seo, Sang Woo; Kabimoldayev, Ilyas; Draeger, Andreas; Chen, Ke; Sastry, Anand V.; Fang, Xin; Mih, Nathan; Yang, Laurence; Eichner, Johannes; Cho, Byung-Kwan; Kim, Donghyuk; Palsson, Bernhard O. / 2018-11

College of Engineering

School of Energy and Chemical Engineering

서 영역을 확대해 더 복잡한 생명체와 무기화학물질에 머신러닝 기법을 적용하는 시도를 하고 있습 니다.

김동혁

YK Research 와이케이 리서치

김영식

_Youngsik Kim

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 113 Rm. 102 Lab : Bldg. 113 Rm. 106~107 Tel : +82-52-217-2921 E-mail : ykim@unist.ac.kr http://www.ykimresearch.com/

We are interested in developing novel materials and designing devices for energy conversion and storage applications; SeaWater battery (SWB), SWB-Desalination system, SWBH2 production, SWB-CO2 capture system, Disinfection-Neutralization Battery system. 우리는 에너지 변환 및 저장 시스템에 적용하기 위해서, 신소재를 개발하고 디바이스를 디자인하는 것에 초점을 맞추어 연구하고 있습니다. 해수전지, 해수전지 기반 해수 자원화 기술 (해수담수, 해수 수소, 해수 탄소포집, 살균중화)

Seawater Resource Technology System

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2019 - Present : Director, Seawater Resource Technology Center · 2015 - Present : CEO, 4ToOne · 2015 - 2020 : Associate Professor, UNIST · 2013 - 2015 : Assistant Professor, UNIST · 2010 - 2013 : Assistant Professor, Mechanical Engineering, Indiana University Purdue University Indianapolis (IUPUI), USA · 2006 - 2010 : Postdoctoral fellow, Texas Materials Institute, The University of Texas at Austin, USA · 2001 - 2006 : Graduate Assistant, Materials Science and Engineering, Iowa State University, USA

Academic Credential · 2006 : Ph. D. Materials Science and Engineering, Iowa State University · 2003 : M. S. Materials Science and Engineering, Iowa State University · 2000 : B. S. Materials Engineering , SungKyunKwan University

태 양

해 수

에너지 저장 담수생산 미네랄축적 CO2 포집

해수를 에너지 변환 매개로 이용하여 전기저장, 해수생산, 살균작용, 수소생산, CO2 포집 동시 가능한 일체형 통합 시스템 개발

Major research field

Desired field of research

solid oxide fuel cells, solidelectrolytes oxide Ionic conducting ceramic Metal-Gas batteries, Seawater battery electrolyzer, oxygen (membranes), Energymembrane conversionreactor, and 금속-가스 배터리, 해수 배터리 direct carbon fuel and cells,devices proton conducting storage materials oxides, dry세라믹 reforming of (멤브레인), methan 에너지 이온 전도성 전해질

Low dimensional materials, Flexible solid oxide fuel cells, solid oxide Desalination, Sterilization, Hydrogen electronics oxygen electrolyzer, membrane reactor, production direct carbon fuel cells, proton conducting 저차원 물질, 유연소자 oxides,살균, dry 수소생산 reforming of methan 담수화,

변환 및 저장 소재와 장치

Research Keywords and Topics • Synthesis and application for ionic conducting ceramic electrolytes (membranes) 이온 전도성 세라믹 전해질 (멤브레인) 합성 및 응용

• Energy conversion/storage materials - Inorganic solid-state materials, Transition-metal compounds 에너지 변환 및 저장 소재 - 무기 고상 재료, 전이 금속 화합물

• Energy conversion/storage systems - Seawater battery, Li harvesting system, Liquid metal battery, Solid state battery 에너지 변환 및 저장 시스템 - 해수 전지, 리튬 추출 시스템, 액체 금속 전지, 고체 전지

Awards/Honors/Memberships

Research Publications (selected)

· 2021 : 13대 기술이사, 한국해양환경 에너

• JOURNAL OF MATERIALS CHEMISTRY A / Emergence of rechargeable seawater batteries / Senthilkumar, S. T.; Go, Wooseok; Han, Jinhyup; Pham Thi Thuy, Linh; Kishor, Koshal; Kim, Yongil; Kim, Youngsik / 2019-10 • ADVANCED MATERIALS / Rechargeable Seawater Batteries-From Concept to Applications / Hwang, Soo Min; Park, Jeong-Sun; Kim, Yongil; Go, Wooseok; Han, Jinhyup; Kim, Youngjin; Kim, Youngsik / 2019-05 • CHEMISTRY OF MATERIALS / Challenges for Rechargeable Li Batteries / Goodenough, John B.; Kim, Youngsik / 2010-02

지학회

· 2020 : 문무대왕 해양과학 대상 · 2019 : Ministerial Citation, Minister of Science and ICT · 2007 : Norbert J. Kreidl Award, The American Ceramic Society · 2006 : Research Excellence Award, Iowa State University

Patents (selected) • Ceramic-laminate welding apparatus for seawater battery cell / KO 10-1957395 / 2019 • Coin cell Type seawater battery and its manufacturing method / KO 10-1675481 / 2016

Enzyme and Protein Engineering Lab 효소단백질공학연구실

Major research field C1 gas conversion, Lignin conversion, Cosmetics application

Desired field of research Enzyme sequence and function relationship, How to increase activity of enzyme?

Research Keywords and Topics • C1 gas (CO2, CO) enzymatic conversion Production of formate from CO and CO2 using enzymes • Lignin refinery Lignin de-polymerization enzyme development and production of value added aromatics from lignin • Application of enzymes for cosmetics Whitening cosmetics using melanin decolorizing enzyme

Research Publications (selected) • CHEMICAL ENGINEERING JOURNAL / Two-stage bioconversion of carbon monoxide to biopolymers via formate as an intermediate / Hwang, Ho Won; Yoon, Jihee; Min, Kyoungseon; Kim, Min-Sik; Kim, Seung-Jin; Cho, Dae Haeng; Susila, Hadiyati; Na, Jeong-Geol; Oh, Min-Kyu; Kim, Yong Hwan / 2020-06 • NATURE COMMUNICATIONS / Unassisted solar lignin valorisation using a compartmented photo-electro-biochemical cell / Ko, Myohwa; Pham, Le Thanh Mai; Sa, Young Jin; Woo, Jinwoo; Nguyen, Trang Vu Thien; Kim, Jae Hyung; Oh, Dongrak; Sharma, Pankaj; Ryu, Jungki; Shin, Tae Joo; Joo, Sang Hoon; Kim, Yong Hwan; Jang, Ji-Wook / 2019-11 • INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES / Recombinant lignin peroxidase-catalyzed decolorization of melanin using in-situ generated H2O2 for application in whitening cosmetics / Sung, Ho Jun; Khan, Mohd Faheem; Kim, Yong Hwan / 2019-09

김용환

_Yonghwan Kim

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.104 Rm. 401-3 Lab : Bldg.104 Rm. 405-1,2 Tel : +82-52-217-3068 E-mail : metalkim@unist.ac.kr https://sites.google.com/enzproyh/

Curriculum Vitae · 2016 - Present : Full Professor, UNIST · 2010 - 2016 : Full Professor, Kwangwoon University

Academic Credential · 1996 : Ph.D. Chemical Engineering, Seoul National University · 1993 : M.S. Chemical Engineering, Seoul National University · 1991 : B.S. Chemical Engineering, Seoul National University

Awards/Honors/Memberships · 2018 : National Excellent Research Award 100 · 2015 : Best Research Award of Kwangwoon University · 2015 : Best Project Award of Kwangwoon University · 2014 : BBE Journal Award (KSBB) · 2014 : Best Paper Award (KOFST) · 2011 : Best Project Award of Kwangwoon University

Patents (selected) • CO hydratase and method for producing formate using the same / Yong Hwan Kim / US Pat. 10,240,170 B2 • CO hydratase and method for producing formate using the same / Yong Hwan Kim / EU Pat. 17,722,365.8

College of Engineering

School of Energy and Chemical Engineering

Enzyme, a kind of specialized protein is biocatalyst to accelerate the reaction in living Biosystems by reducing the required activation energy barrier. Without enzymes, any cellular Biosystems cannot sustain its life system anymore. The acceleration of reaction and specificity of enzymes seems almost miracle since reaction rate can be increased up to billion times higher. Nowadays enzymes can be applied for not only living Biosystems but also chemical industries. Very mild reaction conditions such as room temperature, aqueous phase is enough for the synthesis of many kinds of value-added compounds such as pharmaceuticals, cosmetic ingredients and even bulk chemicals by employing enzymes as biocatalysts. However, even though enzymes seem miracle-like, its stability and reaction characteristics may be not optimized to be utilized for the chemical process. Our lab is actively trying to engineer these enzymes to be more optimized and superior biocatalysts capable of converting raw material to value-added compounds through rational and 3D structure-based design of biocatalysts.

Next Generation Energy Lab 차세대 에너지 연구실

김진영

_Jin Young Kim

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 501-4 Lab : Bldg. 104 Rm. 510 Tel : +82-52-217-2911 E-mail : jykim@unist.ac.kr https://ngel.unist.ac.kr

Our main field of research is photovoltaic cells which are based organic, perovskite and quantum dot (QD) that produce the electricity from sunlight and we are also interested in developing hybrid solar cells which combine the advantages of organic materials and inorganic semiconductors. Beyond the solar cells, we are expanding our research interests into next generation (opto)electronic devices such as light-emitting diodes (LED), field effect transistors, and thermoelectrics. NGEL의 주 연구분야는 빛으로부터 전류를 생성하는 유기물, 양자점, 페로브스카이트를 기반으로 하 는 태양전지, 더 나아가 유기물과 무기물의 장점을 융합한 유무기 하이브리드 태양전지 개발 및 소 자 특성 분석에 초점을 두고 있다. 뿐만 아니라 발광소자, FET, 그리고 열전소자 등의 차세대 전자소 자로 연구 분야를 넓혀가고 있다.

Curriculum Vitae · 2016 - Present : UNIST, NGEL, Professor · 2012 - 2016 : UNIST, NGEL, Associate Professor · 2008 - 2012 : UNIST, NGEL, Assistant Professor · 2007 - 2008 : GIST, HCAM, Assistant Research Professor · 2005 - 2007 : UCSB, CPOS (Alan J. Heeger Lab., 2000 Nobel Laureate), Post Doc. Researcher

Major research field Academic Credential · 2005 : Ph.D. Physics, Pusan National University · 2000 : M. S. Physics, Pusan National University · 1998 : B. S. Physics, Pusan National University

Awards/Honors/Memberships · 2018 : Highly Cited Researchers 2018 (Clarivate Analytics) · 2017 : Highly Cited Researchers 2017 (Clarivate Analytics) · 2014 : Award for “Best Scientist of the Month’s” (Minister of MSIP of Korea, 2014. 3) · 2007 : Award for Excellency in Publication in “Science” (Minister of MOST of Korea, 2007)

Polymer solar cells, QD solar cells, organic-inorganic hybrid solar cells

Desired field of research Perovskite solar cells, OLEDs, PeLEDs, organic FETs

Research Keywords and Topics • Polymer solar cells, QD solar cells, organic-inorganic hybrid solar cells, perovskite solar cells, OLEDs, PeLEDs, organic FETs 고분자 태양전지, 양자점 태양전지, 유무기 하이브리드 태양전지, 페로브스카이트 태양전지, 유기 발광소자, 페로브스카이트 발광소자, 유기 트렌지스터

Research Publications (selected) • JOULE / Methylammonium Chloride Induces Intermediate Phase Stabilization for Efficient Perovskite Solar Cells / Kim, Minjin; Kim, Gi-Hwan; Lee, Tae Kyung; Choi, In Woo; Choi, Hye Won; Jo, Yimhyun; Yoon, Yung Jin; Kim, Jae Won; Lee, Jiyun; Huh, Daihong; Lee, Heon; Kwak, Sang Kyu; Kim, Jin Young; Kim, Dong Suk / 2019-09 • ADVANCED MATERIALS / Nanoparticle-Enhanced Silver-Nanowire Plasmonic Electrodes for High-Performance Organic Optoelectronic Devices / Kim, Taehyo; Kang, Saewon; Heo, Jungwoo; Cho, Seungse; Kim, Jae Won; Choe, Ayoung; Walker, Bright; Shanker, Ravi; Ko, Hyunhyub; Kim, Jin Young / 2018-07 • ENERGY & ENVIRONMENTAL SCIENCE / Peroptronic devices: perovskite-based lightemitting solar cells / Kim, Hak-Beom; Yoon, Yung Jin; Jeong, Jaeki; Heo, Jungwoo; Jang, Hyungsu; Seo, Jung Hwa; Walker, Bright; Kim, Jin Young / 2017-09

Patents (selected) • 할로겐화물 페로브스카이트 나노 결정의 음이온 교환방법 / 김진영, 김기환, 윤영진 / 2019-05 • 광전자 소자의 제조 방법 / 고현협, 김태효, 김진영, 강세원 / 2019-03

Bioinspired Functional Materials Lab 생체모방 기능성 신소재 연구실

Our group focuses on the development of functional materials for energy and environments. Especially, we are interested in the design and fabrication of (photo)electrochemical energy conversion and storage devices through the tailored assembly of bioinspired functional components for sustainable production and use of renewable energies.

준에서 정교하게 조립하여 (광)전기 화학적 에너지 변환 및 저장 소자를 설계/제조하고, (3) 이를 통해 궁극적

_Jungki Ryu

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 401-5 Lab : Bldg.104 Rm. 402 Tel : +82-52-217-2564 E-mail : jryu@unist.ac.kr https://www.bioinspired-materials.com/

으로 신재생에너지를 효율적으로 저 장/변환하거나, 다양한 화학물질을 지 속가능/친환경적으로 생산하는 기술 을 개발하고자 한다.

Curriculum Vitae

Major research field energy conversion and storage, artificial photosynthesis, solar-to-chemical conversion, biomimetic catalysis, CO2 utilization, water electrolysis

Research Keywords and Topics • Design of Novel Solar-to-Chemical Energy Conversion(Artificial Photosynthesis) Devices 태양광-화학 에너지 변환 (인공광합성) 소자 설계 및 구현

• Design & Synthesis of Biomimetic Electrocatalysts for Energy Conversion & Storage Devices 에너지 변환 및 저장 소자를 위한 생체모방 전기화학 촉매 설계 및 합성

• Design and Fabrication of Modular Electrochemical & Photoelectrochemical Devices 조립식 전기화학 / 광전기화학 소자 설계 및 구현

Research Publications (selected) • SCIENCE ADVANCES / Superaerophobic hydrogels for enhanced electrochemical and photoelectrochemical hydrogen production / Jeon, Dasom; Park, Jinwoo; Shin, Changhwan; Kim, Hyunwoo; Jang, Ji-Wook; Lee, Dong Woog; Ryu, Jungki / 2020-04 • ACS CATALYSIS / Phosphomolybdic Acid as a Catalyst for Oxidative Valorization of Biomass and Its Application as an Alternative Electron Source / Oh, Hyeonmyeong; Choi, Yuri; Shin, Changhwan; Nguyen, Trang Vu Thien; Han, Yujin; Kim, Hyunwoo; Kim, Yong Hwan; Lee, Jae-Won; Jang, Ji-Wook; Ryu, Jungki / 2020-02 • ACS NANO / Interface Engineering of Hematite with Nacre-like Catalytic Multilayers for Solar Water Oxidation / Choi, Yeongkyu; Jeon, Dasom; Choi, Yuri; Kim, Dongseok; Kim, Nayeong; Gu, Minsu; Bae, Sanghyun; Lee, Taemin; Lee, Hyun-Wook; Kim, Byeong-Su; Ryu, Jungki / 2019-01 • JOURNAL OF CATALYSIS / Cobalt polyoxometalate-derived CoWO4 oxygen-evolving catalysts for efficient electrochemical and photoelectrochemical water oxidation / Han, Yujin; Choi, Keunsu; Oh, Hyeonmyeong; Kim, Chanseok; Jeon, Dason; Lee, Cheolmin; Lee, Jun Hee; Ryu, Jungki / 2018-11 • ACS CATALYSIS / Polyoxometalate as a Nature-Inspired Bifunctional Catalyst for LithiumOxygen Batteries / Lee, Jun-Seo; Lee, Cheolmin; Lee, Jae-Yun; Ryu, Jungki; Ryu, Won-Hee / 2018-08

· 2014 - Present : Assistant and Associate Professor, UNIST · 2011 - 2014 : Post-Doctoral Research Associate, Department of Materials Science and Engineering, MIT · 2011 : Post-Doctoral Research Associate, Department of Materials Science and Engineering, KAIST

Academic Credential · 2011 : Ph.D. Materials Science and Engineering, KAIST · 2007 : M.S. Materials Science and Engineering, KAIST · 2006 : B.S. Materials Science and Engineering, Yonsei University

Patents (selected) • Electrode for Gas Generation, Method for Preparing the Same and Device for Gas Generation Having the Same. Korea Patent Registered (10-2223466)

College of Engineering

School of Energy and Chemical Engineering

본 연구실에서는 에너지 및 환경분야에 활용가능한 기능성 소재 및 시스템의 개발 연구를 수행하고 있다. 특히, (1) 생체모방 기능성 소재 (전기화학촉매 등)를 설계/합성하고, (2) 이들을 분자 및 나노수

류정기

Biochemical Engineering Lab (BCE Lab) 생물공학연구실

박성훈

_Sung-hoon Park

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 401-4 Lab : Bldg. 104 Rm. 405-3, 4 Tel : +82-52-217-2565 E-mail : parksh@unist.ac.kr

Prof. Park has been studying metabolic engineering of microorganisms and their commercial applications. Major interest lies on the production of 3-hydroxypropionic acid (3HP), 1, 3-propanediol and lactones from renewable raw materials including glucose, glycerol, acetate, CO, etc. Synthesis pathways for target compounds are designed and built in proper host microorganisms and the microorganisms are tested and further engineered by rational and combinatorial approaches in an iterative manner. 본 연구실에서는 미생물 대사공학과 이를 이용한 유용한 대사산물의 상업화 연구를 진행하고 있다. 생산 대상 물질은 화장품, 생활용품, 도료, 고분자 재료 등에 필요한 유기산, 유기 알코올, 락톤 등이 며, 원료로는 포도당, 글리세롤, 아세트산, CO 등을 사용한다. 미생물 촉매의 제작과 공정개발을 위해 생합성 경로 유전자의 발현과 조절, 효소 활성과 안정성, 에너지 대사, 균주 전체 수 준에서의 대사 최적화 등을 연구한다. 생 물반응기 및 scale-up 연구는 수요기업과

Curriculum Vitae · 2017- Present : Professor, UNIST · 2017- Present : Editorial board member, Bioresources and Bioprocessing · 2010 - Present : Senior Editor, J. Industrial Microbiol. Biotech.(JIMB) · 2006 - 2014 : Associate and Chief Editor, Biotechnology and Bioprocess Engineering · 1991 - 2017 : Professor, Pusan National University, Dean of International Affairs · 1988 - 1991 : Research Staff, Lawrence Livermore National Laboratory, CA, USA · 1982 - 1984 : Research Engineer, CKD Pharmaceutical, Seoul, Korea

Academic Credential · 1988 : Ph.D. Chemical Engineering, Minor in Applied Microbiology, University of California, Davis, USA · 1982 : MS. Chemical Technology, Seoul National University · 1980 : BS. Chemical Technology, Seoul National University

Awards/Honors/Memberships · 2018 : Biochemical Engineering Award, KICHE · 2017 : BBE Merit Award, KSBB · 2016 : Outstanding Biochemical Engineer Award, Korean Society of Biotechnology and Bioengineering · 1984 - 1988 : Government Scholarship for Studying Abroad

Awards/Honors/Memberships · Korean Society of Biotechnology and Bioengineering · Korean Institute of Chemical Engineers · The Korean Society of Industrial and Engineering Chemistry · The Korean Society for Microbiology and Biotechnology

함께 진행한다.

Major research field Microbial biotechnology, Metabolic engineering, 3-hydroxypropionic acid, Lactones

Research Keywords and Topics • Production of 3-hydroxypropionic acid and 1, 3-propanediol from glycerol and glucose 글리세롤 및 포도당을 이용한 3-hydroxypropionic acid와 1, 3-hydroxypropanediol 의 생산

• Production of 3-hydroxypropionic acid from CO and/or CO-derived acetate CO 가스나 CO 유래 아세트산을 이용한 3-hydroxypropionic acid의 생산

• Production of lactones from renewable biomass 재생가능 원료를 이용한 바이오 락톤의 생산

Research Publications (selected) • BIOTECHNOLOGY ADVANCES / Potential and limitations of Klebsiella pneumoniae as a microbial cell factory utilizing glycerol as the carbon source / Kumar, Vinod; Park, Sunghoon / 2018-01 • BIORESOURCE TECHNOLOGY / Metabolic engineering of Klebsiella pneumoniae J2B for co-production of 3-hydroxypropionic acid and 1, 3-propanediol from glycerol : Reduction of acetate and other by-products / Ko, Yeongjoo; Seol, Eunhee; Sundara Sekar, Balaji; Kwon, Seongjin; Lee, Jaehyeon; Park, Sunghoon / 2017-11 • BIOTECHNOLOGY FOR BIOFUELS / Co-production of hydrogen and ethanol by pfkAdeficient Escherichia coli with activated pentose-phosphate pathway : reduction of pyruvate accumulation / Sekar, Balaji Sundara; Seol, Eunhee; Raj, Subramanian Mohan; Park, Sunghoon / 2016-04

Patents (selected) • Novel recombinant E. coli strains and method for producing 3- hydroxypropionic acid using thereof, Sunghoon, Park / Yeonhee, Kim / Mugesh Sankaranarayanan, No.102028448 / 2019-09 • Development of 3-hydroxypropionic acid inducible promoter system and construction of biological 3-hydroxypropionic acid production pathway using these promoter system, Sunghoon Park / Shengfang Zhou / Somasundar Ashok / Eunhee Seol / Ainala Satish Kumar, No.PCT/KR2016/006261 / 2016-06

Center for Dimension-Controlable Organic Frameworks 차원조절유기구조체 연구단

Major research field Porous Organic Frameworks (COFs), Metal-Gas batteries, Seawater battery Carbon 금속-가스Nanomaterials) 배터리, 해수 배터리 다공성 유기 구조체, 탄소 나노재료

Desired field of research Low dimensional Flexible Ammonia, Energymaterials, Conversion and electronics Storage

저차원 물질, 유연소자 암모니아, 에너지 변환 및 저장

Research Keywords and Topics • Synthesis of fused aromatic network polymers for energy conversion and storage devices 에너지 저장 및 변환장치를 위한 다공성 유기고분자 재료 합성

• Chemical modification of carbon nanomaterials 탄소나노소재의 화학적 개질

• Ammonia synthesis 암모니아 합성

Research Publications (selected) • NATURE NANOTECHNOLOGY / Mechanochemistry for ammonia synthesis under mild conditions / Han, Gao-Feng; Li, Feng; Chen, Zhi-Wen; Coppex, Claude; Kim, Seok-Jin; Noh, Hyuk-Jun; Fu, Zhengping; Lu, Yalin; Singh, Chandra Veer, Siahrostami, Samira, Jiang, Q; Baek, Jong-Beom / 2020-12 • NATURE NANOTECHNOLOGY / An efficient and pH-universal ruthenium-based catalyst for the hydrogen evolution reaction / Mahmood, Javeed; Li, Feng; Jung, SunMin; Okyay, Mahmut Sait; Ahmad, Ishfaq; Kim, Seok-Jin; Park, Noejung; Jeong, Hu Young; Baek, Jong-Beom / 2017-05 • CHEMICAL REVIEWS / Metal-Free Catalysts for Oxygen Reduction Reaction / Dai, Liming; Xue, Yuhua; Qu, Liangti; Choi, Hyun-Jung; Baek, Jong-Beom / 2015-06

Patents (selected) • Edge-functionalized graphite via mechanic-chemical process and Manufacture of Its, Korea, 1245815 / 2013 • Porous two-dimensional crystalline graphene comprising nitrogen and method for preparing the same, Korea, 1377724 / 2014

백종범

_Jong-beom Baek

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 701-5 Lab : Bldg. 104 Rm. 708~9 Tel : +82-52-217-2510 E-mail : jbbaek@unist.ac.kr http://jbbaek.units.ac.kr

Curriculum Vitae · 2008 - Present : Professor, UNIST · 2016 - 2017 : Visiting Scholar, Pacific Northwest National Lab., USA · 2008 - 2009 : Visiting Scholar, Georgia Tech., USA · 2003 - 2008 : Associate Professor, CBNU · 1999 - 2003 : Research Chemist, AFRL, USA · 1998 - 1999 : Research Associate, LCI, Kent State Univ., USA

Academic Credential · 1998 : Ph.D. Polymer Science, University of Akron · 1993 : M.S. Polymer Science and Engineering, Kyungpook National University · 1991 : B.S. Industrial Chemistry, Kyungpook National University

Awards/Honors/Memberships · Journal of Materials Chemistry A, Editorial Board Member · Energy Storage Materials, Editorial Board Member · A Member of Korean Academy of Science and Technology (KAST) · 2018, 2019, 2020 : Highly Cited Researchers · 2016 : Minister Award for Top 10 Best Researches, Korea · 2016 : Selected Top 100 Outstanding Research Award, Korea · 2011 : Selected Top 50 Outstanding Research Award, National Research Foundation (NRF)

College of Engineering

School of Energy and Chemical Engineering

Our group is working on the design and synthesis of diverse edge-selectively functionalized graphene nanoplatelets (EFGnPs) and Fused Aromatic Networks (FANs). Such materials will be applied in many fields such as electrochemistry, gas storage and energy materials. Graphene as a representative carbon material have captured broad interest in the materials science, due to its extraordinary set of properties. Nevertheless, graphene has some limitations such as difficulty in processability, lack of multi-functionality and vanishing band-gap. Therefore, our group developed new edge-selectively functionalized graphene nanoplatelets by ball-milling methods to overcome those kinds of limitations. Fused Aromatic Networks (FANs) are a class of ordered porous polymers which are integration of organic building units into extended structures. FANs structures are composed of fused aromatic rings without single bond connectivity and it enables formation of very stable structures. Because of their design flexibility and skeleton or pores manipulability, FANs can be a good platform in materials science fields. The undergraduate, graduate students, postdoctoral and researcher are working on various research fields including carbon materials, materials science, electrochemistry and organic synthesis.

Theoretical and Computational Study of Polymers & Nanomaterials Lab 고분자 & 나노물질 이론 및 시뮬레이션 연구실

백충기

_Chunggi Baig

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 601-5 Lab : Bldg. 104 Rm. 605-1 Tel : +82-52-217-2538 E-mail : cbaig@unist.ac.kr https://chunggibaig.wixsite.com/cbaig

My research efforts are focused on the theoretical and computational study at microscopic molecular levels on various complex physical systems such as polymer/Bio/Nanostructured materials under both equilibrium and nonequilibrium conditions. We are further interested in the development of methods for the systematic extension of a hierarchy of simulation tools to the study of the rheological properties of complex macromolecular fluids under the application of an external field. 본 연구그룹은 고분자/바이오/나노구조의 다양한 복잡한 물질들을 분자레벨에서 이론적/계산적 연 구를 추진하고 있습니다. 더불어 본 그룹에서는 외부유동장 하 비평형상태에 있는 복잡한 고분자 유 체의 유변학적 성질을 연구하기 위한 체계적인 다중스케일에서의 전산모사방법의 개발에도 관심이 있습니다.

Curriculum Vitae · 2011 - Present : Assistant, Associate Professor, UNIST · 2006 - 2011 : Postdoctoral Fellow, University of Patras, Greece · 2005 - 2006 : Postdoctoral Fellow, University of Tennessee, USA

Academic Credential · 2005 : Ph.D. in Chemical & Biomolecular Engineering, University of Tennessee, USA · 1999 : M.S. in Chemical & Biological Engineering, Seoul National University · 1997 : B.S. in Chemical & Biological Engineering, Korea University

Awards/Honors/Memberships · 2006 - 2008 : Dow Benelux B.V. Post-doctoral research fellowship · 2005 - 2008 : UT&ORNL Postdoctoral research fellowship · Member of American Institute of Chemical Engineers (AICHE) · Member of Society of Rheology (SOR)

Major research field

Desired field of research

Multiscale Polymer rheology, Metal-Gas simulation, batteries, Seawater battery Nonequilibrium molecular 금속-가스 배터리, 해수 배터리 dynamics/Monte Carlo.

Low dimensional materials, Flexible electronicspolymer dynamics, Interfacial Interfacial 저차원 물질, 유연소자 stress/rheology.

다중스케일 전산모사, 고분자 유변학, 비평형분자동력학/몬테카를로

계면 고분자 동력학, 계면 스트레스 및 유변학

Research Keywords and Topics • Bulk polymer melt viscoelasticity 벌크 고분자 용융체 점탄성 성질 연구

• Interfacial polymer dynamics 계면 고분자 동력학 연구

• Biophysics/Nanostructured materials 바이오 물리/나노 구조 물질 연구

Research Publications (selected) • MACROMOLECULES / Scaling Characteristics of Rotational Dynamics and Rheology of Linear Polymer Melts in Shear Flow / Cho, Soowon; Kim, Jun Mo; Baig, Chunggi / 2020-04 • SOFT MATTER / Nonequilibrium Monte Carlo simulations of entangled polymer melts under steady shear flow / Roh, Eun Jung; Baig, Chunggi / 2019-07 • JOURNAL OF RHEOLOGY / Molecular mechanisms of interfacial slip for polymer melts under shear flow / Jeong, Sohdam; Cho, Soowon; Kim, Jum Mo; Baig, Chunggi / 2017-03 • JOURNAL OF CHEMICAL PHYSICS / Communication: Role of short chain branching in polymer structure and dynamics / Kim, Jun Mo; Baig, Chunggi / 2016-02

100

The Seo Group 나노/마이크로 구조 기반 소자연구실

본 연구실에서는 차세대 청정 에너지 중 가장 유망한 태양광 에너지와 관련된 디바이스에 대해 연구

서관용

_Kwanyong Seo

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 113 Rm. 401 Lab : Bldg. 113 Rm. 408 Tel : +82-52-217-2950 E-mail : kseo@unist.ac.kr http://kseo.unist.ac.kr

하고 있습니다. 특히 나노/마이크로 기술을 이용하여 기존의 반도체 물질이 가지지 못하는 물리적 특성을 구현하는 새로운 개념의 태양전지에 대해 연구하고 있습니다. 대표적으로, 불투명하고 딱딱 한 결정질 실리콘 웨이퍼를 이용하여 1) 투명태양전지, 2) 고효율 및 저가형 플렉시블 태양전지를 개 발하였습니다. 이는 결정질 실리콘은 투명하고 유연할 수 없다는 고정관념을 깬 연구로 각광받고 있 습니다. 이외에도 3) 에너지 저

Curriculum Vitae

장 소자와 융합된 무전원 일체

· 2017 - Present : Associate Professor, ECHE, UNIST · 2019 - 2020 : Visiting Professor, School of Engineering and Applied Sciences, Harvard University · 2013 - 2017 : Assistant Professor, ECHE, UNIST · 2009 - 2013 : Postdoctoral Research Fellow, School of Engineering and Applied Sciences, Harvard University (w/ Prof. Kenneth Crozier) · 2008 - 2009 : Postdoctoral Fellow, Chemistry, KAIST (w/Prof. Bongsoo Kim) · 2004 - 2005 : Visiting Scholar, Chemistry, University of California, Berkeley (w/ Prof. Peidong Yang)

형 시스템 및 4) 태양광 기반의 살균 시스템 등을 개발하고 있 습니다.

Major research field Transparent crystallineSeawater silicon solar cells, Metal-Gas batteries, battery Flexible 금속-가스crystalline 배터리, 해수silicon 배터리solar cells, PVBattery hybrid system, Light-induced disinfection system

Desired field of research Low dimensional materials, Flexible electronicsgeneration system, Hydrogen 저차원 물질, 유연소자 Photodetector, Image sensor

Research Keywords and Topics • Transparent crystalline silicon solar cells, Flexible crystalline silicon solar cells, Organicinorganic hybrid solar cells, PV-battery hybrid power system, Reactive oxygen species (ROS) generation system 투명 결정질 실리콘 태양전지, 유연 결정질 실리콘 태양전지, 유/무기 하이브리드 태양전지, 태양 전지-배터리 일체형 시스템, 활성산소종 생산 시스템

Research Publications (selected) • JOULE / Neutral-Colored Transparent Crystalline Silicon Photovoltaics / Lee, Kangmin; Kim, Namwoo; Kim, Kwangjin; Um, Han-Don; Jin, Wonjoo; Choi, Deokjae; Park, Jeonghwan; Park, Kyung Jin; Lee, Seungwoo; Seo, Kwanyong / 2020-01 • ENERGY & ENVIRONMENTAL SCIENCE / Flexible crystalline silicon radial junction photovoltaics with vertically aligned tapered microwires / Hwang, Inchan; Um, HanDon; Kim, Byeong-Su; Wober, Munib; Seo, Kwanyong / 2018-03 • ENERGY & ENVIRONMENTAL SCIENCE / Monolithically integrated, photorechargeable portable power sources based on miniaturized Si solar cells and printed solid-state lithium-ion batteries / Um, Han-Don; Choi, Keun-Ho; Hwang, Inchan; Kim, Se-Hee; Seo, Kwanyong; Lee, Sang-Young / 2017-04

Academic Credential · 2008 : Ph. D. KAIST, Chemistry · 2004 : M. S. KAIST, Chemistry · 2002 : B. E. KNUE, Chemistry

Awards/Honors/Memberships · National Research & Development Excellence Awards Top 100 (2019) · Outstanding Teaching Award (2015) · Member of Materials Research Society · Member of American Chemical Society · Member of Korean Chemical Society

Patents (selected) • [미국] 17/267,031-투명 반도체 기판 및 이의 제조 방법, 서관용 / 이강민 / 2021-02 • [미국] 16/646,511-결정질 실리콘계 유연태양전지 및 이의 제조방법, 서관용 / 황인찬 / 엄한돈 / 2020-03

College of Engineering

101

School of Energy and Chemical Engineering

Our laboratory currently focuses on the development of solar energy devices. In particular, we are studying novel concepts of solar cells using nano/micro-technology to realize the physical phenomena that have not been observed in bulk materials. Typically, we have developed 1) neutral-colored crystalline silicon (c-Si) transparent solar cells and 2) cost-effective high-efficiency flexible c-Si solar cells. These topics are the breakthrough research to overcome the stereotype that c-Si cannot be transparent and flexible. We have also demonstrated 3) monolithic PV-Battery hybrid devices for the continuous power system, and 4) light-induced disinfection system.

CEMS(Computational Energy Materials Science Lab) 전산 에너지 재료 과학 연구실

서동화

_Dong-Hwa Seo

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 111 Rm. 401-1 Lab : Bldg. 111 Rm. 402 Tel : +82-52-217-3035 E-mail : dseo@unist.ac.kr https://seocmslab.com

Our research interests are focused on understanding the materials' properties and reaction mechanism at atomic scale and developing new energy storage materials such as electrodes and solid electrolytes for rechargeable batteries using computational modeling. We are also interested in automated materials discovery for energy applications using artificial intelligence (AI), machine learning (ML) and robotics. 본 연구실에서는 제일원리 (first-principles) 전산모사 기법을 통해 이차전지용 전극 소재와 고체 전 해질 소재에 대해 원자 단위에서 깊이 있게 이해하고 이를 바탕으로 신규 소재를 개발하고 기존 소 재의 성능을 향상시키는 연구를 진행하고 있습니다. 또한 인공지능 (artificial intelligence)과 기계학습 (Machine learning), 로 봇공학 (robotics)을 조 합하여 자동 합성/분석 을 통한 재료 개발에 대 한 연구를 진행하고 있

Curriculum Vitae · 2019 - Present : UNIST, Ulsan, Republic of Korea : Assistant professor · 2017 - 2019 : Samsung Research America, Burlington, MA, USA : Senior Research Engineer · 2016 - 2017 : University of California, Berkeley, Berkeley, CA, USA : Associate Specialist · 2013 - 2015 : Massachusetts Institute of Technology, Cambridge, MA, USA : Postdoctoral Researcher · 2011 - 2013 : Research Institute of Advanced Materials, Seoul National University, Seoul, Republic of Korea : Postdoctoral Researcher

Academic Credential · 2009 - 2011 : Ph.D., Department of Materials Science and Engineering, Korea Advanced Institute of Science and Technology · 2007 - 2009 : M.S., Department of Materials Science and Engineering , Korea Advanced Institute of Science and Technology · 2000 - 2007 : B.S., Department of Materials Science and Engineering, Pusan National University

Awards/Honors/Memberships · 2018 : IBA Early Career Award, International Battery Association Conference, Jeju Island, S. Korea · 2014 - 2015 : National Research Fellowship, National Research Foundation (NRF) of Korea

102

습니다.

Major research field

Desired field of research

(제일원리 양자계 First principles calculation Metal-Gas batteries, Seawater battery 산), Li-ion, Na-ion, K-ion and Solid-state 금속-가스 배터리, 해수 배터리 batteries materials(이차전지), Artificial intelligence(인공지능), Machine learning

Low dimensional materials, Flexible Automated materials discovery using electronics artificial intelligence, High-throughput 저차원 물질,of유연소자 screening the materials using Machine learning, and Self-driving laboratory

Research Keywords and Topics • First principles study on the properties and reaction mechanisms of the materials for rechargeable batteries such as Li-ion, Na-ion, K-ion and Solid-state batteries 제일원리계산을 통한 이차전지 소재 특성 예측 및 반응 메커니즘 규명

• High-throughput screening of the materials for the rechargeable batteries using first principles calculation and machine learning and synthesis of selected materials 고속병렬 제일원리계산과 머신러닝을 통한 신규 소재 탐색 및 합성

• Automated Materials Discovery using Artificial Intelligence, Machine Learning and Robotics 재료 개발 자동화 시스템

Research Publications (selected) • ADVANCED ENERGY MATERIALS / Mixed Ionic-Electronic Conductor of Perovskite LixLayMO3−δ toward Carbon‐Free Cathode for Reversible Lithium-Air Batteries / Ma, S. B.; Kwon, H. J.; Kim, M.; Bak, S.-M.; Lee, H.; Ehrlich, S. N.; Cho, J.-J.; Im, D.; Seo, D.-H./ 2021 • SCIENCE / Kinetic pathways of ionic transport in fast-charging lithium titanate / Zhang, W.; Seo, D.-H.; Chen, T.; Wu, L.; Topsakal, M.; Zhu, Y.; Lu, D.; Ceder, G.; Wang, F. / 2020 • NATURE CHEMISTRY / The structural and chemical origin of the oxygen redox activity in layered and cation-disordered Li-excess cathode materials / Seo, D.-H.; Lee, J.; Urban, A.; Malik, R.; Kang, S.; Ceder, G. / 2016

Patents (selected) • Cation-disordered oxides for rechargeable lithium batteries and other applications (US20190088940A1), Seo, DH/ Lee, Jinhyuk/ Gerbrand Ceder / 2019 • Solid electrolyte, preparation method thereof, metal air battery including the solid electrolyte, and electrochemical device including the solid electrolyte (US62/947,589), Seo, DH/ Ma, SB / 2019

Laboratory for Energy Harvesting Materials and System (LEHMS) 에너지 하베스팅랩

본 연구실의 주요한 연구주제는 가까이는 고효율 페로브스카이트 태양전지 제조이며, 장기적으로 는 에너지 수집과 절약에 유효한 융합 디바이스로의 공학적 구현이 가능한 하이브리드 결정 반도체 의 제조와 에너지 융합 시스템으로의 응용, 소재/소자 제조 기술의 개발을 최종 목표로, 조성, 차원, 형태 및 도핑 등이 제어된 다기능성 하이브리드 결정 반도체의 제조, 하이브리드 결정 반도체의 기 본 물성에 대한 심도 있는 분석(물성 라이브러리의 구축) 및 광전 및 에너지 소자로의 응용이다.

석상일

_Sang-Il Seok

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : 104 Bldg. 501-5 Lab : 104 Bldg. 505-1 Tel : +82-52-217-2946 E-mail : seoksi@unist.ac.kr http://seoksi.unist.ac.kr/members6/professor-2/

Curriculum Vitae · 2015 - Present : Professor, UNIST · 2012 - 2015 : Sungkyunkwan University, Department of Energy Science, Full Professor · 2012 - 2015 : Korea Research Institute Chemical Technology (KRICT), Center for solar energy materials, Research Fellow · 1998 - 2015 : Korea Research Institute Chemical Technology (KRICT), Principle Investigator

Major research field Long-term stable andSeawater highly efficient Metal-Gas batteries, battery hybrid perovskite materials 금속-가스 배터리, 해수 배터리 and solar cells 고내구성/고성능 하이브리드 페로브스카이트 소재 설계 및 태양전지 제조

Desired field of research Low dimensional materials, Flexible electronics 저차원 물질,하베스팅, 유연소자 열전 에너지 하베스팅, 압전 에너지 IoT 융합 소재/소자

From fundamental science

Research Keywords and Topics • perovskite solar cells, multifucntional hybrid materials, highly efficient and low cost energy devices and systems. solution chemistry and processing 페로브스카이트 태양전지, 다기능 하이브리드 소재, 고효율/저가 에너지 소자 제조 및 융합시스템 구현

Research Publications (selected) • SCIENCE / Impact of strain relaxation on performance of a-formamidinium lead iodide perovskite solar cells / kim, Gwisu; Min, Hanul; Lee, Kyoung Su; Lee, Do Yoon; Yoon, So Me; Seok, Sang Il / 2020-10 • SCIENCE / Efficient, stable solar cells by using inherent bandgap of a-phase formamidinium lead iodide/ Mi, Hanul; Kim, Maengsuk; Lee, Seung-Un; Kim, Hyeonwoo; Kim, Gwisu; Choi, Keunsu; Lee, Jun Hee; Seok, Sang Il / 2019-11 • Nature / Compositional engineering of perovskite materials for high-performance solar cells / N. J. Jeon, J. H. Noh, W. S. Yang, Y. C. Kim, S. Ryu, J. Seo, and S. I. Seok / 2015-01

Academic Credential · 1997 : Post-Doc., Dept. of Material Science and Engineering, Cornell University · 1995 : Ph.D. Inorganic Materials Engineering, Seoul National University · 1982 : B.S. Dept. of Chemistry, Kyungpook National University

Awards/Honors/Memberships · 2021 : KAST fellow · 2019 : Kyung-Ahm Prize by the Kyung-Ahm Education & Cultural Foundation · 2017 : Korean Scientist Award form Korean Government · 2015 : PVSEC Award for outstanding contribution in PV field · 2014 : E-MRS spring meeting, Plenary lecture Science and Technology Medal from Korean Government · 2014 : Best Paper Award by Korea Research Council for Industrial Science & Technology · 2011 : National Science and Technology Commission Award for Excellence 100 · 2006, 2010 : Best Researcher Award for Excellence (Korea Research Institute of Chemical Technology)

College of Engineering

103

School of Energy and Chemical Engineering

Long-term vision is to prepare more efficient and stable crystalline hybrid semiconductors that can be applied to optoelectronics, energy generation, and conversion devices through manipulation of composition, dimension, size and doping. It also includes an in-depth analysis of the basic properties of hybrid crystalline semiconductors (material library construction), and hybrid energy devices and systems.

eclat | electrochemistry lab of advanced technology

송현곤

_Hyun-kon Song

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 701-3 Lab : Bldg. 104 Rm. 707 Tel : +82-52-217-2512 E-mail : philiphobi@unist.ac.kr http://echem.kr

Trilogy of Research Domains at eclat As eclat stands for “electrochemistry lab of advanced technologies”, we have two research axes: Electrochemistry as an abscissa and Materials Chemistry as an ordinate. Three research domains do we have. [Phase 1] Synthesis of Advanced Electroactive materials for the state-of-the-art energy conversion and storage devices [Phase 2] Novel Energy devices based on new electroactive pairs and new electrochemical principles for next generation [Ground 0] in situ Electrochemical analysis to provide electrochemically meaningful information on electrochemical systems.

Curriculum Vitae · 2008 - Present : Professor, UNIST · 2006 - 2008 : Researcher, Battery R&D, LG Chem / Research Park · 2001 - 2006 : Postdoc., Brown University, Seoul National University

Academic Credential · 2000 : Ph.D., Chemical Engineering, Postech · 1996 : M.S., Chemical Engineering, Postech · 1994 : B.S., Chemical Engineering, Postech

Major research field Electrochemistry

Research Keywords and Topics • Structure-activity relationMetal-support interactionOxygen reduction reactionTwodimensional titanium carbideElectrocatalyst

Research Publications (selected) • Nano Energy / Support structure-catalyst electroactivity relation for oxygen reduction reaction on platinum supported by two-dimensional titanium carbide / Yeongdae Lee, Jang Hyuk Ahn, Hee-Young Park, Jeawoo Jung, Yuju Jeon, Dong-Gyu Lee, Min-Ho Kim, Eunryeol Lee, Chanseok Kim, Youngkook Kwon, Hyun-Wook Lee, Jong Hyun Jang, Jun Hee Lee*, Hyun-Kon Song* / 2021-01 • Advanced functional materials / Design of a Janus‐Faced Electrode for Highly Stretchable Zinc-Silver Rechargeable Batteries/ Woo-Jin Song, Chihyun Hwang, Sangyeop Lee, Minsik Kong, Jonghak Kim, Hyung Keun Park, Hye Bin Son, Gyeongbae Park, Sunghwan Cho, Jun Hyuk Song, Hyoung Seop Kim, Unyong Jeong, Tae Joo Shin,* Hyun-Kon Song,* and Soojin Park* / 2020-10

Patents (selected) • 금속공기전지용 촉매복합체 및 이를 포함하는 금속공기전지 / 이동규, 송현곤 / 2018-09 • 리튬 이차 전지 및 이의 제조방법 / 송현곤, 노현국, 전유주 / 2018-05 • 리튬 이차 전지의 충방전 방법 / 송현곤, 김민호, 전유주, 노현국 / 2017-09

104

Advanced Nanocatalysis Lab 첨단나노촉매 연구실

촉매 기술은 석유뿐만 아니라 플라스틱, 섬유 및 세제와 같은 유용한 화학 물질을 만들기 위해 석유

안광진

_Kwangjin An

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 801-5 Lab : Bldg. 104 Rm. 803 Tel : +82-52-217-2586 E-mail : kjan@unist.ac.kr http://anlab.unist.ac.kr/

화학 공정에서 널리 사용되고 있습니다. 또한 자동차 및 공장에서 배출되는 가스를 제거하고 환경 유 해 물질을 정화 및 제거하는 데 사용됩니다. 현재의 촉매 기술은 다양한 재생 에너지를 보다 효율적 으로 변환하고, 환경 및 인체에 유해한 물질을 유용한 화학물질로 변환시키기위해 지속적으로 개발 되고 있습니다. 저희 An Lab에서는 나노기술을 바탕으로 지구 온난화 및 환경 오염 문제를 해결하기 위해 이산화탄소, 폐플라스틱 및 각종 유기화합물들을 고부가가치의 제품으로 만드는 최첨단의 촉 매 기술을 개발하고 있습니다.

Curriculum Vitae · 2015 - Present : Associate Professor at UNIST · 2010 - 2015 : Postdoctoral Research Fellow, University of California at Berkeley

Academic Credential

Major research field

Desired field of research

Nanotechnology, Catalysis, Environment, Metal-Gas batteries, Seawater battery Chemical Process, 금속-가스 배터리, 해수 Biomass 배터리 Conversion, Upgrading

Low dimensional materials, Flexible Single Atom Catalysis, Environmental electronicsPlastic Upcycling, Removal of Catalysis, 저차원 유연소자 Volatile물질, Organic Compounds

· 2003 - 2009 : Ph.D. Seoul National University · 1996 - 2003 : B.S. Chungnam National University

Research Keywords and Topics • Nanocatalysis : Size and Shape Effects, Strong Metal Support Interaction, Single-Atom Catalyst, In situ Characterizations • C1 Gas Refinery : CO Oxidation, CO2 Conversion (GTL, Fischer-Tropsch), CH4 Conversion (to HCHO, DRM..), CH4 to H2 and Carbon (CNT synthesis) • Biomass Conversion : Lignin Valorization, Photocatalytic Degradation, Green Plastics, Furfural Hydrogenation • Environmental Catalysis : Plastic Recycling Technology (Plastic Depolymerization, Glycolysis, Catalytic Cross Alkane Metathesis), Environmental Purification (Removal of Volatile Organic Compounds (VOCs), Ozone Decomposition), CBRN Protection (Decomposition of Warfare Agents), Photocatalytic Water Purification (Self-propelled Nanomotors) • Hydrogen Technology : Liquid Organic Hydrogen Carrier (LOHC), Hydrogen Production via Methane Reforming • Petrochemical process : Production of Linear Alpha-Olefins, Reductive Hydroformylation, Heavy Oil Upgrading, HDS

Research Publications (selected) • ACS CATALYSIS / Revealing Charge Transfer at the Interface of Spinel Oxide and Ceria during CO Oxidation / Yoon, Sinmyung; Jo, Jinwoung; Jeon, Beomjoon; Lee, Jihyeon; Cho, Min Gee; Oh, Myoung Hwan; Jeong, Beomgyun; Shin, Tae Joo; Jeong, Hu Young; Park, Jeong Young; Hyeon, Taeghwan; An, Kwangjin / 2021-01 • JOURNAL OF CATALYSIS / SiO2@V2O5@Al2O3 core-shell catalysts with high activity and stability for methane oxidation to formaldehyde / Yang, Euiseob; Lee, Jun Gyeong; Kim, Dong Hyeon; Jung, Yoon Seok; Kwak, Ja Hun; Park, Eun Duck; An, Kwangjin / 2018-12 • ACS CATALYSIS / Specific Metal-Support Interactions between Nanoparticle Layers for Catalysts with Enhanced Methanol Oxidation Activity / Yoon, Sinmyung; Oh, Kyunghwan; Liu, Fudong; Seo, Ji Hui; Somorjai, Gabor A.; Lee, Jun Hee; An, Kwangjin / 2018-06

College of Engineering

105

School of Energy and Chemical Engineering

Catalytic technology has been widely used in petrochemical processes to make not only oil, but also useful chemicals such as plastics, textiles and detergents. It is also used to remove emissions from cars and factories, and to clean and remove many environmentally harmful substances. Current catalyst technology is being developed to convert various renewable energy to be more efficient and to convert harmful environmental materials into useful. In the An Lab, we are developing catalysis technology that makes more valuable products from carbon dioxide, plastic wastes, and various organic compounds to solve the problems of global warming and environmental pollution.

Advanced Tech-Optoelectronic Materials Synthesis (ATOMS) 신유기광전자 재료 합성 연구실

양창덕

_Changduk Yang

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 701-4 Lab : Bldg. 104 Rm. 702 Tel : +82-52-217-2920 E-mail : yang@unist.ac.kr http://yang.unist.ac.kr

Curriculum Vitae · 2018 - Present : Professor, School of Energy and Chemical Engineering · 2015 - 2016 : Visiting Professor, Georgia Tech (Prof. John R. Reynolds group) · 2013 - 2017 : Associate Professor, School of Energy and Chemical Engineering · 2009 - 2012 : Assistant Professor, School of Energy and Chemical Engineering · 2006 - 2009 : Postdoctoral, University of California Santa Barbara (U.S.A, Advisor : Prof. Fred Wudl) · 2000 - 2002 : Researcher, Analytical Research Team, R&D Center, Hyosung Corporation · 1999 - 2000 : Teaching Assistant, Chungnam National University (Korea)

Academic Credential · 2006 : Ph.D., Max-Planck Institute for Polymer Research (Germany, Advisor : Prof. Dr. Klaus Mullen) · 2001 : M.S., Chungnam National University (Korea, Advisor : Taek Seung Lee) · 1999 : B.S., Chungnam National University (Korea)

Awards/Honors/Memberships · 2020 : S-OIL Outstanding Dissertation Award : Award from The Korean Academy of Science and Technology (KAST) · 2019 : Global Award : Receive Award from the Ulsan National Institute of Science and Technology (UNIST) · 2019 : Mid-career Researcher Academy Award : Receive Award from The Polymer Society of Korea · 2003 - 2005 : Scholarship/Award : Receive Fellowship from Korea Science and Engineering Foundation (KOSEF) for the Graduate study abroad scholarship

106

We are interested in the design and synthesis of all kind of functional p-conjugated materials with unique electronic/optical properties. Mainly, such materials will be applied for optoelectronic devices such as organic light emitting diode (OLEDs), organic solar cells, and organic field effect transistors (OFETs). Our research is focused on molecular engineering to improve device performance. We have close collaboration with strong device engineering and device architecture groups. Currently, we are not only interested in a kind of nano-sized molecules and related structures, their synthesis, self-assembly and processing/device fabrication. - Carbonaceous solids, including fullerene, carbon nanotube, and graphene, have attracted extensive attention from the physics, chemistry, and materials science communities because of their unique electronic and mechanical properties. Therefore, we are focusing on developing various chemical modification of the carbonaceous solids for electronic applications. Besides, we are currently studying supramolecular chemistry. - Thereby, the mission of our group is to advance the science and engineering of organic and hybrid nanostructured materials and enable technological innovations for applications in communications, sensing, displays, energy efficient solid-state lighting, and power generation. New products based on organic semiconductors will save energy, reduce costs, be lightweight and flexible, increase national security, and enhance the quality of the environment. - The undergraduate, graduate students, postdoctorals, and research scientists working in our group are exposed to a multidisciplinary and diverse environment that is a blend of optics, physics, chemistry, materials science, and electrical engineering.

Major research field

Research Keywords and Topics • Organic Electronics (OLEDs, Organic Photovoltaic Cells (OPVs & DSSCs), OFETs and etc.) • Functionalization of Carbonaceous Solids (Fullerene, Carbon nanotube, and Graphene) • Advanced Materials Chemistry • Supramolecular Chemistry/Supramolecular Electronics • Macromolecular Chemistry

Research Publications (selected) • ADVANCED ENERGY MATERIALS / High-Performance Inverted Perovskite Solar Cells with Operational Stability via n-Type Small Molecule Additive-Assisted Defect Passivation / Koo, Donghwan; Cho, Yongjoon; Kim, Ungsoo; Jeong, Gyujeong; Lee, Junghyun; Seo, Jihyung; Yang, Changduk; Park, Hyesung / 2020-12 • NATURE COMMUNICATIONS / High-performance and stable photoelectrochemical water splitting cell with organic-photoactive-layer-based photoanode / Yu, Je Min; Lee, Jungho; Kim, Yoon Seo; Song, Jaejung; Oh, Jiyeon; Lee, Sang Myeon; Jeong, Mingyu.; Kim, Yongseon; Kwak, Ja Hun; Cho, Seungho; Yang, Changduk; Jang, Ji-Wook / 2020-11 • SCIENCE / Stable perovskite solar cells with efficiency exceeding 24.8% and 0.3-V voltage loss / Mingyu Jeong, In Woo Choi, Eun Min Go, Yongjoon Cho, Minjin Kim, Byongkyu Lee, Seonghun Jeong, Yimhyun Jo, Hye Won Choi, Jiyun Lee, Jin-Hyuk Bae, Sang Kyu Kwak, Dong Suk Kim, Changduk Yang, Tao / 2020-09

Patents (selected) • 태양 전지용 정공 수송 재료 및 이를 포함하는 태양 전지 / 양창덕, 정민규 / 2020 • PBDTTT 기반 고분자의 제조방법 / 양창덕, 이상면, 정승온, 박혜성, 박광현 / 2017 • 주극성 변환이 가능한 신규한 양극성 유기 반도체 화합물과 이를 포함하는 유기 박막트랜지스터 / 양창덕, 한아름, 이정훈, 오준학 / 2014

Batteries/Electrochemistry Lab 전지/전기화학 연구실

오승모

_Seung-mo Oh

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 401-7 Tel : +82-52-217-2607 E-mail : seungoh@unist.ac.kr

오늘날 전기화학 현상의 이해를 통해 새로운 물질과 디바 이스가 개발되고 있고, 배터리는 휴대폰, 노트북, 전기자 동차의 전원 또는 신재생 에너지 발전의 저장장치로 활용 되고 있다. 본 연구실에서는 1) 전기화학 에너지 변환/저

Curriculum Vitae

장 장치에 내재되어 있는 전기화학적 기본 현상을 이해하

· 2019 - Present : Chair professor, UNIST · 2012 - Present : Executive Committee, IMLB (International Meeting of Lithium Batteries) Limited Liability Company · 2009 - 2015 : Board member, LG Chem. Co · 2004 - 2009 : Director, National Research Program for Advanced Batteries (Ministry of Commerce, Industry and Energy) · 2003 - 2005 : Coeditor, IONICS · 2002 - 2009 : Director, Research Center for Energy Conversion and Storage (Ministry of Science and Technology) · 1993 - 1994 : Alexander von Humboldt visiting professor, University of Tübingen (Germany) · 1988 - 2019 : Assistant/Associate/ Professor, Seoul National University, Chemical and Biological Engineering · 1986 - 1988 : Postdoctoral Fellow, University of Illinois, Urbana-Champaign

고, 2) 현상 규명을 위한 실험기법을 개발하고, 3) 장치의 수명과 안전성을 좌우하는 열화 원인 규명을 통해, 4) 기 존 장치의 성능 향상 뿐 아니라 새로운 물질, 제조공정, 디 바이스 개발을 목표로 한다.

Major research field Lithium batteries

Desired field of research Electrochemical capacitors Redox-flow batteries

Research Keywords and Topics • Understanding of fundamental phenomena involved in batteries 전지의 기본 현상 이해

• Experimental methodologies for In-situ characterizations 분석을 위한 실험 기법 개발

• Unraveling of failure modes to improve safety and cell life 전지의 안전성과 수명 향상을 위한 열화 원인 규명

• New materials, processes and devices 새로운 물질, 공정 및 디바이스 개발

Research Publications (selected) • Journal of the Electrochemical Society / A Calculation Model to Assess Two Irreversible Capacities Evolved in Silicon Negative Electrodes / Jae Gil Lee, Jongjung Kim, Hosang Park, Jeong Beom Lee, Ji Heon Ryu, Jae Jeong Kim, and Seung M. Oh / 2015 • Angew. Chemie International Edition / A first-cycle Coulombic efficiency higher than 100% observed for a Li2MO3 (M=Mo or Ru) electrode / Jihyun Jang, Youngjin Kim, Oh B. Chae, Taeho Yoon, Sang-Mo Kim, Hyun-seung Kim, Hosang Park, Ji Heon Ryu, Seung M. Oh / 2014 • Journal of the Electrochemical Society / Dissolution of Spinel Oxides and Capacity Losses in 4V Li/LixMn2O4 batteries / Dong H. Jang, Young J. Shin and Seung M. Oh / 1996

Patents (selected) • “Spherical carbons and method for preparing the same” / Ou-Jung Kwon, Seung Mo Oh, Ki-Young Lee, Myung-Hwan Kim, and Kyu-Tae Lee / EP 1296892 / 2003-04

Academic Credential · 1986 : PhD, University of Illinois, Urbana-Champaign, Inorganic Chemistry · 1978 : MS, Korea Advanced Institute of Science, Applied Chemistry · 1976 : BS, Seoul National University, Chemical Technology

Awards/Honors/Memberships · 2005 - 2009 : Korean representative, International Society of Electrochemistry · 2008 - Present : Member, Korean Academy of Science and Technology · 2000 : ISI Citation Classic Award, 2000

College of Engineering

107

School of Energy and Chemical Engineering

Electrochemical phenomena play a fundamental role in providing essential materials and devices for modern society. For instance, the electrochemical energy conversion and storage devices such as batteries and electrochemical capacitors power the wireless revolution in mobile phones and notebook computers, and now enable the hybrid electric vehicles and electricity storage generated from the renewable sources. Of primary concern in this laboratory is; first, understanding of the fundamental phenomena involved in these electrochemical systems; second, development of experimental methodologies to characterize them; third, unraveling the failure modes responsible to the safety and life problems; finally, improvement of the present technologies and development of new materials, processes, and devices.

Interfacial Physics and Chemistry Laboratory 계면물리및화학 연구실

이동욱

_Dong-Woog Lee

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 113 Rm. 306 Lab : Bldg. 113 Rm. 307 Tel : +82-52-217-2594 E-mail : dongwoog.lee@unist.ac.kr https://dwlee.unist.ac.kr

Interfacial Physics and Chemistry Laboratory (IPCL) focuses on fundamental understanding of physics and chemistry at interfaces/surfaces ranging from bio-surfaces (i.e., lipid membranes, protein films, biopolymers), polymeric films, and inorganic surfaces (i.e., metals and metal oxides). We aim to use our knowledge to develop high performance polymeric and/or polymer composite materials for various purposes such as functional adhesives (e.g. underwater, stretchable, biocompatible, conductive, hydrophilic), lubricants (ocular, synovial, high and low temperature), and coatings (hydro-philic/phobic, aero-philic/phobic, antifouling). 계면 물리 및 화학 연구실에서는 생물 물질 (예: 세포막, 단백질 필름), 고분자, 무기질 등등의 표면/계 면에서 일어나는 전반적인 물리, 화학 현상들을 이해하고, 이를 통해 얻은 지식을 이용해, 다양한 분 야에서 사용될 수 있는 고성능 고분자 및 고분자복합체 소재를 개발하는 것이 최종 목적이다. 개발 하고자 하는 물질은 주로 점/접착제 (수중, 신축성, 생적합성, 열/전기 전도성, 친수성), 윤활유 (인공누 액, 인공관절액, 고온/저온용), 코팅제 (친/소수성, 친/혐기성, 방오성) 등이 있다.

Curriculum Vitae · 2020 - Present : Associate Professor in School of Energy and Chemical Engineering, Ulsan National Institute of Science and Technology (UNIST) · 2016 - 2020 : Assistant Professor in School of Energy and Chemical Engineering, Ulsan National Institute of Science and Technology (UNIST) · 2014 - 2016 : Postdoctoral Scholar in Chemical Engineering, UC Santa Barbara

Academic Credential · 2008 : BS in Chemical and Biomolecular Engineering Korea Advanced Institute of Science and Technology (KAIST) · 2014 : Ph.D. in Chemical Engineering University of California, Santa Barbara (UCSB)

Awards/Honors/Memberships · 2020 : Young Scientist Award, The Polymer Society of Korea · 2019 : Miwon Commercial Young Scientist Award, KSIEC · 2017 : 2nd Asian Conference on Oleo Science, Young Fellow Award · 2013 : Doh Wonsuk Memorial Award for Outstanding Korean Chemical Engineering Ph.D. students in United States, KIChE US chapter, AIChE Annual Meeting

Major research field Surface physics, Surface wetting, Interaction forces, van der Waals, hydrophobic interaction, specific interaction, biomolecules, coatings, adhesives

Desired field of research Interaction between 2D materials, Interaction between metal oxides, ligandreceptor interactions

Research Keywords and Topics • interfacial physics, biomimetics, surface wetting, nonspecific interactions, specific interactions, functional polymers, adhesives, coatings, lubricants 계면물리, 생체모방, 표면젖음, 비특정 상호작용, 특정 상호작용, 기능성 고분자, 접착제, 코팅, 윤활유

Research Publications (selected) • Chemical Engineering Journal / Stretchable and recoverable acrylate-based pressure sensitive adhesives with high adhesion performance, optical clarity, and metal corrosion resistance / Ju Hak Lee, Jintae Park, Min Hoon Myung, Myung Jin Baek, Hak-Sun Kim, Dong Woog Lee / 2021-02 • Science Advances / Superaerophobic hydrogels for enhanced electrochemical and photoelectrochemical hydrogen production / Dasom Jeon†, Jinwoo Park†, Changhwan Shin, Hyunwoo Kim, Ji-Wook Jang, Dong Woog Lee*, Jungki Ryu* / 2020-04 • ACS Sustainable Chemistry and Engineering / In-depth study of the interaction mechanism between the lignin nanofilms: toward a renewable and organic solventfree binder / Yoojung Song, Jinwoo Park, Chanoong Lim*, Dong Woog Lee*/ 2020-01

Patents (selected) • [국내] 열 특성이 우수한 도광판용 고분자 조성물 및 이의 제조 방법 / 이동욱, 김학선, 백명진, 박진 태, 최현우 / 등록번호 : 10-2106833 / 2020-04

• [국외] 고분자 기반의 효율적인 기체 발생 반응을 위한 3D 초혐기 전극 / 류정기, 이동욱, 전다솜, 박 진우 / 출원번호 : 16/579,542 / 2019-09

108

Synthetic Biology & Metabolic Engineering Lab 합성생물학 및 대사공학 연구실

My research interests generally lie in the metabolic pathway engineering, the use of recombinant DNA technology to modify existing, or to introduce entirely new, metabolic pathways and regulatory systems within cells in order to improve their capacity to overproduce desired molecules (Biofuels, Bioplastics, Chemicals, Drugs).

로부터 다양한 바이오화학물질들을 생산할 수 있는 인공미생물을 제작하는 대사공학 연구를 진행 하고 있다.

_Sung Kuk Lee

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 401-2 Lab : Bldg. 104 Rm. 407 Tel : +82-52-217-2514 E-mail : sklee@unist.ac.kr https://sites.google.com/site/skleelab/

Curriculum Vitae

Major research field 대사공학 (Metabolic engineering) 합성생물학 (Synthetic biology) 바이오리파이너리 (Biorefinery)

Desired field of research 바이오연료, 바이오신약, 바이오케미컬, 바이오 플라스틱

Biofuels, Bioplastics, Chemicals, Drugs

· 2008 - Present : Assistant, Associate, Professor, UNIST · 2007 - 2008 : Co-Director, Fuel Synthesis Division, Joint BioEnergy Institute (JBEI) · 2004 - 2007 : Associate Specialist II, Department of Chemical Engineering, UC Berkeley and Synthetic Biology Department, SynBERC/LBNL

Academic Credential

Research Keywords and Topics • Design and optimization of metabolic pathways for biochemical production [대사공학] 최적의 바이오화학물질 생산 대사경로 설계 및 최적화

• Development of synthetic biology tools to build artificial biological systems [합성생물학] 고성능/고효율의 인공미생물 제작 기술 개발

• Microbial cell factories for oil palm biomass-based biorefinery [바이오리파이너리] 바이오매스 기반 고가의 바이오화학물질 생산

Research Publications (selected) • BIORESOURCE TECHNOLOGY / Metabolic engineering of Escherichia coli for 2,3butanediol production from cellulosic biomass by using glucose-inducible gene expression system / Sathesh-Prabu, Chandran; Kim, Donghyuk; Lee, Sung Kuk / 2020-08 • BIORESOURCE TECHNOLOGY / Metabolic engineering of Pseudomonas putida for the production of various types of short-chain-length polyhydroxyalkanoates from levulinic acid / Cha, Daegeun; Ha, Hyo Seok; Lee, Sung Kuk / 2020-08 • METABOLIC ENGINEERING / Simultaneous utilization of glucose and xylose via novel mechanisms in engineered Escherichia coli / Kim, Suk Min; Choi, Bae Young; Ryu, Young Shin; Jung, Sung Hun; Park, Jung Min; Kim, Goo-Hee; Lee, Sung Kuk / 2015-11

Patents (selected) • Method for preparing mutant Escherichia coli capable of simultaneously utilizing glucose and xylose / Sung Kuk Lee, Goohee Kim, Seong Hun Jeong, Suk Min Kim, and Bae Young Choi / [등록번호] US Patent No. 9,284,582 (03/15/2016 ~ 07/02/2034) • Mutant microorganism with enhanced sugar utilization and methods for preparing the same / Sung Kuk Lee, and Parisutham Vinuselvi / [등록번호] US Patent No. 8,871,480 (10/28/2014 - 07/25/2033)

· 2001 : Ph.D. School of Environmental Science and Engineering, Pohang University of Science and Technology (POSTECH), Korea · 1997 : M.S. Department of Life Science, POSTECH, Korea · 1994 : B.S. Department of Microbiology, Kyungbook National University, Korea

Awards/Honors/Memberships · 2013 : 제14회 LG 생명공학 경시대회 동상 수상 (지도학생)

· 2012 : URP 장려상 수상 · 2012 : Sung Kuk Lee, Dr. Lee was introduced as a main author on synthetic biology in PLos One · 2012 : Sung Kuk Lee, 2012 BBE's Best Paper Award from Biotechnology and Bioprocess Engineering · 2011 : Silver medal in 2011 iGEM regional competition at Hong Kong · Committee Member, The Korean Society for Biotechnology and Bioengineering (KSBB, 한국생물공학회) · Committee Member, The Korean Society for Microbiology and Biotechnology (KMB, 한국미생물생명공 학회)

College of Engineering

109

School of Energy and Chemical Engineering

지구온난화의 주범인 석유화학산업을 대체할 친환경 미래 기술로 ‘바이오리파이너리’가 주목받고 있다. 이에 본 연구실에서는 여러 유전공학 및 합성생물학 기술들을 개발하고 활용하여 바이오매스

이성국

Eco-friendly Catalysis & Energy Lab(ECOCAT) 친환경 촉매 및 에너지 연구실

이재성

_Jae-Sung Lee

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 801-4 Lab : Bldg. 104 Rm. 805-2, 3 Tel : +82-52-217-2544 E-mail : jlee1234@unist.ac.kr http://ecocat.unist.ac.kr/

ECOCAT group focuses on water splitting using photoelectrochemical reaction which converts solar energy into hydrogen energy. We also research on fuel cell and carbon dioxide hydrogenation which utilizes the hydrogen produced. 본 연구실은 태양에너지를 수소연료로 전환하는 방법 중 하나인 광전기화학반응 을 이용한 물분해를 연구하 고 있습니다. 생산한 수소를 활용할 수 있는 분야인 연료 전지와 이산화탄소 수소화 반응 기술 등을 연구 진행 중 입니다.

Curriculum Vitae · 2013 - Present : Full Professor, School of Energy and Chemical Engineering, UNIST · 1996 - 2013 : Full Professor · 1993 - 1994 : Visiting Professor, Department of Chemical Engineering, Yale University · 1990 - 1996 : Associate Professor · 1986 - 1990 : Assistant Professor Department of Chemical Engineering, POSTECH · 1985 - 1986 : Postdoctoral Fellow, Catalytic Associates,California,U.S.A. · 1975 - 1980 : Process Engineer, Samsung Petrochemical Co., Ulsan

Academic Credential · 1984 : Ph. D in Chemical Engineering Stanford University - Advisor : Michel Boudart - Dissertation : Molybdenum Carbide Catalyst · 1997 : M.S. in Chemical Engineering, Korea Advanced Institute of Science & Technology (KAIST) · 1975 : B.S. in Chemical Engineering, Seoul National University

Awards/Honors/Memberships · 정부연구개발 우수성과 (상패) · 기초연구 우수성과 인증 (교과부) · 여산 촉매 학술상 · Thomson Top Citation · 과기부 우수연구 50선 · 고효율 수소 에너지 사업단 우수과제 · 늘푸른에너지 공학상 외 다수 수상

· American Chemical Society, Member · North American Catalysis Society, Member · Korean Institute of Industrial Chemistry, Division of Catalysis

110

Major research field Photoelectrocatalysis, Electrocatalysis, Heterogeneous Catalysis

Desired field of research Large-Scale Solar Hydrogen Production, Solar Fuels by Photoelectrochemistry

Research Keywords and Topics • Photoelectrochemical Cell, Photoelectrochemical Hydrogen Production, Water Splitting, Electrocatalysis, Fuel Cells, PEMFC, Heterogeneous Catalysis, CO2 Hydrogenation. 광전기화학셀, 광전기화학적 수소생산, 물분해, 전기촉매반응, 연료전지, 고분자 전해질 연료전지, 불균일계 촉매, 이산화탄소 수소화 반응.

Research Publications (selected) • Chem. Soc. Rev. / Toward practical solar hydrogen production - an artificial photosynthetic leaf-to-farm challenge / 2019 • Nature Catalysis / Boosting the performance of Cu2O photocathodes for unassisted solar water splitting devices / 2018 • Nature Communications / Hetero-type dual photoanodes for unbiased solar water splitting with extended light harvesting / 2016 • Angew. Chem. Int. Ed. / Phosphate Doping into Monoclinic BiVO4 for Enhanced Photoelectrochemical Water Oxidation Activity / 2012 • Adv. Mater. / Engineered Nanorod Perovskite Film Photocatalysts to Harvest Visible Light / 2011 • Angew. Chem. Int. Ed. / Photocatalytic Nanodiodes for Visible-Light Photocatalysis / 2005 • J. Am. Chem. Soc., An Undoped, Single-Phase Oxide Photocatalyst Working under Visible Light / 2004

Patents (selected) • PRECURSOR OF CATALYST FOR HYDROGENATION OF CARBON DIOXIDE AND MANUFACTURING METHOD THEREFOR, AND HYDROGENATION CATALYST OF CARBON DIOXIDE AND MANUFACTURING METHOD THEREFOR / Y.H. Choi, J.S. Lee, U.S. PATENT / 2019-08 • 광전지화학 셀 및 그 제조방법, 물 전기분해 시스템 및 그 제조방법 / 이재성, 김진현 / KR PATENT 등록 / 2019-05

Quantum Materials for Energy Conversion Lab

Our lab (QMEC) uses supercomputers and artificial intelligence to find new materials that could not been found manually and then synthesize them through experiments. We design new materials, representatively, in three fields (memory semiconductors, hydrogen generation catalysts, and electric vehicle motor magnets).

2. Discovery of New Electro-Catalysts from AI (Artificial Intelligence) Hydrogen fuel, exploited by only water and sunlight, is the infinite and clean next generation energy source. Hydrogen and oxygen are generated at the same time from water decomposed, but the oxygen evolution reaction (OER) is still slow and requires a lot of precious metals such as IrO2 and RuO2 etc. Our group is developing various oxide catalysts that are low-priced and can significantly improve OER by supercomputer simulations and machine learning. We use a supercomputer to predict catalytic performance, using more than 4 different inexpensive metal dopants with the help of AI to predict the performance of all metal combinations in the periodic table. We conduct experimental research selectively with a good combination of catalysts found on this basis, which allow us to discover the next generation catalysts quickly and efficiently. This method, in the future, will provide a template for studying catalysts in all the other fields, as we plan to expand our research area to various photo- and electro-catalysts such as CO2 conversion and so on. 3. Super Magnets for Motors in Electric Vehicles Power-based cars (electric cars and hydrogen cars) use motors instead of conventional combustion engines. Therefore, the performance of the magnets in the motors is paramount. These magnets must retain their magnetism well in terms of its strength and stability even at high temperatures where cars work. Currently, rare earth metals such as neodymium magnet (Nd2Fe14B) have been used a lot, but it’s hard to overcome the price issue. Our group has carried out a lot of quantum materials research based on supercomputer calculations to replace rare earths such as Nd with a combination of cheap iron or manganese. However, as the supercomputer calculation of four or more element’s combination reached the limit, we plan to predict magnetic properties of all combinations of the periodic table by introducing AI such as Convolutional Neural Network (CNN). Therefore, we plan to contribute to significantly lowering the price of electric or hydrogen vehicles by discovering cheap magnets with strong magnetism and high thermal stability that can replace existing rare-earth elements.

Major research field 전산모사, 기계학습, 메모리 반도체, 강유전체, 전기화학 촉매, 전기-수소차 모터용 자석

Desired field of research CO2 전환, 인공지능, 양자 컴퓨터, 위상 물질, 반도체 박막 실험 구현, 배터리-연료전지 실험

Research Keywords and Topics • Materials / Catalytic materials, Ferroelectrics, Magnetic materials • Physics / Ferroelectricity, Magnetism, Topology • Computational Science / Density Functional Theory (DFT), Molecular Dynamics, Machine Learning, AI

Research Publications (selected) • SCIENCE / “Scale-free ferroelectricity induced by flat phonon bands in HfO2” / Hyun-Jae Lee, Minseong Lee, Kyoungjun Lee, Jinhyeong Jo, Hyemi Yang, Yungyeom Kim, Seung Chul Chae, Umesh Waghmare, Jun Hee Lee* / 2020-07 • Physical Review Letters / “Giant Spin-Driven Ferroelectric Polarization in BiFeO3 at Room Temperature” / Jun Hee Lee*, Randy Fishman / 2015-11

Patents (selected)

_Jun Hee Lee

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 601-6 Lab : Bldg. 104 Rm. 605-2 Tel : +82-52-217-2569 E-mail : junhee@unist.ac.kr https://junhee.wixsite.com/qmec

Curriculum Vitae · 2019 - Present : Associate Professor, UNIST · 2015 - 2019 : Assistant Professor, UNIST · 2013 - 2015 : Post-doctoral Fellow, Oak Ridge National Lab, USA · 2011 - 2013 : Post-doctoral Fellow, Princeton University, USA · 2008 - 2011 : Post-doctoral Fellow, Rutgers University · 2010 : Visiting Scholar, University of California, USA · 2006 - 2007 : Researcher, Jawaharlal Nehru Centre for Advanced Scientific Research, India

Academic Credential · 2008 : Doctor of philosophy, Theoretical Condensed-Matter Physics, Department of Physics, Seoul National University · 2003 : Master of Science, Physics, Seoul National University · 2001 : Bachelor of Science, Physics, Seoul National University

Awards/Honors/Memberships · Referee for Journal of American Ceramic Society (JACS), Journal of Applied Physics (JAP), Physical Review B (PRB), Physical Review Letters (PRL), Journal of Physics : Condensed Matter (JPCM) · Organizers for Korean Physics Society (KPS), Korean Ceramic Society, and Korean Ferroelectric Society · Member in Materials Research Society (MRS), American Physics Society (APS)

• 유전 박막, 및 이를 포함하는 멤커패시터 / 이준희, 박노정 / 2019-11 • 2차원 강유전성 물질을 이용한 비휘발성 3진 메모리 소자 및 이의 제조 방법 / 이준희, 이호식 / 2019-11

College of Engineering

111

School of Energy and Chemical Engineering

1. Atomic Memory Semiconductors South Korea has become an important global player in the semiconductor industry, but it becomes difficult to keep the ‘super gap’ in the memory industry, due to a scaling limitation of nanotechnology. We created a new paradigm to override the limitation based on our discoveries of “Atomic Semiconductors” that store information directly in atoms of solids. One of the achievements is our theoretical paper on a semiconductor HfO2. HfO2 was previously studied as a gate oxide in a complementary metal–oxide–semiconductors field-effect transistor (cMOSPET). Recently, ferroelectricity has been reported in HfO2, which can be employed for memory devices. Conventional ferroelectrics store only 1 bit of information over a domain of thousands of atoms or more. However, our group, by applying flat band theory to memory materials, proved that one bit can be stored in an individual atom in HfO2 solid for the first time in the world, as reported in SCIENCE. (H.-J.Lee et al., Science 369, 1343 (2020)). This is the first ferroelectric theory paper ever published in Science. Based on our new paradigm, we are currently conducting experiments to reach up to a memory density of 100 TB, which is more than 1,000 times higher than the commercialized memory densities.

이준희

Multifunctional Architecture Systems and Synthesis Lab 기능성 유/무기 나노재료 합성 연구실

이지석

_Ji-seok Lee

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 601-1 Lab : Bldg. 104 Rm. 609 Tel : +82-52-217-2566 E-mail : jiseok@unist.ac.kr https://www.3dmass.org

We are conducting researches to develop an anti-counterfeiting system by designing and synthesizing functional organic/inorganic nanomaterials showing optical properties and continuously manufacturing microstructures showing unprecedented optical properties using a three-dimensional microfluidic channel. In addition, the precise 3D microstructure is optically fabricated and applied to develop tactile sensor systems or 3D full-parallax hologram pattern production. In our lab, we are conducting various researches such as synthesis of functional conjugated polymers, synthesis of organic/inorganic functional materials, soft lithography for microfluidic channel production, 3D/4D printing, 3D hologram, and structural color system manufacturing.

Curriculum Vitae · 2020 - Present : Associate Professor UNIST, School of Energy and Chemical Engineering · 2019 - Present : ㈜AMHOLO : President and founder · 2014 - 2020 : Assistant Professor UNIST, School of Energy and Chemical Engineering · 2011 - 2014 : Massachusetts Institute of Technology (MIT), Post-doctoral Associate

Academic Credential · 2011 : Ph.D. in Macromolecular Science and Engineering, University of Michigan · 2005 : M.S. Department of Chemical Engineering, Hanyang University · 2003 : B.S. Department of Chemical Engineering, Hanyang University

Memberships · 2018 - 2019 : 한국 고분자 학회 운영이사 · 2016 : 공업화학회 고분자 분과위원회 간사

Awards · 2011 : Graduate Symposium Award, University of Michigan · 2010 : 1st Place Technical Session Award at Material and Chemical Technology (MCT) in Engineering Graduate Symposium. University of Michigan · 2010 : Best Poster Award at the Aldrich Symposium in Materials Science. University of Michigan

Major research field

Desired field of research

Functional conjugated polymer synthesis, 3D full-parallax hologram, stereolithography, microfluidics, 4D printing, tactile sensor, Bio/chemo sensor

Soft-robotics, Anticounterfeiting, 4D origami structure fabrication, Responsive hologram microstrucrture

Research Keywords and Topics • 3D printing, optofluidics, photo-curable polymer synthesis, photo-responsive conjugated polymer, tactile sensor, photonic polymer synthesis, and 3D architecture fabrication

Research Publications (selected) • NATURE MATERIALS / Dynamic Multi-modal Holograms of Conjugated Organogels via Dithering Mask Lithography / Oh, Jongwon; Baek, Daehye; Lee, Tae Kyung; Kang, Dongwon; Hwang, Hyeri; Go, Eun Min; Jeon, Inkyu; You, Younghoon; Son, Changil; Kim, Dowon; Whang, Minji; Nam, Kibum; Jang, Moonjeong; Park, Jung-Hoon; Kwak, Sang Kyu; Kim, Jungwook; Lee, Jiseok / 2021-01 • ADVANCED OPTICAL MATERIALS / Facile Microfluidic Fabrication of 3D hydrogel SERS Substrate with High Reusability and Reproducibility via Programmable Maskless Flow Microlithography / Shin, Yoonkyung; Jeon, Inkyu; You, Younghoon; Song, Kwangho; Lee, Tae Kyung; Oh, Jongwon; Son, Changil; Baek, Dahye; Kim, Dowon; Cho, Heesu; Hwang, Hyeri; Kim, Taeyoung; Kwak, Sang Kyu; Kim, Jungwook; Lee, Jiseok / 2020-12 • ADVANCED SCIENCE / Multi-Color Luminescence Transition of Upconversion Nanocrystals via Crystal Phase Control with SiO2 for High Temperature Thermal Labels / Baek, Dahye; Lee, Tae Kyung; Jeon, Inkyu; Joo, Se Hun; Shin, Subeen; Park, Jaehyun; Kang, Seok Ju; Kwak, Sang Kyu; Lee, Jiseok / 2020-06 • NATURE MATERIALS / Universal process-inert encoding architecture for polymer microparticles / Lee, Jiseok; Bisso, Paul W.; Srinivas, Rathi L.; Kim, Jae Jung; Swiston, Albert J.; Doyle, Patrick S. / 2014-05

Patents (selected) • RARE EARTH SPATIAL/SPECTRAL MICROPARTICLE BARCODES FOR LABELING OF OBJECTS AND TISSUES, Jiseok Lee / US patent / 2020-01 • TACTILE SENSOR, METHOD FOR MANUFACTURING THE THREE-DIMENSIONAL MAPPING METHOD, Jiseok Lee / US patent / 2020-03

112

Carbon Nanomaterials Lab 탄소나노재료연구실

탄소나노재료연구실은 탄소나노튜브, 그래핀과 같은 탄소나노소재의 우수한 물성을 활용하여 에너

이창영

_ChangYoung Lee

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 601-8 Lab : Bldg. 104 Rm. 602 Tel : +82-52-217-2547 E-mail : cylee@unist.ac.kr http://cylee.unist.ac.kr/

지, 환경 및 인간 건강의 현재 및 새로운 문제를 해결하는 것을 목표로 합니다. 이러한 목표를 달성하 기 위해 우리는 나노 물질을 합성 및 특성화하고, 원하는 성능에 맞게 특성을 조정하

Curriculum Vitae

고, 생물학적, 에너지 및 환

· 2018 - Present : Associate Professor, School of Energy and Chemical Engineering, UNIST · 2012 - 2018 : Assistant Professor, School of Energy and Chemical Engineering, UNIST · 2010 - 2012 : Postdoctoral Research Associate, Beckman Institute & Department of Chemistry, University of Illinois at Urbana-Champaign (w/ Jonathan Sweedler)

경 연구에서 도구로서의 잠 재력을 연구하고 있습니다. 현재는 1차원 나노채널의 분 자 이동현상 이해, 단일 분자 검출을 위한 나노포어, 나노 물질을 사용한 독성 가스 검 출, 생체 내 신호전달물질을 연구하고 있습니다.

Academic Credential

Major research field 탄소나노소재, 나노채널, 단분자 탐지

Research Keywords and Topics • Carbon nanomaterials: carbon nanotubes, graphene • Single-molecule detection and identification • Sensors for detection of chemical warfare agents • Nanotechnology for mass spectrometry • Nanotechnology for neuroscience

· 2010 : Ph.D. Chemical Engineering, Massachusetts Institute of Technology · 2007 : M.S. Chemical Engineering, University of Illinois at UrbanaChampaign · 2003 : B.S. Chemical Engineering, Seoul National University

Research Publications (selected) • NANO LETTERS / Hygroscopic Micro/Nanolenses along Carbon Nanotube Ion Channels / Kim, Yun-Tae; Min, Hyegi; Strano, Michael S; Han, Jae-Hee; Lee, Chang Young / 2020-02 • ADVANCED FUNCTIONAL MATERIALS / High-Yield Fabrication, Activation, and Characterization of Carbon Nanotube Ion Channels by Repeated Voltage-Ramping of Membrane-Capillary Assembly / Min, Hyegi; Kim, Yun-Tae; Moon, Seung Min; Han, Jae-Hee; Yum, Kyungsuk; Lee, Chang Young / 2019-07 • CHEMISTRY OF MATERIALS / The Exterior of Single-Walled Carbon Nanotubes as a Millimeter-Long Cation-Preferring Nanochannel / Kim, Yun-Tae; Joo, Se Hun; Min, Hyegi; Lee, Jiyun; Moon, Seung Min; Byeon, Mirang; Hong, Tae Eun; Strano, Michael S.; Han, Jae-Hee; Kwak, Sang Kyu; Lee, Chang Young / 2018-08

College of Engineering

113

School of Energy and Chemical Engineering

Our laboratory aims to utilize excellent material properties of carbon nanomaterials, such as carbon nanotube and graphene, for addressing current and emerging issues in energy, environment, and human health. To achieve these goals we synthesize and characterize nanomaterials, tune their properties for desired performance, and explore their potential as tools in biological, energy, and environment research. Current research topics include understanding molecular transport in 1-dimensional nanochannel, nanopores for single-molecule detection, detection of toxic gases using nanomaterials, and analysis of signaling molecules in biological systems.

Energy Storage and Electron Microscopy Laboratory(ESEM)

이현욱

_Hyun-Wook Lee

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 701-1 Lab : Bldg. 104 Rm. 705-1 Tel : +82-52-217-2593 E-mail : hyunwooklee@unist.ac.kr https://sites.google.com/site/hyunwoo kleenano

The high demands for rechargeable lithium ion batteries (LIBs) have significantly increased each year for mobile electronics, electric vehicles, and stationary energy storage over the past two decades as a convenient power source. In order to fulfill the demands in these applications, tremendous research progress has been made at stabilizing new electrode materials with high performance and identifying the fundamental failure mechanisms that prevent a prolonged cycle life. Alloy and conversion materials with high specific capacity like silicon, sulfur, and conversion metal oxides have the most promise to increase the energy density of LIBs, but also have scientific challenges to retain their theoretical capacities upon repeated charge and discharge cycles. These new electrode materials have created a high interest for experimental techniques that are able to provide direct, atomic-scale, and real-time observation during the electro-chemical processes. 울산과학기술원 (UNIST) 에너지화학공학과 이현욱 교수 연구실을 소개합니다. 실험실 이름은 full name으로 Energy Storage and Electron Microscopy 연구실, 약자로는 ESEM으로 불립니다. 흔히

Curriculum Vitae · 2020 - Present : Associate Professor, School of Energy and Chemical Engineering, UNIST, Ulsan, Korea · 2018 - Present : Editorial Board Member of iScience · 2016 - 2020 : Assistant Professor, School of Energy and Chemical Engineering, UNIST, Ulsan, Korea · 2012 - 2015 : Postdoctoral Scholar, Materials Sci. & Eng., Stanford University, CA, USA [Supervisor : Prof. Yi Cui] · 2012 : Postdoctoral Scholar, Materials Sci. & Eng., KAIST, Daejeon, Korea [Supervisor : Prof. Do Kyung Kim]

ESEM을 한글로 읽으면, ‘이 쎔’이라고 읽게 되는데, 경상도 말로 “이 쌤”과 같은 발음이 됩니다. 즉, “이 선생님”이라는 표현과 중의적으로 이런 이름을 갖게 되었습니다. 연구실에서 연구하는 내용은 크게

이 이름과 관련이 있습니다. Energy Storage와 Electron Microscopy의 복합적인 연구를 지향하고 있 습니다. 에너지 저장 소재에 대한 관심으로 이차전지에 대한 연구, 또한 고도분석의 tool로 잘 알려진 Electron Microscopy를 이용하여, 배터리의 깊은 속을 이해하고자 구성원이 모였습니다.

Academic Credential · 2012 : Ph.D. Materials Science and Engineering, KAIST, Daejeon, Korea · 2009 : M.S. Materials Science and Engineering, KAIST, Daejeon, Korea · 2007 : B.S. Advanced Materials Engineering, Sejong University, Seoul, Korea

Awards/Honors/Memberships · 2019, 2020 : Highly Cited Researcher, HCR, global top 1% citation, Clarivate Analytics · 2014 : Best Research Poster Award at the 2014 GCEP Research Symposium, “Manganese hexacyanomanganate open framework as a high-capacity positive electrode material for sodium-ion batteries” · 2012 - 2013 : The National Research Foundation (NRF) Postdoctoral Fellowship · 2012 : Best Doctoral Dissertation Award in Department of Materials Science and Engineering, KAIST

114

Major research field In-situ transmission electron microscopy, Materials for rechargeable energy storage, Energy harvesting by an electrochemical system

Research Keywords and Topics • Materials for rechargeable energy storage 1. Si (or Si/graphite composite) anodes for high energy lithium ion batteries 2. New insertion electrode materials based on Prussian Blue open-framework structure 3. Mn-based nanostructures for Li ion battery electrode materials • Energy harvesting by an electrochemical system • Ferroelectric barium titanate nanostructures

Research Publications [Selected as Highly Cited Papers in 2019 and 2020] • NANO LETTERS / Native void space for maximum volumetric capacity in silicon-based anodes / Yeom, Su Jeong; Lee, Cheolmin; Kang, Sujin; Wi, Tae-Ung; Lee, Chanhee; Chae, Sujong; Cho, Jaephil; Shin, Dong Ok; Ryu, Jungki; Lee, Hyun-Wook / 2019-12 • NANO LETTERS / Nanocrevasse-rich carbon fibers for stable lithium and sodium metal anodes / Go, Wooseok; Kim, Min-Ho; Park, Jehee; Lim, Chek Hai; Joo, Sang Hoon; Kim, Youngsik; Lee, Hyun-Wook / 2019-03 • NATURE ENERGY / Scalable synthesis of silicon-nanolayer-embedded graphite for high-energy lithium-ion batteries / Ko, Minseong; Chae, Sujong; Ma, Jiyoung; Kim, Namhyung; Lee, Hyun-Wook; Cui, Yi; Cho, Jaephil / 2016-08

Sustainable Process Analysis, Design, and Engineering Lab 화학공정공학연구실

임한권

_Hankwon Lim

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 701-7 Lab : Bldg. 104 Rm. 705-2 Tel : +82-52-217-2935 E-mail : hklim@unist.ac.kr http://spade.unist.ac.kr/

본 연구실은 화학공학의 기본적인 원리들에 대한 이해를 바탕으로 다양한 화학공정에서 볼 수 있는 문 제점들을 해결하는 것을 주 목적으로 합니다. 특히 대학, 정부출연연구소 및 산업체와의 공동연구를 통 해 이러한 문제점들을 해결하려고 노력하고 있습니다. 관심있는 연구 분야로는 공정설계, 기술경제성 분석, 수학적 모델링, 전산유체역

Curriculum Vitae

학, 분리공정, 반응공학, AI, ML 등

· 2018 - Present : Associate Professor, UNIST · 2013 - 2018 : Assistant Professor, Catholic University of Daegu · 2007 - 2013 : Development Specialist, Praxair, Inc.

이 있으며, 이론 및 실험연구를 병 행하고자 합니다. 현재 주도적으 로 진행하고 있는 연구분야로는 분리막반응기시스템, 수소 생산/ 저장/수송, 수전해, 연료전지, 흐름 전지, 개질기, 이산화탄소 포집 및

Academic Credential

활용, Non-CO2 gas 저감, 매립지

· 2007 : Ph. D. Chemical Engineering, Virginia Tech. · 2003 : M. S. Chemical Engineering, Georgia Tech. · 2000 : B. S. Chemical Engineering, Sogang Univ. (Summa cum laude)

가스 처리, 배터리 등이 있습니다.

Major research field Process simulation and design, scale-up, techno-economic analysis, numerical modeling, computational fluid dynamics, separation process, reaction engineering, business model, machine-learning, digital twin

Research Keywords and Topics • Process simulation and design, scale-up, techno-economic analysis, numerical modeling, computational fluid dynamics, separation process, reaction engineering, business model, machine-learning, digital twin

Research Publications (selected) • RENEWABLE & SUSTAINABLE ENERGY REVIEWS / Technical and economic feasibility under uncertainty for methane dry reforming of coke oven gas as simultaneous H-2 production and CO2 utilization / Lee, Boreum; Kim, Hyunwoo; Lee, Hyunjun; Byun, Manhee; Won, Wangyun; Lim, Hankwon / 2020-11 • APPLIED ENERGY / Design, economic evaluation, and market uncertainty analysis of LOHC-based, CO2 free, hydrogen delivery systems / Brigljevic, Boris; Byun, Manhee; Lim, Hankwon / 2020-09 • INTERNATIONAL JOURNAL OF HYDROGEN ENERGY / Economic evaluation with sensitivity and profitability analysis for hydrogen production from water electrolysis in Korea / Lee, Boreum; Chae, Heetae; Choi, Nak Heon; Moon, Changhwan; Moon, Sangbong; Lim, Hankwon / 2017-03

Awards/Honors/Memberships · The Korean Institute of Chemical Engineers · The Korean Society of Industrial Engineering Chemistry · The Korean Society for Clean Technology · The Korean Hydrogen & New Energy Society · Tau Beta Pi National Engineering Honor Society · Alpha Sigma Nu Honor Society

Patents (selected) • Joseph M. Schwartz, Joey M. Corpus, Hankwon Lim, “Method of making a hydrogen transport membrane, and article” / United States Patent / US9084970B2

College of Engineering

115

School of Energy and Chemical Engineering

Our research group is focused on understanding basic principles of chemical engineering and applying them to solve various challenging problems encountered in chemical processes. In particular, our group collaborates with various research groups from university, national research institute, and industry to achieve this goal. Our research group covers diverse research areas including process simulation and design, techno-economic analysis, numerical modeling, computational fluid dynamics, separation process, reaction engineering, AI, ML, etc. by well balancing between theoretical and experimental studies. The current research topics that we’re interested in are a membrane reactor system, H2 production, water electrolysis, fuel cells, vanadium redox flow battery, steam reformer, CO2 capture and utilization, Non-CO2 gas (CF4, SF6) reduction, landfill gas, batteries, to name a few.

Renewable Energy and Nanoelectronics Laboratory 신재생 에너지 및 나노전자 실험실

장성연

_Sung-Yeon Jang

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-14 Lab : Bldg. 108 Rm. 602 Tel : +82-52-217-2923 E-mail : syjang@unist.ac.kr http://syjang.unist.ac.kr/

Emerging energy materials and devices are promising low-cost power generators which do not cause pollution. These energy devices can be applied as the independent power supplier for smart city in the future. In order to achieve this goal, the development of environment-friendly energy materials, and the improvement of device performance based on understanding their fundamental optoelectronic properties are the essential requirements. Our group is working on the development from novel materials to high performance devices. 차세대 에너지 소자는 무한한 양의 발전을 친환경적으로 구현하기에 매우 유망한 소자이며 향후 스 마트시티의 독립전원시스템 구현에 유용할 것으로 여겨지고 있다. 이를 달성하기 위해서는 친환경 적 고성능 에너지 소재의 개발, 광전/열전현상에 대한 이해를 통한 소자의 고효율화 등이 중요한 해 결과제들로 여겨지고 있다. 본 연구실은 차세대 에너지 소자의 상용화를 위해 필요한 원천소재 개발 부터 소자의 고성능화를 위한 연구까지 모두를 수행하고 있다.

Curriculum Vitae · 2019 - Present : Professor School of Energy and Chemical Engineering, UNIST · 2017 - 2018 : Visiting Professor Department of Mechanical Engineering, University of Michigan · 2011 - 2019 : Associate Professor School of Applied Chemistry, Kookmin University · 2006 - 2011 : Senior Research Scientist Center for Energy Materials, KIST · 2004 - 2006 : Post-docor Researcher Chemical Engineering, University of California at Berkeley

Academic Credential · 2004 : Ph.D. Institute of Materials Science, University of Connecticut, US · 2000 : M.S. Kyungpook National University, Korea · 1998 : B.S. Kyungpook National University, Korea

Awards/Honors/Memberships · 2019 : Scientist of Year, Ministry of Science and ICT · Member of Korean Polymer Society · Member of Korean Photovoltaic Society · Member of Korean Society of Photoscience · Member of Korean Chemical Society · Editorial board member of Scientific Reports

Major research field Colloidal Quantum Dot Solar Cells, Organic Solar Cells, Perovskite Solar Cells, Thermoelectrics, Molecular Electronics

Research Publications (selected) • Intrinsically self-healable, stretchable thermoelectric materials with a large ionic Seebeck effect / Zico Alaia Akbar, Ju-Won Jeon, Sung-Yeon Jang / Energy & Environ. Sci. / 2020-04 • Thermal conductance of single-molecule junctions / Longji Cui, Sunghoon Hur, Zico Alaia Akbar, Jan C. Klöckner, Wonho Jeong, Fabian Pauly, Sung-Yeon Jang, Pramod Reddy, Edgar Meyhofer / Nature / 2019-07 • Solid-State-Ligand-Exchange Free Quantum Dot Ink-based Solar Cells with Efficiency of 10.9% / Havid Aqoma, Sung-Yeon Jang / Energy & Environ. Sci. / 2018-04

Patents (selected) • 양자점 태양전지 및 이의 제조 방법 / 장성연, 정인환, 하피드 아코아 / 2021-01 • 양자점 잉크 조성물, 이의 제조 방법 및 양자점 잉크 조성물로부터 제조된 양자점 층을 포함하는 양 자점 태양전지 / 장성연, 하피드 아코마 / 2019-11

116

JW Energy Lab JW 에너지 연구실

저희 연구실은 고효율의 고안정의 광촉매를 개발하는 일을 주로 수행하고 있으며, 금속산화물과 같 은 안정한 광촉매 물질의 효율을 증가시키는 방향과 이미 높은 효율을 보유하고 있는 페로브스카이

장지욱

_Ji-wook Jang

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 801-2 Lab : Bldg. 104 Rm. 809 Tel : +82-52-217-3027 E-mail : jiwjang@unist.ac.kr http://jwjang.unist.ac.kr/

트, 유기물, 실리콘 등의 물질을 안정화 시키는 두 가지 방향으로 주로 연구를 진행하고 있습니다. 이 러한 광촉매 연구를 바탕으로 태양광 바이오매스전환, 태양광 배터리 연구 등의 연구도 같이 수행하 고 있습니다. 본 연구실의 궁 극적인 목표는 태양광 수소 뿐 아니라 과산화수소, 암모니아

Curriculum Vitae

등의 태양광 연료 생산 시스템

· 2021 - Present : Associate Professor, School of Energy and Chemical Engineering, UNIST · 2016 - 2021 : Assistant Professor, School of Energy and Chemical Engineering, UNIST · 2015 - 2016 : Post. Doc., Helmholtz Zentrum Berlin Institute · 2013 - 2015 : Post. Doc., Boston College

을 상용화 시키는 것입니다.

Major research field

Desired field of research

Artificial photosynthesis, Photocatalysis, Solar hydrogen, Solar fuels

Artificial photosynthesis, Photocatalysis, Solar hydrogen, Solar fuels, Solar battery

Research Keywords and Topics • Artificial photosynthesis, Photocatalysis, Solar hydrogen, Solar fuels, Solar batteries 인공광합성, 광촉매, 태양광 수소, 태양광 연료, 태양광 배터리

Academic Credential · 2006 - 2012 : Ph.D., Chemical Engineering, POSTECH · 2002 - 2006 : B. S., Chemistry, POSTECH

Awards/Honors/Memberships · 2020 : POSCO Science Fellowship

Research Publications (selected) • Nat. Commun. / “High-performance and stable photoelectrochemical water splitting cell with organic-photoactive-layer-based photoanode” / J. M. Yu†, J. H. Lee†, Y. S. Kim†, J. J. Song, J. Y. Oh, S. M. Lee, M. G. Jeong, Y. S. Kim, J. H. Kwak, S. H. Cho*, C. D. Yang* and J. W. Jang* / 11 : 5509 / 2020 • Nat. Commun. / “Unassisted selective lignin conversion by a bio-photoelectrochemical system.” / Ko, Myohwa; Pham, Le Thanh Mai; Sa, Young Jin; Woo, Jinwoo; Nguyen, Trang Vu Thien; Kim, Jae Hyung; Oh, Dongrak; Sharma, Pankaj; Ryu, Jungki; Shin, Tae Joo; Joo, Sang Hoon*; Kim, Yong Hwan*; Jang, Ji-Wook* / 10: 5123 / 2019 • Chem. Soc. Rev. / “Toward practical solar hydrogen production - an artificial photosynthetic leaf-to-farm challenge” / J. H, Kim, D. Hansora, P. Sharma, J.-W. Jang*, J.S. Lee* / 48, 1908 / 2019 • Nat. Commun. / “Hetero-type dual photoanodes for unbiased solar water splitting with extended light harvesting.” / J. Kim†, J.-W. Jang†, Y. H. Jo, F. F. Abdi, Y. H. Lee, R. van de Krol*, J. S. Lee* / 7:13380 / 2016 • Nat. Commun. / “Enabling unassisted solar water splitting by iron oxide and silicon.” / J.-W. Jang, C. Du, Y. Ye, Y. Lin, X. Yao, J. Thorne, E. Liu, G. McMahon, J. Zhu, A. Javey, J. Guo, D. Wang / 6: 7447 / 2015

College of Engineering

117

School of Energy and Chemical Engineering

Our group focus on improving the performance of photocatalyst itself in both directions of increasing the efficiency of metal oxide photoelectrodes and stabilizing the solar cell materials already possessing high efficiency. My long-term career goal as a researcher is to commercialize the solar hydrogen production system as well as other solar fuel production systems (such as H2O2 and NH3) by improving the both efficiency and stability of photocatalyst at a competitive price. This will be also the ultimate research direction of JW Energy Lab. at UNIST.

Structures & Sustainable Energy Lab (SSEL) 구조 및 지속가능 에너지 연구실

장지현

_Ji-hyun Jang

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 501-6 Lab : Bldg. 104 Rm. 503 Tel : +82-52-217-2922 E-mail : clau@unist.ac.kr http://jangjihyun.wix.com/nanocrystallab

We are working on fabrication and applications of artificial multi-dimensional structures. Multi-dimensional periodic nano-structures have found numerous applications in energy–related areas such as photoelectrochemical H2 generation, supercapacitors, and batteries. Besides, synthesizing and exploiting wonder 2D materials such as graphene and transition metal dichalcogenides are being studied deeply. 2D and 3D periodic nanostructures with specific prosperities will open up the significant possibility in a number of fields, which is not attainable from simple low dimensional structures. 본 연구실에서는 다차원의 구조체를 제작하고 다양한 어플리케이션에 적용하는 연구를 하고 있다. 다차원의 규칙적인 배열을 갖는 나노 구조체는 다양한 에너지 관련 분야, 즉 광전기화학적 수소 생 산, 슈퍼커패시터 그리고 배터리 등에 적용될 수 있다. 또한, 그래핀, 전이금속 칼코젠화합물과 같은 2차원 물질의 합성과 응용에 대한 다양한 연구가 진행되고 있다. 우수한 특성을 갖는 2차원, 3차원의 규칙적인 나노 구조체는 저차원 구조체가 이뤄낼 수 없었던 수많은 분야에 대한 매우 큰 가능성을 열어줄 것으로 기대된다.

Curriculum Vitae · 2021 - Present : Professor, UNIST · 2013 - 2021 : Associated Professor, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2004 - 2009 : Postdoctoral Associate, MIT · 2003 - 2004 : Postdoctoral Associate, KAIST

Academic Credential · 2003 : Ph. D. Chemistry, KAIST · 1999 : M.S. Chemistry, KAIST · 1997 : B.S. Chemistry, Pusan National University

Awards/Honors/Memberships · Member of Material Research Society · Member of American Chemical Society · Member of Korean Chemical Society · Member of Polymer Society of Korea

Major research field Hydrogen generation; 2D materials; Supercapacitors; Photoresist for EUV lithography

Research Keywords and Topics • Graphene, Photoelectrochemical (PEC) H2 generation, ORR/OER 그래핀, 광전기화학적 수소 생성, 산소 산화/환원 반응

• SERS, 3D-Nanostructures, Supercapacitors, Thermoelectric materials 표면 증강 라만 분광학, 3차원 나노구조체, 슈퍼커패시터, 열전재료

• Photoresist for EUV lithography EUV용 반도체 포토레지스트 제작

Research Publications (selected) • ACS ENERGY LETTERS / Co3O4 Exsolved Defective Layered Perovskite Oxide for Energy Storage Systems / Kang, Kyeong-Nam; Lee, Hansol; Kim, Junyoung; Kwak, Myung-Jun; Jeong, Hu Young; Kim, Guntae; Jang, Ji-Hyun / 2020-12 • NANO ENERGY / A highly transparent thin film hematite with multi-element dopability for an efficient unassisted water splitting system / Park, Juhyung; Yoon, Ki-Yong; Kim, Taehyo; Jang, Hyungsu; Kwak, Myung-Jun; Kim, Jin Young; Jang, Ji-Hyun / 2020-06 • ACS CATALYSIS / Boron Doping of Metal-Doped Hematite for Reduced Surface Recombination in Water Splitting / Ahn, Hyo-Jin; Yoon, Ki-Yong; Kwak, Myung-Jun; Park, Juhyung; Jang, Ji-Hyun / 2018-12 • NANO ENERGY / Plotter-assisted integration of wearable all-solid-state microsupercapacitors / Kim, Sung-Wook; Kang, Kyeong-Nam; Min, Jin-Wook; Jang, Ji-Hyun / 2018-08 • Angewandte Chemie Int. Ed., / Ti-doped SiOx passivation layer for greatly enhanced performance of hematite based photoelectrochemical system/ Hyo-Jin Ahn, Ki-Yong Yoon, Myung-Jun Kwak, and Ji-Hyun Jang / 2016-11

118

Electrochemical System Laboratory 전기화학시스템연구실

배터리 기술은 시간과 장소에 구애받지 않고 에너지를 이용할 수 있게 함으로써, 모바일 IT기기, 전 기자동차, 에너지저장시스템(ESS) 등 다양한 분야에 걸쳐 현대/미래산업에 필수불가결한 요소가 되 어가고 있습니다. 또한 에너지

정경민

_Kyeong-min Jeong

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 111 Rm. 301-2 Lab : Bldg. 111 Rm. 303 Tel : +82-52-217-2596 E-mail : kmjeong@unist.ac.kr http://echesl.unist.ac.kr/

밀도, 급속충전, 열안전성 등 다양한 방면에서 도전과 혁신 이 요구되고도 있습니다. 본 연구실은 배터리 전극 및 셀의 측면에서 이러한 도전 과제들

Curriculum Vitae

을 해결하고자 노력하고 있습

· 2016 - Present : Professor, UNIST · 1996 - 2016 : Research VP, SDI

니다.

Academic Credential Major research field Lithium ion batteries, Advanced batteries, Electrodes, Full-cells, Experimental and Computational methods

Desired field of research All Solid State Battery Electrode

Research Keywords and Topics • Lithium ion batteries, Advanced batteries, Electrode, Cell design and Processing, Electrochemical/Chemical/Physical Characterization and Analysis, Parameter measurements, Modelling and Simulation, Thermal stability analysis

Research Publications (selected) • JOURNAL OF POWER SOURCES / An electrolyte additive capable of scavenging HF and PF5 enables fast charging of lithium-ion batteries in LiPF6-based electrolytes / Han, Jung-Gu; Jeong, Min-Young; Kim, Koeun; Park, Chanhyun; Sung, Chang Hun; Bak, Dae Won; Kim, Kyung Ho; Jeong, Kyeong-Min; Choi, Nam-Soon / 2020-01 • JOURNAL OF POWER SOURCES / Effect of reductive cyclic carbonate additives and linear carbonate cosolvents on fast chargeability of LiNi0.6Co0.2Mn0.2O2/graphite cells / Son, Hye Bin; Jeong, Min-Young; Han, Jung-Gu; Kim, Koeun; Kim, Kyung Ho; Jeong, Kyeong-Min; Choi, Nam-Soon / 2018-10 • ELECTROCHIMICA ACTA / Effects of capacity ratios between anode and cathode on electrochemical properties for lithium polymer batteries / Kim, Cheon-Soo; Jeong, Kyeong-Min; Kim, Keon; Yi, Cheol-Woo / 2015-02

· 1996 : Ph.D. Battery and Electrochemical Engineering, Seoul National University, Korea · 1992 : M.S. Battery and Electrochemical Engineering, Seoul National University, Korea · 1989 : B.S., Dept. of Mineral and Petroleum Engineering, Seoul National University, Korea

Awards/Honors/Memberships · Member of Electrochemical Society · 2010 : Engineer Award of the Month, (granted by Ministry of Education, Science and Technology) · 2000 : IR52 JANG Yeong Shil Award (granted by Ministry of Education, Science and Technology)

Patents (selected) • US9905842B2, “Negative active material for rechargeable lithium battery, and negative electrode and rechargeable lithium battery including same” / Bong-Chull Kim, JaeHou Nah, Joon-Sup Kim, Kyeong-Min Jeong / 2018 • US9178199B2 / “Lithium Battery” / In-Seop Byun, Young-bae Sohn, Kyeong-Min Jeong / 2015 • US6653021B2 / “Positive active material for rechargeable lithium battery and method of preparing same” / Ho-Jin Kweon, Jung-Joon Park, Jeong-Soon Shin, Kyeong-Min Jeong / 2003

College of Engineering

119

School of Energy and Chemical Engineering

Battery technology is becoming an indispensable part of modern/future industries across various fields such as mobile IT devices, electric vehicles, and energy storage systems(ESS) as it enables energy to be used wherever and whenever. Meanwhile, there is still demand for innovations in energy density, rapid charge availability and thermal stability and so on. Our group is striving to solve these challenges in terms of battery electrodes and cells.

Nano Energy Storage Material Lab 이차전지 소재 연구실

조재필

_Jaephil Cho

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 111 Rm. 101-2 Lab : Bldg. 111 Rm. 102-1~3 Tel : +82-52-217-2910 E-mail : jpcho@unist.ac.kr http://jpcho.com/main/index.html

Our main field of research is achieving high energy density for lithium-ion batteries (LIBs) based on the development of anode and cathode materials which are categorized as active materials for LIBs. In addition, beyond the research related LIBs, we are expanding our research field into various next-generation battery system such as zinc-air battery and redox flow battery. NESM의 주 연구 분야는 리튬이온 이차전지 활물질로 사용 되는 음극 및 양극 소재를 포함한 소재 개발 연구를 바탕으로 리튬이차전지의 고에너지밀도 달성에 초점을 두고 있다. 뿐만 아니라, 공기아 연전지와 레독스 흐름 전지와 같이 다양한 차세대 에너지 저장 매체로 연구 분야를 넓혀가고 있다.

Curriculum Vitae · 2016 - 2017 : Member of Presidential Advisory Council on Science & Technology · 2008 - 2009 : Hanyang University, Department of Applied Chemistry, Associate Professor · 2002 - 2008 : Kumoh National Institute of Technology, Department of Applied Chemistry, Associate Professor · 1996 - 2002 : Samsung SDI, R&D Center, Senior Researcher

Academic Credential · 2000 - 2001 : Georgia Institute of Technology, School of Materials Science and Engineering, Visiting Scholar · 1995 - 1996 : Georgia Institute of Technology, School of Materials Science and Engineering, Postdoctoral Research Associate · 1995 : Iowa State University : Ph.D.in Ceramic Engineering · 1993 : Iowa State University : M.S.in Ceramic Engineering · 1990 : Kyungpook National University : B.S. in Inorganic Materials Engineering

Awards/Honors/Memberships · 2017, 2018, 2019 : Highly cited researcher-among the top 1% of researchers for most cited documents in materials science · 2017 : Ulsan citizen prize · 2016 : Highly cited researcher - among the top1% of researchers for most cited documents in materials science · 2014 : ICT Innovation Prize · 2014 : Best ITRC Center Award · 2013 : Knowledge Creation Award in Material Science · 2013 : Inchon Award · 2011 : PBFC Research Award · 2011 : UNIST Professor of the Year

120

Major research field Lithium-ion batteries, Zinc-air batteries, Redox flow batteries

Desired field of research All-solid state electrolyte

Research Keywords and Topics • Lithium-ion batteries, Zinc-air batteries, Redox flow batteries, All-solid state electrolyte 리튬이온전지, 아연공기전지, 레독스 흐름전지, 전고체전지

Research Publications (selected) • Nature communications / Towards maximized volumetric capacity via pore-coordinated design for large-volume-change lithium-ion battery anodes / Jiyoung Ma, Jaekyung Sung, Jaehyung Hong, Sujong Chae, Namhyung Kim, Seong-Hyeon Choi, Gyutae Nam, Yoonkook Son, Sung Youb Kim, Minseong Ko, Jaephil Cho / 2019-01 • Energy&Environmental Science / A highly stabilized nickel-rich cathode material by nanoscale epitaxy control for high-energy lithium-ion batteries / Junhyeok Kim, Hyunsoo Ma, Hyungyeon Cha, Hyomyung Lee, Jaekyung Sung, Minho Seo, Pilgun Oh, Munjoon Park, Jaephil Cho / 2018-04 • Nature energy / Scalable synthesis of silicon-nanolayer-embedded graphite for highenergy lithium-ion batteries / Minseong Ko/Sujong Chae/Jiyoung Ma/Namhyung Kim/Hyun-Wook Lee/Yi Cui/Jaephil Cho / 2016-09

Patents (selected) • (국내) 리튬 이차 전지용 양극 활물질 및 이를 포함하는 리튬 이차 전지 / 조재필 / 2017-09 • (국내) 리튬 이차 전지용 음극 활물질, 이의 제조 방법, 및 이를 포함하는 리튬 이차 전지 / 조재필, 고 민성, 채수종, 마지영, 김남형 / 2018-12

Energy Materials Lab 에너지재료연구실

최남순

_Nam-Soon Choi

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 111 Rm. 301-3 Lab : Bldg. 111 Rm. 302 Tel : +82-52-217-2926 E-mail : nschoi@unist.ac.kr http://surfchem.unist.ac.kr/

Curriculum Vitae

Major research field Electrolytes, binders, ionic liquids

Desired field of research

· 2021 - Present : Professor, School of Energy and Chemical Engineering, UNIST · 2014 - 2020 : Associate Professor, School of Energy and Chemical Engineering, UNIST · 2010 - 2014 : Assistant Professor, School of Energy and Chemical Engineering, UNIST · 2004 - 2010 : Senior Researcher, R&D center at Samsung SDI

Nonflammable electrolytes

Academic Credential

Research Keywords and Topics • Molecularly engineered electrolyte additives for stabilizing the electrode-electrolyte interface 전극-전해질 인터페이스 안정화를 위한 신규 전해질 첨가제 연구

• Advanced electrolyte systems for high-energy-density Li metal batteries 고에너지밀도 리튬금속전지용 고성능 전해질 시스템 개발

• Development of new functional additives for stabilizing reactive species 반응성 화합물 안정화제 개발

• Nonflammable electrolytes for highly safe batteries 전지의 안전성 확보를 위한 불연성 전해질 시스템 연구

Research Publications (selected) • Nature Communications / Replacing conventional battery electrolyte additives with dioxolone derivatives for high-energy-density lithium-ion batteries /Park, Sewon; Jeong, Seo Yeong; Lee, Tae Kyung; Park, Min Woo; Lim, Hyeong Yong; Sung, Jaekyung; Cho, Jaephil; Kwak, Sang Kyu; Hong, Sung You; Choi, Nam-Soon / 2021-02 • ADVANCED ENERGY MATERIALS / Cyclic Aminosilane‐Based Additive Ensuring Stable Electrode–Electrolyte Interfaces in Li‐Ion Batteries / Kim, Koeun; Hwang, Daeyeon; Kim, Saehun; Park, Sung O; Cha, Hyungyeon; Lee, Yoon-Sung; Cho, Jaephil; Kwak, Sang Kyu; Choi, Nam-Soon / 2020-04 • ENERGY & ENVIRONMENTAL SCIENCE / Unsymmetrical fluorinated malonatoborate as an amphoteric additive for high-energy-density lithium- ion batteries / Han, JungGu; Lee, Jae Bin; Cha, Aming; Lee, Tae Kyung; Cho, Woongrae; Chae, Sujong; Kang, Seok Ju; Kwak, Sang Kyu; Cho, Jaephil; Hong, Sung You; Choi, Nam-Soon / 2018-06

· 2004 : Ph. D. in Biomolecular and Chemical Engineering at KAIST · 2000 : M.S. in Chemical Engineering at KAIST · 1998 : B.S. in Chemical Engineering at Busan National University

Awards/Honors/Memberships · 2014 : Government prize for work on lithium rechargeable battery from Korea Evaluation Institute of Industrial Technology (KEIT) · 2009 : Global Samsung Best Paper Silver Award · 2006 : Samsung SDI Best Technical Paper Silver Award · 2005 : Best Poster Presentation Award (2005) at The 56th Annual Meeting of the International Society of Electrochemistry (ISE)

College of Engineering

121

School of Energy and Chemical Engineering

Our group focuses on the mechanistic analysis of electrode-electrolyte interfaces and the development of tailored electrolyte systems that can ensure good battery performance. We propose unique and effective solutions to improve the interfacial stability of high-voltage and high-capacity electrodes without degradation of battery performance. Our pioneer research sparked the study of electrolytes and polymeric binders for further improvement of battery performance. Furthermore, we are developing a new electrolyte formulation using our high-level electrolyte technology to produce long-lasting alkali (Li, Na, and Mg) metal batteries and realize the highly safe operation of batteries.

Lab for Battery Applicaiton Technology 배터리 응용 기술 연구 랩

최윤석

_Yun-seok Choi

School of Energy and Chemical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 301-5 Lab : Bldg. 113 Rm. 208 Tel : +82-52-217-2932 E-mail : ys1choi@unist.ac.kr

This lab covers three major topics. We study firstly the technologies that commercialize nextgeneration battery technologies in UNIST, such as seawater batteries and secondly the technologies that apply batteries (next generation as well as existing ones) to electric power storage systems, and finally technology that diagnoses the state of existing lithium-ion batteries and predicts remaining life. More specifically, the field of commercialization research of next-generation batteries deals with the manufacturing technology of the product to which the battery technology is applied, the systemization technology of batteries for the applied equipment, and the demonstration technology for securing track records. The fields of applying batteries to power storage include battery pack design technology, ESS design technologies and operational (especially safety) management technology from a battery perspective. In addition, we deal with the technology for defining and quantifying the state of the existing lithium ion battery of an electric vehicle battery and the technology for predicting how long the remaining life is. In the future, we will study a more comprehensive battery-based operation management technology that can be applied to the battery-based service business.

Curriculum Vitae · 2018 - Present : UNIST Professor · 2015 - 2018 : KETEP, PD for ESS · 2012 - 2014 : Hyundai Heavy Industry, VP for ESS and xEV Business · 1995 - 2011 : Samsung SDI, Battery Researcher

Academic Credential · 1994 : Ph. D, Physics, Seoul National University · 1991 : M. S., Physics, Seoul National University · 1989 : B. S., Physics, Seoul National University

Awards/Honors/Memberships · The Korean Electrochemical Society Member · The Korea Battery Society Member

Major research field

Desired field of research

Commercialization of Next Generation Battery Technology, Application of Battery System, Diagnosis and Prognosis of LIB

Operation management technology that can be applied to the battery-based service business.

Research Keywords and Topics • Next generation battery(Seawater battery) commercialization, Battery systematization, Energy Storage System(ESS) Design, Battery operational management, Battery safety, Battery Diagnosis and Prognosis 차세대 배터리(해수전지) 상품화, 배터리 시스템화, 에너지저장시스템(ESS) 설계, 배터리 운영관 리, 배터리 안전성, 배터리 진단 및 예측

Research Publications (selected) • ADVANCED SUSTAINABLE SYSTEMS / Design of Large-Scale Rectangular Cells for Rechargeable Seawater Batteries / Kim Y, Harzandi AM, Lee Ji, Choi YS, Kim Y, / 2020-06 • ADVANCED FUNCTIONAL MATERIALS / 3D Ion-Conducting, Scalable, and Mechanically Reinforced Ceramic Film for High Voltage Solid-State Batteries / Kim HW, Han J, Lim YJ, Choi YS, Lee E., Kim Y / 2020-05 • JOURNAL OF MATERIALS CHEMISTRY A / Identifying the mechanism and impact of parasitic reactions occurring in carbonaceous seawater battery cathodes / Lee W, Park J, Park J, Kang SJ, Choi YS, Kim Y / 2020-05

Patents (selected) • 리튬설퍼전지 제조방법 / 최윤석 외 5인 / 2003-11 • 리튬설퍼전지용 양극 도전재 및 이를 포함하는 리튬설퍼전지 / 최윤석 외 5인 / 2003-07

122

Department of Nuclear Engineering 원자력공학과

Nuclear Science, Simulation & Safety laboratory (NSSS) 원자력 과학, 시뮬레이션 및 안전해석 연구실

파이난, 더글러스 _Douglas A. Fynan Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 604 Tel : +82-52-217-2780 E-mail : dfynan@unist.ac.kr http://nsss.unist.ac.kr

The NSSS lab aims to develop robust methodologies for rigorous treatment of uncertainties, identification of biases, and improved physics modeling for the evolving needs of the reactor physics and thermal-hydraulic fields. Target applications of the methodologies include reactor physics, BEPU, severe accident simulation, passive safety system assessment and design optimization. NSSS lab also explores new and innovative uses of nuclear science and technology including particle accelerator applications, alternative reactor coolants, and nuclear forensic techniques in nuclear nonproliferation. 원자력 과학, 시뮬레이션 및 안전해석 연구실은 노물리 및 열수력 분야에서의 불확실성, 고유편이와 개선된 물리 모델링에 대한 정밀한 처리를 위한 견고한 방법론 개발을 목표로 하고 있습니다. 방법 론 적용 대상은 노물리, BEPU, 중대사고 시뮬레이션, 피동 안전성 시스템 평가 및 설계 최적화이다. 또한, 입자 가속기 적용, 대안 원자로 냉각수 그리고 원자력 비확산과 관련된 법의학 기술과 같은 새 롭고 혁신적인 원자력 과학 및 기술을 연구하고 있습니다.

Curriculum Vitae · 2018 - Present : Assistant Professor, UNIST · 2014 - 2018 : KAERI, Daejon, Korea · 2011 : KAERI, Daejeon, Korea · 2010 : Idaho National Laboratory, USA · 2008 : U.S. Nuclear Regulatory Commission, USA

Academic Credential · 2014 : Ph.D., Department of Nuclear Engineering, University of Michigan · 2009 : M.S., Department of Nuclear Engineering, University of Michigan · 2007 : B.S., Department of Nuclear Engineering, University of Michigan

124

Major research field Reactor physics, uncertainty analysis & BEPU, Dynamic PSA, Severe accident thermalhydraulics, Passive safety system assessment, Design optimization

Research Keywords and Topics • Reactor Physics, CANDU system driven by electron linear accelerator, Probabilistic Safety Assessment 노물리, 전자 선형 가속기 구동 중수로 계통, 확률론적 안전성 평가

Research Publications (selected) • ANNALS OF NUCLEAR ENERGY / Photoneutron production in heavy water reactor fuel lattice from accelerator-driven bremsstrahlung / Fynan, Douglas A.; et al. / 2021-06 • NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION AACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT / Photoneutron reaction kinematics and error of commonly used approximations / Fynan, Douglas A. / 2020-10 • NUCLEAR TECHNOLOGY / Operator Action–Induced Two-Phase Flow Condition Resulting in Performance Degradation of Interfacing Passive System / NUCLEAR TECHNOLOGY / 2020-07 • ANNALS OF NUCLEAR ENERGY / Optimal working fluid charge and degradation thresholds for a closed-circuit intermediate natural circulation heat transport loop / Fynan, Douglas A.; Park, Jin Hee / 2018-08

UNIST Nuclear Innovative Material Laboratory 원자력 재료 연구실

The UNIMAT is pursuing the technology development of key solutions to current and future materials challenges in the nuclear energy system based on fundamental and comprehensive understanding in various academic disciplines including nuclear, mechanical, and materials science and engineering. 본 연구실은 가동 중인 원자 력발전소 및 차세대 원자력발 전소에 사용되는 다양한 재료

_Ji Hyun Kim

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-10 Lab : Bldg. 112 Rm. 506 Tel : +82-52-217-2913 E-mail : kimjh@unist.ac.kr http://unimat.unist.ac.kr/

기계 공학 및 재료 공학적인 측면에서 종합적인 연구 및 개발을 수행하고 있습니다.

Curriculum Vitae

Major research field

Desired field of research

High temperature water corrosion, liquid metal corrosion, material degradation simulation, functional alloy development

Corrosion experiments in extreme conditions, Probabilistic or finite element model for various degradation mechanisms

Research Keywords and Topics • Materials in operating nuclear power plant (structural material, cladding, pipe, non-metal) 가동 중 원전 재료 연구 (구조 재료, 피복관, 배관, 비금속 소재 등)

• Materials in operating next generation nuclear power plant (Accident-tolerated cladding, Irradiation effect, Material degradation in liquid metal coolant) 차세대 원전 재료 연구 (사고 저항성 피복관, 조사 및 액체 금속 열화, 기능성 재료 개발)

• Atomistic behavior of material (Experiments and simulations in atomistic scale) 재료의 원자 단위 거동 (가속기를 이용한 원자 단위 실험 및 전산 해석 모델 연구)

search Publications (selected) • Effect of TiN Coating on the Fouling Behavior of Crud on Pressurized Water Reactor Fuel Cladding, J. Ham, Y. Lee, S. C. Yoo, M. P. Short, C. B. Bahn and J. H. Kim*, Journal of Nuclear Materials, Vol. 549, Pages 152870 / 2021-06 • Microstructural evolution and corrosion behaviour of thermally aged dissimilar metal welds of low-alloy steel and nickel-based alloy, K. J. Choi, S. C. Yoo, S. Kim, T. Kim, J. Ham, J. Lee and J. H. Kim*, Corrosion Science, Vol 153, Pages 138-149 / 2019-06 • Survivability assessment of Viton in safety-related equipment under simulated severe accident environments, K. Ryu, I. Song, T. Lee, S. Lee, Y. Kim and J. H. Kim*, Nuclear Engineering and Technology, Vol 50, Pages 683-689 / 2018-6 • Microstructural evolution and stress-corrosion-cracking behavior of thermally aged NiCr-Fe alloy, S. C. Yoo, K. J. Choi, T. Kim, S. H. Kim, J. Y. Kim and J. H. Kim*, Corrosion Science, Vol 111, Pages 39-51 / 2016-10

Patents (selected) • 유동가속부식 저항 합금강 및 이의 제조방법 / 김승현, 김지현 / 2020-03 • 사고 저항성 및 크러드 흡착 저항성 향상을 위한 다중 금속층 복합구조 경수로 핵연료 피복관 제조

· 2020 - Present : Dean of Academic Affairs, Ulsan National Institute of Science and Technology · 2018 - 2020 : Head of School of Mechanical, Aerospace and Nuclear Engineering, Ulsan National Institute of Science and Technology · 2017 - Present : Professor, Ulsan National Institute of Science and Technology · 2016 - 2017 : Visiting Professor, Department of Nuclear Engineering, Massachusetts Institute of Technology · 2012 - 2017 : Associate Professor, Ulsan National Institute of Science and Technology · 2008 - 2012 : Assistant Professor, Ulsan National Institute of Science and Technology

Academic Credential · 2003 : Ph.D. in Nuclear Engineering , Seoul National University, South Korea · 1997 : M.S. in Nuclear Engineering, Seoul National University, South Korea · 1995 : B.S. in Nuclear Engineering , Seoul National University, South Korea

Awards/Honors/Memberships · 2019 : Outstanding Paper Award, The Rubber Society of Korea · 2019 : Outstanding Paper Award, Korean Nuclear Society · 2018 : Outstanding Paper Award, Korean Nuclear Society · 2017 : Outstanding Paper Award, Korean Nuclear Society · 2017 : Outstanding Paper Award, Korean Nuclear Society

응용기술 개발 / 장준호, 반치범, 김지현 / 2018-11

College of Engineering

125

Department of Nuclear Engineering

에 대해 원자력 에너지 공학,

김지현

Radiation and Magnetohydro Dynamics Advanced Lab 방사선 안전 및 자기유체역학연구실

김희령

_Hee Reyoung Kim

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-3 LAB : Bldg. 112 Rm. 509 Tel : +82-52-217-2943 E-mail : kimhr@unist.ac.kr http://kimhr.unist.ac.kr/

Curriculum Vitae · 2020 - Present : Non-Executive Director, KoFONS · 2020 - Present : Director of International Affairs, KRS · 2020 - Present : Director of Science, KARP · 2018 - Present : National Nuclear Environmental Protection Technology Standard Committee, KISTEP · 2017 - Present : Saeul Nuclear Communication Committee, KHNP · 2017 - Present : Head, Center for Core and Fundamental Nuclear D&D Research · 2017, 2019 : Organizing Committee of ISORD · 2015 - Present : Saeul Nuclear Safety Committee, NSSC · 2014 - Present : Editor, JNFCWT · 2012 - Present : Head, Ulsan Radiation Monitoring Center

Academic Credential · 1998 : Ph. D. Seoul National University · 1992 : M. S. Seoul National University · 1990 : B. S. Seoul National University

Awards/Honors/Memberships · 2020 : Commendation from the Mayer of Ulsan Metropolitan City · 2018 - Present : Member of American Nuclear Society · 2018 - Present : Member of The Korean Institute of Electrical Engineers · 2017 : Commendation from Minister of Science, ICT and Future Planning · 2013, 2014, 2016 : Best paper of Korean Nuclear Society · 2010 : Commendation from Minister of Education, Science and Technology · 2009 - Present : Commendation from KAERI · 2005 - Present : Member of the Korean Association for Radiation Protection · 2002 - Present : Member of KRS · 1990 - Present : Member of KNS · 1990 - Present : Member of KPS

126

● 자기유체역학응용(Magnetohydrodynamics

Application)

미래 거대 에너지원인 제4세대 고속로 및 핵융합로 액체금속 유체 이송 MHD 펌프, 희귀 동위원소 발견 을 위한 가속기 빔의 리튬 표적용 MHD 펌프 시스템을개발합니다. 자기유체역학 특성을 바탕으로 전자 기 신재생 플라즈마 전기 생산에 관하여 연구합니다.

The research is focused on the magnetohydrodynamic (MHD)analysis and experimental characterization for the liquid metal transportation in fast reactor, accelerator, and MHD plasma electricity generation system for the future green energy. The MHD pump is also developed for circulation of lead and lithium target material on accelerated beam. ● 환경 방사선 안전 및 원전 해체(Environmental

Radiation Safety and Nuclear Decommissioning)

원전밀집 최고 국가인 우리나라의 환경 방사선 분포 신속 감시 기술을 개발하고 원전 사고 환경에서의 선량평가, 안전한 원전 해체를 위한 실시간 알파/베타/감마 방사선 분석 등 원자력시설 해체 현장, 부지 및 지하수 방사선 모니터링 기술을 개발합니다. 원전 해체시 발생하는 오염 탱크의 처리, 폐수지 처리 및 방사성 탄소 재활용, 블록체인 기반의 방사성폐기물 관리 기술 등에 대하여 연구합니다.

The research covers the establishment of the environmental radiation monitoring system around nuclear installations. The main interest is concerned with radiation monitoring and radioactivity analysis of the radioactive wastes from nuclear power plants. The D&D technology for the environmental restoration of the dismantled nuclear power plant (NPP) site is developed. Major research field 원전해체, 방사선 안전, 초소형 원전 및 가속기 전자펌프, 플라즈마 신재생 발전

Nuclear D&D, MHD pump for micro reactor and accelerator, MHD plasma generation, Radiation monitoring

Desired field of research 비접촉 전자기 금속 방사성폐기물 이송

Non-contact MHD based metallic radioactive waste transportation

Research Keywords and Topics • In-situ radiation monitoring system for NPP D&D site • Radiological dose assessment of residents near the nuclear installations and radiation worker • Development of the system for quick environmental radiation monitoring • Development of alpha/beta/gamma portable monitoring technology for nuclear D&D • Development of block chain based radioactive waste management IOT platform • Development of treatment of the contaminated tanks from nuclear decommissioning • Development of radiocarbon treatment system • Development of the liquid lithium transportation MHD pumping system in the accelerator • Design analysis of MHD plasma generation system for new renewable energy • Development of the MHD pump for liquid metal reactor

Research Publications (selected) • INTERNATIONAL JOURNAL OF ENERGY RESEARCH / The variable analysis of an MHD generator with electrical output of 10 kW for application to bi-plant method electricity generation / Lee, Geun Hyeong; Kim, Hee Reyoung / 2020-08 • NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION AACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT / Development of mobile scanning system for effective in-situ spatial prediction of radioactive contamination at decommissioning sites / Lee, Chanki; Park, Se-Won; Kim, Hee Reyoung / 2020-06 • IEEE TRANSACTIONS ON NUCLEAR SCIENCE / Development of In Situ Selective BetaRay Distribution Detection Technology Based on Gamma-Ray Sensitivity Difference / Bae, J. W.; Lee, U.; Lee, C. W.; Kim, Hee Reyoung / 2018-03

Patents (selected) • Assembled magnetohydrodynamic pump for gen-IV small modular lead-bismuth cooled fast reactor, Jaesik Kwak / Hee Reyoung Kim / 2018 • Large Area Beta-ray Monitoring System Using Scintillating Fiber / UkJae Lee, Hee Reyoung Kim / 2018

Fuel Cycle and Waste Laboratory 핵연료주기 및 방사성폐기물 연구실

Fuel Cycle and Waste Lab (FCWL) endeavors to find out a solution for radioactive waste and spent nuclear fuel issues, arising from generation to disposal. Our lab interests lie generally in four major areas: 1) radioactive waste decontamination, 2) radioactive waste disposal, 3) spent nuclear fuel recycling, 4) spent nuclear fuel disposal. 핵연료주기 및 방사성폐기물 연구실은 방사성 폐기물 및 사용 후 핵연료 문제에 대한 해결책을 찾 기 위해 노력하고 있습니다. 우리 연구실의 관심 분야는 일반적으로 1) 방사성 폐기물 오염 제거, 2)

박재영

_Jae-yeong Park

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-11 Tel : +82-52-217-2352 E-mail : jypark@unist.ac.kr Department of Nuclear Engineering

방사성 폐기물 처리, 3) 사용 후 핵연료 재활용, 4) 사용 후 핵연료 처리의 네 가지 주요 영역에 있습 니다.

Major research field Radioactive waste decontamination, Radioactive waste disposal, Spent nuclear fuel recycling, Spent nuclear fuel disposal

Curriculum Vitae

Research Keywords and Topics • Molten salt based electrochemical decontamination of radioactive metals (zirconium alloys, stainless steels, nickel alloys) 방사성 금속 (지르코늄 합금, 스테인리스 강, 니켈 합금)의 용융 염 기반 전기 화학적 오염 제거

• High degree separation of actinide elements from spent nuclear fuel using liquid metal electrodes 액체 금속 전극을 사용하여 사용 후 핵연료에서 악티 나이드 원소를 고도분리

· 2015 - 2017 : Senior Researcher, Korea Institute of Nuclear Safety

Academic Credential · 2014 : Ph.D. in Nuclear Engineering, Seoul National University · 2010 : B.S. in Nuclear Engineering, Seoul National University

• Chemical stability of radioactive waste including hazardous materials (e.g., heavy metal and organic solvent) in radioactive waste repository 방사성 폐기물 저장소 내 유해 물질 (예 : 중금속 및 유기 용제)을 포함한 방사성 폐기물의 화학적 안정성

• Structural safety of radioactive waste disposal packages in normal and seismic conditions of a repository 저장소의 정상 및 지진 조건에서 방사성 폐기물 처리 패키지의 구조적 안전

Research Publications (selected) • JOURNAL OF NUCLEAR MATERIALS / Spatial distribution of CeBi2 in Bi-Ce alloy facilitating density-based separation between actinides and lanthanides / Sohn, Sungjune; Jeong, Gwan Yoon; Jeong, Seongjin; Hur, Jungho; Ju, Heejae; Shin, YongHoon; Park, Jaeyeong; Hwang, Il Soon / 2019-12 • JOURNAL OF NUCLEAR MATERIALS / Understanding of electrochemical behaviors of niobium in molten LiCl–KCl eutectic for pyrochemical decontamination process / Jeong, Gwan Yoon; Sohn, Sungjune; Jeon, Younghwan; Park, Jaeyeong / 2019-10 • JOURNAL OF ALLOYS AND COMPOUNDS / Spatial distribution of HfBi in metallurgically and electrochemically formed Bi-Hf alloy / Sohn, Sungjune; Jeong, Gwan Yoon; Hur, Jungho; Jeong, Seongjin; Park, Jaeyeong; Hwang, Il Soon / 2019-06

College of Engineering

127

Nuclear Thermal Hydraulics and Reactor Safety Lab 원자력 열수력 및 안전 실험실

방인철

_In Cheol Bang

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-9 Lab : Bldg. 112 Rm. 503 Tel : +82-52-217-2915 E-mail : icbang@unist.ac.kr http://neths.unist.ac.kr

“The lab supports to fill important needs for more thorough treatments of the processes of energy (heat) generation in nuclear processes, the transport of that energy by the reactor coolant to the power cycle, and the limitations imposed by the transport mechanism on the design of nuclear reactor. The research has been focused on the development of enhanced heat transfer technologies in nuclear fission and fusion systems, and the study of fundamental thermal-hydraulic phenomena ultimately related to nuclear safety and economics. The lab is also interested in development of advanced engineered features for nuclear safety systems or safer nuclear reactor based on the innovative ideas. The works are engaged in both experimental and analytical research and development (R&D).”

Curriculum Vitae · 2020 - Present : Head of Department of Nuclear Engineering, UNIST · 2019 - 2020 : Visiting Professor, University of California San Diego · 2018 - Present : Professor, UNIST · 2016 - 2019 : Dean of Budget and Planning, UNIST · 2013 - 2017 : Associate Professor, UNIST · 2009 - 2012 : Assistant Professor, UNIST · 2007 - 2009 : Assistant Professor, Tokyo Institute of Technology, Japan · 2005 - 2007 : Postdoc. MIT, USA · 2004 - 2005 : Postdoc. KAIST, Rep. of Korea

• Nuclear System Design and Analysis for Nuclear Safety

Academic Credential

• Development of CHF and Boiling Enhancement technology

· 2004 : Ph. D. Nuclear & Quantum Engineering, KAIST, Rep. of Kor · 2000 : M. S. Nuclear & Quantum Engineering, KAIST, Rep. of Korea · 1998 : B. S. Nuclear & Quantum Engineering, KAIST, Rep. of Korea

Awards/Honors/Memberships · 2002 - 2005 : one of the most cited paper, Int. J of Heat and Mass Transfer, Elsevier. · 2019 : Academic Excellence Prize at Korean Nuclear Society Autumn Meeting · 2009 - Present : Marquis Who’s Who in the World · 2008 : Atomic Energy Society of Japan · 2006 - Present : American Nuclear Society · 2006 : User of High Temperature Materials Lab in Oak Ridge National Laboratory (ORNL) (USA) · 2006 : User of Center for Nanoscale System (CNS) in Harvard University (USA) · 1998 - Present : Member of Korean Nuclear Society

128

Major research field Nuclear System Design and Analysis for Nuclear Safety, Development of CHF and Boiling Enhancement technology, Nano-engineered Fluids & Surfaces

Research Keywords and Topics 원자력 안전을 위한 원자력 시스템 설계 및 분석 (첨단대형원전, 혁신소형모듈형원전) CHF 및 Boiling Enhancement 기술

• Nano-engineered Fluids & Surfaces combined Coolant and Heat Pipe Technology 나노 공학 유체 및 표면 융합 냉각재 및 히트파이프 기술

• Artificial Intelligence (AI) – IR – AE hybrid smart sensing 인공지능, 적외선, 음향 융합 스마트 센싱 기술

Research Publications (selected) • Nuclear Engineering and Design / Design and Operation of the Transparent Integral Effect Test Facility, URO-LO for Nuclear Innovation Platform / Kyung Mo Kim, In Cheol Bang / 2020-08 • INTERNATIONAL JOURNAL OF ENERGY RESEARCH / Adjoint-based sensitivity analysis of circulating liquid fuel system for the multiphysics model of molten salt reactor / eong, Yeong Shin; Cervi, Eric; Cammi, Antonio; Ninokata, Hisashi; Bang, In Cheol / 2020-04 • APPLIED PHYSICS LETTERS / Effects of nanofluids containing graphene/grapheneoxide nanosheets on critical heat flux / Park, Sung Dae; Lee, Seung Won; Kang, Sarah; Bang, In Cheol; Kim, Ji Hyun; Shin, Hyeon Suk; Lee, Dong Wook; Lee, Dong Won / 2010-07

Patents (selected) • [국내] Rotating mixing vane attached to nuclear fuel rod spacer grid / patent no. 100456500

UNIST RAdioactive NUclear Materials (URANUM) Lab 핵연료재료 연구실

The URANUM is an experimental lab dedicated to nuclear fuel engineering and radiation materials science at Ulsan National Institute of Science and Technology (UNIST). We are mainly interested in metallurgy, thermophysics, and irradiation behavior of uranium alloys and compounds as nuclear fuel in and outside of nuclear reactors. Some other materials that have to suffer radiation damage are also of our interest, such as zirconium alloys, stainless steels, and Al-B4C metal matrix composite (MMC) neutron absorbers. 울산과학기술원 핵연료재료 연구실은 국내 대학에서 유일하게 핵연료 제조/가공 및 재료 특성화

_Sang-joon Ahn

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-7 Lab : Bldg. 112 Rm. 511 Tel : +82-52-217-2351 E-mail : sjahn99@unist.ac.kr https://uranum.unist.ac.kr

설립되어, 2018년 3월 원안위로부터 우라늄 및 토륨 사용 허가를 취득한 바 있으며, 2020년 4월에 는 국내 최초로 U-Zr 합금 핵연료에 대한 중이온빔조사 (heavy-ion beam irradiation) 실험을 수행하 기도 했습니다. 2020년 11월 현재, 총 8명의 석·박사 통합과정생이 재학 중이며, 주로 핵연료공학 및 방사선재료과학(Radiation Materials Science) 분야 전반에 걸쳐 매우 다양한 최신 연구를 진행하고 있습니다.

Curriculum Vitae Major research field Nuclear fuel materials

Desired field of research Fusion materials, Nuclear non-proliferation

Research Keywords and Topics • Nuclear fuel engineering; Radiation materials science; Fabrication and processing, metallurgy, crystallography, microchemical analysis, and thermophysics of actinide alloys and compounds as nuclear fuel; Safety and performance analysis of nuclear materials under irradiation. 핵연료 공학; 방사선 재료 과학; 다양한 핵연료의 제조/가공, 금속학, 결정학, 미세 화학 분석 및 열 물리학; 방사선조사 하 원자력 재료의 안전 및 성능 해석

Research Publications (selected) • CERAMICS INTERNATIONAL / Grain growth and densification of uranium mononitride during spark plasma sintering / Kim, Gyeonghun; Ahn, Jungsu; Ahn, Sangjoon / 2020-11 • NUCLEAR ENGINEERING AND TECHNOLOGY / Fabrication and thermal conductivity of CeO2–Ce3Si2 composite / Ahn, Jungsu; Kim, Gyeonghun; Jung, Yunsong; Ahn, Sangjoon / 2020-07 • JOURNAL OF NUCLEAR MATERIALS / 10B(n, α)7Li reaction-induced gas bubble formation in Al-B4C neutron absorber irradiated in spent nuclear fuel pool / Jung, Yunsong; Lee, Myeongkyu; Kim, Kiyoung; Ahn, Sangjoon / 2020-05

· 2015 - Present : 울산과학기술원 조교수 · 2014 - 2015 : 한국원자력연구원 선임연구원 · 2013 - 2014 : Texas A&M Postdoctoral Research Associate · 2009 - 2013 : Texas A&M Graduate Assistant Research · 2005 - 2008 : 대한민국 공군 중위(만기전역) · 2000 - 2002 : 이투스 (www.etoos.co.kr) 공동창업자/기획이사 (CCO)

Academic Credential · 2009 - 2013 : Ph.D., Department of Nuclear Engineering, Texas A&M University · 1999 - 2005 : B.S., Department of Nuclear Engineering, Seoul National University

Awards/Honors/Memberships · Member of Korean Nuclear Society · Member of American Nuclear Society

Patents (selected) • 스파크 플라즈마 소결을 이용한 고밀도 핵연료 소결체 제조방법 / 안정수, 안상준, 김용희 / 2020-11 • 규화우라늄을 함유한 이산화우라늄 핵연료의 제조 방법 / 안정수, 안상준, 김용희 / 2020-07

College of Engineering

129

Department of Nuclear Engineering

(material characterization) 시험 일체의 수행이 가능한 실험실을 운영하고 있습니다. 2015년 2월에

안상준

Fusion and Plasma application research Laboratory (FPL) 핵융합 및 플라즈마 응용 연구실

윤의성

_Ei-sung Yoon

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg 112 Rm. 501-12 Lab : Bldg 112 Rm. 502~503 Tel : +82-52-217-2308 E-mail : esyoon@unist.ac.kr https://unist-fpl.github.io

Fusion and Plasma Application Research Laboratory aims at resolving various problems for successful nuclear fusion experiments and commercialization through research on multi-scale interaction of plasma behavior. The research includes Eulerian & Lagrangian code development based on Gyrokinetics and MHD (magneto-hydro dynamics), extension and improvement on theories and numerical methods for simulation of long time plasma behavior, code verification & validation, and parallel programming and code optimization to utilize the latest architectures being used in supercomputers. These research subjects allow us to carry out more realistic simulation of plasma behavior in nuclear fusion reactors considering impurities and consequently to clarify and exploit underlying physics of experimental results.

Major research field Transport physics in Fusion reactors, Plasma simulation, High performance computing, Automatic mesh generation, Machine Learning

Curriculum Vitae · 2018 - Present : Now Assistant professor, school of Mechanical, Aerospace, and Nuclear Engineering, UNIST, Ulsan, ROK · 2015 - 2018 : Computational Scientist (staff), Scientific Computation Research Center(SCOREC), Rensselaer Polytechnic Institute, Troy, NY, USA · 2014 - 2015 : Senior Researcher, Korea Institute of Nuclear Safety, DaeJeon, ROK · 2010 - 2014 : Research Assistant (instead of compulsory military service), Korea Advanced Institute of Science and Technology, DaeJeon, ROK

Academic Credential · 2013 : Ph.D. Princeton University, NJ, USA · 2006 : M.A. Seoul National University, Seoul, ROK · 2004 : B.A. Seoul National University, Seoul, ROK

130

Research Keywords and Topics • Theory and simulation of instabilities and turbulence in fusion plasmas • Development of numerical method for fast and/or accurate simulations • Code optimization for high performance computing on supercomputers • Generation and utilization of unstructured mesh for realistic device modeling in parallel computing

Research Publications (selected) • NATURE COMMUNICATIONS / Effects of plasma turbulence on the nonlinear evolution of magnetic island in Tokamak, Minjun J. Choi; Lāszlo Bardōczi; Jae-Min Kwon; T. S. Hahm; Hyeon K. Park; Jayhyun Kim; Minho Woo; Byoung-Ho Park; Gunsu S. Yun; Eisung Yoon; George McKee / 2021-01 • PHYSICS OF PLASMAS / Gyrokinetic simulation study of magnetic island effects on neoclassical physics and micro-instabilities in a realistic KSTAR plasma / Kwon, JaeMin; Ku, S; Choi, MJ; Chang, CS; Hager, R; Yoon, Eisung; Lee, HH; Kim, HS / 2018-05 • PHYSICS OF PLASMAS / A Fokker-Planck-Landau collision equation solver on twodimensional velocity grid and its application to particle-in-cell simulation / Yoon, E. S.; Chang, C. S. / 2014-03 • NUCLEAR FUSION / Transport of parallel momentum by toroidal ion temperature gradient instability near marginality / Yoon, E. S.; Hahm, T. S. / 2010-06

CORE (COmputational and Reactor physics and Experiment)

이덕중

_Deok-jung Lee

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 510(1-3) & 403 Tel : +82-52-217-2972 E-mail : deokjung@unist.ac.kr https://sites.google.com/a/unistcore.co m/main/

Curriculum Vitae

Major research field

Desired field of research

Reactor Physics, Numerical Methods for Transport and Diffusion Analysis, Advanced Reactor Designs and Analysis, High Performance Computing, Lattice Physics Code Development, Reactor Core Simulator, AI, Digital Twin

MOC transport code, 3D Nodal diffusion code, Monte Carlo code, Reactor design, Fast reactor analysis, Multi-physics coupling, Sensitivity & uncertainty analysis, AI & simulator

Research Keywords and Topics • Reactor physics, code development, method development, advanced reactor design, high-performance computing, reactor core simulator

· 2016 - Present : Associate Professor, UNIST · 2011 - 2015 : Assistant Professor, UNIST · 2009 - 2011 : R&D Staff, Oak Ridge National Laboratory · 2005 - 2009 : Senior Nuclear Engineer, Studsvik Scandpower Inc., · 1995 - 2000 : Technical Staff, Korea Electric Power Research Institute

Academic Credential · 2003 : Ph. D. Nuclear Engineering, Purdue University · 1995 : M. S. Nuclear Engineering, Seoul National University · 1993 : B. S. Nuclear Engineering, Seoul National University

원자로 물리학, 코드 개발, 방법 개발, 첨단 원자로 설계, 고성능 컴퓨팅, 원자로 노심 시뮬레이터

Awards/Honors/Memberships

Research Publications (selected) • ANNALS OF NUCLEAR ENERGY / MCS – A Monte Carlo particle transport code for large-scale power reactor analysis / Lee, Hyunsuk; Kim, Wonkyeong; Zhang, Peng; Lemaire, Matthieu; Khassenov, Azamat; Yu, Jiankai; Jo, Yunki; Park, Jinsu; Lee, Deokjung / 2020-05 • NUCLEAR ENGINEERING AND TECHNOLOGY / Verification and validation of STREAM/RAST-K for PWR analysis / Choe, Jiwon; Choi, Sooyoung; Zhang, Peng; Park, Jinsu; Kim, Wonkyeong; Shin, Ho Cheol; Lee, Hwan Soo; Jung, Ji-Eun; Lee, Deokjung / 2019-04 • JOURNAL OF COMPUTATIONAL PHYSICS / Resonance treatment using pin-based pointwise energy slowing-down method / Choi, Sooyoung; Lee, Changho; Lee, Deokjung / 2017-02

Patents (selected) • [KOR] HYBRID DEPLETION METHOD FOR LIGHT WATER REACTOR ANALYSIS / Deokjung Lee, Wonkyeong Kim, Sooyoung Choi, Hyunsuk Lee / 2017 • [KOR] APPARATUS AND METHOD FOR REACTOR CORE ANALYSIS USING PSM / Deokjung Lee, Sooyoung Choi / 2017

· 2020 : The minister of the Ministry of Science and ICT (MSIT) Award · 2018 : Doosan Nuclear Technology Award at 2018 KNS Autumn Meeting · M&C 2017 Organization Committee · 2016 : PHYSOR 2016 Organization Committee · 2012 : Organization Committee for PHYSOR 2012 (Technical Program Co-chair) · 2010 - 2012 : Member, Joint Benchmark Committee of Mathematics and Computation, Reactor Physics, and Radiation & Shielding, American Nuclear Society · 2008 - 2011 : Member, Reactor Physics Division Program Committee, American Nuclear Society · 2004 : Organization Committee for PHYSOR 2004 (Publication Committee) · 2004 : The best paper award at ANS winter meeting, Washington, D.C.

College of Engineering

131

Department of Nuclear Engineering

UNIST CORE (COmputational Reactor physics and Experiment laboratory) is an academic laboratory dedicated to the research in nuclear reactor physics. The laboratory actively develops theoretical methods and computer codes to tackle neutron transport and diffusion theory in all its aspects: collision with medium, slowing-down, scattering, absorption, nuclear fission, chain reaction, secondary particle production and nuclide transmutation. The laboratory manages the knowledge required for reactor core design, analysis and operation and conducts studies in the fields of criticality, reactivity feedback and reactivity control, reactor kinetics, nuclear fuel depletion, perturbation theory, deeppenetration shielding, steady-state and transient simulations, reactor design and safety analysis, and many more.

Nuclear Safety Assessment and Plant HMI Evolution Lab 원자력 안전성 평가 및 HMI 혁신 연구실

이승준

_Seung Jun Lee

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-5 Lab : Bldg. 112 Rm. 504 Tel : +82-52-217-2363 E-mail : sjlee420@unist.ac.kr http://psa.unist.ac.kr

Curriculum Vitae · 2015 - Present : Associate professor, Dept. of Nuclear Engineering, UNIST · 2007 - 2015 : Senior researcher, Korea Atomic Energy Research Institute · 2007 - 2007 : Post-doctoral researcher, Center for Advanced Reactor Research, KAIST

Academic Credential · 2007 : Ph.D. Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology, Korea · 2002 : M.S. Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology, Korea · 2000 : B.S. Computer Science, Korea Advanced Institute of Science and Technology, Korea

Awards/Honors/Memberships · 2021 : TPC, PSA 2021 Conference · 2020 : TPC, ESREL2020-PSAM15 Conference · 2017 : Local Chair, ISOFIC Conference · 2013 - 2015 : Technical Contact, C12 Digital I&C Systems in NPPs of Joint Standing Committee on Nuclear Energy Cooperation · 2011 - 2015 : Member, OECD/NEA CSNI Working Groups on Human and Organizational Factors (WGHOF) · 2010 - 2012 : President, Korea Young Generation Network

Nuclear Power Plant Safety Assessment “How to assess the safety of a nuclear power plant?” “How safe is safe enough?” We are performing the researches to answer the questions and to make nuclear power plants safer. The risk assessment of nuclear power plants is crucial in plant designing, licensing, and various decision makings. To assess the plant safety more accurately, we are solving the emerging issues such as reliability of safety-critical digital systems, human reliability in digitalized environment, cyber security, dynamic risk assessment, and multi-unit risk assessment. Plant Human Machine Interface (HMI) Evolution Human error is one of the major contributors in the nuclear power plant safety. Since a nuclear power plant is a large complex system with ten thousands of components, it is not easy to diagnose the current situation and to perform corrective actions quickly and accurately even for highly trained operators. To improve the plant safety by preventing human errors, we are developing an innovative plant HMI with high level automation systems using the artificial intelligence technology.

Major research field

Desired field of research

Multi-unit PSA, Gen-IV reactor PSA, Cyber-attack risk assessment, Digital I&C reliability, Human reliability analysis, operator support systems

Dynamic PSA, Passive system reliability evaluation, Autonomous operation

Research Keywords and Topics • Probabilistic safety assessment, Human reliability analysis, Risk-informed application, Digital I&C reliability evaluation, Operator support system development, Autonomous system development 확률론적 안전성 평가, 인간 신뢰도 분석, 리스크 정보 활용, 디지털 계측제어 신뢰도 평가, 운전원 지원시스템 개발, 자율운전 시스템 개발

Research Publications (selected) • RELIABILITY ENGINEERING AND SYSTEM SAFETY / Development of a multi-unit seismic conditional core damage probability model with uncertainty analysis / Heo, Yunyeong, Lee, Seung Jun / 2021-03 • APPLIED SOFT COMPUTING / A Convolutional Neural Network Model for Abnormality Diagnosis in a Nuclear Power Plant / Lee, Gyumin, Lee, Changyong, Lee, Seung Jun / 2021-02 • IEEE ACCESS / Bayesian Belief Network Model Quantification Using Distribution-Based Node Probability and Experienced Data Updates for Software Reliability Assessment / Lee, Seung Jun, Lee, Sang Hun, Chu, Tsong-Lun, Varuttamaseni, Athi, Yue, Meng, Li, Ming, Cho, Jaehyun, Kang, Hyun Gook / 2018-10

Patents (selected) • [KOR] Method of Guarantee for Software Failure / 이승준, 조재현, 신성민, 정원대, 양준언 / 2019-05 • [KOR] Generating human error mode status distribution method according to the soft controller types and system thereof / 이승준, 김재환, 장승철 / 2013-03

132

Radiation & Medical Intelligence Lab 방사선 및 의료 지능 연구실

Radiation & Medical Intelligence Lab (RAMI Lab) has conducted various research applying artificial intelligence (AI) technology into medical, radiation, and nuclear engineering domain. The research has been mainly focused on computer vision tasks applied to medical images. We aim to develop various AI technologies, which would be practically helpful in clinical practice, such as metal artifact reduction or multi-organ segmentation in computed tomography (CT). Currently, we are conducting collaborative research with Seoul National University, Department of Radiology in Seoul National University Hospital, and Department of Radiation Oncology in Samsung Medical Center.

이지민

_Jimin Lee

방사선 및 의료 지능 연구실은 의료, 방사선, 원자력에 기반 지식을 바탕으로 인공지능 기술을 접목 한 다양한 연구를 수행하고 있습니다. 주로 의료영상에 컴퓨터 비전 기술을 적용하고 있으며, 컴퓨터 단층영상에서의 인공음영 제거 기술 개발, 주요 장기 자동분할 기술 개발 등 임상에 실질적으로 도 움이 되는 기술 개발을 목 표로 합니다. 이를 위하여 서울대학교, 서울대학교

Curriculum Vitae

병원 영상의학과, 삼성서

· 2021 - Present : Assistant Professor, UNIST · 2015 : Intern, Australian Nuclear Science and Technology Organization (ANSTO)

울병원 방사선종양학과 등과 공동 연구를 진행하 고 있습니다.

Academic Credential

Major research field Development of various Artificial Intelligence (AI) applications based on domain knowledge of medical, radiation, and nuclear engineering fields

· 2021 : Ph. D. Biomedical Radiation Sciences, Seoul National University · 2015 : B. S. Nuclear & Quantum Engineering, KAIST

Research Keywords and Topics

Awards/Honors/Memberships

• Physics-informed Artificial Intelligence

· 2021 : Best Paper Award from Seoul National University · 2017 - Present : Executive of TensorFlow Korea · 2016 - Present : Member of American Association of Physicists in Medicine · 2016 - Present : Member of Korean Nuclear Society · 2016 : Best Poster Award at 2016 Korean Nuclear Society Spring Meeting

도메인 지식을 기반으로 한 인공지능 적용 기술 개발

• Classification and Segmentation Technologies for Medical Images 의료영상 기반 분류 및 주요 부위 분할 기술 개발

• Image-to-Image Translation and Generation Technologies for Medical Images 의료영상 변환 및 생성 기술 개발

Research Publications (selected) • IEEE Transactions on Nuclear Science / Compton background elimination for in vivo X-ray fluorescence imaging of gold nanoparticles using convolutional neural network / Seongmoon Jung, Jimin Lee, Hyungjoo Cho, Taeyun Kim, Sung-Joon Ye (cofirst) / 2020-09 • IEEE Access / Deep-learning-based label-free segmentation of cell nuclei in time- lapse refractive index tomograms / Jimin Lee, Hyejin Kim, Hyungjoo Cho, YoungJu Jo, Yujin Song, Daewoong Ahn, Kangwon Lee, YongKeun Park, Sung-Joon Ye / 2019-06 • Physics in Medicine & Biology / Fano cavity test for electron Monte Carlo transport algorithms in magnetic fields: comparison between EGSnrc, PENELOPE, MCNP6 and Geant4 / Jaegi Lee, Jimin Lee, Dongmin Ryu, Hochan Lee, Sung-Joon Ye / 2018-10

Patents (selected) • Heejung Kim, Jimin Lee, Hyungjoo Cho, Sung-Joon Ye / “SYSTEM AND METHOD FOR SEGMENTING NORMAL ORGAN AND/OR TUMOR STRUCTURE BASED ON ARTIFICIAL INTELLIGENCE FOR RADIATION TREATMENT PLANNING.” / US 16 / 946,480 / 2020 • Jimin Lee, Hyungjoo Cho, Hee-Dong Chae, Sung-Joon Ye / “Apparatus and Method for Removing Metal Artifact of Computer Tomography Image Based on Artificial Intelligence.” / KR 10-2019-0159149 / 2019

College of Engineering

133

Department of Nuclear Engineering

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-14 Lab : Bldg. 112 Rm. 505 Tel : +82-52-217-2916 E-mail : jiminlee@unist.ac.kr https://sites.google.com/view/rami-lab

Micro Nuclear Energy Research and Innovation Centre (MINERI) 초소형원자력연구혁신센터

황일순

_Il-Soon Hwang

Department of Nuclear Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 501-8 Tel : +82-52-217-2415 E-mail : hisline@unist.ac.kr

Nuclear energy systems is being micronized to achieve Proliferation-resistant, Environment-friendly, Accident-tolerant, Climate-protecting and Economical (PEACE) nature. Chemically and neutronically inert heavy liquid metals are employed as robust coolant, the reactor core is designed to last over its lifetime, without refueling. The micro reactor with low-enriched uranium fuel will not undergo melt-ddown with zero radius emergency planning zone so that the micro systems can be deployed with versatility to meet demands for maritime propulsion, hydrogen production and smart cities in support of carbon-neutral world.

Major research field Energy innovation

Research Keywords and Topics Curriculum Vitae · Professor, Il Soon HWANG, Ph. D., CAV. · Chair Professor and Director , Micro Nuclear Energy Research Innovation Center (MINERI) of Nuclear Engineering Department, Ulsan National Institute of Science and Technology (UNIST) · President of International Forum for Reactor Aging Management (IFRAM), www.IFRAM.org

Academic Credential · Professor Hwang has been leading a Korea national R&D program on nonrefueling micro reactor for zero emission vessels in support of global climate protection. Earlier, he was Professor of Nuclear Engineering at Seoul National University (SNU), Research Scientist and Visiting Associate Professor at MIT. At SNU, he led nuclear materials aging management efforts, Korean implementation of the IAEA Periodic Safety Review (PSR).

• Professor Hwang has been leading a Korea national R&D program on non-refueling micro reactor for zero emission vessels in support of global climate protection. Earlier, he was Professor of Nuclear Engineering at Seoul National University (SNU), Research Scientist and Visiting Associate Professor at MIT. At SNU, he led nuclear materials aging management efforts, Korean implementation of the IAEA Periodic Safety Review (PSR) and a national transition for establishing Korean Nuclear Safety and Security Commission independent as well as nuclear infrastructure/security education programs. His research focus includes nuclear materials development for fission and/or fusion systems, Gen-IV lead fast reactors and nuclear fuel cycle technology.

Research Publications (selected) • Nuclear Engineering and Design / Markov chain model for inadvertent human intrusion into geological repositories for high level waste / Heejae Ju, Sungyeol Choi, Il Soon Hwang / 2019-01 • International Journal of Electrochemical Science/ Electrolytic Recovery of High Purity Zr from Radioactively Contaminated Zr Alloys in Chloride Salts / Sohn, Sungjune; Park, Jaeyeong; Hwang, Il Soon / 2018-04 • Nuclear Engineering and Design / Systematic model for estimation of future inadvertent human intrusion into deep rad-waste repository by domestic groundwater well drilling / Heejae Ju, Il-Soon Hwang / 2018-02

Patents (selected) • [국내] 고준위 방사성 폐기물의 중준위화 공정에서 발생하는 폐기물을 저준위 방사성 폐기물로 정 제하는 방법 / 황일순, 손성준, 주희재, 송명재, 이종현, 한국전력기술주식회사 / 출원번호 : 10-20160143489 • [국내] 납-비스무스 냉각 노심의 핵연료와 냉각재 반전 구조 설계 및 블록 형태의 연료 도입을 통한 원자로 성능 개선 기술 / 황일순, 이주은, 신용훈, 최성열 / 출원번호 : 10-2016-0143520

134

COLLEGE OF NATURAL SCIENCES 자연과학대학

02 Department of Physics 물리학과 Department of Mathematical Sciences 수리과학과 Department of Chemistry 화학과

Department of Physics 물리학과

Statistical physics, optics and cells

Our laboratory investigates fundamental problems at the cross-roads of optics, soft-matter physics and cell biology, through experiments and theory. We use a range of tools from molecular genetics, statistical physics, imaging, optics or epistemology. In cell biology, we study how the geometry and mechanics of cell-cell interactions determine cellular structures and their dynamics, and we wish to resolve intrinsic vs. emergent properties of cells. Our fascination for light per se and its multiple interactions with living and non-living objects drives our research on imaging and applied optics, luminescence, light scattering and statistical optics. Our recent discovery of random-light interferometry opens a new field of theoretical and experimental research in optics, with applications to biology, soft-matter, and optical sensor technologies.

Major research field cell biology & sociology, soft-matter & biological physics, statistical optics & interferometry

Research Keywords and Topics • Cell mechanics, cytoskeleton dynamics in/stability, cell adhesion. • Optical control of gene expression and oncogenes, sociology of the epithelial-to-mesenchymal transition. • Nonlinear optical imaging, optics and detection of thermal radiation. • Nanoscale heat transfer, water metastability and microscopic vapor explosions. • Ultraweak chemi-luminescence of the oxidative stress and of oxidation reactions. • Diffusive wave spectroscopy & cavity-amplified light scattering of protein activity & liquids. • 3D random optical interferometry: instrumentation, experiments & applications. • Theory of coherent photon gases, 3D random interferometry, stochastic dielectric spectroscopy, electromagnetism with random tensors.

Research Publications (selected) • Scientific reports 2021 / Detectivity optimization for the detection of ultraweak light fluxes. Khaoua I, Graciani G, Kim A & F Amblard. 11:3530. • Biomaterials 2021 / Adaptive architecture and mechanoresponse of epithelial cells on a torus. Yu S-M, Li B, Amblard, Granick S & YK Cho. 265:120420. • Nat communications 2019/ Super-resolution provided by the arbitrarily strong superlinearity of the blackbody radiation. Graciani G & F Amblard. 10:5761. • PNAS 2018 / How to better focus waves by considering symmetry and information loss. Lou K, Granick S & F Amblard. 115:6554-6559. • Optics lett 2018 / Deep line-temporal focusing with high axial resolution and large field-of-view using intracavity control & incoherent pulse-shaping. Lou K, Wang B, Jee A-Y, Granick S & F Amblard. 43:4919. • Exp cell research 2016 / Polycystins and intercellular mechanotransduction. Bhoonderowa L, Hameurlaine F, Arbabian A, Faqir F, Amblard F & S Cosoy. 348:23-35. • PlosOne 2015/ Mechanosensitive Adaptation of E-Cadherin Turnover across adherens Junctions. deBeco S, Perney J-B, Coscoy S & F Amblard. 10:e0128281. *.How Korean democracy tame Covid. F Amblard, Mediapart 2020 //blogs.mediapart.fr/francois-amblard

Patents (selected) • “Multiphoton imaging installation.” US Patent # 6879394 (2000). • “Method and apparatus for measuring optical power of a light beam produced in a microscope.” Europe Patent. PCT/EP2007/009612 (2007). • “Methods and devices for detecting macroions in a liquid medium”. Europe Patent. 201214PCT (2012).

_Francois Amblard Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 311 Lab : Bldg. 103 Rm. 306 Tel : +82-52-217-5523 E-mail : famblard@unist.ac.kr

Curriculum Vitae · 2015 - Present : Distinguished Professor, UNIST. - School of Life Science (2015-20) - Department of Physics (since 2020) - Center for Soft and Living Matter, Institute for Basic Science. · 2004 - 2015 : CNRS Research Director. · 2003 - Present : Prof. of Physics & co-founder, French MD-PhD programme. · 1998 - 2015 : Group leader, Institut Curie & CNRS, Paris. · 1995 - 1998 : CNRS Research scientist, ESPCI, Paris. · 1993 - 1995 : Research fellow, Princeton University, Depts. Physics & Biology. · 1991 - 1992 : Pasteur-Weizmann fellow Immunology, Institut Pasteur, Paris.

Academic Credential · 1991 : PhD in Immunology, University Pierre & Marie Curie University, Paris. · 1986 : M.Sc. Cell & molecular biology. · 1985 : M.Sc. In Mathematics & Physics, Ecole Polytechnique, Paris.

Awards/Honors/Memberships · 2007 - 2011 : International Advisory Board, European Neuroscience Institutes · 2001 - 2015 : Member and Council member, French Physical Society (SFP). · 2005 : Head of Physics-Biology initiative - SFP, World Year of Physics · 2005 : International Review Board, European Molecular Biology Laboratory · 2003 : Founding member, French National MD-PhD Programme · 2002 - 2004 : Scientific secretary, CNRS interdisciplinary committee

College of Natural Sciences

139

Department of Physics

우리 랩에서는 광학, 연성물질, 세포생물학의 융합지점에 있는 근원적인 문제들에 대한 실험적・이론적 연구를 수행합니다. 이를 위하여 분자유전학, 통계물리, 이미징을 비롯하여 인식론을 중요한 도구로 활용합니다. (1) 세 포생물학에서는 세포 간의 상호작용의 기하학적・역학적 측면이 세포의 구조와 동역학을 결정하는 메커니즘을 밝히고, (2) 세포의 내재적 속성을 세포군집의 창발적 성질들로부터 구분하고자 합니다. (3) “빛" 자체에 대한 우 리의 열정과 생물・무생물을 망라하는 빛-물질 간의 다양한 상호작용의 효용은 이미징, 응용광학, 발광, 광산란, 통계광학에 걸치는 우리 랩 연구의 동력입니다. 최 근 우리 랩에서 출판한 마구잡이 빛간섭계 (random-light inter-ferometry) 는 생명과학, 연성물질, 광학센서기술에 응용될 수 있는 이론적・실험적 연 구의 새로운 지평을 연 것으로 평가받고 있습니다.

암블라흐, 프랑수아

Theory of Life

틀루스티, 츠비 _Tsvi Tlusty Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-3 Lab : Bldg. 103 Rm. 306 Tel : +82-52-217- 5512 E-mail : tsvi@unist.ac.kr http://www.sns.ias.edu/~tlusty/index.html

Combining physical and mathematical methods, we aim to develop unified theories that address fundamental questions of living and active matter, seeking the depth and predictive capability that has been achieved in conventional theoretical physics. Our working hypothesis is that the underlying principles governing the evolution and function of living matter have non-equilibrium physics and information-theoretic origins. 물리적 방법과 수학적 방법을 결합하여, 기존의 이론 물리학에서 달성한 깊이와 예측 능력을 추구하 면서 생물과 활성 물질의 근본적인 문제를 해결하는 통합된 이론을 개발하는 것을 목표로 하고 있습

Curriculum Vitae

니다. 해당 가설은 생물 물질의 진화와 기능을 지배하는 기본 원리가 비균형 물리학과 정보 이론 기

· 2015 - Present : Distinguished Professor, Department of Physics, UNIST, Ulsan · 2015 - Present : Group Leader, Center for Soft and Living Matter, Institute for Basic Science · 2011 - 2015 : Long-term Member, Institute of Advanced Study, Princeton · 2005 - 2013 : Senior researcher, Physics of Complex Systems, Weizmann Institute · 2000 - 2004 : Fellow, Center for Physics and Biology, Rockefeller University, New York(Host: Prof. Albert Libchaber)

원을 가지고 있다는 것입니다.

Academic Credential · 1995 - 2000 : Ph.D. in Physics, Weizmann Institute, “Universality in Microemulsions”(Supervisor: Prof. Samuel A. Safran) · 1991 - 1995 : M.Sc. in Physics, Weizmann Institute · 1988 - 1990 : B.Sc. in Physics and Mathematics (Talpyot), Hebrew University, Jerusalem

Awards/Honors/Memberships · 2011 - 2015 : Founders’ Circle Member, Institute for Advanced Study, Princeton · 2008 : M. Levinson prize in physics, Weizmann Institute · 2006 : Senior young investigator fellowship, Center for Complexity Science · 2000 - 2003 : Fellowship, Center for Physics and Biology, Rockefeller University · 2000 : Rothschild fellowship, Rothschild foundation, Yad Hanadiv, Jerusalem. · 2000 : J. F. Kennedy prize, Weizmann Institute, Rehovot, Israel

140

Major research field Non-Equilibrium, Protein, Enyme, RNA, DNA

Research Keywords and Topics • Fundamental problems of living systems: the emergence of multi-cellularity in evolution examined within a Boolean network formalism. • The interaction between RNA and inherently disordered protein, which will be studied using deep learning techniques. • Evolution and innovation in music and language. • Collective modes and their interaction in microfluidic systems. • Modeling the catalytically-induced ballistic motion.

Research Publications (selected) • Dutta S, Eckmann JP, Libchaber A, & Tlusty T (2018) Green function of correlated genes in a minimal mechanical model of protein evolution. Proc Nat Acad Sci USA 115(20):E4559-E4568 • Paneru G, Lee DY, Tlusty T, & Pak HK (2018) Lossless Brownian Information Engine. Phys Rev Lett 120(2) • Jee AY, Dutta S, Cho YK, Tlusty T, & Granick S (2018) Enzyme leaps fuel antichemotaxis. Proc Nat Acad Sci USA 115(1):14-18 • Ha MY, Yoon TJ, Tlusty T, Jho Y, & Lee WB (2018) Widom Delta of Supercritical GasLiquid Coexistence. J Phys Chem Lett 9(7):1734-1738 • Tlusty T, Libchaber A, & Eckmann JP (2017) Physical Model of the Genotype-toPhenotype Map of Proteins. Physical Review X 7(2) • Beatus T, Shani I, Bar-Ziv RH, & Tlusty T (2017) Two-dimensional flow of driven particles: a microfluidic pathway to the non-equilibrium frontier. Chemical Society Reviews • Tlusty T (2016) Self-referring DNA and protein: a remark on physical and geometrical aspects. Philos T Roy Soc A 374(2063)

Patents (selected) • System and method for differentiating between cells with normal and pathologically altered cytoskeleton (WO/2003/058192)

Computational Astrophysics Laboratory 전산천체물리학 연구실

Various reactions occur in the Universe. Nuclear reactions occur inside stars and on the surface of compact objects like white dwarfs and neutron stars. Ionization of atoms (and recombination of electrons) occur in any plasma state and even chemical reactions are important in cool and dense gas which will form stars eventually. We are interested in simulating these reactions in the relevant astrophysical environments. Our simulation results are compared with observations and give a hint on how we can understand what we see/observe.

곽규진

_Kyujin Kwak

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-5 Lab : Bldg. 108 Rm. 411 Tel : +82-52-217-2139 E-mail : kkwak@unist.ac.kr http://kkwak.unist.ac.kr/

구를 주로 하고 있습니다. 이를 통해 관측된 천체현상의 이면에 존재하는 “왜” “어떻게”를 이해하려 고 합니다. 최근에는 비전자기파 천문학 혹은 다중신호 천문학 연구에도 관심을 기울이고 있습니다.

Curriculum Vitae

중력파와 중성미자 천문학 관련 연구를 시작했습니다.

· 2012 - Present : Assistant Professor, UNIST · 2012 : Post-doc., Korea Astronomy & Space Science Institute (KASI) · 2007 - 2012 : Post-doc., Univ. of Georgia

Major research field

Desired field of research

nuclear astrophysics, interstellar medium, astro-chemistry, supercomputing

gravitational wave, neutrino astrophysics, machine learning

Research Keywords and Topics

Academic Credential

• Non-Equilibrium Ionization Simulations of Astrophysical Plasma in Interstellar and Intergalactic Medium

· 2007 : Ph. D. Physics & Astronomy, State Univ. of New York at Stony Brook · 1999 : M. S. Theoretical Nuclear Physics, Seoul National University · 1997 : B. S. Physics, Seoul National University

비평형 이온화 과정을 포함한 유체역학 시뮬레이션

• Numerical Relativity: Hydrodynamic and Magneto-Hydrodynamic Simulations of Turbulence in Relativistic Flows 상대성 이론, 자기장을 포함한 유체역학 시뮬레이션

• Computational Nuclear Astrophysics for the Rare Isotope Accelerator Experiments 핵반응을 포함한 유체역학 시뮬레이션

• Relativistic Radiative Transfer for the Astrophysical Applications (e.g., Gamma-Ray Bursts and Active Galactic Nuclei) 빛의 운동을 포함한 유체역학 시뮬레이션

• Numerical Astro-Chemistry 화학반응을 포함한 유체역학 시뮬레이션

• Gravitational Wave and Neutrino Astrophysics

Awards/Honors/Memberships · 2013 - Present : Member, Korean Astronomical Society · 2012 - Present : Member, Korean Physical Society · 2004 - Present : Member, American Astronomical Society

중력파 및 중성미자 천체물리학

Research Publications (selected) • Astrophysical Journal / Estimating the Fuel Supply Rate on the Galactic Disk from High-velocity Cloud (HVC) Infall / Kwang Hyun Sung & Kyujin Kwak / 2019-08 • Physical Review C / Tidal deformability of neutron stars with realistic nuclear energy density functionals / Young-Min Kim, Yeunhwan Lim, Kyujin Kwak, Chang Ho Hyun, and Chang-Hwan Lee / 2018-12 • Progress of Theoretical and Experimental Physics / Physics potentials with the second Hyper-Kamiokande detector in Korea / 354 authors including Kyujin Kwak / 2018-06

College of Natural Sciences

141

Department of Physics

우리 연구실은 전산/이론 천체물리학 연구를 수행하고 있습니다. 천체에서 발생하는 핵융합반응, 원 자의 이온화 반응, 분자 생성 반응을 컴퓨터 시뮬레이션으로 구현하고 그 결과를 관측과 비교하는 연

Nano Optics Group 나노광학연구실

김대식

_Daisik Kim

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-8 Lab : Bldg. 108 Rm. 607-4 Tel : +82-52-217-2037 E-mail : daisikkim@unist.ac.kr http://nanooptics.unist.ac.kr/

Curriculum Vitae · 2019 - Present : Distinguished Professor (Dept. of Physics and Astronomy, UNIST) · 2015 - 2019 : Director (Center for Atom Scale Electromagnetism) · 2008 - 2015 : Director (Center for Subwavelength Optics) · 1994 - 2019 : Professorship (Dept. of Physics, SNU) · 1993 - 1994 : Senior Scientist (Center for Laser and Photonics Research, Oklahoma State Univ.) · 1991 - 1993 : Postdoc. (AT&T Bell Labs)

Academic Credential · 1990 : Ph.D (U.C. Berkeley, Physics) · 1986 : M.A (U.C. Berkeley, Biophysics) · 1985 : B.S (SNU, Physics)

Awards/Honors/Memberships · 2016 : Elected to the Korean Academy of Science and Technology (한림원 회원)

· 2013 : Korea Science Award (한국과학상 수상)

· 2012 : Seoul National University Research Award · 2011 : Seoul National University College of Natural Sciences Research Award · American Physical Society Fellow · 2009 : Optical Soc

We study subwavelength confinement of electromagnetic wave and their nonlinearity in nanometer and angstrom-scale antennas. By using a new patterning technology based on atomic layer deposition, chemical vapor deposition and simple adhesive tape-based planarization creates vertically oriented gaps in opaque metal film along the entire contour of a millimeter-sized pattern with gap widths less than a nanometer. Squeezing terahertz electromagnetic waves through these nanometer and angstrom-scale gaps leads to giant field enhancements, nonlocal electromagnetic effects and light-induced electron tunneling. We are interested in understanding extreme-subwavelength optical phenomena, in the λ/10,000 range. A good example is λ=300 μm, 1 THz wave that passes through 50 nm metallic slit, a terahertz nano-scale phenomenon. Through collaborative experimental and theoretical research program, we want to explore the heretofore virgin territory of optics in λ/10,000 regime and optics in Thomas-Fermi length scale of 0.1 nm. We also pursue a deeper understanding on optics by observing electric and magnetic phenomena separately. Nontrivial magnetic-electric relationships are becoming increasingly important, while there are few suitable methods for direct measurements of the each optical field. Our research on vectorial mapping of electric/magnetic field will greatly benefit the field of nanophotonics, such as in optical metamaterial development.

Major research field Angstrom lithography, ultrafast phenomena, terahertz nanotechnology, quantum plasmonics, Optical magnetism, nanomanipulation of quantum materials

Research Keywords and Topics • Nanogap Fabrication • Angstrom-scale Electromagnetism • VO2 Phase Transition Control • Optical Field Mapping

Research Publications (selected) • NATURE COMMUNICATIONS / Terahertz rectification in ring-shaped quantum barriers / Taehee Kang, R.H. Joon-Yeon Kim, Geunchang Choi, Jaiu Lee, Hyunwoo Park, Hyeongtag Jeon, Cheol-Hwan Park & Dai-Sik Kim / 2018-11 • NATURE PHOTONICS / Terahertz field enhancement by a metallic nano slit operating beyond the skin-depth limit / M. A. Seo, H. R. Park, S. M. Koo, D. J. Park, J. H. Kang, O. K. Suwal, S. S. Choi, P. C. M. Planken, G. S. Park, N. K. Park, Q. H. Park and D. S. Kim / 2009-03 • NATURE PHOTONICS / Vector field microscopic imaging of light / K. G. LEE, H. W. KIHM, J. E. KIHM, W. J. CHOI, H. KIM, C. ROPERS, D. J. PARK, Y. C. YOON, S. B. CHOI, D. H. WOO, J. KIM, B. LEE, Q. H. PARK, C. LIENAU, AND D. S. KIM / 2006-12

Patents (selected) • 나노트렌치스위치 / 바마데브 다스, 김대식 (외 6명) / 2020년 특허출원 중 • 제로갭트렌치 / 김대식, 김성환, 바마데브 다스 / 2020년 특허출원 중

142

Nanostructured Polymer Theory Lab 나노구조고분자 이론연구실

I am a statistical physicist with an interdisciplinary background, having worked on polymer physics, soft matter physics, biophysics and machine learning. Currently, my primary research interest is in the theoretical modeling of nanometer scale structure formation of polymeric materials using mean field and beyond-mean field theory. 김재업 교수는 고분자 물리, 연성물질물리, 생체 물리, 기계학습 등의 다양한 연구경험을 가진 통계 물리학자이다. 최근 본 연구실에서는 고분자 물질이 만드는 다양한 나노구조를 평균장에서 모델링 하는 연구를 주로 하고 있고, 평균장을 넘어서는 이론의 개발도 시도하고 있다. 그 외의 다양한 연성 물질 및 복잡계에 대한 연구를 병행하고 있으며 기계학습을 이러한 연구에 이용하고 있다.

김재업

_Jaeup Kim

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 401-9 Lab : Bldg. 108 Rm. 408 Tel : +82-52-217-2318 E-mail : jukim@unist.ac.kr https://home.unist.ac.kr/professor/jukim/

Major research field

Desired field of research

Statistical Physics of Polymers, Soft Matters, Nanostructures & Patterning, Machine Learning

고분자 통계물리, 연성물질, 나노구조&나노패터닝, 복잡계, 기계학습 및 딥러닝

Research Keywords and Topics • Polymer Theory 고분자 이론

• Block Copolymer Nanopatterning 블록공중합체 나노패터닝

• Statistical Physics & Computational Physics 통계물리/전산물리

• Soft Materials 연성물질

• Machine Learning 기계학습

· 2021 - Present : Professor, UNIST · 2013 - 2020 : Associate Professor, UNIST · 2009 - 2012 : Assistant Professor, UNIST · 2006 - 2008 : Postdoctoral Fellow, Physics & Mathematics Department, University of Reading, Reading, UK · 2005 - 2006 : Postdoctoral Fellow, Columbia University, New York, Department of Chemical Engineering

Academic Credential · 2005 : M. A./M. Phil./Ph. D. in Physics Columbia University, New York · 1998 : B. S. in Physics, KAIST

Memberships · Member of American Physical Society · Member of Korean Physical Society · Member of Polymer Society of Korea · Member of Korean Chemical Society · Member of Korean Society for Baduk Studies

Research Publications (selected) • MACROMOLECULES / Laser-Directed Self-Assembly of Highly Aligned Lamellar and Cylindrical Block Copolymer Nanostructures: Experiment and Simulation / Yong, Daeseong; Jin, Hyeong Min; Kim, Sang Ouk; Kim, Jaeup U. / 2018-02 • SOFT MATTER / Interactions between brush-grafted nanoparticles within chemically identical homopolymers: the effect of brush polydispersity / Park, So Jung; Kim, Seyong; Yong, Daeseong; Choe, Youngson; Bang, Joona; Kim, Jaeup U. / 2018-02 • NANO LETTERS / Anomalous rapid defect annihilation in self-assembled nanopatterns by defect melting / Kim, Bong Hoon; Park, So Jung; Jin, Hyeong Min; Kim, Ju Young; Son, Seung-Woo; Kim, Myung-Hyun; Koo, Chong Min; Shin, Jonghwa; Kim, Jaeup U.; Kim, Sang Ouk / 2015-02 • MACROMOLECULES / Arrangement of lamellar microdomains of block copolymer confined in hemispherical cavities having two controlled interfaces / Lee, Dagam; Kim, Myung-Hyun; Bae, Dusik; Jeon, Gumhye; Kim, Mooseong; Kwak, Jongheon; Park, So Jung; Kim, Jaeup U.; Kim, Jin Kon / 2014-06

College of Natural Sciences

143

Department of Physics

Curriculum Vitae

Solid-State Quantum Architecture Lab 고체 기반 양자 광학 연구실

김제형

_Jehyung Kim

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-8 Lab : Bldg. 108 Rm. 509-1 Tel : +82-52-217-2212 E-mail : jehyungkim@unist.ac.kr http://ssqa.unist.ac.kr

Our research group aims to generate and control quantum light based on various solidstate quantum systems such as quantum dots, defects, and emerging quantum materials. We study light-matter interaction, cavity QED, quantum entanglement from solid-state quantum emitter coupled to nano-photonic structures. Therefore, the research ranges from device fabrication to optical controls and characterization. Recently, our group is focusing on the realization of integrated quantum devices by developing new techniques that control multiple quantum emitters and their quantum interaction. 본 연구실은 양자화 된 빛의 생성과 제어를 목표로 이를 구현하기 위한 다양한 양자 구조체(양자점, 결함 구조, 신 양자 구조체)를 연구하고 있다. 주 연구 주제는 고체 기반의 양자 구조체와 나노 광학 구조를 결합을 바탕으로 한 빛과 물질 간 상호작용, 공진기 양자 동력학, 양자 얽힘 등이 있다. 실질적 으로 연구실 연구 내용은 나노 구조 소자 제작, 광 측정 분석, 광 제어 기술 개발, 양자 광학 연구 등이 다. 최근 본 그룹은 기존 단일 양자 구조체 연구를 넘어서 다수의 양자구조체에 대한 새로운 제어 기 술 개발, 양자 상호 작용 구현에 큰 관심을 가지고 있으며 이를 기반으로 하여 집적 양자 광 소자 개

Curriculum Vitae

발을 목표로 하고 있다.

· 2017 - Present : Assistant Professor, UNIST · 2014 - 2017 : Post Doc., University of Maryland · 2014 : Post Doc., KAIST

Academic Credential · 2014 : Ph. D. Physics, KAIST · 2007 : B.S. Physics, Korea University

Desired field of research

Major research field Quantum photonics, quantum dot, single photon source 양자 포토닉스, 양자점, 단광자원

Integrated quantum device 집적 양자 소자

Research Keywords and Topics • Integrated solid-state quantum devices based on solid-state quantum emitters 고체 기반 양자광원을 이용한 집적 양자 광소자 개발

• Cavity-quantum electrodynamics 공진기 기반의 빛과 물질 간 상호 작용 연구

• Quantum entanglement between multiple qubits 다수의 큐빗 간 양자 얽힘 현상 연구

Research Publications (selected) • NANO LETTERS / Position and Frequency Control of Strain-Induced Quantum Emitters in WSe2 Monolayers / Kim, Hyoju; Moon, Jong Sung; Noh, Gichang; Lee, Jieun; Kim, Je-Hyung / 2019-10 • NANO LETTERS / Super-radiant emission from quantum dots in a nanophotonic waveguide / Kim, Je-Hyung; Aghaeimeibodi, Shahriar; Richardson, Christopher J. K.; Leavitt, Richard P.; Waks, Edo / 2018-08 • NANO LETTERS / Hybrid Integration of Solid-State Quantum Emitters on a Silicon Photonic Chip / Kim, Je-Hyung; Aghaeimeibodi, Shahriar; Richardson,Christopher J. K.; Leavitt, Richard P.; Englund, Dirk; Waks, Edo / 2017-12

Patents (selected) • 양자광원 및 그 제조방법 / 김제형, 김효주, 문종성 / 등록번호 10-2045064

144

High Pressure X-ray Science Laboratory 고압력 X선 물리연구실

우리 실험실에서는 고압과 X-선 기술을 사용하여 생물 및 연성 물질 시스템을 연구합니다. 고압력 극저온 냉각 기법으로 불리는 기술은 생물물리와 X-선 분야에서 고분자 결정의 손상을 방지하기 위 해 개발되었습니다. 이 방법은 Ligand-단백질의 상호작용을 안정화하고, 단백질 구조 내부의 압력 에 의한 효과를 연구하며, 효소 반응의 중간과정을 포착하는 데 성공적으로 적용되었습니다. 우리는 앞으로 고압 냉각 기술을 사용하여 유리질 상태의 물의 상 변화와, 물과 단백질 사이의 상호작용, 그 리고 극저온에서의 단백질 구조 및 기능을 연구할 계획입니다.

Major research field X-ray Science, Biophysical Science, Biomedical Science

Desired field of research Protein Structures and Functions 단백질 구조와 기능 연구 High-Pressure Cryocooling Protein Crystallography 고압력 극저온 단백질 결정학

김채운

_Chae Un Kim

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 401-8 Lab : Bldg. 108 Rm. 402-1 Tel : +82-52-217-2147 E-mail : cukim@unist.ac.kr http://hiprex.unist.ac.kr/

Curriculum Vitae · 2018 - Present : Associate Professor, UNIST · 2014 - 2017 : Assistant Professor, UNIST · 2009 - 2014 : Staff Scientist, Cornell High Energy Synchrotron Source (CHESS) · 2008 : Post.Doc., Cornell High Energy Synchrotron Source (CHESS)

Academic Credential · 2008 : Ph. D. Biophysics, Cornell University · 1999 : B.S. Physics, Seoul National University - Summa Cum Laude (1st place honor in physics) · 1995 : Korea Science Academy (한국과학영재학교)

Research Keywords and Topics • X-ray Science, Biophysical Science, Biomedical Science • X-ray Technique Development, Protein Structures and Functions, X-ray Imaging of Biological Assemblies

Research Publications (selected)

Awards/Honors/Memberships · 2008 : Best PhD Thesis Prize, Cornell High Energy Synchrotron Source · 1999 : Summa Cum Laude (1st place honor in physics), Seoul National University

• IUCrJ / Structural insights into the effect of active site mutation on carbonic anhydrase catalytic mechanism / Kim, Jin Kyun; Lee, Cheol; Lim, Seon Woo; Andring, Jacob T.; Adhikari, Aniruddha; McKenna, Robert; Kim, Chae Un / 2020-11 • Nature Communications / Elucidating the role of metal ions in carbonic anhydrase catalysis / Kim, Jin Kyun; Lee, Cheol; Lim, Seon Woo; Adhikari, Aniruddha; Andring, Jacob T.; McKenna, Robert; Ghim, Cheol-Min; Kim, Chae Un / 2020-09 • IUCrJ / Active-site solvent replenishment observed during human carbonic anhydrase II catalysis / Kim, Jin Kyun; Lomelino, Carrie L.; Avvaru, Balendu Sankara; Mahon, Brian P.; McKenna, Robert; Park, Sang Youn; Kim, Chae Un / 2018-01 • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Glass-to-cryogenic-liquid transitions in aqueous solutions suggested by crack healing / Kim, Chae Un; Tate, Mark W.; Gruner, Sol M. / 2015-09

College of Natural Sciences

145

Department of Physics

Our lab studies biological and soft matter systems using high-pressure and Xray techniques. A high-pressure cryocooling method was developed for crystal cryoprotection in macromolecular crystallography. In addition, the method was successfully applied to stabilize ligand-protein interactions, to study the pressure effect on the structure, and to entrap intermediate enzymatic states. Using the high-pressure method, we will study the phase behaviors of glassy water, water-protein interactions, and protein functions and dynamics at cryogenic temperatures.

Physical Biology Biological Physics 이론생물물리연구실

김철민

_Cheol-Min Ghim

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 401-7 Lab : Bldg. 110 Rm. 809-810 Tel : +82-52-217-2517 E-mail : cmghim@unist.ac.kr http://pbbp.unist.ac.kr/

Curriculum Vitae · 2009 - Present : Associate and Assistant Professor, UNIST · 2006 - 2009 : Postdoc, Lawrence Livermore National Laboratory · 2006 : Postdoc, Levich institute for Physicochemical Hydrodynamics, City College of New York · 2004 - 2005 : Postdoc, Center for Theoretical Biological Physics, University of California, San Diego · 2003 - 2004 : Postdoc, Center for Theoretical Physics, Seoul National University

The Ghim Lab seeks to find the “design” principles behind the networks of biological information processing. The networks encompass cellular metabolism, regulation of gene expression, cell-to-cell communication, and up to social and ecological interactions among individuals. The current focus of research is on: • Control and exploitation of noise in gene expression • Resource allocation for coordinated metabolism • Causal inference in epidemic dynamics and ecological systems • Game theory in structured populations and reinforcement learning The aim from biology side is to rationalize the efficiency and robustness of biological networks in the light of form-function duality. The other side of the coin is an effort to restore the precision and accuracy of biochemical information processing in e.g. synthetic biology or metabolic engineering up to its silicon-based counterpart. Both of these objectives are closely linked to the fundamental problems of equilibrium and nonequilibrium statistical mechanics on complex networks. Information theory and statistical physics are a major tool toward this end but the crux is still the rigorous biological realism.

Major research field • Biological information processing • Stochastic biochemistry • Network biology of microbiome

Desired field of research • Stochastic thermodynamics of active matter • Reinforcement learning applied to causal inference

Keywords • Control of complex networks, Nonequilibrium statistical physics, Stochastic cell biology, Biochemical information processing, Human microbiome, Ecological inference, Reinforcement learning

Academic Credential

Topics

· 2020 - Present : Program Coordinator, Asia-Pacific Center for Theoretical Physics · 2016 - 2019 : Director, KIAS-APCTP Statistical Physics Winter School · 2003 : Ph.D. Physics, Seoul Nat’l Univ · 1994 : B.S. Physics, Seoul Nat’l Univ

• Stochastic thermodynamics of active matter systems • Noise propagation in cellular biochemistry • Control aspects of human microbiome • Reinforcement learning for agent-based ecological models

Major Funded Research Projects (as of May 2020) · Nonequilibrium Statistical Mechanics Based on Active Matter (NRF Korea) · Global Research Center for Organ Mimetics (GRDC, NRF Korea) · Pathogen Predators Program (DARPA, USA) · Time-Reversal Reconstruction of Epidemic Dynamics via Viral Sequence Data (NRF Korea) · Cell-to-Cell Communications in Cancer (SRC, NRF Korea)

Research Publications (selected) • Kim JK, Lee C, Lim SW, Andring JT, Adhikari A, McKenna R; Ghim CM; Kim CU, Elucidating the role of metal ions in carbonic anhydrase catalysis, Nature Commun. / 2020 • Lim R, Cabatbat JJT, Martin TLP, Kim H, Kim S, Sung J, Ghim CM, Kim PJ, Large-scale metabolic interaction network of the mouse and human gut microbiota, Sci. Data / 2020 • Im H, Son S, Mitchell RJ, Ghim CM, Serum albumin and osmolality inhibit Bdellovibrio bacteriovorus predation in human serum, Sci. Rep. / 2017 • Sung MK, Jang J, Lee KS, Ghim CM, Choi JK, Selected heterozygosity at cisregulatory sequences increases the expression homogeneity of a cell population in humans, Genome Biol. / 2016 • Im H, Kim D, Ghim CM, Mitchell RJ, Shedding Light on Microbial Predator-Prey Population Dynamics Using a Quantitative Bioluminescence Assay. Microb. Ecol. / 2014 • Ghim CM, Almaas E, Two-Component Genetic Switch as a Synthetic Module with Tunable Stability. Phys. Rev. Lett. / 2009

Patents (selected) • 발광성 측정을 이용한 피포식균주-포식균주의 관계 예측방법 / 김철민, 로버트 미첼, 임한솔 / 2016

146

Quantum Device Lab 양자소자 연구실

My main research interest focuses on developing novel optoelectronic devices, such as photodetectors, light emission devices, and optical modulators, using plasmonics and atomically thin low dimensional nanomaterials, including 1-dimensional materials, such as carbon nanotubes, and 2-dimensional materials such as graphene, black phosphorus, and transition metal dichalcogenide (TMDC) sheets. With studying the fundamental physics of quantum materials and optical systems and their hybrid systems, we will utilize those materials/hybrid systems for future optoelectronic applications such as onchip ultrafast data communication and quantum information communication building blocks.

남궁선

_Seon Namgung

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-9 Lab : Bldg. 108 Rm. 607-2 Tel : +82-52-217-2038 E-mail : seon@unist.ac.kr https://sites.google.com/view/seonunist

본 연구실에서는 그래핀과 같은 2차원 물질이나 나노튜브와 같은 1차원 물질 등 기존의 3차원 물질 양한 반도체 소자, 광학 소자들을 설계하고 구현하고 있습니다. 또한 빛을 나노 구조에 집속시킬 수 있는 플라즈모닉 기술을 원자 수준의 두께를 가진 저차원 물질에 적용하여 광검출기(photodetector), 광발생기(LED), 광조절기(modulator) 등을 개발하고 이를 반도체 칩에 집적하여 초고속 통신이나 양

Curriculum Vitae

자 정보 통신 등에 활용가능한 미래 소자를 개발하고 있습니다.

Research Keywords and Topics

· 2019 - Present : Assistant Professor, Dept. of Physics, UNIST, Ulsan, South Korea · 2012 - 2019 : Postdoctoral researcher in the department of electrical and computer engineering, University of Minnesota, U.S. · 2011 - 2012 : Postdoctoral researcher in Physics department, Seoul National University, Seoul, South Korea

• Novel Quantum Optoelectronic Devices based on Hybrids of 1D/2D Materials and Plasmonic Nanostructures

Academic Credential

Major research field

Desired field of research

1차원/2차원 물질을 이용한 광학/자성/ 전자 복합 소자 개발

양자컴퓨팅, 뉴로모픽 컴퓨팅 등에 사용될 미래소자개발

Optical / Magnetic / Electrical Hybrid Devices based on 1D / 2D Materials

Future Device Structures for Quantum Computing and Neuromorphic Computing

저차원 물질/플라즈몬 복합구조를 이용한 양자 광학 소자 개발

• Quantum Light Source based on Nano Materials for Quantum Information Communication 양자 정보 통신을 위한 광원 개발

· 2011 : Seoul National University, Seoul, Korea Ph.D Physics · 2000 : Seoul National University, Seoul, Korea BS Physics

• Light-Matter Interaction (Polariton) of 2D Materials 2차원 물질에서의 Polariton 형태의 빛 물질 상호작용 이해

• Magneto-optic properties of 2D Materials 2차원 물질에서의 자기 광학 특성 연구

Research Publications (selected) • ACS NANO /Ultraflat Sub-10 Nanometer Gap Electrodes for Two-Dimensional Optoelectronic Devices / Namgung, Seon; Koester, Steven J.; Oh, Sang-Hyun / 202102 • ACS NANO / Ultrasmall Plasmonic Single Nanoparticle Light Source Driven by a Graphene Tunnel Junction / Namgung, Seon; Mohr, Daniel A.; Yoo, Daehan; Bharadwaj, Palash; Koester, Steven J.; Oh, Sang-Hyun / 2018-03 • ACS NANO / Multimodal Photodiode and Phototransistor Device Based on TwoDimensional Materials / Namgung, Seon; Shaver, Jonah; Oh, Sang-Hyun; Koester, Steven J. / 2016-11

College of Natural Sciences

147

Department of Physics

과는 다른 저차원 물질이 빛과 상호작용하는 물리 현상을 연구하고, 이를 바탕으로 기존에 없던 다

Astrophysics Lab 천체물리연구실

류동수

_Dongsu Ryu

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-6 Lab : Bldg. 108 Rm. 412 Tel : +82-52-217-2148 E-mail : ryu@unist.ac.kr http://sirius.unist.ac.kr/ryu/

The universe contains cosmic plasma of baryonic matter, in addition to dark matter and dark energy. The so-called nonthermal components of the plasma, that is, shock waves, magnetic fields, cosmic rays and turbulence, are expected to play significant roles in the formation and observation of the large-scale structure of the universe. Yet their nature and origin are not fully understood. In the lab, the cosmic plasma as well as dark matter and dark energy are explored. Along with numerical simulations for the formation of the cosmic web, theoretical arguments based on plasma physical models for collisionless shock wave formation, cosmic ray acceleration, astrophysical turbulence, and magnetic field generation are employed. 우주는 암흑에너지, 암흑물질과 더불어 바리온(baryon) 물질로 이루어져 있으며, 이들의 물리적 상 태는 우주의 진화 역사를 반영하고 있다. 바리온 물질의 대부분은 이온화되어 있으며, 하전 입자들은 자기장(magnetic field)과 결합하여 플라즈마(plasma) 상태에 놓여있다. 이런 우주 플라즈마는 난류 운동(turbulent motion)을 하고 있으며, 종종 강력한 충격파(shock waves)가 발생하고, 고에너지 우

Curriculum Vitae

주선(cosmic rays) 입자를 포함한다. 천체물리 연구실에서는 우주 플라즈마에서 다양한 구성 요소 및

· 2016 - Present : Director of Center for High-Energy Astrophysics (CHEA), UNIST, Korea · 2014 - Present : Professor of Physics, UNIST, Korea · 2017 - 2018 : Dean of School of Natural Science, UNIST, Korea, · 2016 - 2017 : Director of Center for Theoretical Astronomy, KASI, Korea · 1992 - 2014 : Professor, Chungnam National University (CNU), Korea · 2002 - 2003 : Visiting Professor, University of Minnesota, USA · 1996 - 1997 : Visiting Professor, University of Washington, USA

동역학적 과정에 의한 고에너지 천체물리 현상을 연구한다.

Academic Credential · 1988 : Ph. D. Astronomy, University of Texas at Austin, USA · 1985 : M. A. Astronomy, University of Texas at Austin, USA · 1983 : B.S. Astronomy, Seoul National University, Korea

Awards/Honors/Memberships · 2020 - Present : President of Korean Astronomical Society · 2016 - 2017 : Vice President of Korean Astronomical Society · 2014 - 2017 : Vice Chair of Division of Plasma Physics, Association of Asia Pacific Physical Society · 2007 - 2017 : Korea Research Foundation (KRF) Endorsed Scholar · 1996 - 1997 : Seoam Fellow, Korea

148

Major research field High Energy Astrophysics, Plasma Astrophysics, Cosmology

Research Keywords and Topics • Shock waves and turbulence in clusters of galaxies 은하단에서 충격파 및 난류운동

• Origin and evolution of magnetic fields and cosmic rays in the universe 우주 자기장 및 고에너지 입자의 기원

• Plasma astrophysical phenomena in the large-scale structure of the universe 우주 거대구조에서 플라즈마 천체물리 현상

Research Publications (selected) • ASTROPHYSICAL JOURNAL / A Diffusive Shock Acceleration Model for Protons in Weak Quasi-parallel Intracluster Shocks / Ryu, Dongsu; Kang, Hyesung; Ha, Ji-Hoon / 2019-09 • SCIENCE / Turbulence and magnetic fields in the large-scale structure of the universe / Ryu, Dongsu; Kang, Hyesung; Cho, Jungyeon; Das, Santabrata / 2008-05 • ASTROPHYSICAL JOURNAL / Cosmological shock waves and their role in the largescale structure of the universe / Ryu, Dongsu; Kang, Hyesung; Hallman, Eric; Jones, TW / 2003-08

Nano-PhotoEnergy Lab 나노광에너지 연구실

박경덕

_Kyoungduck Park

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 401-11 Lab : Bldg. 108 Rm. 502 Tel : +82-52-217-2121 E-mail : kdpark@unist.ac.kr http://nano-optics.unist.ac.kr

Curriculum Vitae · 2018 - Present : Assistant Professor Department of Physics, School of Natural Science UNIST · 2018 : Postdoctoral Research Associate, Department of Physics and JILA, University of Colorado at Boulder · 2013 - 2017 : Graduate Research Assistant, Department of Physics and JILA, University of Colorado at Boulder · 2013 - 2013 : Researcher, Institute for Basic Science (IBS) & Sungkyunkwan University (SKKU)

Academic Credential

Research Keywords and Topics • Developing advanced near-field microscopies 고급 근거리 현미경 개발

• Discovering new emerging physical properties 새롭게 떠오르는 물리적 특성 발견

• Active control of nanoscale light-matter interactions 나노 규모 광물질 상호 작용의 능동적 제어

Research Publications (selected) • NANOPHOTONICS / Wide-gap photoluminescence control of quantum dots through atomic interdiffusion and bandgap renormalization / Park, Kyoung-Duck; Minh Tan Man; Cho, Deok-Yong; Lee, Hong Seok / 2020-11 • SCIENCE ADVANCES / Tip-enhanced strong coupling spectroscopy, imaging, and control of a single quantum emitter / Park, Kyoung-Duck; May, Molly A.; Leng, Haixu; Wang, Jiarong; Kropp, Jaron A.; Gougousi, Theodosia; Pelton, Matthew; Raschke, Markus B. / 2019-07 • NANO LETTERS / Polarization Control with Plasmonic Antenna Tips: A Universal Approach to Optical Nanocrystallography and Vector-Field Imaging / Park, KyoungDuck; Raschke, Markus B. / 2018-05

· 2013 - 2017 : Ph.D. in Chemical Physics, University of Colorado at Boulder · 2008 - 2010 : M.E. in Info. & Commun. Engineering, Inha University · 2004 - 2008 : B.S. in Info. & Commun. Engineering, Inha University

Awards/Honors/Memberships · 2020 : Editorial Board (Nanophotonics) · 2020 : Editorial Board (Nano Convergence) · 2020 : Young Optical Physicist Award, Korean Physical Society · 2020 : Program Committee, ISPSA2020 · 2019 : Associated editor (Applied Science and Convergence Technology) · 2019 : Committee of Semiconductor Physics division, Korean Physical Society · 2019 : Young Optical Scientist Award, Optical Society of Korea

College of Natural Sciences

149

Department of Physics

Photo-induced phenomena in molecules/materials play a significant role in energy device applications. However, using bulk systems has reached the limit in their functions, performance, and regarding application range. Low-dimensional quantum systems have recently emerged as appealing resources for the next generation energy devices based on their significantly improved photoenergetic performances. Hence, understanding quantum light-matter interactions at their natural length scale is of fundamental significance in physics, chemistry, and engineering. Our research focuses on discovering and controlling a range of new functions and behaviors of low-dimensional quantum materials through the advanced tip-enhanced near-field spectroscopy and imaging techniques exceeding the current instrumental limits. Our specific research topics are as follows: Developing advanced near-field microscopies beyond the current instrumental limits to extend nano-imaging into a wider range of optical spectroscopic modalities, including linear elastic (Rayleigh) and inelastic (Raman, photoluminescence; PL, VIS absorption, IR), nonlinear (second-harmonic generation; SHG), and ultrafast (~ps) spectroscopy, from UV to mid-IR/THz, in various interacting environments, e.g., ultra-high vacuum (UHV), cryogenic, and liquid. Discovering new emerging physical properties, e.g., coupling and energy transfer, in single- and bio-molecular, quantum, optoelectronic, and multiferroic systems, as well as probing structure, field distribution, heterogeneity, and dynamics on the nanoscale. Breaking new ground in active control of nanoscale light-matter interactions through the controllable nano-opto-mechanical plasmonic tip.

Emergent Materials & Devices Laboratory 차세대 소재 소자 연구실

박기복

_Kibog Park

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-11 Lab : Bldg. 108 Rm. 503 Tel : +82-52-217-2111 E-mail : kibogpark@unist.ac.kr https://sites.google.com/view/kibogpark

Emergent Materials & Devices Lab (EMDL) at UNIST is dedicated to exploring emergent (new) materials and device structures for electronic/optoelectronic applications. In particular, the group focuses on investigating the fundamental material properties of wide band-gap semiconductors, functional metal oxide thin films, and graphene, and also developing novel devices based on these materials such as non-volatile memory, highpower and high-frequency semiconductor devices, and quantum computing devices. 울산과기원 차세대 소재 소자 연구실에서는 전자/광전자 응용을 위한 신물질 및 신개념 소자에 대한 연구를 수행하고 있다. 특히, 광밴드갭 반도체, 산화물 박막, 그래핀의 기초 물성 연구 및 이들 물질들 을 기반으로 한 비휘발성 메모 리, 고전력/고주파 반도체 소자, 양자컴퓨팅 소자 등의 개발에 중점을 두고 연구 활동을 진행 하고 있다.

Curriculum Vitae

Desired field of research

Major research field

· 2013 - Present : Associate Professor, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2006 - 2008 : Senior Process Engineer, Intel Corporation · 1998 - 2000 : Researcher, Samsung SDI

• Wide Band Gap Semiconductor: SiC MOSFET, Nitride HEMT, Epitaxial Graphene on SiC

Academic Credential

• Metal Oxide Thin Films: Advanced Gate Stack, Ferroelectric RAM, Memristive Devices

· 2006 : Ph.D., Physics, The Ohio State University · 1998 : M.S., Physics, KAIST · 1994 : B.S., Physics Education, Seoul National University

Semiconductor, Metal Oxide Thin Film, Graphene, Non-Volatile Memory, Quantum Transport and Devices

Scalable Quantum Computing System, New Type of CMOS Devices

Research Keywords and Topics 광밴드갭 반도체 : SiC 전계효과트랜지스터, 질화물 고속트랜지스터, 그래핀 에피막 금속 산화물 박막 : 게이트 절연막, 강유전체 메모리, 저항기억소자

• Interface Charge/Spin Transport: Ballistic Transport across Interface, Quantum Transport 계면 전하/스핀 수송 : 계면 탄동 수송, 양자전도

• Quantum Computation: Scalable Superconductor & Semiconductor Qubit System 양자컴퓨팅 : 확장형 초전도체 및 반도체 큐비트 시스템

Awards/Honors/Memberships · 2011 : Best Teaching Award · 2009 - Present : Member, Korean Physical Society · 2003 - Present : Member, American Physical Society · 1990 - 1994 : Fellowship, Korea Ministry of Education

Research Publications (selected) • ACS APPLIED MATERIALS & INTERFACES / Negative Fermi-Level Pinning Effect of Metal/n-GaAs(001) Junction Induced by a Graphene Interlayer / Yoon, Hoon Hahn; Song, Wonho; Jung, Sungchul; Kim, Junhyung; Mo, Kyuhyung; Choi, Gahyun; Jeong, Hu Young; Lee, Jong Hoon; Park, Kibog / 2019-12 • NANO LETTERS / Strong Fermi-Level Pinning at Metal/n-Si(001) Interface Ensured by Forming an Intact Schottky Contact with a Graphene Insertion Layer / Yoon, Hoon Hahn; Jung, Sungchul; Choi, Gahyun; Kim, Junhyung; Jeon, Youngeun; Kim, Yong Soo; Jeong, Hu Young; Kim, Kwanpyo; Kwon, Soon-Yong; Park, Kibog / 2017-01 • SCIENTIFIC REPORTS / Enhanced Crystallinity of Epitaxial Graphene Grown on Hexagonal SiC Surface with Molybdenum Plate Capping / Jin, Han Byul; Jeon, Youngeun; Jung, Sungchul; Modepalli, Vijayakumar; Kang, Hyun Suk; Lee, Byung Cheol; Ko, JaeHyeon; Shin, Hyung-Joon; Yoo, Jung-Woo; Kim, Sung Youb; Kwon, Soon-Yong; Eom, Daejin; Park, Kibog / 2015-04

Patents (selected) • Touch sensor and display device including the same / Jae Ik Lim, Won Sang Park, Hye Yong Chu, Kibog Park, Sungchul Jung, Hanbyul Jin / US 10627965 B2 / 202004 • Ferroelectric memory device and method for manufacturing the same / Kibog Park, Soon-Yong Kwon, Youngeun Jeon, Sungchul Jung, Han Byul Jin, Jinsung Kwak / Korea No 10-1385735 / 2014-09

150

Electronic structure theory and computational quantum materials laboratory 전자구조론 및 양자물성 연구실

박노정

전자구조론 및 양자물성 연구실에서는 빛과 물질과 의 상호작용을 기본적인 양자역학의 원리로부터 계 산해 내는 것에 세계적인 전문성을 가지고 있다. 구 체적으로 실시간 밀도범함수론에 전자기장을 추가 해서 섭동론을 벗어나는 강한 상호작용계를 계산해 내는 선도적인 계산연구 수단을 발전시켜 왔으며, 이 를 이용하여 분자계, 금속계, 위상부도체계 등 다양한 물성과 빛의 상호작용을 규명해 왔다. 물성물리 학 분야의 중요 관심은 전기장에 견인된 전하-스핀-포논의 동적 거동을 제일원리적으로 계산해 내는 것인데, 위상부도체 등에서 시간반전 대칭성이 동역학적으로 어떤 변환을 겪는가를 real-time TDDFT

_Noejung Park

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 401-3 Lab : Bldg. 108 Rm. 409 Tel : +82-52-217-2939 E-mail : noejung@unist.ac.kr http://epps.unist.ac.kr

동역학 계산법에 외부장(빛)을 벡터 포텐셜 형태로 넣어서 실시간(time-dependent)으로 계산하는 것

칭성 붕괴 문제”와 “포논에 의한 전자구조 베류곡률 변화”에 적용한 연구가 Nature Communications (2018, 2019)에 각각 발표되었다. 이 연구들에서 전하전류, 스핀전류, 전하의 광전류를 real-time TDDFT로 계산하고 그것으로부터 Chern insulator 또는 Quantum Spin-Hall insulator의 홀전도도 및 스핀홀 전도도를 계산할 수 있다는 것을 보였다.

Major research field Computational quantum mechanics of ultrafast dynamics of condensed matter, Light-matter interaction, low-energy excitation of insulators

Desired field of research Non equilibrium ultrafast dynamics of condensed matters

Research Keywords and Topics • Electronic Structure Theory and Computational method for real-time electron dynamics • Quantum Mechanical real-time dynamics of topological materials and spin dynamics in solid states • Real-time Ehrenfest electron-atom dynamics of catalytic process and hydrogen production • Ab Initio study of bulk photovoltaic effect

Research Publications (selected) • NATURE COMMUNICATIONS / Prediction of ferroelectricity-driven Berry curvature enabling charge- and spin-controllable photocurrent in tin telluride monolayers / Kim, Jeongwoo; Kim, Kyoung-Whan; Shin, Dongbin; Lee, Sang-Hoon; Sinova, Jairo; Park, Noejung; Jin, Hosub / NATURE COMMUNICATIONS / 2019-09 • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Unraveling materials Berry curvature and Chern numbers from real-time evolution of Bloch states / Shin, Dongbin; Sato, Shunsuke A.; Hübener, Hannes; De Giovannini, Umberto; Kim, Jeongwoo; Park, Noejung; Rubio, Angel / 2019-03 • NATURE COMMUNICATIONS / Phonon-driven spin-Floquet magneto-valleytronics in MoS2 / Shin, Dongbin; H&uuml;bener, Hannse; Giovannini, Umberto De; Jin, Hosub; Rubio, Angel; Park, Noejung / 2018-02

Curriculum Vitae · 2015 - Present : Professor, Department of Physics, UNIST · 2011 - 2014 : Associate-tenured Professor, Interdisciplinary School of Green Energy, UNIST · 2007 - 2011 : Assistant Professor, Department of Applied Physics, Dankook University · 2005 : Tenure-track Full-Time Lecture, Department of Applied Physics, Dankook University

Academic Credential · 2002 : Doctor of Philosophy in Physics, Seoul National University, Department of Physics (Supervisor : Professor Jisoon Ihm) · 1997 : Master of Science in Physics, February 1997, Seoul National University, Department of Physics. · 1990 - 1994 : Undergraduate study at Seoul National University (Department of Civil & Environmental Engineering)

Awards/Honors/Memberships · 2013 : Best research achievement of 21C Frontier Research Project · 2013 : 유니스트 유공교원 2012년도 포상 · 2012 : Minister’s prize of Ministry of Education, Science and Technology

Patents (selected) • 리튬이온 이차전지에서 리튬화합물 전해질 박막의 이온 전도 통로 보호 구조 / 발명자 : 박노정, 손 삼익 / 출원인 : 현대자동차, 국립대학법인 울산과학기술대학교 산학협력단 / Patent Number : 101352791 / Date of Patent : 2014-02 • 탄소 구조체의 수소화 처리 방법 / 발명자 : 한상수, 김형준, 박노정 / 출원인 : 한국표준과학연구원 / Patent Number : 10-1382610 / Date of Patent : 2014-01

• Facile ferroelectric phase transition driven by Si doping in HfO2 / 대한민국 / 출원번호 제10-20190144294호

College of Natural Sciences

151

Department of Physics

에 있다. 이에 대한 방법론 발전과정은 JCTC (2016)에 발표하였으며, 그것을 위상 부도체의 전류문제 에 적용한 것이, PNAS (2019) 에 요약되어 있다. 같은 방법을 고체물리계의 “포논에 의한 시간반전대

Soft and Living Matter Physics Lab 연성물질물리연구실

박혁규

_Hyuk kyu Pak

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-12 Bldg. 103 Rm. 312 Lab : Bldg. 103 Rm. 317 Tel : +82-52-217-5553 E-mail : hkpak@unist.ac.kr http://softmatt.ibs.re.kr

Soft matter physics is studying a variety of physical states that can be easily deformed by thermal stresses or thermal fluctuations. They include liquid, colloids, polymers, foams, gels, granular materials, liquid crystals, and a number of biological materials. Our lab is especially interested in experimental studies of liquid-solid interfaces, liquid-biomatter interfaces, hydrodynamics in small systems, and fluctuations in nonequilibrium processes. All lab members are also co-appointed as members of the IBS Center for Soft and Living Matter. 연성물질물리는 열적인 응력이나 요동에 의해 변형이 쉽게 되는 물리 적인 상태를 연구한다. 연성물질로 액체, 콜로이드, 고분자, 거품, 젤, 모 래, 액정, 그리고 생체물질 등이 있 다. 우리 연구실은 액체-고체 계면,

Curriculum Vitae

액체-생체 계면, 작은 유체계, 비평

· 2014 - Present : Professor, UNIST · 2014 - Present : Faculty Researcher, IBS Center for Soft and Living Matter · 2013 - 2015 : Editor of Current Applied Physics · 1995 - 2014 : Pusan National University, Department of Physics, Professor · 2011 - 2013 : Division Chair of Thermal and Statistical Physics in Korean Physical Society · 2000 - 2001 : Associate Dean of Academic Affairs, Pusan National University · 1994 - 1995 : Kansas State University, Post-doctoral Research Associate · 1992 - 1993 : Duke University, Postdoctoral Research Associate

형과정의 요동 등에 대해 실험을 통

Academic Credential · 1992 : Ph.D. Physics, University of Pittsburgh · 1985 : B.S. Physics, Pusan National University

Awards/Honors/Memberships · 1995 : Outstanding Physics Scholarly Research Award, The Association of Korean Physicists in America · 1987 - Present : Member of American Physical Society · 1985 - Present : Member of Korean Physical Society

152

해 연구한다. 모든 연구실 멤버는 IBS 첨단연성물질연구단에 속하고 있다.

Major research field Soft Matter Physics, Non-equilibrium Physics, Hydrodynamics

Keywords • Soft matter, Liquids, Fluctuations, Interfacial energy, Energy harvesting, Optical tweezers

Research Interests/Topics • Liquid-solid / liquid / soft matter interfaces • Nonequilibrium fluctuations / Nano engines • Hydrodynamics of small systems

Research Publications (selected) • NATURE COMMUNICATIONS / Efficiency fluctuations and noise induced refrigeratorto-heater transition in information engines / Paneru, Govind; Dutta, Sandipan; Sagawa, Takahiro; Tlusty, Tsvi; Pak, Hyuk Kyu / 2020-02 • PHYSICAL REVIEW LETTERS / Lossless Brownian Information Engine / Paneru, Govind; Lee, Dong Yun; Tlusty, Tsvi; Pak, Hyuk Kyu / 2018-01 • PHYSICAL REVIEW LETTERS / Nonequilibrium fluctuations for a single-particle analog of gas in a soft wall / Lee, Dong Yun; Kwon, Chulan; Pak, Hyuk Kyu / 2015-02

Patents (selected) • Korea Patent application / “Micro-fluidic power generation using liquid droplet,” Jong Kyun Moon and Hyuk Kyu Pak, 10-2011-0126166 / 2011 • Korea Patent application “Micro power generator and power generation using liquid droplet,” Jong Kyun Moon, Kyungchun Kim, Sangyoul Yoon, Hyun Dong Kim, and Hyuk Kyu Pak, 10-2013-0039426 / 2013

Laboratory for ultrafast and nanoscale plasmonics 초고속 나노플라즈모닉스 연구실

Major research field Optics, Ultrafast laser, nanostructure, nano-fabrications, Terahertz/Mid-IR imaging and spectroscopy

박형렬

_Hyeongryeol Park

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-6 Tel : +82-52-217-2029 E-mail : nano@unist.ac.kr http://nano.unist.ac.kr

Curriculum Vitae · 2019 - 현재 : UNIST 물리학과 조교수 · 2016 - 2019 : 충북대 물리학과 조교수 · 2013 - 2016 : 미네소타대 ECE postdoc · 2012 - 2013 : 서울대 물리학부 postdoc

Academic Credential · 2006 - 2012 : 서울대 물리학부 이학박사 · 1999 - 2006 : 서울대 물리학부 이학학사

Awards/Honors/Memberships · 2022 : OSK Rising Star 30 award, Optical Society of Korea

Desired field of research Ultrafast spin dynamics, Infrared bolometer, Ferroelectric memory device, Magneto-plasmonics

Research Keywords and Topics • Optics, Ultrafast laser, nanostructure, nano-fabrications, Terahertz/Mid-IR imaging and spectroscopy

Research Publications (selected) • Advanced Optical Materials / Terahertz biochemical molecule-specific sensors / Minah Seo, and Hyeong-Ryeol Park / 2020-02 • Nature Communications / Atomic layer lithography of wafer-scale nanogap arrays for extreme confinement of electromagnetic waves / Xiaoshu Chen, Hyeong-Ryeol Park, Matthew Pelton, Xianji Piao, Nathan C. Lindquist, Hyungsoon Im, Yun Jung Kim, Jae Sung Ahn, Kwang Jun Ahn, Namkyoo Park, Dai-Sik Kim, Sang-Hyun Oh / 2013-09 • Nano Letters / Colossal absorption of molecules inside single terahertz nanoantennas / Hyeong-Ryeol Park, Kwang Jun Ahn, Sanghoon Han, Young-Mi Bahk, Namkyoo Park, and Dai-Sik Kim / 2013-02

College of Natural Sciences

153

Department of Physics

Mid-infrared to terahertz spectrum, ranging from 5 μm to 5 mm in wavelength, is the focus of basic research in solid-state physics, chemistry, materials science, as well as applications in next-generation communications, homeland security, biosensing, and medical imaging. This frequency range is at the intersection between photonics and electronics, presenting tremendous opportunities to probe and harness fundamental light-matter interactions. The emerging fields of plasmonics and metamaterials have shown new possibilities to boost such light-matter interactions using engineered nanostructures. To overcome the dimension mismatch between the long-wavelength radiations and the nanostructures, new lithography techniques that fabricate an array of metal gaps of nanometer-to-Ångstrom scale have been recently developed. These next-generation nanostructures will have a great impact on the advancement of field enhancement and confinement toward the next level of applications as the following: THz/Mid-IR absorption spectroscopy for sensing. - Ultra-sensitive detection and fingerprinting of biomolecules in aqueous solutions - THz/Mid-IR imaging and spectroscopy for virus sensing - Detection of ultra-small quantity of explosive materials with functional nanostructures Ultrafast optical spectroscopy for 2D materials, magneto-optical photonic crystals, and superconductors in a broadband spectrum range. - Enhanced critical temperature of superconductors combined with nanogap structures. - Magneto-Plasmonics based on magneto-optical photonic crystals - Ultra-sensitive Infrared detector at room temperature THz/Mid-IR absorption spectroscopy for sensing. - Ultra-sensitive detection and fingerprinting of biomolecules in aqueous solutions - THz/Mid-IR imaging and spectroscopy for virus sensing - Detection of ultra-small quantity of explosive materials with functional nanostructures Ultrafast optical spectroscopy for 2D materials, magneto-optical photonic crystals, and superconductors in a broadband spectrum range. - Enhanced critical temperature of superconductors combined with nanogap structures. - Magneto-Plasmonics based on magneto-optical photonic crystals - Ultra-sensitive Infrared detector at room temperature

Laboratory for Unobtainable Functional Oxides 언옵테이늄 연구실(UFO Lab)

손창희

_Changhee Sohn

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-5 Lab : Bldg. 108 Rm. 608 Tel : +82-52-217-2017 E-mail : chsohn@unist.ac.kr http://faculty.unist.ac.kr/sohn

We are experimental condensed matter physics group at department of physics in UNIST (Ulsan National Institute of Science and Technology). Our main goal is searching for exotic quantum phenomena in condensed matter, such as unconventional superconductivity, topological phases, and quantum magnetism, as well as providing new functional materials, i.e. multiferroics and energy materials, for future applications. To accomplish our goals, we are synthesizing new quantum materials unobtainable in nature and controlling their ground states via Hamiltonian engineering. 언옵테이늄 연구실은 UNIST (울산과학기술원) 물리학과의 응집 물질 물리 실험 그룹입니다. 연구실 의 주요 목표는 1) 초전도, 위상 상애, 양자 자성 현상 등 과 같이 응집물질에서 나타나는 양자 현상을 찾고, 2) 미래의 응용 분야를위한 새로운 기능성 물질 (예 : 다강체 및 에너 지 물질 등)을 제공하는 것입니다. 언옵테이늄 연구실은 자 연에서 얻을 수 없는 새로운 양자 물질을 합성하고 물질의

Curriculum Vitae

해밀토니안을 조작하는 방법으로 이러한 양자 상태를 구현

· 2019 - Present : UNIST Assistant Professor · 2016 - 2019 : Oak Ridge National Laboratory Postdoctoral researcher · 2015 - 2016 : Seoul National University Postdoctoral researcher

하고 제어하는 연구를 진행하고 있습니다.

Major research field Quantum materials, light-matter interaction, spectroscopy, oxide heterostructures, new functional materials 양자물질, 빛-물질 상호작용, 분광학, 산화물 이종구조, 차세대 소재

Academic Credential · 2015 : Seoul National University Ph.D., Physics · 2010 : Seoul National University B.S., Physics

Awards/Honors/Memberships · 2020 : 봄비물리학상 · 2017 : Supp perform award, Oak Ridge National Laboratory · 2015 : Brain Korea 21 Scholarship · 2013 : Brain Korea 21 Scholarship

Research Keywords and Topics • Exotic quantum phenomena in strongly correlated electron system - Chiral superconductivity and quantum magnetism - Topologically nontrivial magnetic states in oxides such as quantum anomalous Hall state and skyrmion - Metal-insulator transition and unconventional spin-charge-orbital-lattice coupling • Light-matter interactions - Spectroscopic investigation on low-energy excitation and relevant emergent phenomena in strongly correlated and spin-orbit coupled systems - Band gap engineering on thin films and nano structures - New materials for smart window, transparent conductor, infrared/THz detection, and other light-related applications • Functional materials design by atomic control - Development of new synthesize methodologies for desired multifunctionalities - Si-compatible functional oxides - Materials for energy application such as photovoltaics and solid oxide fuel cell

Research Publications (selected) • Advanced Materials / Room-temperature ferromagnetic insulating state in highly cationordered double perovskite Sr2Fe1+xRe1-xO6 films / C. H. Sohn, E. Skoropata, Y. Choi, X. Gao, A. Rastogi, A. Huon, M. A. McGuire, L. Nuckols, Y. Zhang, J. Freeland, D. Haskel, and H. N. Lee / 2019-01 • Physical Review Letters / Strong spin-phonon coupling mediated by single ion anisotropy in the all-in–all-out pyrochlore magnet Cd2Os2O7 / C. H. Sohn, C. H. Kim, L. J. Sandilands, N. T. M. Hien, S. Y. Kim, H. J. Park, K.W. Kim, S. J. Moon, J. Yamaura, Z. Hiroi, and T. W. Noh / 2017-03 • Physical Review Letters / Optical spectroscopy studies of the Metal-insulator transition driven by all-in/all-out magnetic ordering in 5d pyrochlore Cd2Os2O7 / C. H. Sohn, H. G. Jeong, H. Jin, S. Y. Kim, L. J. Sandilands, H. J. Park, K. W. Kim, S. J. Moon, D.-Y. Cho, J. Yamaura, Z. Hiroi, and T. W. Noh / 2015-12

154

Laboratory for Strong Correlation in Quantum Materials 강상관 양자물질 연구실

Strong Correlation in Quantum Materials My research is focused on finding and understanding exotic phenomena in the quantum materials. Especially, we study strongly correlated electron systems, where the entanglement of charge, spin and orbital degrees of freedom gives rise to a variety of emergent phenomena, for example, Mott insulators, various charge, spin and orbital orderings, metal–insulator transitions, multiferroics, superconductivity and so on. 우리 연구실은 전자의 스핀, 전하, 오비탈 자유도들간의 양자역학적 상호작용에 의해 결정 내에서 나 타나는 다양한 양자현상을 연구합니다. 원자들이 주기적으로 배열된 결정 속의 양자 상태는 온도, 자

오윤석

_Yoonseok Oh

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-12 Lab : Bldg. 108 Rm. 506 Tel : +82-52-217-2519 E-mail : ysoh@unist.ac.kr http://xpem.unist.ac.kr

기장, 압력, 화학적 치환 등에 의해 전이되거나 조절되며 초전도, 다강성, 양자 홀 효과, 거대 자기저항 성, 모트 절연성 등이 대표적 예라 할 수 있습니다. 우리 연구실은 극저온 냉동기와 초고자기장 환경

Curriculum Vitae

Major research field Room Temperature Superconductor / Multiferroics, Novel Quantum Magnet

Desired field of research New Materials for Quantum/Semiconductor Device

Research Keywords and Topics • Multiferroics & Quantum Magnet : Magnetoelectric Coupling, Spin Transport, Spin Hall Effect 다강체 & 양자자성체 : 자기전기성 상호작용, 스핀 수송, 스핀 홀 효과

• Ferroelectrics 강유전체

• Cryogenic Experiment under Extreme Environment : High Magnetic Field, High Pressure 극한환경 극저온물리실험 : 고자기장, 고압력

· 2014 - Present : Assistant Professor, Department of Physics, UNIST · 2011 - 2014 : Postdoctoral Research Associates, Department of Physics & Astronomy, Rutgers University, USA · 2010 - 2011 : Postdoctoral Researcher, Department of Physics & Astronomy, Rutgers University, USA · 2010 : Postdoctoral Researcher, Department of Physics & Astronomy, Seoul National University, USA

Academic Credential · 2010 : Ph.D. in Physics, Seoul National University · 2006 : M.S. in Physics, Seoul National University · 2004 : B.S. in Physics, Seoul National University

• Single Crystal Growth : Transition Metal Oxides, Intermetallic Compounds 단결정 성장 : 전이금속 산화물, 금속 간 화합물

Research Publications (selected) • PHYSICAL REVIEW B / Unconventional critical behavior in the quasi-one-dimensional S=1 chain NiTe2O5 / Lee, Jun Han; Kratochvílová, Marie; Cao, Huibo; Yamani, Zahra; Kim, J. S.; Park, Je-Geun; Stewart, G. R.; Oh, Yoon Seok / 2019-10 • NATURE MATERIALS / Experimental demonstration of hybrid improper ferroelectricity and the presence of abundant charged walls in (Ca,Sr)3Ti2O7 crystals / Oh, Yoon Seok; Luo, Xuan; Huang, Fei-Ting; Wang, Yazhong; Cheong, Sang-Wook / 2015-04 • NATURE COMMUNICATIONS / Non-hysteretic colossal magnetoelectricity in a collinear antiferromagnet / Oh, Yoon Seok; Artyukhin, Sergey; Yang, Jun Jie; Zapf, Vivien; Kim, Jae Wook; Vanderbilt, David; Cheong, Sang-Wook / 2014-01

Patents (selected) • [국내] 바륨지르코늄 산화물을 이용한 단결정 잉곳 및 그 제조 방법 / 등록번호 : 10-2092358 • [PCT] Single Crystal Ingot Using Barium Zirconium Oxide and Preparation Method Therefor / 출원번호 : PCT/KR2019/006502 • [US Patent] Single Crystal Ingot Using Barium Zirconium Oxide and Preparation Method Therefor / 출원번호 : 16/979369

College of Natural Sciences

155

Department of Physics

을 이용하여 결정 내 양자상태를 조절하여 그들의 물리적 메커니즘을 연구합니다.

Fusion Plasma Physics Research 핵융합 플라즈마 물리연구실

인용균

_Yongkyoon In

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-10 Lab : Bldg. 108 Rm. 510 Tel : +82-52-217-2125 E-mail : inyongkyoon@unist.ac.kr

Curriculum Vitae · 2018 - Present : Professor, UNIST · 2013 - 2018 : Principal Scientist/Special Scientist with National Fusion Research Institute (NFRI) at KSTAR · 2004 - 2013 : Senior Staff Scientist/Staff Scientist with FARTECH, Inc at DIII-D · 2000 - 2002 : Research Scientist with Univ. of Idaho at Plasma Science and Fusion Center, MIT at Alcator C-Mod

Academic Credential · 2000 : PhD. Applied Plasma Physics, Nuclear Engineering Massachusetts Institute of Technology (MIT) · 1995 : M.S. Nuclear Engineering, Seoul National University (SNU) · 1990 : B.S. Nuclear Engineering,(Magna cum laude) Seoul National University (SNU)

Awards/Honors/Memberships · 2015 : Open Award, National Fusion Research Institute, Daejeon, Korea · 1995 - 1997 : Korean Government Scholarship · 1995, 1996 : Rotary International Scholarship · 1990 : Graduated with Highest Honors in Nuclear Engineering Department

156

The presence of 3-D magnetic field (strictly speaking, non-axisymmetric magnetic field) brings both challenges and opportunities in fusion plasmas. Specifically, the plasma stability and transport, as well as turbulence, are greatly affected by the 3-D magnetic field. Among various 3-D physics themes, the resonant magnetic perturbation (RMP)-driven, edge-localized-modes (ELM) control has been one of the hottest topics scientifically and technologically. Considering that ELMs in magnetically confined plasmas would outburst substantial heat and particle fluxes on the divertor and plasma facing components, the full ELM-crash- suppression would help us avoid such harmful damages, so that almost all the major fusion devices have been vigorously searching for a solution. In this regard, as of 2018, the Korea Superconducting Tokamak Advanced Research (KSTAR) located at Daejeon, Korea became the world no. 1 device, in that the longest sustainment (~34 sec) of full ELM-crash- suppression has been demonstrated using n=1 RMP (where n refers to the toroidal mode number). Nonetheless, the detailed physics mechanism to make full ELM-crash- suppression, instead of ELM-crash- mitigation, remains to be clarified, whereas several key physics parameters, such as edge safety factor (q95), collisionality (nu*), and shape effect, have been found. Since the RMP configurations to be installed in ITER (the largest tokamak being built in Southern France, whose size is expected to be comparable to that of future fusion reactor) would be similarly tested in KSTAR, the divertor heat flux profiles and their dependence on 3-D field configurations are being actively investigated. Currently, such 3-D field physics study plays a role of hub in drawing the attentions of both theoretical and experimental gurus, whose accomplishments would likely be remembered as one of the significant contributions to fusion research forever. Magnetohydrodynamics/Error Field Study/Turbulent Transport/Neutral Particle Diagnostic Development would belong to the main research interests, as well.

Major research field 3-D magnetic field physics, Magnetohydrodynamics, Turbulent Transport, Plasma Diagnostics

Desired field of research Neutral particle diagnostics, Advanced Fusion Reactor Design, High Temperature Superconducting magnet development

Research Keywords and Topics • Resonant Magnetic Perturbation (RMP)-driven, edge-localized-modes(ELM) control • Error field study • Macroscopic magnetohydrodyanmic instabilities • Resistive wall mode (RWM) identification and control • Electron-cyclotron-emission (ECE) and ECE imaging (ECEI) diagnostics • Divertor heat flux measurements • Edge Pedestal Physics

Research Publications (selected) • NUCLEAR FUSION / Tamed stability and transport using controlled non-axisymmetric fields in KSTAR / In, Yongkyoon; Jeon, Y.M.; Park, J.-K.; Loarte, A.; Ahn, J.-W.; Lee, J.H.; Lee, H.H.; Park, G.Y.; Kim, K.; Kim, H.S.; Ko, W.H.; Rhee, T.; Kim, J.; Yoon, S.W.; Park, H. / 2019-05 • NUCLEAR FUSION / Enhanced understanding of non-axisymmetric intrinsic and controlled field impacts in tokamaks / In, Yongkyoon; Park, J. -K.; Jeon, Y. M.; Kim, J.; Park, G. Y.; Ahn, J. -W.; Loarte, A.; Ko, W. H.; Lee, H. H.; Yoo, J. W.; Juhn, J. W.; Yoon, S. W.; Park, Hyeon Keo; 3D Physics Task Force in KSTAR / 2017-11 • NUCLEAR FUSION / Extremely low intrinsic non-axisymmetric field in KSTAR and its implications / In, Yongkyoon; Park, J. K.; Jeon, J. M.; Kim, J.; Okabayashi, M. / 2015-04

Mixed Dimensional Materials and Devices Lab 복합차원 소재 및 소자 연구실

정건욱

_Kunook Chung

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 601-10 Lab : Bldg. 108 Rm. 607-3 Tel : +82-52-217-2039 E-mail : kunookc@unist.ac.kr

Curriculum Vitae · 2019 - Present : Assistant Professor in Department of Physics, UNIST, Korea · 2015 - 2019 : Postdoctoral in Department of Electrical Engineering and Computer Science, University of Michigan, US. · 2015 : Postdoctoral in Department of Physics and Astronomy, Seoul National University, Korea.

Academic Credential · 2015 : Ph.D. in Physics, Seoul National University, Korea.

Research Publications (selected) • NANO ENERGY / GaN microstructure light-emitting diodes directly fabricated on tungsten-metal electrodes using a micro-patterned graphene interlayer / Chung, Kunook; Lee, Keundong; Tchoe, Youngbin; Oh, Hongseok; Park, JunBeom; Hyun, Jerome K.; Yi, Gyu-Chul / 2019-06 • APPLIED PHYSICS LETTERS / Monolithic integration of individually addressable lightemitting diode color pixels / Chung, Kunook; Sui, Jingyang; Demory, Brandon; Teng, Chu-Hsiang; Ku, Pei-Cheng / 2017-03 • SCIENCE / Transferable GaN Layers Grown on ZnO-Coated Graphene Layers for Optoelectronic Devices / Chung, Kunook; Lee, Chul-Ho; Yi, Gyu-Chul / 2010-10

Patents (selected) • Color mixing monolithically integrated light-emitting diode pixels / P.-C. Ku, K. Chung, B. Demory / US 10708995 / 2020-07 • Optical device and method for manufacturing same / G.-C. Yi, K. Chung / US 9444006 / 2016 -09

College of Natural Sciences

157

Department of Physics

We are interested in utilizing unique physical properties of various low dimensional (D) nanomaterials, such as 2D van der Walls layered materials, 1D nanorods (and nanopillars), and 0D quantum dots, as key building blocks for fabricating high performance and new functional semiconductor optoelectronic devices. Details of the current research interests are: • Metal-organic chemical vapor deposition and chemical vapor deposition of high quality semiconductor microstructures and nanostructures, 2D van der Walls layered materials, and their hybrids. • Fabrications of high performance optoelectronic devices, such as light emitting diodes, solar cells, and sensors. • Strain engineering of semiconductor heterostructures and quantumstructures using nanofabrication and/or heteroepitaxial growth. • Diverse device applications including transferable and wearable devices, full-color inorganic microdisplays, augmented reality, quantum computing and communications, neural probes, and so on.

Intense Beam and Accelerator Laboratory 고강도 빔-가속기 연구실

정모세

_Moses Chung

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 401-10 Lab : Bldg. 108 Rm. 403 Tel : +82-52-217-2518 E-mail : mchung@unist.ac.kr http://mchung.unist.ac.kr

Curriculum Vitae · 2014 - Present : Assistant / Associate Professor, Dept. of Physics, Ulsan National Institute of Science and Technology (UNIST) · 2012 - 2014 : Peoples Fellow / Associate Scientist, Accelerator Physics Center, Fermi National Accelerator Laboratory (Fermilab) · 2010 - 2012 : Assistant Professor, Handong Global University (HGU) at Pohang · 2008 - 2010 : Postdoc, Accelerator Physics Center, Fermi National Accelerator Laboratory (Fermilab) · 2001 - 2008 : Research Assistant, Princeton Plasma Physics Laboratory (PPPL)

Academic Credential · Ph. D. Plasma Physics, Princeton University · M. S. Nuclear Engineering (Nuclear Fusion Major), Seoul National University · B. S. Nuclear Engineering, Seoul National University

Awards/Honors/Memberships · 2012 - 2014 : Peoples Fellowship from Fermi National Accelerator Laboratory (Outstanding Accelerator Scientists Early in Their Careers) · Graduated with Highest Honors in SNU Nuclear Engineering Dept. · 2018 - Present : Korean Physical Society (KPS) / Division of Plasma Physics (DPP), Steering Committee Member

158

Several large-scale accelerator facilities are operational or under construction in Korea, such as the Korea Multi-purpose Accelerator Complex (KOMAC) in Gyeongju, the 3rd Generation Synchrotron Light Source (PLS-II) and the X-ray Free Electron Laser (PALXFEL) in Pohang, the Rare Isotope Science Project (RISP) in Daejeon, and the Korea Heavy Ion Medical Accelerator (KHIMA) in Gijang (plus a new 4th Generation Storage Ring is being planned in Cheongju). By using advanced beam physics models and simulation tools, cutting-edge beam diagnostics, and sophisticated beam manipulation techniques, we aim to optimize and improve the performance of those accelerators. Furthermore, we will try to develop transformational technologies for the next-generation high-intensity accelerators such as the International Fusion Materials Irradiation Facility (IFMIF), Accelerator Driven System (ADS), and Heavy Ion Fusion (HIF). Applications of the accelerators to laboratory astrophysics and cancer therapy will also be actively pursued. 본 연구실에서는 새로운 빔 물리 모형 및 수치해석 코드, 첨단 빔 진단 및 제어 장치를 활용하여, 국내 외에 운영 또는 건설 중인 대형 가속기의 구축, 최적화 및 성능향상에 기여하고, 나아가 지금보다 가 속 효율이 10~100배 높은 첨단 고강도 가속기 개발에 필요한 물리적-기술적 난제에 도전한다. 이러 한 첨단 가속기는 핵융합 재료 연구, 핵폐기물 처리, 우주의 신비 탐구, 암 치료, 신소재/신약 개발 등 인류가 당면한 여러 문제를 해결하는 데 필수적인 첨단기술이다.

Major research field Intense Beam and Accelerator Physics, Beam Diagnostics and Manipulations, Plasma Accelerators, Ion Traps

Desired field of research Intense Neutron Sources, Accelerator Driven System (ADS), Next Generation Radiation Sources, Laboratory Astrophysics

Research Keywords and Topics • Beam physics with intense self-fields and strong coupling • Advanced beam diagnostics and manipulations • Beam-plasma interactions and advanced accelerators (Wakefields/Muon) • Plasma and beam physics using ion and electron traps • High-intensity accelerator R&D for future nuclear energy (Nuclear Data, IFMIF, ADS, and HIF)

Research Publications (selected) • Nature / Demonstration of cooling by the Muon Ionization Cooling Experiment / The MICE Collaboration (including M. Chung) / 2020-02 • Nature / Acceleration of electrons in the plasma wakefield of a proton bunch / The AWAKE Collaboration (including M. Chung) / 2018-08 • Physical Review Letters / Generalized Kapchinskij-Vladimirskij Distribution and Beam Matrix for Phase-Space Manipulations of High-Intensity Beams / M. Chung, H. Qin, R. C. Davidson, L. Groening, and C. Xiao / 2016-10

Experimental Soft Matter Physics Lab 실험연성물질물리 연구실

물리학 분야에서는 연성 응집 물질 (Soft condensed matter), 공학 분야에서는 연성 소재 (Soft materials), 또는 복잡 유체 (complex fluids)라고도 불리는 연성 물질을 한 마디로 정의하기란 쉽지 않습니다. 1991 년 노벨 물리학상 수상자인 Pierre-Gilles de Gennes의 말씀을 인용해 보자면, 연성 물질이란 큰 반응 함 수를 가진 모든 물리화학적 시스템을 아우른다고 말할 수 있겠습니다. 물질의 반응 함수가 크다는 이 야기는, 조그만 외부의 영향에도 크게 반응하여 물질의 구조나 동역학이 매우 달라지는 현상을 이야기 합니다. 예를 들어, 어떤 고분자는 (polymer) 소량의 특정 화학물질 첨가만으로도 액체처럼 점성을 가 지고 흐르던 것이 탄성을 가지는 고무의 형태로 바뀝니다. 우리가 매일 같이 들여다보는 휴대폰의 디 스플레이는 액정의 (liquid crystal) 광학적 특성이 배터리로도 충분히 만들 수 있는 전기장만으로도 쉽 게 변할 수 있기에 존재합니다. 연성 물질의 물리학을 실험을 통해 연구한다는 것은, 1) 다양한 실험 조건들을 제어 가능한 모델 시스

정준우

_Joonwoo Jeong

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-7 Lab : Bldg. 108 Rm. 505 Tel : +82-52-217-2155 E-mail : jjeong@unist.ac.kr http://sophy.unist.ac.kr

Curriculum Vitae · Joonwoo Jeong is an assistant professor at Ulsan National Institute of Science and Technology (UNIST)

Major research field Soft Matter Physics, Active Matter, optical / X-ray / neutron microscopy / scattering

Desired field of research Nonequilibrium physics

Research Topics • Physics and applications of aqueous liquid crystals • Pattern formation : geometry and competing interactions • Microfluidics of active matter and non-Newtonian fluids • Optics for the study of soft matter

Research Publications (selected) • Physical Review E / Effects of chiral dopants on double-twist configurations of lyotropic chromonic liquid crystals in a cylindrical cavity / Jonghee Eun, Sung-Jo Kim, Joonwoo Jeong* / 2019-07 • Physical Review E / Chiral structures and defects of lyotropic chromonic liquid crystals induced by saddle-splay elasticity / Zoey S. Davidson†, Louis Kang†, Joonwoo Jeong*†, Peter J. Collings, Tom C. Lubensky, and Arjun G. Yodh / 2015-05 • Proceedings of the National Academy of Sciences / Chiral symmetry breaking and surface faceting in chromonic liquid crystal droplets with giant elastic anisotropy / Joonwoo Jeong*, Zoey S. Davidson, Peter J. Collings, Tom C. Lubensky, and Arjun G. Yodh / 2014-02

Patents (selected) • Information system for metabolic flux analysis using extensible markup language and operating method thereof / United States Patent 7752540 / Sang Yup Lee, Hong Seok Yun, Dong Yup Lee, Seung Hyun Lee, Joonwoo Jeong, and Tae Yong Kim / 2010 • Information system for metabolic flux analysis using eXtensible Markup Language and operating method thereof / Korean Patent KR 10-2005-0027215 / Sang Yup Lee, Hongseok Yun, Dong-Yup Lee, Seunghyun Lee, Joonwoo Jeong and Tae Yong Kim / 2005

College of Natural Sciences

159

Department of Physics

템을 구현하고, 2) 현미경이나 산란법 등을 통해 그 구조와 동역학을 관찰하고, 3) 관찰한 현상을 설명 할 수 있는 정량적인 모델을 만들고 이를 검증하는 것입니다.

Quantum Material Design Group 양자 물질 설계 연구실

진 호 섭 _Ho-sub Jin Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 501-3 Lab : Bldg. 108 Rm. 409 Tel : +82-52-217-2154 E-mail : hsjin@unist.ac.kr

Topological electronics is a new field of interest utilizing the topologically distinctive state of matters. For topological electronics, where the information is carried by the topological charge through the topological domain boundary, at least two distinctive topological phases should be accessible and controllable in one system. By using the relativistic ab-initio first-principles calculation, we are trying to find a candidate platform to host versatile topological phases and control the topological domain boundary through which the topological charges flow. 위상학적 일렉트로닉스는 다양한 위상학적 양자상을 기반으로 한 새로운 연구 영역이다. 위상 전하 를 이용해 정보를 전달하는 위상학적 일렉트로닉스를 위해서는, 서로 다른 위상학적 양자상을 가진 물 리계가 필요하고, 이들 사이에 경계 구역을 조절할 수 있어야 한다. 양자 물질 설계 연구실에서는 상대 론적 제일원리 계산을 이용해 위상학적 일렉트로닉스를 구현할 수 있는 물리계를 설계하는 연구를 진 행 중에 있다.

Curriculum Vitae · 2020 - Present : Associate Professor, Department of Physics, UNIST · 2015 - 2019 : Assistant Professor, Department of Physics, UNIST · 2013 - 2014 : Junior Group Leader, IBS-CCES, Seoul National University · 2009 - 2012 : Postdoctoral Fellow, Northwestern University

Academic Credential · 2009 : Ph.D. Physics, Seoul National University · 2003 : M.S. Physics, Seoul National University · 1999 : B.S. Physics, Seoul National University

Major research field spin-orbit entangled state in transition metal systems, topologically non-trivial phase, pole structure of Berry curvature 전이 금속 계에서 스핀-궤도 얽힘 연구, 위상 절연체 연구, 베리 곡률의 다중극 구조 연구

Desired field of research anomalous response function in low dimensions, quantum metric tensor 낮은 차원에서 비정상 반응 함수 연구, 양자 메트릭 텐서 연구

Research Keywords and Topics • electronic structure of condensed matter systems 응집 물리계의 전자 구조 • density functional theory 범밀도함수 이론 • topological quantum matter 위상학적 양자 물질 • low dimensional Berry curvature 저차원 베리 곡률 • spin-orbit entanglement 스핀-궤도 얽힘

Research Publications (selected) • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Switchable S=1/2 and J=1/2 Rashba bands in ferroelectric halide perovskites / Kim, Minsung; Im, Jino; Freeman, AJ; Ihm, Jisoon; Jin, Hosub / 2014-05 • NATURE COMMUNICATIONS / Spin-orbital entangled molecular j(eff) states in lacunar spinel compounds / Kim, Heung-Sik; Im, Jino; Han, Myung Joon; Jin, Hosub / 2014-06 • NATURE COMMUNICATIONS / Prediction of ferroelectricity-driven Berry curvature enabling charge- and spin-controllable photocurrent in tin telluride monolayers / Kim, Jeongwoo; Kim, Kyoung-Whan; Shin, Dongbin; Lee, Sang-Hoon; Sinova, Jairo; Park, Noejung; Jin, Hosub / 2019-09

160

Computational Plasma Lab 플라즈마 시뮬레이션 연구실

Major research field laser-plasma physics, astro and space plasma physics, nuclear fusion

Research Keywords • laser-plasma, coherent emission from plasma, plasma dipole oscillation, laser wakefield particle acceleration, shock ion acceleration from laser-plasma interactions, targetnormal-sheath ion acceleration in laser-plasma interaction, nuclear fusion, divertor physics, particle-in-cell model

Research Publications (selected) • Plasma Sources Science and Technology / Reconstruction of plasma density profiles by measuring spectra of radiation emitted from oscillating plasma dipoles / S Kylychbekov, HS Song, KB Kwon, O Ra, ES Yoon, Moses Chung, K Yu, SR Yoffe, B Ersfeld, DA Jaroszynski, Min Sup Hur* / 2020-02 • Science Advances / A laser-plasma accelerator driven by two-color relativistic femtosecond laser pulses / Song Li, Guangyu Li, Quratul Ain, Min Sup Hur*, Antonio C Ting, Victor V Kulagin, Christos Kamperidis, Nasr AM Hafz** / 2019-11 • Scientific Reports / High-energy, short-duration bursts of coherent terahertz radiation from an embedded plasma dipole / Kyu Been Kwon, Teyoun Kang, Hyung Seon Song, Young-Kuk Kim, Bernhard Ersfeld, Dino A Jaroszynski*, Min Sup Hur** / 2018-01

허민섭

_Minsup Hur

Department of Physics Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 401-12 Lab : Bldg. 108 Rm. 410 Tel : +82-52-217-2912 E-mail : mshur@unist.ac.kr http://cpl.unist.ac.kr

Curriculum Vitae · 2012 - Present : associate professor at physics department of UNIST · 2008 - 2012 : assistant professor at electrical engineering of UNIST · 2004 - 2008 : senior researcher at KERI · 2001 - 2004 : Post-doc. researcher at UC Berkeley, LBNL

Academic Credential · 2000 : Ph.D from Electrical Engineering (Physics Major) of POSTECH · 1998 : M.S. from physics of POSTECH · 1996 : B.S. from physics of SNU

Awards/Honors/Memberships · American Physical Society · Korean Physical Society · SPIE · Conference chair of SPIE optics and optoelectronics

College of Natural Sciences

161

Department of Physics

We study fundamental plasma physics by virtual experiment. The most recent research interest is the coherent radiation emission from a laser-driven plasma. We have developed a very unique idea of generating plasma dipole oscillations (PDO) using laser pulses, aiming to utilize it as a radiation source in terahertz regime. We also discovered that the PDO can be a strong candidate model of numerous cosmic radio bursts. Motivated by the similarity between our PDO idea and the characteristics of cosmic radio bursts, we are driving our research toward the lab-astrophysics and lab space physics, where we want to find a deep physical link between seemingly irrelevant phenomena. The general laser-plasma physics is in the scope of our research. Until very recently, we had produced many interesting results in laser-driven particle accelerator and advanced scheme of laser amplification using Raman backscatter in plasmas. A unique theory has been developed to explain the radiation reaction, which is an unsolved general physical issue in classical and quantum electrodynamics. Another major, and relatively new (to us) subject is the divertor physics in the magnetically confined nuclear fusion device, i.e. the Tokamak. From international collaboration, we have produced a stimulating design concept for the divertor to reduce the undesirable heat flux dramatically.

Department of Mathematical Sciences 수리과학과

Mathematical Imaging Analysis Lab 수리적영상분석연구실

I am mostly interested in mathematical understanding of image data, especially medical and biomedical image data. The research projects that I either had finished or am still pursuing include 1. Image denoising/deblurring/segmentation problems, 2. A.I. research for image processing tasks using Reservoir Computing Networks in Neuromorphic Computing 3. Generalized eigenvalue problems and their numerical computations, 4. Medical/biomedical image reconstruction problems, 5. Variants of the Allen-Cahn equation in connection with (volume preserving) mean curvature motion.

김윤호

_Yunho Kim

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-11 Lab : Bldg. 108 Rm. 305 Tel : +82-52-217-2561 E-mail : yunhokim@unist.ac.kr https://yunhokim.unist.co.kr/

수리적영상분석랩에서는 영상처리 문제의 수리적 해석 방법을 연구한다. 주 연구는 영상에서의 노 이즈 제거와 영역 분할과 같은 근본적인 영상처리 문제에서부터 의료영상에 이르기까지 다양한 종 류의 영상에서 발생하는 문제들을 해석학 기반의 수학 기법들을 사용하여 분석하고 해결한다. 주 연

Curriculum Vitae

1. 영상 복원 문제

· 2020 - Present : Associate Professor, UNIST · 2014 - 2020 : Assistant Professor, UNIST · 2012 - 2014 : Postdoctoral Researcher, Dept. of Diagnostic radiology, Yale University · 2009 - 2012 : Visiting Assistant Professor, Math Dept., University of California

2. 영상처리의 인공지능적 해법 - Reservoir Computing 3. 일반화된 고유값 문제의 이론적 실험적 해법 연구 4. 의료영상 복원 (MRI, 초음파, 전자현미경 등등) 5. Allen-Cahn 방정식의 변종 방정식의 해와 (부피를 보존하는) 평균곡률 움직임과의 관계 연구

Major research field Image Processing, Inverse Problems, Optimization, Eigenvalue Problems, Phase Field Methods

Desired field of research Reservoir Computing Networks, Deep Neural Networks

Research Keywords and Topics • Image Processing • Inverse Problems • Optimization • Compressed Sensing • Eigenvalue Problems • Medical/Biomedical Imaging

Research Publications (selected) • COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION / Novel mass-conserving Allen-Cahn equation for the boundedness of an order parameter / Lee, Dongsun; Kim, Yunho / 2020-06 • NATURE COMMUNICATIONS / Direct imaging of structural disordering and heterogeneous dynamics of fullerene molecular liquid / Choe, Jeongheon; Lee, Yangjin; Park, Jungwon; Kim, Yunho; Kim, Chae Un; Kim, Kwanpyo / 2019-09 • NUMERISCHE MATHEMATIK / A Newton's method characterization for real eigenvalue problems / Kim, Yunho / 2019-08

Academic Credential · 2009 : Ph.D. Mathematics, UCLA · 2000 : B.S. Mathematics, POSTECH

Awards · 2016 : UNIST Outstanding Teaching Award · 2008 : Beckenbach Dissertation Year Fellowship

Memberships · SIAM (Society for Industrial and Applied Mathematics) · KSIAM (Korean Society for Industrial and Applied Mathematics) · KMS (Korean Mathematical Society)

College of Natural Sciences

163

Department of Mathematical Sciences

구 주제들은 아래와 같다.

Nonlinear and Complex Dynamics 비선형 복잡계 연구실

김필원

_Pilwon Kim

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-7 Lab : Bldg. 108 Rm. 306 Tel : +82-52-217-3139 E-mail : pwkim@unist.ac.kr http://www.math.unist.ac.kr/~pwkim

Curriculum Vitae · 2015 - Present : Associate Professor, UNIST · 2010 - 2014 : Assistant Professor, UNIST · 2009 - 2010 : Visiting Assistant Professor, Mathematics, Case Western University · 2006 - 2009 : Zassenhaus Assistant Professor, Mathematics, Ohio State University

Major research field 비선형 집단 동역학, 수리 사회 모형 분석, 뉴로모픽 컴퓨팅

Research Keywords and Topics • Self-organizing collective dynamics • Mathematical modeling of social phenomena • Neuromorphic computing • Machine learning based on complex systems

Academic Credential

Research Publications (selected)

· 2006 : Ph. D. Mathematics, University of Minnesota · 2000 : B. S. Computer Science and Statistics, Seoul National University

• CHAOS / Critical Neuromorphic Computing based on Explosive Synchronization / Kim, Pilwon; Choi, Jaesung / 2019-04 • PLOS ONE / Isolation and Exploitation of Minority: Game Theoretical Analysis / Lee, Dongryul; Kim, Pilwon / 2018-10 • SCIENTIFIC REPORTS / Maximum Power Game as a Physical and Social Extension of Classical Games, Scientific Reports / Kim, Pilwon / 2017-03

164

L-functions and arithmetic L-함수 및 산술 연구실

My research interests are primarily in the area of number theory. Specifically, I am interested in p-adic Galois representations and algebraic automorphic forms. I am currently working on a project that aims to giving an evidence towards mod-p Langlands program. “L-함수 및 산술 연구실”의 연구 관심은 주로 숫자 이론 분야입니다. 특히, p-adic Galois 표현과 대수 적 자동 형태에 관심이 있습니다. 저는 현재 mod-p Langlands 프로그램에 대한 증거를 제공하는 것

박철

_Chol Park

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-14 Tel : +82-52-217-2533 E-mail : cholpark@unist.ac.kr

을 목표로하는 프로젝트를 진행하고 있습니다.

Major research field Galois representations, Integral p-adic Hodge theory, Automorphic representations

Desired field of research Emerton--Gee Stacks, Perfectoid spaces

• The weight part of Serre-type conjectures • The Breuil--Mezard conjectures • Mod-p/p-adic Langlands programs

Research Publications (selected) • PROCEEDINGS OF THE LONDON MATHEMATICAL SOCIETY / On mod p localglobal compatibility for GL(3)(Q(p)) in the non-ordinary case / Le, Daniel; Morra, Stefano; Park, Chol / 2018-10 • JOURNAL OF THE LONDON MATHEMATICAL SOCIETY-SECOND SERIES / Serre weights for three-dimensional ordinary Galois representations / Morra, Stefano; Park, Chol / 2017-10 • TRANSACTIONS OF THE AMERICAN MATHEMATICAL SOCIETY / REDUCTION MODULO p OF CERTAIN SEMI-STABLE REPRESENTATIONS / Park, Chol / 2017-08

Curriculum Vitae · 2019 - Present : Assistant Professor, UNIST · 2018 - 2019 : CMC Fellow, Korea Institute for Advanced Study · 2015 - 2018 : Research Fellow, Korea Institute for Advanced Study · 2014 - 2015 : Postdoctoral Fellow, Max Planck Institute for Mathematics, · 2013 - 2014 : Postdoctoral Fellow, University of Toronto

Academic Credential · 2013 : Ph. D., University of Arizona

College of Natural Sciences

165

Department of Mathematical Sciences

Research Keywords and Topics

Analysis in Nonlinear PDEs 비선형 편미분 방정식 연구실

배한택

_Hantaek Bae

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-12 Lab : Bldg. 108 Rm. 303 Tel : +82-52-217-2526 E-mail : hantaek@unist.ac.kr http://www.math.unist.ac.kr/~hantaek

Mathematical Analysis of Fluid equations 유체 방정식의 수학적 해석

Major research field Navier-Stokes equations, Viscous water waves

Desired field of research Active Matter

Research Keywords and Topics • Viscous Fluid Equations 점성 유체 방정식

• Transport Equations with Nonlocal Velocity 로컬하지 않은 속도 벡터를 가지는 수송 방정식

• Free Boundary Problem

Curriculum Vitae · 2018 - Present : Associate Professor, UNIST · 2014 - 2018 : Assistant Professor, UNIST · 2012 - 2014 : Krener Assistant Professor, UC Davis · 2009 - 2012 : Research Associate, University of Maryland

Academic Credential · 2009 : Ph. D., Courant Institute of Mathematical Sciences, New York University · 2004 : B.S. Seoul National University

Awards/Honors/Memberships · 2004 - 2009 : NYU McCracken Fellowship · 2004 : Summa Cum Laude, SNU · 2001 - 2004 : Hongsan Foundation Scholorship, SNU

166

자유 경계 문제

Research Publications (selected) • APPLIED MATHEMATICS LETTERS / Analyticity of the inhomogeneous incompressible Navier-Stokes equations / Bae, Hantaek / 2018-09 • NONLINEARITY / Global existence of weak solutions to dissipative transport equations with nonlocal velocity / Bae, Hantaek; Granero-Belinchon, Rafael; Lazar, Omar / 2018-04 • ADVANCES IN MATHEMATICS / Global existence for some transport equations with nonlocal velocity / Bae, Hantaek; Granero-Belinchon, Rafael / 2015-01

Zeta function and Arithematic Lab 제타함수 및 산술 연구실

I am interested in a variant of famous Riemann Zeta function, namely p-adic L-function and related topics. More precisely, my research topics are: Vanishing of μ-invariant of various p-adic L-functions, Indivisibility of special values of various L-functions, Dynamics of continued fractions. ‘제타함수 및 산술 연구실’은 Riemann Zeta 함수를 포함한 다양한 제타함수의 p-adic 버전인, p-adic L- 함수 및 관련 주제에 관심이 있습니다. 특히, p-adic L- 함수의 μ-invariant 소멸, 다양한 L- 함수의 특수 값의 비소멸성, 그리고 이와 관련된 연분수의 동역학을 연구하고 있습니다.

Major research field

선해상

_Hae-Sang Sun

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-13 Lab : Bldg. 108 Rm. 302 Tel : +82-52-217-3140 E-mail : haesang@unist.ac.kr http://math.unist.ac.kr/~haesang

Desired field of research

Zeta function, L-function, mu invariant

Indivisibility of special L-values

제타 함수, L-함수, mu 불변량

특수 L-함수값의 비소멸성

· 2016 - Present : Associate Professor, UNIST · 2015 - 2016 : Assistant Professor, UNIST · 2010 - 2014 : Associate Professor, Chungbuk National University · 2008 - 2010 : Research Fellow, Korea Institute for Advanced Study · 2007 - 2008 : Postdoctoral Fellow, Max-Planck-Institut fuer Mathematik, Bonn

Academic Credential

Research Keywords and Topics

· Ph. D. at UCLA · M.S. at Korea University · B.S. at Korea University

• Vanishing of mu-invariant of various p-adic L-functions 여러 p-진 L-함수의 mu 불변량의 소멸성

• Indivisibility of special values of various L-functions 여러 특수 L-함수값의 비소멸성

• Dynamics of continued fractions 연분수의 동역학

Research Publications (selected) • JOURNAL FUR DIE REINE UND ANGEWANDTE MATHEMATIK / The special values of Dirichlet L-functions as an analogue of the Iwasawa power series / Sun, Hae-sang / 2014-02 • ADVANCES IN MATHEMATICS / A study on functional independence of the Iwasawa power series / Sun, Hae-Sang / 2013-05 • MATHEMATISCHE ANNALEN / Cuspidal class number of the tower of modular curves X1(Npn) / Sun, Hae-Sang / 2010-12

College of Natural Sciences

167

Department of Mathematical Sciences

Curriculum Vitae

UNIST Biomathematics Lab UNIST 생물수학 랩

이창형

_Chang Hyeong Lee

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-8 Lab : Bldg. 108 Rm. 304 Tel : +82-52-217-3138 E-mail : chlee@unist.ac.kr https://sites.google.com/site/unistbiom ath/

The research interests in UNIST Biomath lab include mathematical modeling and simulation of biological and epidemic systems. Our recent researches have focused on COVID-19 modeling, mathematical modeling and computation of epidemic spread affected by climate change, and the stochastic analysis of biological systems. UNIST 생물수학 랩의 연구 주제는 생물학 시스템과 전염병 확산에 대한 수리 모델링과 계산이고, 최 근 연구는 코로나 19 확산 수리 모델링, 기후 변화에 따른 전염병 확산 현상의 모델링 및 계산과 생물 학 시스템에 대한 확률 모델에 집중하고 있습니다

Major research field 생물수학, 전염병 확산 수리 모델링 및 계산, 확률 분석 및 계산

Research Publications (selected) Curriculum Vitae · 2013 - Present : Associate Professor, Department of Mathematical Sciences, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2006 - 2009 : Visiting Assistant Professor, Department of Mathematical Sciences, Worcester Polytechnic Institute, US

Academic Credential · 2006 : Ph.D. Mathematics, University of Minnesota, US · 2005 : M.S. Mathematics, University of Minnesota, US · 1997 : B.S. Mathematics, Korea University

Awards/Honors/Memberships · 2020 - Present : Topic Editor, International Journal of Environmental Research and Public Health · 2020 - Present : Editorial Board, Journal of Korean Society for Industrial and Applied Mathematics · 2014 - Present : Secretary General, Korean Society for Mathematical Biology · 2011 : Commendation from Minister of Education, Science and Technology, Korea (Korea Governmental Award) · 2005 - 2008 : Landahl Travel Award from Society for Mathematical Biology, US

168

• INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH/ Assessment of Social Distancing for Controlling COVID-19 in Korea: An AgeStructured Modeling Approach / Choi, Yongin; Kim, James Slghee; Choi, Heejin; Lee, Hyojung; Lee, Chang Hyeong / 2020-10 • APPLIED MATHEMATICS AND COMPUTATION / Effects of climate change on Plasmodium vivax malaria transmission dynamics: A mathematical modeling approach / Kim, Jung Eun; Choi, Yongin; Lee, Chang Hyeong / 2019-04 • PLOS ONE / Potential effects of climate change on dengue transmission dynamics in Korea /Lee, Hyojung; Kim, Jung Eun; Lee, Sunmi; Lee, Chang Hyeong / 2018-06 • JOURNAL OF MATHEMATICAL BIOLOGY / A multi-time-scale analysis of chemical reaction networks: II. Stochastic systems / Kan Xingye; Lee, Chang Hyeong; Hans Othmer / 2016-11 • APPLIED MATHEMATICS AND COMPUTATION / Stochastic methods for epidemic models: An application to the 2009 H1N1 influenza outbreak in Korea / Lee, Hyojung; Lee, Sunmi; Lee, Chang Hyeong / 2016-08

Computational Mathematical Sciences 계산수리과학

We are interested in developing and analyzing computational algorithms that are working in solving mathematical modeling problems including (fractional) partial differential equations and integral equations describing physical, biological, chemical, and engineering phenomena. We want to see the world beyond the experimental world with mathematical theories and computer simulation. ‘계산수리과학’ 연구실은 (분수) 편미분 방정식과 물리, 생물학적, 화학적, 공학 현상을 설명하는 적분 방정식을 포함한 수학적 모델링 문제를 해결하는 데 사용되는 계산 알고리즘을 개발하고 분석하는

장봉수

_Bong soo Jang

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-6 Tel : +82-52-217-3136 E-mail : bsjang@unist.ac.kr http://amath.unist.ac.kr/

데 관심이 있습니다. 수학적 이론과 컴퓨터 시뮬레이션으로 실험적 세계를 넘어서는 연구를 목표로 하고 있습니다.

Major research field · Numerical analysis / method · Nonlinear Dynamics · Mathematical Data Analysis

Desired field of research · Fractional and Partial DEs · Biodiversity, Network · Text mining, Reservoir computing

Research Keywords and Topics • Numerical analysis methods : Fractional, Partial Differential & Integral equations • Nonlinear Dynamics : Biodiversity, fractional dynamics, networks • Mathematical Data Analysis : Text mining, Deep learning & Reservoir computing

Research Publications (selected) • APPLIED MATHEMATICS AND COMPUTATION / New explicit and accelerated techniques for solving fractional order differential equations / Kim, Hyunju; Kim, Keon Ho; Lee, Seyeon; Jang, Bongsoo / 2020-08 • NONLINEAR DYNAMICS / Dynamic analysis of fractional-order predator-prey biological economic system with Holling type II functional response / Park, Junpyo; Do, Younghae; Jang, Bongsoo; Lai, Ying-Cheng / 2017-08 • SCIENTIFIC REPORTS / Emergence of unusual coexistence states in cyclic game systems / Park, Junpyo; Do, Younghae; Jang, Bongsoo; Lai, Ying-Cheng / 2017-08

· 2009 - Present : Professor, UNIST · 2007 - 2009 : Research Assistant Professor, Mathematics, POSTECH · 2005 - 2007 : Assistant Professor, Kent State University, Regional Campus

Academic Credential · 2005 : Ph. D. Applied Mathematics University of North Carolina, Charlotte, · 2005 : M. S. Mechanical Engineering University of North Carolina, Charlotte · 1995 : B. S. Mathematics, Kyungpook National University

Awards/Honors/Memberships · Member of Korean Society of Industrial and Applied Mathematics (한국산업응용수학회) · Member of Korean Mathematical Society (대한수학회) · 2014 : 교육부 장관상 표창

Patents (selected) • System and Method for Transferring Style of Recognition Area(인식 영역의 스타일을 트 랜스퍼하는 시스템 및 방법) / Application No, 10-2019-0059322 / Registered No, 102057713 / Kyunghoon Kim, Bongsoo Jang / • Korean Text Clustering System and Method Jang(한국어 텍스트 클러스터링 시스템 및 방법) / Application No, 10-2016-0036552 / Registration No/date, 10-1769035 / Kyunghoon Kim, Bongsoo

College of Natural Sciences

169

Department of Mathematical Sciences

Curriculum Vitae

Numerical Analysis Lab 수치해석 연구실

정창렬

_Chang Yeol Jung

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-9 Lab : Bldg. 108 Rm. 305 Tel : +82-52-217-3137 E-mail : cjung@unist.ac.kr http://jung.unist.ac.kr/

My research works are concerned with the mathematical analysis, numerical analysis and computational methods for the solutions of linear and nonlinear elliptic and parabolic partial differential equations focused on Fluid mechanics, Geophysics and Plasma physics. The equations include e.g. Navier-Stokes and Euler equations and their linearized ones, primitive equations and Euler-Poisson equations. I am also working on computation of the solutions for the equations with uncertainties. 편미분 방정식 해 계산을 위한 수치 방법 연구 및 해석 유체 경계층 해석 및 계산 방법 연구 산업에 적용 가능한 해석학의 응용

Major research field 경계층, 수치 방법, 수치 해석, 산업 수학

Curriculum Vitae · 2018 - Present : Professor, UNIST · 2013 - 2018 : Associate Professor, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2008 : visiting at ASU · 2006 - 2008 : Post doc., Brown Univ. and IU

Academic Credential · 2006 : Ph.D. Mathematics, IU · 1998 : B.S. Mathematics, POSTECH

170

Research Keywords and Topics • Numerical analysis and methods : Scientific computing • Partial differential equations : Fluid dynamics, Geophysics, Euler-Poisson systems • Singular perturbations and boundary layer analysis • Stochastic systems and uncertainty quantification

Research Publications (selected) • JOURNAL OF DIFFERENTIAL EQUATIONS / Quasi-neutral limit for Euler-Poisson system in the presence of boundary layers in an annular domain / Jung, Chang-Yeol; Kwon, Bongsuk; Suzuki, Masahiro / 2020-11 • JOURNAL OF DIFFERENTIAL EQUATIONS / Synchronization of Kuramoto oscillators with time-delayed interactions and phase lag effect / Hsia, Chun-Hsiung; Jung, ChangYeol; Kwon, Bongsuk; Ueda, Yoshihiro / 2020-06 • MATHEMATICS AND COMPUTERS IN SIMULATION / Validation of a 2D cell-centered Finite Volume method for elliptic equations / Gie, Gung-Min; Jung, Chang-Yeol; Nguyen, Thien Binh / 2019-11

Lab for L-functions and arithmetic L-함수와 산술 연구실

Since Riemann, L-functions are one of the most importants tools to study arithmetic. Below is some of the research topics in our Lab. • Low-lying zeros of L-functions • Simple zeros of L-functions • Extremal L-values • Applications of the strong Artin conjecture in number fields. • Ranks of elliptic curves

조재현

_Jaehyun Cho

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-5 Tel : +82-52-217-2168 E-mail : petercho@unist.ac.kr

리만 이후로 L-함수는 산술연구의 가장 중요한 도구 중 하나이다. 다음은 우리 연구실의 몇 가지 연 구주제들이다.

Curriculum Vitae · 2020 - Present : Associate Professor, UNIST · 2015 - 2020 : Assistant Professor, UNIST · 2015 - 2016 : Postdoctoral Associate, Univ. of Waterloo · 2013 - 2015 : Postdoctoral Associate, SUNY Buffalo · 2012 - 2013 : Postdoctoral Associate, Fields Institute, · 2004 - 2007 : Full-time Instructor, Korea Military Academy

Academic Credential · 2012 : Ph.D. Mathematics, University of Toronto · 2004 : M.S. Mathematics, Seoul National University

Awards/Honors/Memberships

Major research field

Desired field of research

Number Theory, Artin L-functions, extreme values 정수론, 아틴 엘-함수, 극대, 극소값

Random matrix, zeros of L-functions 임의 행렬, 엘-함수의 영점들

Research Keywords and Topics • Number Theory, Artin L-functions, extreme values, random matrix, zeros of L-functions 정수론, 아틴 엘-함수, 극대, 극소값, 임의 행렬, 엘-함수의 영점들

Research Publications (selected) • INTERNATIONAL MATHEMATICS RESEARCH NOTICES / The Average of the Smallest Prime in a Conjugacy Class / Cho, Perter J.; Kim, Henry H / 2020-03 • COMPOSITIO MATHEMATICA / Simple zeros of automorphic L-functions / Booker, Andrew R.; Cho, Perter J.; Kim, Myoungil / 2019-06 • INTERNATIONAL MATHEMATICS RESEARCH NOTICES / n-level densities of Artin Lfunctions / Cho, Peter J.; Kim, Henry H. / 2015

· 2016 - Present : A member of the Korean Mathematical Society · 2014 : [Summer Salary] from the Research Foundation for the State University of New York · 2011 - 2012 : [Ontario Graduate Scholarship] from the Province of Ontario and the department of mathematics at UofT · 2000 - 2002 : [Lotte Scholarship] from the Lotte Foundation · 1999 - 2000 : [SNU Scholarship] from Seoul National University

College of Natural Sciences

171

Department of Mathematical Sciences

• 낮게 분포하는 L-함수의 영점들 • L-함수의 단순근들 • 극단적인 L-값들 • 강한 아틴 추측의 수체의 응용들 • 타원곡선의 위수

Fluids Analysis lab 유체해석 연구실

최규동

_Kyu dong Choi

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-4 Tel : +82-52-217-2158 E-mail : kchoi@unist.ac.kr http://www.math.unist.ac.kr/~kchoi

유체의 움직임에 대한 수학적 해석을 목표로 합니다.

We aim to analyze the motion of fluids mathematically.

Curriculum Vitae · 2020 - Present : Associate Professor, Department of Mathematical Sciences, UNIST · 2015 - 2019 : Assistant Professor, Department of Mathematical Sciences, UNIST · 2012 - 2015 : Van Vleck Visiting Assistant Professor, Department of Mathematics, Univ. of WisconsinMadison

Academic Credential · 2012 : Ph.D. Univ. of Texas at Austin · 2006 : B.S. Korea University

172

Streamline pattern of Hill’s vortex, M. Hill (1894)

Major research field Fluid dynamics, conservation laws, Mathematical Biology

Research Publications (selected) • JOURNAL OF DIFFERENTIAL EQUATIONS / Nonlinear stability of planar traveling waves in a chemotaxis model of tumor angiogesis with chemical diffusion / M. Chae; K.Choi / 2020-03 • COMMUNICATIONS IN MATHEMATICAL PHYSICS / On the Growth of the Support of Positive Vorticity for 2D Euler Equation in an Infinite Cylinder / K. Choi; S. Denisov / 2019-05 • JOURNAL DE MATHEMATIQUES PURES ET APPLIQUEES / Global well-posedness of large perturbations of traveling waves in a hyperbolic-parabolic system arising from a chemotaxis model / K. Choi; M. Kang; A. Vasseur / 2020-10

Mathematical Finance 금융수학

My research interests include mathematical finance, stochastic control, and applied probability theory. I am particularly interested in the utility maximization problems originating from economics, and the characterization of the market equilibrium among the financial agents who optimize their strategies. 본 연구실에서는 금융수학, 확률론적 최적화, 확률론의 응용 등을 연구합니다. 재무경제학과 관련된 효용 극대화 문제와 시장균형 모형 등을 연구합니다.

최진혁

_Jin Hyuk Choi

Department of Mathematical Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 301-3 Tel : +82-52-217-3053 E-mail : jchoi@unist.ac.kr https://sites.google.com/site/gubukhyu k/home

주식시장의 거래 패턴을 수학으로 풀어낸 최진혁 교수의 연구성과가 ‘금융경제학 저널’에 소개되었다.

Major research field Mathematical Finance, Stochastic Control

· 2021 - Present : Associate Professor, Dept. of Mathematical Sciences, UNIST · 2016 - 2021 : Assistant Professor, Dept. of Mathematical Sciences, UNIST · 2015 - 2016 : Visiting Assistant Professor, Dept. of Information, Risk, and Operation Management, University of Texas at Austin · 2012 - 2015 : Postdoctoral Associate, Dept. of Mathematical Sciences, Carnegie Mellon University

Research Keywords and Topics

Academic Credential

• Financial Mathematics

· 2012 : Ph.D. Mathematics, University of Texas at Austin · 2005 : B.S. Mathematics, KAIST

금융수학

• Stochastic Control 확률론적 최적화

Research Publications (selected) • MATHEMATICAL FINANCE / Optimal investment/consumption with liquid and illiquid assets, / Choi, Jin Hyuk / 2020-04 • JOURNAL OF FINANCIAL ECONOMICS / Information and trading targets in a dynamic market equilibrium / Choi, Jin Hyuk; Larsen, Kasper; Seppi, Duane J. / 2019-06 • FINANCE AND STOCHASTICS / Taylor approximation of incomplete Radner equilibrium models / Choi, Jin Hyuk; Larsen, Kasper / 2015-07

College of Natural Sciences

173

Department of Mathematical Sciences

Curriculum Vitae

Department of Chemistry 화학과

Self Assembly and Adaptive Systems

Major research field Nanoscience, Nanomaterials, Chemical Networks, Cell Dynamics

Research Keywords and Topics • Self-assembly in equilibrium and non-equilibrium regimes, macromolecular chemistry, fundamental nanoscience, nanoscale electrostatics, light-controlled nanomaterials, nanostructured materials for plasmonics and energy storage, nanomedicine, energyefficient and parallel organic synthesis, complex chemical networks and systems, systems’ chemistry, cell biology and biomimetic materials

Research Publications (selected) • Nature / Computational planning of the synthesis of complex natural products / 2020-10 • Science / Synthetic connectivity, emergence, and self-regeneration in the network of prebiotic chemistry / 2020-09 • Nature / Concentric liquid reactors for chemical synthesis and separation / 2020-08 • Nature / Enhancing crystal growth using polyelectrolyte solutions and shear flow / 2020-03

그쥐보프스키, 바르토슈 _Bartosz Grzybowski Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 307 Rm. 103 Lab : Bldg. 307 Rm. 103 Tel : +82-52-217-5522 E-mail : grzybor72@unist.ac.kr http://grzybowski-group.net/

Curriculum Vitae · 2015 - Present : Group Leader, Center for Soft and Living Matter, IBS · 2014 - Present : Distinguished Professor of Chemistry, UNIST · 2014 - Present : Professor, Polish Academy of Sciences · 2009 - 2014 : Full Professor, Northwestern University · 2007 - 2009 : Associate Professor, Northwestern University · 2003 - 2007 : Assistant Professor, Northwestern University · 2002 - Present : Chief Scientific Officer, ProChimia Surfaces, Ltd. · 2000 - 2001 : Postdoctoral Fellow, Harvard University

Academic Credential · 1995 : Yale University, New Haven, CT · 1995 : Yale University, New Haven, CT · 2000 : Harvard University, Cambridge, MA

Awards/Honors/Memberships · 2019 : NIH NCATS “Aspire” Award (Washington, USA) · 2016 : The Feynman Prize in Nanotechnology · 2015 : Fellow of the Royal Society of Chemistry · 2013 : Nanoscience Prize (International Society for Nanoscale Science, Computation and Engineering) · 2007 : Sloan Fellowship · 2006 : Pew Scholar in the Biomedical Sciences

College of Natural Sciences

175

Department of Chemistry

Grzybowski and his team pioneered research on non-equilibrium self-assembly processes in chemical systems (Nature 2000, Science 2002a, Science 2002b, Nature 2018). They were the first ones to describe nanoscale self-assembly based on electrostatic interactions (Science 2006), and first ones to demonstrate all-nanoparticle electronics (Nature Nanotechnology 2011, 2016). Grzybowski’s team discovered several fundamental phenomena at small scales (e.g., plastic-metals, Science 2007; inverse photoconductors, Nature 2009) and is recognized as being the pioneers of reaction-diffusion chemical systems operating in the nano- and microscopic regimes (reviewed in Angew. Chem. 2010 and also in the Grzybowski’s textbook on the subject). The Grzybowski group discovered and quantified the general laws governing the Network of Organic Synthesis (Nature Chemistry 2009, Angew. Chem. 2005, 2006), and created Chematica, the “chemical brain” for the planning of organic syntheses (Angew. Chem. 2012a, 2012b, 2012c, 2016). Chematica has been recently acquired by Merck/MilliporeSigma and is being used by several major companies and national security agencies worldwide. In 2011, the group solved perhaps the oldest scientific question - originally posed by Thales of Miletus - as to how and why materials charge upon contact with one another (Science 2011, Science 2013). In 2013, they have demonstrated magnetic traps that unlike their optical counterparts can manipulate nanoscopic objects, both magnetic and non-magnetic (Nature 2013). Grzybowski is an author of over 250 articles. Over the years, Grzybowski received several awards including NSF CAREER Award, Pew Scholar in the Biomedical Sciences, American Institute of Chemical Engineers NSEF Young Investigator Award, ACS Unilever Award, Sloan Fellowship, Dreyfus Teacher-Scholar Award, Nanoscience Prize, and the 2016 Feynman Prize. His current research interest include non-equilibrium self-assembly, reaction-diffusion phenomena, “thinking” materials, chemical networks and systems, theory of organic synthesis, and applications of AI to chemistry.

Center for Multidimensional Carbon Materials (CMCM) 다차원탄소재료연구단

루오프, 로드니 _Rodney S. Ruoff Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 101 Rm. 409 Lab : Bldg. 101, B1 Tel : +82-52-217-2924 E-mail : ruoff@unist.ac.kr https://cmcm.ibs.re.kr

Curriculum Vitae · 2014 - Present : UNIST Distinguished Professor & Director, Center for Multidimensional Carbon Materials (CMCM), Institute for Basic Science (IBS) · 2007 - 2013 : Cockrell Family Regents Chair, University of Texas at Austin · 2003 - 2007 : John Evans Professor of Nanoengineering, Northwestern University · 2000 - 2007 : Full Professor, Department of Mechanical Engineering and Director, NU BIMat Institute (A NASA URETI Institute) Northwestern University

Academic Credential · 1988 : Ph.D. Chemical Physics, University of Illinois-Urbana · 1981 : B.S. Chemistry, University of Texas-Austin, High Honors

Awards/Honors/Memberships · Fellow of : MRS, APS, AAAS, RSC · 2019 : Minister’s Citation, 2019, Ministry of Sci. and ICT of Korea · 2019 : One of the Top 100 Researches in 2019 selected by Ministry of Sci. and ICT of Korea · 2019, 2020 : Web of Sci. 2019, 2020 Highly Cited Researchers (Chemistry, Materials Sci.) · 2018 : Listed as one of 17 top researchers of Citation Laureates 2018, Clarivate Analytics · 2018 : James C. McGroddy Prize for New Materials, 2018 Recipient, APS · 2016, 2017, 2018 : Clarivate Analytics Highly Cited Researchers (Chemistry, Physics, Materials Sci.)

176

The IBS Center for Multidimensional Carbon Materials (CMCM) supports a talented international team of highly collaborative researchers that design, synthesize and study new forms of carbon and related materials, many of which are expected to have exceptional chemical, physical, and electronic properties. The center is located at the Ulsan National Institute of Science and Technology (UNIST), nestled in a beautiful area near the port cities of Ulsan and Busan. Ulsan is famous for its shipbuilding, automobile manufacturing, and petrochemical and chemical industries, and thus there is the possibility to interface science with industry. Members and visitors of the CMCM enjoy an intellectually stimulating environment that fosters dynamic exchange within the center and abroad through its extensive, international network of research institutions and programs.

Major research field Synthesis and properties of carbon and related materials

Research Keywords and Topics • Synthesis and properties of new carbon, and related, materials • Reaction pathways, kinetics and thermodynamics of chemical reactions • Next generation carbons such as ‘negative curvature’ (‘Schwartzites’) carbons • Ultrathin sp3-bonded carbon sheets, sp3/sp2 hybrid carbon materials • Model compounds for novel carbon materials

Research Publications (selected) • Nature Nanotechnology / Chemically Induced Transformation of Chemical Vapour Deposition Grown Bilayer Graphene into Fluorinated Single-Layer Diamond / PavelBakharev, MingHuang, ManavSaxena, SukWooLee, SeHunJoo, SungOPark, JichenDong, DulceCamacho, SunghwanJin, YoungwooKwon, MandakiniBiswal, FengDing, SangKyuKwak, ZonghoonLee, Rodney Ruoff / 2020-12 • Science / Colossal grain growth yields single crystal metal foils by contact-free annealing / SunghwanJin, MingHuang, YoungwooKwon, LeiningZhang, BaoWenLi, SangjunOh, JichenDong, DaLuo, MandakiniBiswal, BenCunning, PavelBakharev, InyongMoon, WonJongYoo, DulceCamacho, YongJinKim, SunHwaLee, BinWang, WonKyungSeong, ManavSaxena, FengDing, HyungJoonShin, Rodney Ruoff / 2018-11 • Science / Large-area synthesis of high-quality and uniform graphene films on copper foils / XuesongLi, WeiweiCai, JinhoAn, SeyoungKim, JunghyoNah, DongxingYang, RichardPiner, ArunaVelamakanni, InhwaJung, EmanuelTutuc, SanjayBanerjee, LuigiColombo, Rodney Ruoff / 2009-06

Patents (selected) • Single crystalline metal Foil and manufacturing method therefor / Rodney S. Ruoff, Sunghwan Jin / 2019-08 • Graphene synthesis by chemical vapor deposition / Luigi Colombo, Xuesong Li, Rodney S. Ruoff / 2013-06

Center for Soft and Living Matter 첨단연성물질 연구단

We are part of the IBS Center for Soft and Living matter, directed by Steve Granick. The goal of this laboratory is to understand fundamental materials processes and to develop new ones. We specialize in the field of soft materials. The researchers in this group come from varied scientific disciplines, including chemistry, physics, materials science, and chemical engineering. This diversity of background and perspective helps to maintain a particularly stimulating environment. Students gain broad training in a variety of subjects and have many options of what to do after graduation. Our work is ambitious. We aim to contribute to a broad agenda of problems in society - in areas from energy to biology.

그래닉, 스티브 _Steve Granick Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 315 Lab : Bldg. 103 3rd Floor Tel : +82-52-217-5508 E-mail : sgranick@unist.ac.kr

Curriculum Vitae

Major research field colloids, polymers, vesicles, single-molecules, and more

Research Keywords and Topics • Chemistry, Physics, Biology, Engineering

Research Publications (selected) • Science / Boosted molecular mobility during common chemical reactions / Huan Wang, Myeonggon Park, Ruoyu Dong, Junyoung Kim, Yoon-Kyoung Cho, Tsvi Tlusty, Steve Granick / 2020-07 • PNAS / Intermediate states of molecular self-assembly from liquid-cell electron microscopy / Huan Wang, Bo Li, Ye-Jin Kim, Oh-Hoon Kwon, Steve Granick / 2020-02 • JACS / Enhanced Diffusion and Oligomeric Enzyme Dissoiation / Ah-Young Jee, Kuo Chen, Tsvi Tlusty, Jiang Zhao, Steve Granick / 2019-11

Academic Credential · 1982 : Ph. D. Chemistry, University of Wisconsin-Madison, U.S.A. · 1978 : B.A. Sociology (cum laude), Princeton University, U.S.A.

Awards/Honors/Memberships · 2016 : Elected to American Academy of Arts and Sciences, USA · 2015 : Elected to U.S. National Academy of Sciences · 2013 : National Award in Colloid and Surface Chemistry, American Chemical Society · 2009 : National Award in Polymer Physics, American Physical Society · 2006 : Chair, Division of Polymer Physics, American Physical Society · 2002 : Paris-Sciences Medal, City of Paris, France · 1992 : Fellow, American Physical Society

College of Natural Sciences

177

Department of Chemistry

· Director, Center for Soft and Living Matter, Institute for Basic Science, 2014 to date. · Emeritus Professor, University of Illinois USA · Guest Professor of Chemistry, Peking University, China; of Polymers, Zhejiang University, China; of Chemical Physics, USTC, China · Postdoctoral, University of Minnesota · Postdoctoral, Collège de France

CRASY Lab 상관회전정렬분광학 연구실

슐츠, 토마스 _Thomas Schultz Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 413 Lab : Bldg. 103 Rm. 401-4 Tel : +82-52-217-5425 E-mail : catox@unist.ac.kr http://crasy.unist.ac.kr/teaching/

Curriculum Vitae · 2013 - Present : Associate Professor at UNIST, Ulsan, Korea · 2003 - 2013 : Group leader at the MBI Berlin, Germany. · 1999 - 2003 : Visiting Fellow at the NRC Canada. · 1996 - 1999 : Teaching assistant at the ETH Zürich, Switzerland.

Academic Credential · 2011 : Habilitation in the Department of Physical Chemistry at the Free University of Berlin (June 1, 2011) · 1999 : Ph.D. in chemistry from the Swiss Federal Institute of Technology (ETH) Zürich · 1995 : Diploma in chemistry from the Swiss Federal Institute of Technology (ETH) Zürich

In the CRASY lab, we develop and apply correlated spectroscopic techniques for the analysis of heterogeneous (impure) samples. Most molecular samples are heterogeneous in terms of atomic and isotopic composition, or in terms of isomeric structure. The spectroscopic characterization of heterogeneous samples is difficult because signals originating from different sample components are not easily separated. Would it not be nice if we could mark each sample component before a performing a measurement? We might then sort the spectroscopic results to characterize all interesting molecular properties for each species in the sample. In the CRASY lab, we mark spectroscopic measurements by correlation to a high-resolution rotational spectrum. A single experiment creates multidimensional spectra that allow to assign molecular composition (via mass spectra) nuclear structure (via rotational spectra), electronic structure (via electron spectra) and photochemical reaction pathways (via pumpprobe measurements) for multiple component in a sample. CRASY stands for Correlated Rotational Alignment Spectroscopy and was inspired by multi-dimensional NMR experiments such as the COSY technique developed by Richard Ernst (1991 Nobel prize in Chemistry). While COSY is based on the coherent excitation of nuclear spins with radio-wave pulses, CRASY excites and probe molecular rotation using femtosecond laser pulses. The CRASY experiment is currently worldwide unique. Apart from the further technological development of CRASY in terms of sensitivity, resolution, and accuracy, we use our CRASY capabilities to address long-standing scientific questions that cannot be resolved with traditional spectroscopic methods. To address a chemical aspect of the question “What is the Universe made of?”, we search for reactive species that cannot be isolated on earth, but may play a role in the chemistry of interstellar space. To address the question “How did life begin?”, we investigate photochemical reactions of biomolecular building blocks, which must have formed in the harsh physical environment of early earth.

Awards/Honors/Memberships · Member of the German Chemical Society · Member of the German Physical Society · Member of the German Bunsen Society · Member of the Korean Chemical Society

Research Keywords and Topics • Correlated spectroscopy, Multi-Dimensional Spectroscopy, Laser Spectroscopy, Ultrafast Spectroscopy, High-Resolution Spectroscopy, Rotational Spectroscopy, Electron Spectroscopy, Raman Spectroscopy, Mass Spectrometry, Photoionization, Photochemistry.

Research Publications (selected) • The characterization of 10 isotopologue structures in a single measurement / Science 333, 1011 / 2011 • Developing the first time-domain equivalent to frequency-comb spectroscopy / PNAS 115, 5072 / 2018 • Measuring the highest resolution rotational Raman spectrum in the literature / PCCP 21, 2857 / 2019

178

Ultrafast Laser Spectroscopy and Nanomicroscopy Lab 초고속 레이저 분광 및 이미징 연구실

The ultimate goal of my research is the control of the physical properties of matter by unveiling its transient structures and even creating ones of exotic functionality based on the deep understanding of light-matter interactions and structure-function relations. To this end, we develop new imaging tools pushing simultaneous resolutions in space, time, and energy to their limits. We have already installed the third-generation ultrafast electron microscope capable of achieving sub-nanometer and sub-picosecond spatiotemporal resolution, successfully visualizing vibrating nanorods for the first time. As an ongoing effort, we build a correlative ultrafast electron microscope capable of spectroscopy with meV energy resolution towards unraveling carrier-phonon dynamics in a single quantum dot. The areas of research include the study of elementary electronic and structural dynamics in condensed phase, particularly nonequilibrium photoinduced phase transformations, ultrafast electron-phonon interactions in correlated materials, ultrafast chemical/biological dynamics, using both electron- and photon-based ultrafast microscopy (imaging, diffraction, and spectroscopy).

권오훈

_Ohhoon Kwon

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 415 Lab : Bldg. 103 Rm. 418-6,7 Tel : +82-52-217-5424 E-mail : ohkwon@unist.ac.kr https://femtokid.wixsite.com/ulsan-lab

Curriculum Vitae

Research Keywords and Topics

Academic Credential

• Development and application of ultrafast electron microscopy • Time-resolved imaging, diffraction, EELS, and tomography • In situ conformational dynamics of macromolecules • Ultrafast electronic and structural dynamics of condensed matter at a single-particle level • Femtochemistry and femtobiology • Ultrafast photophysics and photochemistry of a model base pair • Ultrafast proton transport along water wire catalyst • Ultrafast H-bonding dynamics • Ultrafast hydration dynamics at protein surfaces • Time-resolved spectroscopy on photoinduced reactions • Proton tunneling and electron transfer • Solar cell and photocatalyst • Confinement effects of heterogeneous media on chemical reactions

· 2004 : Ph.D. in Physical Chemistry, SNU · 2000 : MS in Physical Chemistry, SNU · 1998 : BS in Chemistry, SNU

Awards/Honors/Memberships · 2019 : Funding Award, Samsung Science and Technology Foundation · 2015 : The Distinguished Lectureship Award, The Chemical Society of Japan

Research Publications (selected) • ACS Nano / Light-induced anisotropic morphological dynamics of black phosphorus visualized by dark-field ultrafast electron microscopy / Kim, Y.-J., Lee, Y., Kim, K., Kwon, O.-H. / 2020-09 • Angew. Chem. Int. Ed. / Hydrogen-bond free energy of local biological water / Park, W.W., Lee, K.M, Lee, B.S., Kim, Y.J., Joo, S.H., Kwak, S.K., Yoo, T.H., Kwon, O.-H. / 2020-04 • Matter / Ultrafast electron microscopy visualizes acoustic vibrations of plasmonic nanorods at the interfaces / Kim, Y.-J., Jung, H., Han, S.W., Kwon, O.-H. / 2019-08

Patents (selected) • Method and System for 4D Tomography and Ultrafast Scanning Electron Microscopy / Ahmed H. Zewail, Oh-Hoon Kwon, Omar F. Mohammed, and Ding-Shyue Yang / 2014

College of Natural Sciences

179

Department of Chemistry

Major research field Ultrafast microscopy, Ultrafast spectroscopy, Condensed matter physics, Chemical reaction dynamics, Photonics, Low-dimensional matter

· 2018 - Present : Associate Professor, School of Natural Science, UNIST · 2013 - 2018 : Assistant Professor, School of Natural Science, UNIST · 2010 - 2013 : Senior Scientist, Physical Biology Center for Ultrafast Science and Technology, Caltech · 2005 - 2010 : Postdoctoral Researcher, Physical Biology Center for Ultrafast Science and Technology,

Energy Recognition 파동에너지 인식 연구실

권태혁

_Taehyuk Kwon

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 801-7 Lab : Bldg. 108 Rm. 809 Tel : +82-52-217-2947 E-mail : kwon90@unist.ac.kr https://www.kwon90.com/

Curriculum Vitae ・ 2014 - 현재 : 유니스트 화학과 부교수 ・ 2012 : 유니스트 친환경에너지 공학과 부임 ・ 2008 – 2012 : 호주 멜번대 화학과 박사후 연구원 ・ 2006 - 2008 : 서울대 화학과 박사후 연구원 ・ 2006 : 서울대 화학과 유기화학 박사

Academic Credential

In the 21st century, the world faces more serious problems than ever before with food (F), energy (E), environment (E), and disease (D), FEED. To solve these fundamental problems of mankind, our group conducts research on light. Light, in particular, can be applied in a variety of ways as one of nature's mechanisms for transporting energy and information from one place to another with wavelengths and frequencies. Thus, understanding how light can be efficiently absorbed and converted into a useful form of energy can provide a fundamental understanding of how Photosensitizer can be designed to use and control light more effectively. Based on this, we have researched on thiophene or metal (Ir and Pt) complex based photosensitizers toward energy harvesting (dye-sensitized solar cells, polymer solar cells, and perovskite solar cells), photo rechargeable battery system for energy recycling, and photodynamic therapy through controlling wavelength and frequency of photosensitizer. Especially, we are on the way to develop non-invasive next-generation cancer treatment platform in hypoxia conditions. In addition, new ultrasonic chemistry was developed by utilizing ultrasonic spray characteristics that can artificially control the wavelength and frequency. By the using of ultrasound effect that releases enormous energy when the vacuum bubble collapses, we easily developed hetero/multi-atom doped carbon-based materials (graphene, carbon nanotube and etc.) and conjugated microporous polymer materials for energy storage (super capacitor and battery electrode) and catalyst (CO2 reduction catalyst and ammonia synthetic catalyst for ammonia production at room temperature and pressure). Therefore, we firmly believe that our group research topics (FEED) contribute to sustainable goals such as food (F), energy (E), environment (E), and disease (D) adopted by the United Nations, thereby nourishing our society while contributing to achieving a better and supportable future for all of us.

・ 1994 : 수원대 화학과 이학사 ・ 1997 : 서울대 화학과 이학석사 지도교수 홍종인 ・ 2006 : 서울대 화학과 이학박사 지도교수 홍종인

Awards/Honors/Memberships ・ 2014 : 우수 강의 평가상 수상

Major research field

Desired field of research

파동에너지 활용; 에너지 재활용, 염료감응형 태양전지, Optoelectronics, 광역동 치료, 지혈제, sono-cavitation & nebulization synthesis, CO2 환원촉매, 암모니아 생성 촉매 (N2 fixation), 물분해 촉매

파동에너지를 활용할 수 있는 다양한 연구분야 (에너지, 바이오, 의료, 촉매, 합성 등)

Research Keywords and Topics • Applications of Wave Energy; Energy Recycling, Dye-Sensitized Solar Cells, Polymer Solar Cells, Optoelectronics, Photodynamic Therapy, Hemostasis, sono-cavitation & nebulization synthesis, Catalysts (CO2 reduction, N2 fixation, Water Splitting, Hydrogen Evolution) 파동에너지 활용 및 응용 연구; 에너지 재활용, 염료감응형 태양전지, 고분자 태양전지. Optoelectronics, 광역동 치료, 지혈제, sono-cavitation & nebulization synthesis, CO2 환원촉매, 암모니아 생 성 촉매, 물분해 촉매, 수소생성 촉매

Research Publications (selected) • ENERGY & ENVIRONMENTAL SCIENCE / Indoor-light-energy-harvesting dye-sensitized photorechargeable battery / Kim, Byung-Man; Lee, Myeong-Hee; Dilimon Vijayan Sobhana; Kim, Jeong Soo; Nam, Jung Seung; Kwon, Tae-Hyuk; Song, Hyun-Kon / 2020-05 • ADVANCED MATERIALS / Carbon-Heteroatom Bond Formation by an Ultrasonic Chemical Reaction for Energy Storage Systems / Kim, Hyun-Tak; Shin, HyeonOh; Jeon, In-Yup; Yousaf, Masood; Baik, Jaeyoon; Noejung; Baek, Jong-Beom; Kwon, Tae-Hyuk / 2017-12 • JOURNAL OF THE AMERICAN CHEMICAL SOCIETY / Endoplasmic Reticulum-Localized Iridium(III) Complexes as Efficient Photodynamic Therapy Agents via Protein Modifications / Nam, Jung Seung; Kang, Myeong-Gyun; Kang, Juhye; Park, Sun-Young; Lee, Shin Jung C; Kim, Hyun-Tak; Seo, Jeong Kon; Kwon, Oh Hoon; Lim, Mi Hee; Rhee, Hyun-Woo; Kwon, Tae-Hyuk / 2016-08

180

Bioorganic and Chembio Lab 생유기화학 및 화학생물학 연구실

As a chemical biology research group, our goal is to understand complex biological systems at the molecular level using tools of synthetic chemistry. For this, we design and synthesize novel molecular tools, ranging from small molecules to peptides and modified proteins, in order to provide unique and innovative solutions to important biological problems. In this respect, our research program has three “elements” – synthetic chemistry, molecular design, and biological applications. In our group, they are synergist cally integrated for innovative chemical biology research. 우리 연구실의 목표는 유기합성화학과 화학생물

기정민

_Jung-Min Kee

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 901-6 Lab : Bldg. 108 Rm. 908 Tel : +82-52-217-5427 E-mail : jmkee@unist.ac.kr https://sites.google.com/site/jmkeelab/

학(chemical biology)의 도구를 이용하여 생물학 적 시스템을 분자적 수준에서 이해하는 것입니 다. 이를 위해, 저분자 물질, 펩타이드, 합성단백 질에 이르는 다양한 새로운 분자 도구를 설계하 고 합성하며, 이러한 도구들을 이용하여 생물학

Curriculum Vitae

해답을 제시하고, 궁극적으로 차세대 항암제, 항

· 2014 - Present : Assistant & Associate Professor, Department of Chemistry · 2008 - 2014 : Postdoctoral Fellow, The Rockefeller University and Princeton University

생제 개발의 기반을 마련하고자 합니다. 이러한 측면에서, 우리 연구실에서는 유기합성화학, 분 자 설계, 그리고 생물학적 응용이라는 3가지의 요소가 결합된 융합 연구를 진행하고 있습니다.

Academic Credential

Major research field

Desired field of research

Chemical Biology, Drug Discovery, Kinase, Phosphatase, Chemical roteomics

Novel antibiotics, Drug resistance, Anticancer, Bioenergy

화학생물학, 신약개발, 인산화효소, 탈인산화효소, 화학단백체학

차세대 항생제, 약물저항성, 항암제, 바이오에너지

Research Keywords and Topics • Discovery and characterization of novel protein kinases and phosphatases • Chemical proteomics • Novel antibiotics against drug-resistant bacteria

Research Publications (selected) • Chem. Commun. / Distinct Phosphorylation and Dephosphorylation Dynamics of Protein Arginine Kinases Revealed by Fluorescent Activity Probes / Jung, H.; Choi, Y.; Lee, D.; Seo, J. K.; Kee, J.-M.* / 2019-07 • J. Am. Chem. Soc. / A Phosphohistidine Proteomics Strategy Based on Elucidation of a Unique Gas-phase Phosphopeptide Fragmentation Mechanism / Oslund, R. C.; Kee, J.-M.; Anthony D. Couvillon, A. D.; Bhatia, V. N.; Perlman, D. H.; Muir, T. W.* (co-first authors) / 2014-09 • Nature Chemical Biology / A Pan-specific Antibody for Direct Detection of Protein Histidine Phosphorylation / Kee, J.-M.; Oslund, R. C.; Perlman, D. H.; Muir, T. W.* / 2013-07

· 2008 : Ph. D. in Organic Chemistry, Stanford University · 1998 : B.S. (summa cum laude), KAIST, Korea

Awards/Honors/Memberships · 2019 : Selected as ChemBioTalents by ChemBioChem journal · 2017 : POSCO Chung-Am Science Fellow · 2015 : President’s Outstanding Teaching Award, UNIST · 2009 - 2011 : Damon Runyon Postdoctoral Fellow · 2004 - 2005 : Eli Lilly Graduate Fellowship

Patents (selected) • U.S. Patent 10,351,581 / Phosphohistidine Mimetics and Antibodies to Same / issued on July 16th, 2019 • U.S. Patent 9,765,154 / Phosphohistidine Analogs / issued on September 19th, 2017 • U.S. Patent 8,536,378 / Prostratin and Structural or Functional Analogs Thereof / issued on September 17, 2013

College of Natural Sciences

181

Department of Chemistry

의 중요한 문제들에 대해 창의적이고 혁신적인

Polymer & Organic Semiconductor Lab 고분자/유기 반도체 연구실

김봉수

_BongSoo Kim

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 901-7 Lab : Bldg. 108 Rm. 906 Tel : +82-52-217-3197 E-mail : bongsoo@unist.ac.kr http://chemistry.unist.ac.kr/faculty/kimbongsoo/

Conjugated polymers and organic materials are highly interesting for future optoelectronic applications including organic solar cells, organic transistors, organic thermoelectrics, organic photodiodes, quantum dot light emitting diodes, organic light emitting diodes, and molecular electronics. We design and synthesize new polymer/organic semiconducting materials to obtain desirable optical and electronic properties. More specifically, molecular energy level, bandgap, carrier mobility, crystallinity, and film morphology are controlled by developing new conjugated molecular backbone and introducing functional groups. Additionally, device engineering is being conducted to improve electrical performance.

Curriculum Vitae · 2018 - Present : Associate Professor Department of Chemistry Ulsan National Institute of Science and Technology (UNIST), Ulsan Research Areas : Organic Photovoltaics and Organic Electronics · 2017 - 2018 : Associate Professor · 2015 - 2017 : Assistant Professor Department of Science Education Ewha Womans University, Seoul Research Areas : Organic Photovoltaics and Organic Electronics

Academic Credential · 2003 - 2008 : Ph.D. in Materials Chemistry, University of Minnesota, Twin Cities, MN, USA · 2000 - 2002 : M.S. Organic/Polymer Chemistry, Korea University, Seoul, Republic of Korea · 1993 - 2000 : B.S. Chemistry, Korea University, Seoul, Republic of Korea

Awards/Honors/Memberships · 2018 : Best Researcher Award from Ewha Womans University · 2018 : Grant for Research Excellency from Ewha Womans University · 2017 : Grant for Research Excellency from Ewha Womans University · 2017 : Early Promotion from Assistant Professor to Associate Professor in Ewha Womans University

182

Major research field organic solar cells, organic transistors, organic thermoelectrics, quantum dot light emitting diodes, and molecular electronics

Desired field of research organic photodiodes, organic light emitting diodes

Research Keywords and Topics • Polymer/organic semiconducting materials, conjugated polymers and organic materials, and Electrical device engineering. • Control of molecular energy level, bandgap, carrier mobility, crystallinity, and film morphology. • Organic solar cells, organic transistors, organic thermoelectrics, organic photodiodes, quantum dot light emitting diodes, organic light emitting diodes, and molecular electronics.

Research Publications (selected) • Nano Energy / Influence of 3D Morphology on the Performance of All-Polymer Solar Cells Processed Using Environmentally Benign Nonhalogenated Solvents / Jung, H.; Jung, A.; Jin, S.-M.; Kim, S.; Heo, H.; Nguyen,HVT; Kim, M. J.; Ahn, P.; Kim, M. H.; Lee, Y.; Lee, K.-K.; Cho, J. H.; Lee, E* ; Kim, B.* / 2020-07 • Nature Communications / Universal Three-Dimensional Crosslinker for AllPhotopatterned Electronics / Min, H.; Kang, B.; Shin, Y. S.; Kim, B.*; Lee, S. W.*;Cho, J. H.* . / 2020-03 • Science / Electrical Resistance of Long Conjugated Molecular Wires / S. H. Choi; B. Kim, and Frisbie, C. D.* / 2008-06

Ultrafast 2D IR Spectroscopy Laboratory 초고속이차원적외선분광학 연구실

김영삼

_Yungsam Kim

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 801-9 Lab : Bldg. 108 Rm. 803 Tel : +82-52-217-2530 E-mail : kimys@unist.ac.kr https://kim2dir.unist.ac.kr/

Curriculum Vitae · 2010 - Present : Assistant and Associate Professor, Department of Chemistry, Ulsan National Institute of Science and Technology, Korea · 2006 - 2010 : Postdoctoral researcher, Department of Chemistry, University of Pennsylvania, Advisor: Robin M. Hochstrasser

Academic Credential

Major research field Development of new experimental method applicable to diverse types of sample, equilibrium and non-equilibrium 2D IR spectroscopy, H-bond dynamics

Desired field of research Structural and dynamics of Display materials an the electronic ground and excited states

Research Keywords and Topics • Structure and dynamics of M2 proton channel of Influenza A virus • Study of the Interaction between Hofmeister series metal ions and peptides • Structure and dynamics of MOF frame and molecules captured in MOFs • Structural and dynamics of Display materials an the electronic ground and excited states.

· 2005 : Ph. D. in Chemistry, University of Pennsylvania, Advisor : Robin M. Hochstrasser · 2000 : M.S. in Chemistry, Seoul National University, Advisor : Seong Keun Kim · 1998 : B. S. in Chemistry, Seoul National University

Awards/Honors/Memberships · Excellent Young Investigator Grant : 2011.05 ~ 2016.04, ₩1,000,000,000 (NRF Korea, NRF-2011-0015061) · Member of KCS and ACS

Research Publications (selected) • Journal of Physical Chemistry A / Scattering Elimination of Heterodyne-Detected 2D IR Spectra Using Choppers and Shutters / J. G. Seol†, H. Kwon†, G. Y. Jin, J. Moon, C. Yi, and Y. S. Kim* / 2019-12 • Journal of Physical Chemistry Letters / Interconverting Hydrogen-Bonding and Weak n → π* Interactions in Aqueous Solution: A Direct Spectroscopic Evidence / P. Deb†, G. Y. Jin†, S. K. Singh, J. Moon, H. Kwon, A. Das*, S. Bagchi*, and Y. S. Kim*, / 2018-09 • Journal of Physical Chemistry A / Phase-Resolved Heterodyne-Detected Transient Grating Enhances the Capabilities of 2D IR Echo Spectroscopy / G. Y. Jin and Y. S. Kim* / 2017-02

Patents (selected) • 헤테로다인 방식의 이차원 적외선 분광장치 및 이를 이용한 분광방법 / 김영삼, 진근영, 설진규, 권 혜진, 문주란, 이채령 / 10-2158203 / 2020

College of Natural Sciences

183

Department of Chemistry

Our research focuses on developing two-dimensional infrared (2D IR) spectroscopy and its application to understanding the structure and (fast) dynamics of diverse targets ranging from small molecules to material-based macromolecular complexes. Some of our research topics are: 1. Developing advanced data analysis methods to interpret the complicated dynamics of molecular systems in the presence of fast dynamics including chemical exchange, spectral diffusion, and energy transfer 2. Understanding fast protein-solvent (water) interaction mainly mediated by H-bond dynamics 3. Improving the sensitivity of 2D IR spectrometer by designing advanced experimental equipment to obtain high-quality 2D IR spectra for low absorption samples 4. Developing new 2D IR experimental methods suitable for studying solid-phase molecular complexes with rough surfaces, such as metal-organic frameworks (MOFs) and perovskite films, by eliminating spectral contamination by scattered light 5. Making 2D IR spectroscopy to be widely used for general purposes.

Frontier Energy Storage Material Lab 차세대 에너지 저장재료 연구실

나명수

_Myoungsoo Lah

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 701-6 Lab : Bldg. 108 Rm. 705 Tel : +82-52-217-2931 E-mail : mslah@unist.ac.kr http://chemistry.unist.ac.kr/research/m slah.html

Lah's group is interested in understanding inorganicorganic hybrid materials based on their structural and topological characteristics and is involved in the development of functional porous materials by design for their application in hydrogen and methane storage, CO2 capture, catalysis, and delivery. 구조적 및 위상적 특성을 기반으로 무기-유기 하이브리드 재 료를 이해하는 데 관심이 있으며 수소 및 메탄 저장, CO2 포집, 촉매 작용 및 전달에 적용하기 위한 설계를 통한 기능성 다공 성 재료 개발에 참여하고 있습니다.

Curriculum Vitae · 2014 - Present : Professor, Department of Chemistry, Ulsan National Institute of Science and Technology, Ulsan, Korea · 2010 - 2014 : Professor, Interdisciplinary School of Green Energy

Academic Credential · 1986 - 1991 : Ph. D., University of Michigan, Ann Arbor (Chemistry, Prof. V. L. Pecoraro) · 1982 - 1984 : M. S., Chemistry, Seoul National University, Seoul, Korea (Chemistry, Prof. Whanchul Shin) · 1978 - 1982 : B. S., Chemistry, Seoul National University, Seoul, Korea

Activities · 2018 - Present : President, Korean Crystallographic Association · 2017 - Present : Chief Review Board, National Research Foundation of Korea · 2016 - Present : Director, Science Research Center, Ulsan National University of Science and Technology · 2016 - 2017 : Vice President, Korean Chemical Society · 2015 - 2018 : Vice President, Korean Crystallographic Association · 2014 - 2017 : Review Board, National Science Foundation · 2010 -2015 : Director, Basic Research Laboratory, UNIST

Awards · 2009 : KCS/Sigma-Aldrich Excellent Chemist Award · 2008 : Best Researcher Award, Hanyang University · 2007 : Best Researcher Award, Hanyang University · 2007 : KCS Inorganic Chemistry Division Award for Excellent Research

184

Major research field Metal-Organic Frameworks (MOFs), Crystal Engineering, Supramolecular coordination chemistry: self-assembly of nano-sized metal-organic clusters

Research Keywords and Topics • Metal-Organic Frameworks (MOFs) + Gas storage and separation using MOFs + MOF design based on metal-organic macrocycles and metal-organic polyhedra as supramolecular building blocks • Crystal Engineering + Design of coordination networks using a node and linker approach + Design of coordination networks using a supramolecular building block approach + Postsynthetic modification of metal-organic frameworks • Supramolecular coordination chemistry: self-assembly of nano-sized metal-organic clusters + Syntheses of metal-organic macrocycles using multidentate ditopic linker ligands: the control of the stereochemistry, the nuclearity and size of the metallamacrocycles + Syntheses of metal-organic polyhedra using a face- or edge-directed corner linkage strategy

Research Publications (selected) • Chem. Sci. / Symmetry-guided syntheses of mixed-linker Zr metal–organic frameworks with precise linker locations / Hyehyun Kim, Dongwook Kim, Dohyun Moon, Yong Nam Choi, Seung Bin Baek* and Myoung Soo Lah* / 2019-06 • J. Am. Chem. Soc. / Hydrophobic Shielding of Outer Surface : Enhancing the Chemical Stability of Metal–Organic Polyhedra / Jong In Choi, Hyungphil Chun* and Myoung Soo Lah* / 2018-12 • Chem. Mater. / Topology conversions of non-interpenetrated metal-organic frameworks to doubly interpenetrated metal-organic frameworks / Seok Jeong†, Dongwook Kim†, Jeongin Park†, Sunyoung Shin†, Hyehyun Kim†, Gyoung Hwa Jeong†, Dohyun Moon‡, Hoi Ri Moon†Orcid, and Myoung Soo Lah*† / 2017-04

Functional Inorganic Nanomaterials Lab for Energy(FINELab) 기능성무기재료 연구실

Our research group has focused the efforts on the development of well-tailored energy materials through molecular design based on the knowledge of inorganic chemistry. The main subject of our research is coordination compounds, particularly metal–organic frameworks (MOFs). MOFs are well-ordered crystalline solids, mostly composed of metal–oxygen coordinating clusters as the secondary building units (SBUs) and aromatic organic linkers. Large surface areas and porosities as well as a high degree of tunability for both the organic and inorganic building blocks of their structures enable the potential use of MOFs in diverse applications including gas storage and separation, membranes, catalysis, sensing, and biomedical imaging. The combination of tunability and modularity with diverse metal building blocks and organic linkers has generated a myriad of MOFs, thus allowing their applications in diverse fields. Among the interesting characteristics of MOFs, we are focusing on flexible MOFs as our research object to understand and develop functional materials because they show distinctive properties that cannot be achieved with rigid MOFs.

Research Keywords and Topics • Metal-organic framework, isotope separation, crystal engineering, gas separation and storage In Korean

Research Publications (selected) • Nature Commun. / Computer-aided Discovery of Connected Metal-Organic Frameworks / Ohmin Kwon, Jin Yeong Kim, Sungbin Park, Jae Hwa Lee, Junsu Ha, Hyunsoo Park, Hoi Ri Moon,* and Jihan Kim* / 2019-08 • J. Am. Chem. Soc. / Exploiting Diffusion Barrier and Chemical affinity of Metal-Organic Frameworks for Efficient Hydrogen Isotope Separation / Jin Yeong Kim, Rafael Balderas-Xicohtencatl, Linda Zhang, Sung Gu Kang, Michael Hirscher*, Hyunchul Oh*, and Hoi Ri Moon* / 2017-10 • J. Am. Chem. Soc. / Nanoporous Metal Oxides with Tunable and Nanocrystalline Frameworks via Conversion of Metal–Organic Frameworks / Tae Kyung Kim, Kyung Joo Lee, Jae Yeong Cheon, Jae Hwa Lee, Sang Hoon Joo*, and Hoi Ri Moon* / 2013-06

Patents (selected) • 플렉시블 금속 유기 골격체를 이용한 동위원소 혼합물의 분리 방법(METHOD FOR SEPARATING

_Hoiri Moon

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 701-5 Lab : Bldg. 108 Rm. 703 Tel : +82-52-217-2928 E-mail : hoirimoon@unist.ac.kr http://hoirimoon.unist.ac.kr/

Curriculum Vitae · 2020 - Present : UNIST, Professor · 2014 - 2020 : UNIST, Associate Professor · 2010 - 2014 : UNIST, Assistant Professor · 2008 - 2010 : Lawrence Berkeley National Laboratory Postdoctoral fellow

Academic Credential · 2007 : Seoul National University, Korea Ph.D. Inorganic Chemistry · 2003 : Seoul National University, Korea M.S. Inorganic Chemistry · 2001 : Ewha Womans University, Korea B.S. Chemistry

Awards/Honors/Memberships · 2020 : Elected Member of Young Korean Academy of Science and Technology (Y-KAST), KAST · 2019 : ChemComm Emerging Investigator, Royal Chemical Society (RSC) · 2017 : Young Inorganic Chemist Award, Korean Chemical Society (KCS) Inorganic Chemistry Division · 2016 : Outstanding Teaching Award, UNIST

ISOTOPE MIXTURE USING FLEXIBLE METAL ORGANIC FRAMEWORKS) / 오현철, 김진영, 문회리 / 2019 • 동위 원소 분리를 위한 금속-유기 골격체, 동위 원소 분리 시스템, 동위 원소 분리 방법 및 제조방법 (METAL-ORGANIC FRAMEWORKS FOR ISOTOPE SEPARATION, SYSTEM AND METHOD FOR ISOTOPE SEPARATION, AND METHOD OF PREPARATION) / 오현철, 김진영, 문회리 / 2020

College of Natural Sciences

185

Department of Chemistry

Major research field Coordination chemistry, porous materials, nanoparticles

문회리

Single-molecule Biophysical Chemistry Lab 단분자 생물리화학 연구실

민두영

_Duyoung Min

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 801-10 Lab : Bldg. 108 Rm. 810 Tel : +82-52-217-2675 E-mail : dymin@unist.ac.kr http://dymin.unist.ac.kr/

We conduct interdisciplinary researches potentially contributing to disease treatment by exploiting single-molecule methods. Especially, the main research directions are to understand misfolding disease mechanisms of membrane proteins, and to develop unique single-molecule techniques tackling their underlying biophysical chemistry. Membrane proteins are the major drug target accounting for ~40% of drugs, so they are medically very important protein class. However, their scientific progress is relatively sluggish due to many technical challenges. The vision of our laboratory is, by overcoming the challenges, to better understand the fundamental membrane protein science and to develop practical methodologies applicable to medicine. 본 연구실에서는 단분자 기술을 이용하여 궁극적으로 질병치료에 기여할 수 있는 연구를 수행합니 다. 특별히 생체막 단백질(이하, 막단백질)의 잘못접힘 현상으로 인한 질병 기작 연구와 막단백질에 관한 중요한 생물리화학적 메커니즘을 이해하는 다양한 단분자 기법의 개발이 주요 연구 방향입니 다. 막단백질은 약물의 약 40%가 타겟으로 할 정도로 의학적으로 매우 중요한 단백질 군에 속합니

Curriculum Vitae

다. 하지만 여러 기술적인 어려움으로 인해 연구의 진전이 상대적으로 미미한 수준에 머물고 있습니

· 2019 - Present : Assistant Professor, Dept. of Chemistry, UNIST · 2015 - 2019 : Postdoc, Dept. of Chemistry & Biochemistry, UCLA · 2014 - 2015 : Postdoc, Dept. of Physics, KAIST

다. 본 연구실은 이러한 어려움을 극복하여 막단백질 과학의 근본적인 이해와 의학적으로 적용가능 한 방법론 개발을 연구실의 비전으로 삼고 있습니다.

Academic Credential · 2014 : Ph.D. in Biophysics, KAIST · 2008 : B.S. in Electronics, Hanyang University

Awards/Honors/Memberships · 2018 : UCLA Chancellor’s Award for Postdoctoral Research, UCLA · 2018 : Postdoctoral Research Award, Dept. of Chemistry and Biochemistry, UCLA · 2016 : Postdoctoral Overseas Training Grant, National Research Foundation of Korea · 2015 : Outstanding Poster Award, Gordon Research Conference · 2008 : Dean’s Prize Award for the Valedictorian of the College of Engineering, Hanyang University

Major research field Membrane Protein Biophysics & Biochemistry, Single-molecule Spectroscopy, Bioanalytical Chemistry, Bioconjugation Chemistry

Research Keywords and Topics • Membrane Protein Biophysics & Biochemistry 막단백질 생물물리 및 생화학

• Single-molecule Spectroscopy 단분자 분광학

• Bioanalytical Chemistry 생분석화학

• Bioconjugation Chemistry 생교접화학

Research Publications (selected) • Science / Watching helical membrane proteins fold reveals a common N- to C-terminal folding pathway / Choi, H.-K.*, Min, D.* et al. / 2019-11 • Nature Chemical Biology / Unfolding of a ClC chloride transporter retains memory of its evolutionary history / Min, D. et al. / 2018-05 • Nature Chemical Biology / Mapping the energy landscape for second-stage folding of a single membrane protein / Min, D. et al. / 2015-10

186

Theoretical/Computational Chemistry Group for Excited State Phenomena 들뜬 상태 현상 이론/전산화학 연구실

The electron-nuclear correlation plays a major role in dynamial processes like a chemical reaction with an extra energy and the light-matter interaction. Such cases are called as excited state phenomena which are actually ubiquitous in nature like vision process and photosynthesis. In our research group, we are interested in the theoretical/computational description of excited state phenomena and its applications with following questions : (a) How can we describe correlated electron-nuclear motions correctly? (b) How can we deal with chemical reactions in the excited states theoretically? (c) Based on our knowledge, how can we design functional molecular devices such as energy materials, nano-electronic/photonic devices?

민승규

_Seungkyu Min

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 801-8 Lab : Bldg. 108 Rm. 805 Tel : +82-52-217-2918 E-mail : skmin@unist.ac.kr http://skmin.unist.ac.kr

Curriculum Vitae

Major research field

optomechanical molecular machine, display, large-scale atomistic simulations

Research Keywords and Topics • Excited State Dynamics, Photosynthesis, Solarcell, Light-driven molecular machine 들뜬 상태 동역학, 광합성, 태양전지, 광유도 분자 기계 소자

• Development of an algorithm for excited state molecular dynamics 새로운 들뜬 상태 동역학 알고리즘 개발

• Development of an efficient method for excited state electronic structure calculations 효율적인 들뜬 상태 양자 계산법 개발

• Description of chemical reactions with conical intersections/Conical intersection을 포 함하는 화학 반응 묘사

• Design for multi-functional devices 다양한 기능성을 가지는 분자 소자 개발

• Machine learning-based quantum chemical calculation 기계학습 기반 양자 계산

· 2020 - Present : Associate Professor · 2015 - 2020 : Assistant Professor · 2013 - 2015 : Max Planck Institute of Mirostructure Physics, Halle, Germany, Post-doctoral Research Associate · 2011 - 2013 : Pohang University of Science and Technology (POSTECH), Post-doctoral Research Associate

Academic Credential · 2005 - 2011 : Ph. D. Physical Chemistry, Pohang University of Science and Technology · 2005 : B. S. Chemistry, Pohang University of Science and Technology

Awards/Honors/Memberships · 2011 : Best Thesis award in Department of Chemistry, Pohang University of Science and Technology · 2011 : Young Scientist Award

Research Publications (selected) • JOURNAL OF PHYSICAL CHEMISTRY LETTERS / Surface Hopping Dynamics beyond Nonadiabatic Couplings for Quantum Coherence / Ha, Jong-Kwon; Lee, In Seong; Min, Seung Kyu / 2018-03 • Phys. Chem. Lett. / Ab Initio Nonadiabatic Dynamics with Coupled Trajectories: A Rigorous Approach to Quantum (De)Coherence / Min, Seung Kyu; Agostini, Federica; Tayernelli, Ivano; Gross, E. K. U. / 2017-07 • PHYSICAL REVIEW LETTERS / Coupled-Trajectory Quantum-Classical Approach to Electronic Decoherence in Nonadiabatic Processes / Min, Seung Kyu; Agostini, Federica; Gross, Eberhard K. U. / 2015-08

College of Natural Sciences

187

Department of Chemistry

quantum chemistry, excited state, molecular dynamics, photochemistry, machine learning

Desired field of research

Advanced Organic Materials Lab 첨단 유기 재료 연구실

박영석

_Youngseok Park

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 901-5 Lab : Bldg. 108 Rm. 907 Tel : +82-52-217-3191 E-mail : youngspark@unist.ac.kr https://sites.google.com/site/youngspa rkunist/

We design, synthesize, and characterize organic materials and seek for their applications in organic electronics. Particularly, we are interested in controlling the frontier molecular orbital energy levels by heteroatom-doping. By bottom-up approach using organic chemistry, we carefully introduce heteroatoms into the molecule and control their positions at atomic level. 우리는 유기 재료를 설계, 합성 및 특성화하고 유기 전자 제 품에 적용 할 수있는 방법을 찾습니다. 특히, 우리는 이종 원 자 도핑을 통해 frontier molecular orbital energy levels을 제 어하는 데 관심이 있습니다. 유기 화학을 사용한 상향식 접 근 방식으로 분자에 헤테로 원자를 조심스럽게 도입하고 원 자 수준에서 위치를 제어합니다.

Curriculum Vitae · 2016 - Present : Ulsan National Institute of Science and Technology (Ulsan, South Korea) : Assistant Professor · 2013 - 2016 : University of California at Irvine (Irvine, CA) : Postdoc. & Research Scientist · 2010 - 2013 : Brookhaven National Laboratory (Upton, NY) : Postdoc · 2002 - 2004 : LG Display (Anyang, South Korea) : Engineer in R&D Center

Academic Credential · 2010 : Columbia University (New York, NY) : Ph.D. in Chemistry · 2000 - 2002 : Korea University (Seoul, South Korea) : M.S. in Organic Chemistry and B.S. in Chemistry

Major research field

Desired field of research

organic synthesis, synthetic methodology

iterative synthesis, monodisperse polymer

Research Keywords and Topics • polycyclic aromatic hydrocarbon • graphene nanoribbon • bottom-up synthesis • heteroatom-doping

Research Publications (selected) • ANGEWANDTE CHEMIE-INTERNATIONAL EDITION / Unveiling 79-year-old ixene and its BN-doped derivative / Pati, Palas Baran; Jin, Eunji; Kim, Yohan; Kim, Yongchul; Mun, Jinhong; Kim, So Jung; Kang, Seok Ju; Choe, Wonyoung; Lee, Geunsik; Shin, Hyung-Joon; Park, Young S. / ANGEWANDTE CHEMIE-INTERNATIONAL EDITION • ANGEWANDTE CHEMIE-INTERNATIONAL EDITION / Synthesis of NitrogenContaining Rubicene and Tetrabenzopentacene Derivatives / Park, Young S.; Dibble, David J.; Kim, Juhwan; Lopez, Robert C.; Vargas, Eriberto; Gorodetsky, Alon A. / 2016-03 • ANGEWANDTE CHEMIE-INTERNATIONAL EDITION / Synthesis of Polybenzoquinolines as Precursors for Nitrogen-Doped Graphene Nanoribbons / Dibble, David J.; Park, Young S.; Mazaheripour, Amir; Umerani, Mehran J.; Ziller, Joseph W.; Gorodetsky, Alon A. / 2015-05

Patents (selected) • Azide Functionalized Poly(3-hexylthiophene) and Method of Forming Same / Y. Qin, R. B. Grubbs, Y. S. Park. / US 8679730 / 2014 • Method for Fabricating In-Plane Switching Mode Liquid Crystal Display Device / H. S. Chung, Y. S. Park. / US 7782414 / 2010

188

Synthetic and Medicinal Chemistry 유기합성 및 의약화학 연구실

Organic molecules are found as key players in many fields from materials to medicine. Our research focuses on the development of new synthetic methods that facilitate the design and synthesis of bioactive compounds and chemical tools for pharmacological studies. The access to compounds with unique and diverse structures enables us to explore their potential as novel therapeutic leads, chemical switches and probes. In this regard, organic synthesis forms the foundation of our approach. Heterocyclic compounds represent an important class of compounds that are found in numerous bioactive natural products, drugs, and molecular probes. We have been engaged in the field of heterocycle synthesis by developing new synthetic methods based on metal catalysis. Also, we are actively engaged in developing strategies and methods to generate novel structures and to evaluate their pharmacological intervention including cancer. Another approach we are undertaking involves rational drug design where the discovery process begins with a hypothesis that the modulation of a target may have therapeutic value. To this end, extensive use of modern discovery tools such as parallel synthesis, computer-aided drug design, x-ray crystallography, and NMR allows us to rapidly identify potential lead compounds and further optimization.

박철민

_Cheolmin Park

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 901-8 Lab : Bldg. 108 Rm. 903, 911 Tel : +82-52-217-2555 E-mail : cmpark@unist.ac.kr https://sites.google.com/site/cmparkla b/home

Curriculum Vitae

Academic Credential

Major research field Organic synthesis, Medicinal chemistry

Research Keywords and Topics • Organic synthesis • Catalysis • Medicinal chemistry

· 1998 : Post-doctoral Fellow, Department of Chemistry, Stanford University, USA · 1995 : Ph.D. Department of Chemistry, Seoul National University, Korea · 1992 : M.S. Department of Chemistry, Seoul National University, Korea · 1989 : B.S. Department of Chemistry, Seoul National University, Korea

Research Publications (selected) • Angew. Chem. Int. Ed. / Electrosynthesis of Dihydropyrano[4,3‐b ]indoles Based on a Double Oxidative [3+3] Cycloaddition / Choi, S; Park, J; Yu, E; Sim, J; Park, CM* / 2020-04 • Nat. Commun. / Alkyne–Alkene [2 + 2] cycloaddition based on visible light photocatalysis / Ha, S; Lee, Y; Kwak, Y; Mishra, A; Yu, E; Ryou, B; Park, CM* / 2020-05 • ChemComm / α-Diazo Oxime Ethers for N-Heterocycle Synthesis / Choi, S; Ha, S; Park, CM* / 2017-05

Patents (selected) • Selective modifying method of nucleotide / Park, CM; Lee, YH; Yu, ES / 2020-03 • Synthesis method of indolopyran derivative and indolopyran derivative synthesized by the same / Park, CM; Choi, SB; Park, JH; Yu, ES; Sim, JW / 2020-03

College of Natural Sciences

189

Department of Chemistry

· 2013 - Present : Associate Professor, Department of Chemistry, UNIST, Korea · 2008 - 2012 : Associate Professor, Division of Chemistry and Biological Chemistry, Nanyang Technological University, Singapore · 2000 - 2008 : Research Investigator, Global Pharmaceutical R&D, Abbott Laboratories (Abbvie), USA · 1998 - 2000 : Research Chemist, Central R&D, DuPont, USA

Lab for Carbon and 2D Materials 탄소 및 이차원 재료 연구실

신현석

_Hyeon Suk Shin

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 101 Rm. 203 Lab : Bldg. 101 Rm. 201 Tel : +82-52-217-2311 E-mail : shin@unist.ac.kr http://lnn.unist.ac.kr

Two-dimensional (2D) materials including graphene, hexagonal boron nitride (h-BN), and transition metal dichlacogenides (TMDs) have been recently receiving interest for both fundamental and technological investigations. My group has been focusing on growth and characterization of various 2D materials and their applications for energy conversion and storage devices. Recently, we are also interested in heterostructures consisting of graphene, TMDs, and h-BN. 저희 연구실은 graphene, h-BN, transition metal dichalcogenides 등 다양한 2차원 소재의 합성 및 물 성을 파악하고 이들의 응용(에너지 및 전자소자) 연구를 진행 중입니다. 이들 물질들의 2차원 소재뿐 만 아니라 다른 결정 구조나 비정질 구조에 대한 연구도 진행 중입니다. 홈페이지를 방문하시면 자 세한 정보들을 보실 수 있습니다.

Curriculum Vitae · 2017 - Present : Professor, UNIST · 2019 - 2020 : Dean of Planning, UNIST · 2018 - 2019 : Dean of Public Relations and International Affairs, UNIST · 2009 - 2018 : Director, UNIST Central Research Facilities · 2014 - 2016 : Dean of Planning, UNIST · 2012 - 2017 : Associate Professor, UNIST · 2008 - 2012 : Assistant Professor, UNIST · 2007 - 2008 : Research Professor, POSTECH · 2005 - 2006 : Postdoctoral Researcher, University of Cambridge, UK

Major research field

Academic Credential · 1998 - 2002 : POSTECH, Ph.D. in Chemistry · 1996 - 1998 : POSTECH, M.S. in Chemistry · 1992 - 1996 : Kyungpook National University, B.S. in Chemistry Education

Awards/Honors/Memberships · 2020 : Basic Scientist of the Year (올해의 기초연구자, 기초연구진흥 포상), Ministry of Science and ICT · 2015 : Creative Knowledge Award (지식창조대상), Ministry of Science, ICT, and Future Planning · 2015 : Outstanding researcher award (우수연구자상), Materials Chemistry Division, KCS · 2014 : ‘Faculty of the Year’ Award, UNIST · 2012 : Minister Award, Ministry of Knowledge Economy, Korea (March 22th) · 2004 : 2004 KOSEF Fellowship

Two-dimensional Materials, Graphene, Transition Metal Dichalcogenides, h-BN, Heterostructure

Research Keywords and Topics • Synthesis and application of 2D nanomaterials including graphene, h-BN, and TMDs. • Novel 3D nanostructures based on 2D nanomaterials • Preparation and characterization of various 2D heterostructures

Research Publications (selected) • NATURE / Ultralow-dielectric-constant amorphous boron nitride / 2020-06 • NATURE COMMUNICATIONS / Blue emission at atomically sharp 1D heterojunctions between graphene and h-BN / 2020-10 • NATURE COMMUNICATIONS / Planar and van der Waals heterostructures for vertical tunnelling single electron transistors / 2019-02

Patents (selected) • [국내] 그래핀 및 그래핀 파생 구조를 사용한 단원자 막 연료전지로의 형성 / 신현석, 김태영, 윤성 인, 김광우, 서동준 / 10-2019-0018106 / 2019-02

• [국내] 초분광 촬영 장치 및 이를 포함하는 시스템 / 신현석, 손흥선 / 10-2018-0097694 / 2018-08 • [국내] 그래핀 양자점 자체 발광 구조체, 이의 제조방법 및 이를 포함하는 발광 소자 / 신현석, 김광 우, 전석우, 박민수 / 10-2018-0003519 / 2018-01

190

Organic Soft Electronics and System Lab 유기 연성 전자소자 및 시스템 연구실

Our research group is mostly focusing on developing soft electronic devices based on organic semiconductors. Soft (flexible/stretchable) electronics are highly demanded a wide range of applications that cannot be easily achieved from traditional rigid/brittle electronics such as eskin, wearable electronics, bio-implantable devices, nerve interfaces, advanced healthcare system, etc. We mainly focus on developing novel soft materials by understanding the chemistry of materials for the facile fabrication process unlike the complicated process required for the stretchability of intrinsically non-stretchable materials. Besides, we are spending much effort into pursuing the realization of various deformable electronics and innovative applications through interdisciplinary studies.

심교승

_Kyoseung Sim

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 801-5 Lab : Bldg. 108 Rm. 813 Tel : +82-52-217-2221 E-mail : kyos@unist.ac.kr https://kyosunist.weebly.com/

본 연구실은 유기반도체 기 반의 연성(軟性, soft) 전자소 자에 관한 연구에 중점을 두 고 있습니다. 연성 전자소자 란 구부릴 수 있는 특성뿐만

Curriculum Vitae · 2020 - Present : Assistant Professor, UNIST · 2018 - 2020 : Postdoctral Researcher, University of Houston · 2013 - 2014 : Researcher, POSTECH · 2010 - 2013 : Researcher, DGIST

특성을 유지할 수 있는 전자 소자로서 전자 피부, 웨어러 블 기기, 생체 이식형 장치, 신경 인터페이스, 고급 의료 시스템 등과 같은 다양하고 광범위한 미래지향적인 응용분야에 적용이 가능합니다. 주로 화학적 지식을 기 반으로 새로운 연성 재료를 개발하고 이를 응용함으로써 기존의 비신축성 재료에 신축성을 부여하기 위해 이용되었던 복잡한 방식을 거치지 않고 효율적인 공정을 가능하게 하는 것을 목적으로 두고 있습니다. 또한, 학제 간 연구를 통해 다양한 특성을 갖는 전자 소자 및 혁신적인 응용 기기의 실현을 추구하기 위해 많은 노 력을 기울이고 있습니다.

Major research field Stretchable polymeric semiconductor, Fully soft transistor, High speed operational soft integrated circuit, Soft artificial synaptic devices

Desired field of research Soft light emitting devices, Soft energy harvester, Human-Machine interface with soft robot, Complex soft sensing system, Artificial skin electronics, Soft neuromorphic electronics

Research Keywords and Topics • Soft electronics, Organic semiconductor, Stretchable electronics, Synaptic device, Materials chemistry, Functional materials, Wearable electronics, E-skin 연성 전자소자, 유기반도체, 신축성 소자, 시냅스 소자, 재료화학, 기능성 소재, 웨어러블 전자기기, 전자피부

Academic Credential · 2018 : Ph.D. Materials Science and Engineering, University of Houston · 2010 : M.S. Physical Chemistry, Konkuk University · 2008 : B.S. Chemistry, Konkuk University

Awards/Honors/Memberships · 2019 : Best Dissertation Award in Cullen College of Engineering, UH · 2018 : Best Dissertation Award in MSE, UH · 2018 : Best poster award in 1st workshop of Materials Today · 2017 : Best poster award in ASME IMECE

Research Publications (selected) • Nature Electronics / Three-dimensional curvy electronics created using conformal additive stamp printing / Kyoseung Sim, Song Chen, Zhengwei Li, Zhoulyu Rao, Jingshen Liu, Yuntao Lu, Seonmin Jang, Faheem Ershad, Ji Chen, Jianliang Xiao, Cunjiang Yu / 2019-10 • Science Advances / Metal Oxide Semiconductor Nanomembrane based Soft Unnoticeable Multifunctional Electronics for Wearable Human-Machine Interfaces / Kyoseung Sim, Zhoulyu Rao, Zhanan Zou, Faheem Ershad, Jianming Lei, Anish Thukral, Jie Chen, Qing-an Huang, Jianliang Xiao, Cunjiang Yu / 2019-08 • Science Advances / Fully Rubbery Integrated Electronics from High-Mobility Intrinsically Stretchable Semiconductors / Kyoseung Sim, Zhoulyu Rao, Haejin Kim, Anish Thukral, Hyunseok Shim, Changliang Peng and Cunjiang Yu / 2019-02

College of Natural Sciences

191

Department of Chemistry

아니라 신축성도 가지고 있 어 다양한 변형에도 전기적

Supramolecular Nano-Materials Lab 초분자나노재료연구실

유자형

_Ja Hyoung Ryu

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 901-9 Lab : Bldg. 108 Rm. 904 Tel : +82-52-217-2548 E-mail : jhryu@unist.ac.kr http://jhryu.unist.ac.kr

The research theme of the Ryu research group is the development of new disease therapy using supramolecular approach (Supramolecular Therapeutics). The Ryu group have developed a new anti-cancer therapy, that intracellular (supramolecular) polymerization inside the mitochondria induced the dysfunction of mitochondria by disrupting the membrane, resulting in the selective apoptosis of cancer cells. In addition, the Ryu group have developed a facile synthetic method for highly stable protein-modified hollow nanoparticles to enhance in vivo efficacy and target ability to caner. 초분자나노재료연구실에서는 유기합성을 통해 자극에 반응하는 유기분자, 고분자를 이용한 항암 약 물전달, 암세포 센싱, 초분자 자기조립현상, 합성단백질 구조 및 세포내 기능을 연구하고 있다. 잘 조 립된 나노 구조와 생체-나노물질의 개발을 통하여 세포 역활을 통제하거나 뛰어난 유-무기 하이브 리드 물질을 이용하여 나노 생명 기술을 발전시키는 것을 목표로 하고 있다.

Curriculum Vitae · 2016 - Present : Associate Professor, UNIST · 2012 - 2016 : Assistant Professor, UNIST · 2015 - Present : Associate Editor, RSC Adv. · 2011 - 2012 : Assistant Research Professor, Seoul National University, Chemistry · 2007 - 2011 : Postdoctoral Fellow, University of Massachusetts, Amherst, Chemistry/Polymer chemistry · 2006 - 2007 : Postdoctoral Fellow, Yonsei University, Chemistry

Academic Credential · 2006 : Ph. D. Yonsei University, Chemistry · 2002 : M. S. Yonsei University, Chemistry · 2000 : B. S. Yonsei University, Chemistry

Awards/Honors/Memberships · 2019 : Rising-Star Distinguished Professor, UNIST · 2011 : Presidential Post doc Fellowship, National Research Foundation of Korea · 2007 : Post-Doctoral Fellow, The Korean Research Foundation · Member of American Chemical Society · Member of Korean Chemical Society · Member of Polymer Society of Korea · 2006 : Award for Excellent Ph. D. Thesis, The Korean Chemical Society · 2006 : Outstanding Thesis Award, The Polymer Society of Korea

192

Desired field of research

Major research field 초분자 치료제 (Supramolecular Therapy), 나노의약 (Nanomedicine), 노화 제어

자기조립을 이용한 질병 치료 분야 (항암, 노화제어 등)

Research Keywords • Supramolecular Assembly, Synthetic Peptide Assembly, Cancer Drug Delivery (초분자 조립, 펩타이드 조립, 암치료를 위한 약물전달체 개발)

Research Topics • Nanomedicine for cancer therapy (암치료를 위한 나노메디신 개발) • Bioactive Supramolecular Assembly (생체반응성 초분자조립 연구) • Multifunctional Polymers for Lithium Ion Batteries (리튬이온전지를 위한 다기능성 폴리머 개발)

Research Publications (selected) • NATURE COMMUNICATIONS / Cloaking nanoparticles with protein corona shield for targeted drug delivery / 2018-10 • CHEMICAL SCIENCE / Intra-mitochondrial biomineralization for inducing apoptosis of cancer cells / 2018-03 • NATURE COMMUNICATIONS / Mitochondria localization induced self-assembly of peptide amphiphiles for cellular dysfunction / 2017-06

Patents (selected) • Conjugate Including Peptide Molecule Capable of Self-Assembly in Cell Organelle and Pharmaceutical Composition for Preventing or Treating Cancer Including Conjugate” US Patent Application Number 15/813,646

Computational Research on Electronic Structure and Transport in Condensed Materials 응집물질 전자구조 및 전자전도 연구실

Understanding electron transport in bulk materials and across their interface is very important to industrial applications such as energy conversion and electronic devices. Phenomena occurring in the microscopic world are hardly predicted by our intuition due to probabilistic description by quantum mechanics. Our main research interest is to predict various properties of materials by using the state-of-the-art simulation tools and to develop advanced software tools for overcoming limitations of existing codes. 벌크 물질과 그 인터페이스에서 전자 수송을 이해하는 것은 에너지 변환 및 전자 장치와 같은 산업 응용 분야에 매우 중요합니다. 미시 세계에서 발생하는 현상은 양자 역학에 의한 확률론적 설명으로 인해 우리의 직감으로 거의 예측되지 않습니다. 우리의 주요 연구 관심사는 최첨단 시뮬레이션 도구

이근식

_Geunsik Lee

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 801-6 Lab : Bldg. 108 Rm. 804 Tel : +82-52-217-5428 E-mail : gslee@unist.ac.kr https://sites.google.com/view/gslee201 7/home

를 사용하여 재료의 다양한 속성을 예측하고 기존 코드의 한계를 극복하기 위한 새로운 소프트웨어 도구를 개발하는 것입니다.

Curriculum Vitae

Academic Credential

Research Keywords and Topics • 2D materials, magnetic ordering, strongly correlated system, non-equilibrium electron transport, water splitting, perovskite solar cell

· 2007 : Ph.D, Physics, Pohang University of Science and Technology (POSTECH) · 2001 : MS, Physics, POSTECH · 1999 : BS, Physics, POSTECH

Research Publications (selected) • NATURE COMMUNICATIONS / Multiferroicity in atomic van der Waals heterostructures / Gong, C; Kim, EM; Wang, Y; Lee, Geunsik; Zhang, X / 2019-06 • ACS ENERGY LETTERS / Rashba-Dresselhaus Effect in Inorganic/Organic Lead Iodide Perovskite Interfaces / Myung, Chang Woo; Javaid, Saqid; Kim, Kwang S.; Lee, Geunsik / 2018-06 • PHYSICAL REVIEW LETTERS / Orbital Selective Fermi Surface Shifts and Mechanism of High Tc Superconductivity in Correlated AFeAs (A=Li, Na) / Lee, Geunsik; Ji, Hyo Seok; Kim, Yeongkwan; Kim, Changyoung; Haule, Kristjan; Kotliar, Gabriel; Lee, Bumsung; Khim, Seunghyun; Kim, Kee Hoon; Kim, Kwang S.; Kim, Ki-Seok; Shim, Ji Hoon / 2012-10

College of Natural Sciences

193

Department of Chemistry

· 2019 - Present : Associate Professor, UNIST · 2014 - 2018 : Assistant Professor, UNIST · 2014 : Research Scientist, Pohang Accelerator Laboratory, Pohang, Korea · 2010 - 2013 : Research Assistant Professor, POSTECH, Chemistry, Korea · 2007 - 2009 : Postdoctor, University of Texas at Dallas, TX, USA

Molecular motion control lab 분자 운동 제어 실험실

조범석

_Bumsuk Zhao

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 414 Lab : Bldg. 103 Rm. 401-2 Tel : +82-52-217-5426 E-mail : zhao@unist.ac.kr http://amol.unist.ac.kr/

초기 단계의 양자역학의 발전에 미친 크나큰 효과를 준 것뿐만 아니라, Stern-Garlach의 원자와 자기 장 간 상호작용에 대한 연구는 NMR(nuclear magnetic resonance)과 MRI(magnetic resonance imaging)의 개발의 초석이 되었습니다. 이러한 전형적인 예에서처럼 입자와 장 사이 상호작용에 관한 연 구는 전반적인 과학 분야에서 매우 활발하게 이루어져 왔습니다. 저희 연구그룹에서는 비공명 레이 저장, 또는 그와 정전기장과의 조합과 같이 다양한 장과 분자 사이의 상호작용을 실험적으로 연구하 고 그 결과를 분자 분리 등에 응용하려 하고 있습니다. 분자와 여러 가지 장 사이의 상호작용에서 생 기는 상태에 따라 달라지는 힘은 입체이성질체 분리나 그들의 양자상태를 공간 상에서 선택하는 데 활용될 것입니다. 이 외에도 스침 입사 원자광학에 대한 연구가 베를린에 있는 Fritz Haber 연구소와 의 공동연구를 통하여 진행되고 있습니다.

In addition to the great impact on the progress of quantum mechanics at its early stage, Stern-Gerlachexperiment, the study on interaction of atoms with magnetic field, has lead to the invention of nuclear magnetic resonance and magnetic resonance imaging. As this classical example, the investigation of particle-field interaction has been beneficial to whole science area. Main topic of our group is experimental research and application of molecular interaction with various fields, such as nonresonant laser field and its combination with static electric field. The force imparted by the molecule-field interaction is exploited to spatially separate stereoisomers and their quantum states. Beside, in collaboration with Fritz Haber Institute in Berlin, grazing incidence atom optics is investigated. Molecule Optics: As a optical prism separates photons as their refractive indices, a molecule prism, which is made of nonresonant laser pulse, can separate molecules of different molecule refractive indices. As a proof-of-principle experiment, we separated benzene and NO molecules according to their polarizability to mass ratio, which is related to the molecule refractive index. Without laser both molecules are detected at the same position. However, with the molecule prism formed by the laser field, they were separated with a choromatographic resolution of 0.90. This can be beginning of a new separation method. In the future, the separation of different rotational states or streoisomers will be pursued.

Research Publications (selected) • SCIENCE ADVANCES / Scattering of adiabatically aligned molecules by nonresonant optical standing waves / Kim, Lee Yeong; Jin, Byung Gwun; Kim, Tae Woo; Lee, Ju Hyeon; Zhao, Bum Suk / 2020-04 • PHYSICAL REVIEW LETTERS / Matter-wave diffraction from a periodic array of half planes / Lee, Ju Hyeon; Kim, Lee Yeong; Kim, Yun-Tae; Lee, Chang Young; Schollkopf, Wieland; Zhao, Bum Suk / 2019-01 • PHYSICAL REVIEW LETTERS / Rotational-State-Dependent Dispersion of Molecules by Pulsed Optical Standing Waves / Sun, Xing Nan; Kim, Lee Yeong; Zhao, Bum Suk; Chung, Doo Soo / 2015-11

194

Biomimetic Inorganic-Organic Coordination Chemistry (BIOCC) 생체모방 분자 연구실

Our research program focuses on biomimetics in small molecule activation by using transition metal model complexes to understand biological systems and design emerging materials. The research requires the tools of chemical synthesis, physicochemical characterization, such as UV-vis, ESI-MS, rRaman, EPR, NMR and X-ray crystallography, and reactivity. It is a multidisciplinary field involving chemistry, biology, medicine, environmental science and others. The current goal of our research is divided into two categories: 1) drug development for anti-tumor activity (e.g., anti-cancer drug) and/or brain plasticity enhancement (e.g., NO delivery); 2) green catalyst synthesis for sustainable environment (e.g., CO2 fixation) and energy conversion (e.g., C1 refinery).

Major research field

Desired field of research Drug Development Environmental Catalyst Energy Conversion

Research Keywords and Topics • The goal of Biomimetic Inorganic-Organic Coordination Chemistry (BIOCC) Laboratory is to clarify the 'Biological Process' in the reactions of metalloenzymes through the biomimetic system and utilize the biomimetic techniques in medical and environmental applications. # Design of model complexes of metalloenzymes # Characterization and reactivity studies for biomimetic materials # Application for medica (e.g., anti-cancer drug, vasodilation) & environmental materials (e.g., catalyst)

Research Publications (selected) • JOURNAL OF THE AMERICAN CHEMICAL SOCIETY / Structure and Reactivity of a Mononuclear Nonheme Manganese(III)-Iodosylarene Complex / Jeong, Donghyun; Ohta, Takehiro; Cho, Jaeheung / 2018-11 • ANGEWANDTE CHEMIE-INTERNATIONAL EDITION / Oxidation of Naphthalene with a Manganese(IV) Bis(hydroxo) Complex in the Presence of Acid / Jeong, Donghyun; Yan, James J.; Noh, Hyeonju; Hedman, Britt; Hodgson, Keith O.; Solomon, Edward I.; Cho, Jaeheung / 2018-06 • JOURNAL OF THE AMERICAN CHEMICAL SOCIETY / Distinct Reactivity of a Mononuclear Peroxocobalt(III) Species toward Activation of Nitriles / Noh, Hyeonju; Jeong, Donghyun; Ohta, Takehiro; Ogura, Takashi; Valentine, Joan Selverstone; Cho, Jaeheung / 2017-08

_Jaeheung Cho

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 701-8 Lab : Bldg. 108 Rm. 701-10 Tel : +82-52-217-2676 E-mail : jaeheung@unist.ac.kr https://sites.google.com/view/biocc

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2012 - 2020 : Assistant & Associate Professor, DGIST · 2019 - 2019 : Visiting Associate, Osaka Univ., Japan · 2018 - 2019 : Visiting Associate, Caltech, US · 2010 - 2012 : Professor for Special Appointment, Ewha Womans Univ. · 2007 - 2010 : Full-Time Lecturer, Ewha Womans Univ. · 2005 - 2007 : Postdoctoral Fellow, Univ. of Delaware, US

Academic Credential · 1993 - 2002 : B.S. & M.S. Pukyong National Univ., Korea · 2002 - 2005 : Ph.D. Kanazawa Univ., Japan

Awards/Honors/Memberships · 2018 : Young Inorganic Chemist Award, KCS Inorganic Division · 2018 & 2019 : DGIST Academic Awards · 2010 : Distinguished Lectureship Award, Chemical Society of Japan

Patents (selected) • Photocleavable cobalt-nitrosyl complex and nitric oxide carrier containing the same / J. Cho, D. Seo, J. Choe, Y. Park, S. Shin / 2019-08 • A method of converting a nitrile functional group into a hydroxamic functional group by using a peroxocobalt complex at room temperature and normal pressure / J. Cho, H. Noh / 2017-10

College of Natural Sciences

195

Department of Chemistry

Biomimetic Chemistry Bioinorganic Chemistry Coordination Chemistry

조재흥

Materials Chemistry and Catalysis Laboratory 재료화학및촉매 연구실

주상훈

_Sanghoon Joo

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 801-12 Lab : Bldg. 108 Rm. 808 Tel : +82-52-217-2522 E-mail : shjoo@unist.ac.kr http://shjoo.unist.ac.kr

Curriculum Vitae · 2020 - Present : Professor, Department of Chemistry, UNIST · 2019 - 2020 : Professor, School of Energy & Chemical Engineering, UNIST · 2014 - 2019 : Associate Professor, School of Energy & Chemical Engineering, UNIST · 2010 - 2014 : Assistant Professor, School of Nano-Bioscience & Chemical Engineering, UNIST

Academic Credential · 2004 : Ph.D. Materials Chemistry, Korea Advanced Institute of Science and Technology (KAIST) Advisor : Prof. Ryong Ryoo · 2000 : M.S. Chemistry, KAIST · 1998 : B.S. Chemistry, KAIST

Awards/Honors/Memberships · 2020 : Gold Prize, 26th Samsung HumanTech Paper Award (Advisor), Samsung Electronics · 2019 : Elected Member, Young Korean Academy of Science and Technology (Y-KAST) · 2019 : Grand Prize, S-Oil Dissertation of the Year Award (Advisor), KAST, KUPA, and S-Oil Science Prodigy and Culture Foundation · 2018 : Young Distinguished Professor, UNIST · 2017 : Young Catalysis Scholar Award, KIChE Division of Catalysis and Reaction Engineering · 2016 : Excellent Researcher Award, KCS Division of Materials Chemistry

196

The “hydrogen economy” has been considered a long-term solution for securing energy future. To realize its vision, significant scientific and technical challenges should be addressed. The key components for the hydrogen-based energy cycle are integrated electrochemical energy devices such as fuel cells and water electrolyzers. The performance of these energy conversion devices depends critically on the efficiency and durability/stability of catalysts for electrode reactions in these devices. The reactions include the electrocatalytic hydrogen oxidation reaction (HOR) and oxygen reduction reaction (ORR) of a hydrogen fuel cell, and the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) of a water electrolyzer. These reactions involve multi-electron transfers and are kinetically demanding. Hence, precious metal-based materials such as Pt, Ru, or Ir with high reaction kinetics have been prevalent choice of catalysts. However, the prohibitively high cost and scarcity of precious metal-based catalysts combined with declining activity during long-term operation have impeded the widespread use of fuel cells and water electrolyzers. Hence, the development of economic electrocatalysts with high activity and durability/stability has been of utmost importance in this area of research. Combining solid-state materials chemistry, electrochemistry, and catalysis, Prof. Joo’s group endeavors to (i) develop highly active, stable, and cost-effective electrocatalysts for renewable energy conversion reactions, (ii) identify the activity descriptor and active sites of catalysts by exploiting in situ spectroscopic methods in combination with theoretical calculations, and (iii) translate the newly developed catalysts into system-level devices. Ultimate Major research field goal of our research is to establish the catalyst structure-activity relationship, which in turn help design Materials chemistry, Nanomaterials, next-generation catalysts for renewable energy conCatalysis, Electrocatalysis version reactions.

Research Keywords • Nanomaterials, Catalyst, Energy conversion, Fuel cells, Electrolyzer, ORR, HER, OER 나노재료, 촉매, 에너지 변환, 연료전지, 수전해, 산소환원반응, 수소발생반응, 산소발생반응

Research Topics • New nanocatalysts for energy conversion reactions 에너지변환 반응을 위한 새로운 나노구조 촉매 개발 • Oxygen reduction electrocatalysts for fuel cells 연료전지용 산소환원반응 전기촉매 개발 • Oxygen and hydrogen evolution electrocatalysts for electrolyzers and solar fuels 수전해용 산소 및 수소발생반응 전기촉매 개발 • In situ/operando analysis for identifying active sites and reaction mechanism 활성점 및 반응 매커니즘 이해를 위한 실시간 분석

Research Publications (selected) • Nature Commun. / Atomically Dispersed Pt−N4 Sites as Efficient and Selective Electrocatalysts for the Chlorine Evolution Reaction / T. Lim, G. Y. Jung, J. H. Kim, S. O Park, J. Park, Y.-T. Kim, S. J. Kang, H. Y. Jeong, S. K. Kwak, S. H. Joo / 2020-01 • Science Advances / Oxygen-Deficient Triple Perovskites as Highly Active and Durable Bifunctional Electrocatalysts for Oxygen Electrode Reactions / N.-I. Kim, Y. J. Sa, T. S. Yoo, S. R. Choi, R. A. Afzal, T. Choi, Y.-S. Seo, K.-S. Lee, J. Y. Hwang, W. S. Choi, S. H. Joo, J.Y. Park / 2018-06 • J. Am. Chem. Soc. / A General Approach to Preferential Formation of Active Fe-Nx Sites in Fe-N/C Electrocatalysts for Efficient Oxygen Reduction Reaction / Y. J. Sa, D.-J. Seo, J. Woo, J. T. Lim, J. Y. Cheon, S. Y. Yang, J. M. Lee, D. Kang, T. J. Shin, H. S. Shin, H. Y. Jeong, C. S. Kim, M. G. Kim, T.Y. Kim, S. H. Joo / 2016-11

Patents (selected) • [국외] Self-Supported Catalyst and Method for Manufacturing the Same / Sang Hoon Joo, Jae Yeong Cheon / 2017-10 • [국내] Fe-N-C Electrocatalyst, Method of Manufacturing the Same and Fuel Cell Comprising Fe-N-C Electrocatalyst / Sang Hoon Joo, Jinwoo Woo, Young Jin Sa / 2019-05

Laboratory for Sustainable Future 지속가능미래 연구실

Global sustainability is a daunting challenge for people living in new millennium. To contribute to such a global issue, we, as synthetic chemists, develop new inorganic-organic hybrid materials for energy applications. These materials are based on porous metal-organic frameworks, emerging as a new class of hybrid materials, potentially useful in many applications ranging from CO2 storage and utilization, sensors, to catalysis. The research group led by Prof. Wonyoung Choe at UNIST focuses on multi-functional metal-organic frameworks, assembled from bio-macrocycles called porphyrins, achieve tailor-made solids for the desired functions. 전 세계적으로 지속가능한 개발은 현 시대를 살고있는 사람들에게 남아있는 중요한 숙제이다. 이러 한 숙제를 해결하기 위해, 우리는 합성 화학자로서 에너지 분야에 적용 가능한 새로운 무기-유기 하 이브리드 물질을 개발 하고있다. 이 다공성 금속-유기 골결체 기반 물질은 새로운 종류의 하이브리 드 물질로, 이산화탄소 저장 및 활용, 센서, 촉매 등 다양한 분야로 응용되고 있다. 최원영 교수의 연 구팀은 포르피린이라는 생체 거대 고리 분자로 조립된 다기능 금속-유기 골격에 중점을 두어 원하 는 기능에 맞는 맞춤형 고형물을 생산 중이다.

최원영

_Wonyoung Choe

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 701-7 Lab : Bldg. 108 Rm. 704 Tel : +82-52-217-2546 E-mail : choe@unist.ac.kr https://homepagechoe.wixsite.com/ch oegroup

Curriculum Vitae

Major research field Metal-Organic Framework, Metal-Organic Polyhedra, porous material, metamaterial, meta-atom, metasurface, environmental remedy, extreme self-assembly

Desired field of research Data science of porous material, Machine Learning

Academic Credential · B.S., Seoul National University (Chemistry) · M.S., Seoul National University (Chemistry) · PhD, University of Michigan (Inorganic Chemistry)

Research Keywords and Topics

Awards/Honors

• Metal-Organic Framework, Metal-Organic Polyhedra, porous material, metamaterial, meta-atom, metasurface, environmental remedy, data science

· 2020 : Korea Chemical Society's Inorganic Division and Excellent Researcher Award, · 2010 : Dean’s Award in Excellence in Graduate Education, University of Nebraska-Lincoln · 2008 : First Award, Nebraska EPSCoR · 2007 : Layman Award, Research Council, University of NebraskaLincoln · 1991 : Gomberg Fellowship, University of Michigan · 1991 - 1995 : Korean Government Fellowship (Chemistry)

무기-유기 골격체, 무기-유기 다면체, 다공성 물질, 메티물질, 메타원자, 메타표면, 환경 정화, 데이 터 사이언스

Research Publications (selected) • NATURE COMMUNICATIONS / Evolution of form in metal–organic frameworks / Jiyoung Lee, Ja Hun Kwak, Wonyoung Choe / 2017-01 • CHEMICAL SCIENCE / Cross-linking Zr-based metal–organic polyhedra via postsynthetic polymerization / Dongsik Nam, Jihyun Huh, Jiyoung Lee, Ja Hun Kwak, Hu Young Jeong, Kyungmin Choi, Wonyoung Choe / 2017-09 • SCIENCE ADVANCES / Metal-organic framework based on hinged cube tessellation as transformable mechanical metamaterial / Eunji Jin, In Seong Lee, Dongwook Kim, Hosoowi Lee, Woo-Dong Jang, Myung Soo Lah, Seung Kyu Min, Wonyoung Choe / 2019-05 • NANO RESEARCH / Discovery of Zr-Based Metal-Organic Polygon: Unveiling New Design Opportunities in Reticular Chemistry / Jiyeon Kim, Dongsik Nam, Hiroshi Kitagawa, Dae-Woon Lim, Wonyoung Choe / 2020-05 • CHEMICAL SOCIETY REVIEWS / The Rise of Metal-Organic Polyhedra / Soochan Lee, Hyein Jeong, Dongsik Nam, Myoung Soo Lah, Wonyoung Choe / 2020-11

Memberships · Member, Korean Chemical Society · Member, American Chemical Society

Patents (selected) • [국내] 결정화된 다공성의 고분자성 금속-유기 다면체 및 이의 제조방법 / 최원영, 남동식, 곽자훈 / 2018-12 • [국내] 다양한 형태의 다공성 금속-유기 구조체 제조 방법 / 최원영, 이지영, 곽자훈 / 2018-12

College of Natural Sciences

197

Department of Chemistry

· Associate Professor, Ulsan National Institute of Science and Technology · Assistant Professor, University of Nebraska-Lincoln · Post-Doc, Iowa State University Lawrence Livermore National Lab.

Synthetic Organic Chemistry 유기합성연구실

홍성유

_Sung-you Hong

Department of Chemistry Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 108 Rm. 901-4 Lab : Bldg. 104 Rm. 704 Tel : +82-52-217-2528 E-mail : syhong@unist.ac.kr http://home.unist.ac.kr/professor/syho ng/

Curriculum Vitae · 2010 - Present : Ulsan National Institute of Science and Technology; - 2015 - Present : Associate Professor - 2010 - 2015 : Assistant Professor · 2009 - 2010 : Max Planck Institute of Colloids and Interfaces, Potsdam, Germany; Department of Biomolecular Systems; Postdoctoral Scholar

Academic Credential · 2005 - 2009 : University of Oxford, Oxford, UK; Doctor of Philosophy (DPhil) Department of Chemistry · 1998 - 2002 : Seoul National University, Seoul, Korea; Bachelor of Science School of Chemical and Biological Engineering

Awards/Honors/Memberships · 2020 : Outstanding Faculty Award from Ulsan National Institute of Science and Technology · 2005 - 2009 : Samsung Lee Kun Hee Scholarship for the Doctoral Studies at University of Oxford

198

The major research themes in our laboratory are to develop metal- and organo-catalyzed synthetic routes to afford functionalized small molecules and to apply synthetic fine chemicals in rechargeable battery systems. Issues of regiochemistry, oxidation state changes of transition metal complexes, and efficiency to construct carbon–carbon and carbon–heteroatoms have been the central topics of our synthetic approaches. Fine chemicals have been applied as redox-active materials or functional electrolyte additives for rechargeable battery systems. C−H arylation potentially provides a concise synthetic strategy while eliminating the need for pre-functionalization of substrates. However, precise control of the site-selectivity and multiple catalytic cycle operations are hurdles to step-efficient access to honeycomb lattice segments. The Hong group disclosed palladium-catalyzed 2-fold C−H activation approaches to afford functionalized triphenylene frameworks from DG-bearing arenes. The Hong group also developed the first nickel-catalyzed azide–alkyne cycloaddition (NiAAC) to directly access 1,5-disubstituted 1,2,3-triazoles at room temperature under aqueous/aerobic conditions. The choice of nickelocene (Cp2Ni) precatalyst and Xantphos ligand were critical to allow high yield, excellent regioselectivity (~16:1), a broad substrate scope, and excellent functional group tolerance. The synthetic utility of this nickel-based click chemistry was highlighted by the functionalization of non-natural amino acid or glycoconjugates with no use of Schlenk technique, a glovebox, or degassed solvent(s).

Major research field organic chemistry, redox chemistry, metal-catalyzed organic synthesis

Research Keywords and Topics • The SYH group’s research centers on selective bond activation and functionalization for molecular complexity. Our research themes include (i) metal-catalyzed selective transformations and/or functionalizations of π-system, (ii) directed or nondirected C−H arylation of (hetero)arenes using hypervalent compounds, and (iii) oxidation-state modulation to access active radical species or to activate inert bonds.

Research Publications (selected) • JOURNAL OF THE AMERICAN CHEMICAL SOCIETY / Nickel-Catalyzed Azide-Alkyne Cycloaddition to Access 1,5-Disubstituted 1,2,3-Triazoles in Air and Water / Kim, Woo Gyum; Kang, Mi Eun; Lee, Jae Bin; Jeon, Min Ho; Lee, Sungmin; Lee, Jungha; Choi, Bongseo; Cal, Pedro M. S. D.; Kang, Sebyung; Kee, Jung-Min; Bernardes, Gon&ccedil;alo J.L.; Rohde, Jan-Uwe; Choe, Wonyoung; Hong, Sung You / 2017-09 • ANGEWANDTE CHEMIE-INTERNATIONAL EDITION / An Annulative Synthetic Strategy for Building Triphenylene Frameworks by Multiple C-H Bond Activations / Mathew, Bijoy P.; Yang, Hyun Ji; Kim, Joohee; Lee, Jae Bin; Kim, Yun-Tae; Lee, Sungmin; Lee, Chang Young; Choe, Wonyoung; Myung, Kyungjae; Park, Jang-Ung; Hong, Sung You / 2017-04 • ADVANCED FUNCTIONAL MATERIALS / Mechanistic Studies of Transition MetalTerephthalate Coordination Complexes upon Electrochemical Lithiation and Delithiation / Lee, Hyun Ho; Park, Yuwon; Kim, Su Hwan; Yeon, Sun-Hwa; Kwak, Sang Kyu; Lee, Kyu Tae; Hong, Sung You / 2015-07

College of InformatIon and BIoteChnology 정보바이오융합대학

03 Department of Design 디자인학과 Department of Biomedical Engineering 바이오메디컬공학과 Department of Industrial Engineering 산업공학과 Department of Biological Sciences 생명과학과 Graduate School of Artificial Intelligence 인공지능대학원 Department of Electrical Engineering

Department of Computer Science and Engineering 컴퓨터공학과

College of Information and Biotechnology

201

Department of Design

전기전자공학과

department of design 디자인학과

Interactions Lab 인터랙션 연구실

The Interactions Lab at the Ulsan National Institute of Science and Technology focuses on the design, development and evaluation of physical, tangible and social interactive computing systems. Bringing together design perspectives, computer science skills and psychological methods, the Interactions lab conceives, creates and studies next generation human-computer interfaces. 인터랙션 연구실에선 물리적, 촉각적, 소셜 인터랙션 컴퓨터 시스템의 설계, 개발 및 평가에 대해 주 력으로 연구한다. 디자인적 관점, 컴퓨터 과학적 기술 및 심리학적 방법을 동시에 사용하여 인터랙션 연구실은 차세대 사람 - 컴퓨터 인터페이스 착안 후 실체화 및 그에 대한 연구를 한다.

오클리, 이언 _Ian Oakley Department of Design Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 901-5 Lab : Bldg. 104 Rm. 902 Tel : +82-52-217-2724 E-mail : ianoakley@unist.ac.kr http://interactions.unist.ac.kr/

Curriculum Vitae

Desired field of research Wearable Interaction, Tangible Interaction

Research Keywords and Topics

Academic Credential

• Interaction Design, Tangible Computing, Social Computing, Multi-modal Interfaces 인터랙션 디자인, 촉각적 사용자 인터랙션, 소셜 컴퓨팅, 다중모달 인터페이스

Research Publications (selected) • ACM CHI Conference on Human Factors in Computing Systems / Nailz: Sensing Hand Input with Touch Sensitive Nails / Lee, DoYoung; Lee, SooHwan; Oakley, Ian / 2020-04 • IEEE Symposium on Security and Privacy / Gesture Authentication for Smartphones: Evaluation of Gesture Password Selection Policies / Cheon, Eunyong; Shin, Yonghwan; Huh, Jun Ho; Kim, Hyoungshick; Oakley, Ian / 2020-05 • 30th Annual ACM Symposium on User Interface Software and Technology (UIST'17) / SmoothMoves: Smooth Pursuits Head Movements for Augmented Reality / Esteves, Augusto; Verweij, David; Suraiya, Liza; Islam, Rasel; Lee, Youryang; Oakley, Ian / 2017-10

· 2003 : Ph. D. Computing Science, University of Glasgow, UK · 1998 : BSc. Joint Hons Computing Science and Psychology (First Class), University of Glasgow, UK

Awards/Honors/Memberships · 2003 : Best Paper EuroITV · 2002 : Best paper BCS HCI · Honorable mention IMX’20 · Deputy Editor Interacting with Computers (Elsevier, NL) · Member of ACM SIGCHI

Patents (selected) • Identifying Finger Touches on Smartwatches, 10-1861325 / Oakley, I., Gil, H.J. & Lee, D.Y / Korean Patent Office / 2018-05 (ISSUED) • System, method for controlling user terminal using magnetic field, user terminal comprising the same, US9851815B2, / Sung Jae Hwang, Andrea Bianchi, Ian Oakley, Kwang Yun Wohn, Myung Wook Ahn. / United States Patent and Trademark Office / 2017-12 (ISSUED)

College of Information and Biotechnology

203

Department of Design

Major research field Human Computer Interaction

· 2013 - 2014 : Assistant Professor, UNIST · 2014 : onwards, Associate Professor, UNIST · 2007 - 2012 : Assistant Professor, University of Madeira, Portugal · 2007 - 2009 : Adjunct Assistant Professor, Carnegie Mellon University · 2006 - 2007 : Research Scientist, ETRI · 2005 : Postdoctoral Researcher, GIST · 2001 - 2004 : Postdoctoral Research Associate, MIT Media Lab Europe, Ireland

Design Thinking Research Lab 디자인사고연구소

셀프, 제임스 앤드루 _James Andrew Self Department of Design Ulsan National Institute of Science & Technology (UNIST) Office : Bldg. 104 Rm. 1001-6 Lab : Bldg. 104 Rm. 904 Tel : +82-52-217-2722 E-mail : jaself@unist.ac.kr http://designpracticeresearch.com/

What is design creativity? How does design thinking relate to design innovation? What role does making and representation play in design cognition? The Design Thinking Research Lab at the Department of Design, UNIST explores the expertise, activities and processes of design. We employ design as research approach to explore design thinking, design skills and abilities. We conduct projects aimed to further understand design cognition and ability, and apply creative design methods to develop innovative, designdriven solutions. UNIST 디자인사고연구소는 차별화 된 디자인 과학을 연구하고 있습니다. 우리 연구실은 디자인적 사고를 탐구 하기 위해 다양한 접근 방식으로 디

Curriculum Vitae Dr. James Self is tenured, Associate Professor of design, Director of the Design Thinking Research Lab, and Department Head, Department of Design, UNIST. Prof. Self holds a doctorate in industrial design and previously worked for 8 years in the design industry, both in his native London and Sydney, Australia. Design works and research contributions are recognized through international design awards, patents, exhibitions, seminars, workshops, journal, conference, design periodical and book publications. Projects attract funding from institutional, government and industry sponsors.

Academic Credential · 2008 - 2012 : Ph.D. Thesis Title: Use of Design Tools in Industrial Design Practice Kingston University, London, UK · 2005 - 2006 : M.A. Digital Modelling & Rapid Prototyping University of Hertfordshire (UH), UK · 1994 - 1997 : B.A. (Hons) Model Design University of Hertfordshire (UH), UK · 1992 - 1994 : Diploma 3D Design Rycotewood College Oxford, UK

Awards/Honors/Memberships · 2019 : Reviewer Of the Year, Korean Society of Design Science, Journal: Archives of Design Research · 2016 : Outstanding Paper Contribution Award (top 10%), DESIGN International Design Conference · 2016 : Croatia, The Design Society · 2015 : Best Paper Award. KSDS Fall Conference, Korean Society of Design Science, Korea · 2015 : Best Article Award. Archives of Design Research

204

자인을 사용하고, 혁신적인 design intervention을 유도하기 위해 창의적인 방법과 도구를 이용하여 디자인 프로젝트를 수행합니다.

Major research field Design Thinking | Product Design | Design Innovation | Research-through-Design

Research Keywords and Topics • Design Thinking; Product Design; Design Innovation; Research-through-Design

Research Publications (selected) • THE DESIGN JOURNAL | Everyday Design-Driven Innovation: Exploring meaning change in IKEA hacking | Han, G.; Jung, Y., W.; Self, J., A. | 2021 • DESIGN STUDIES | Communication through design sketches: Implications for stakeholder interpretation during concept design | Self, J., A. | 2019 • JOURNAL OF DESIGN RESEARCH | Rich Unboxing Experiences: Complexity in Product Packaging and its Influence upon Product Expectations | Bea, J.; Self, J., A.; Kim, C., J | 2019 • INTERNATIONAL JOURNAL OF TECHNOLOGY & DESIGN EDUCATION | Interdisciplinarity: Challenges and Opportunities for design education | Self, J., A.; Evans, M.; Jun, T. & Southee, D. | 2019 • ARTIFACT: JOURNAL OF DESIGN PRACTICE | Afforded exploration: An approach to novel yet understandable product experiences | Lee, S.; Self, J. | 2019 • ADVANCEMENT IN THE PHILOSOPHY OF DESIGN | Sketch Representation and Design as Generative Transformation | Self, J., A.; Goldschmidt, G. | 2018

Integration & Innovation Design Lab 통합&혁신디자인연구실

김관명

_Kwan Myung Kim

Department of Design Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 901-3 Lab : Bldg. 104 Rm. 904 Tel : +82-52-217-2714 E-mail : kmyung@unist.ac.kr http://iidl.unist.ac.kr

Curriculum Vitae · 2010 - Present : 교수, UNIST · 2019 - Present : ㈜아이디공간 대표이사 · 2016 - 2020 : 디자인-공학융합대학원장 · 1994 - 2007 : 삼성중공업, ㈜스프링타임, ㈜한마음에너지과학원에서 중장비, 상용차, 산업기계, 의료기기 등 제품 개발

Academic Credential · 2014 : Ph.D. Industrial Design, KAIST · 1994 : M.S. Industrial Design, KAIST · 1992 : B.S. Industrial Design, KAIST

Awards/Honors/Memberships · 2019 : 산업통상자원부장관상, 산업전문인 력양성

· 2019 : 최우수상, 대학생학술대회, 한국디

Major research field

Desired field of research

Rehabilitation Design / Design for Elderly Transformable Design Integrated Design Method

Rehabilitation Product Design & Development Design for Health Care, Design for Elderly Design-driven Business Start-up

자인학회

Research Keywords and Topics • Design for Rehabilitation, Design for Elderly • Integrated Design Method and process (Industrial Design + Ergonomics, Engineering Design • Human-centered Engineering Design, Transformable Design • Design-driven Innovative Product Development and Business Start-up

Research Publications (selected)

· 2019 : U.CUBE 글로벌생활명품 및 굿디자 인 선정

· 2019 : 대통령 수여 디자인100만호 등록증 · 2020, 2018 : Jury, Spark Design Award · 2017 - 2019 : IF, RedDot, IDEA, Spark Design Award 등 다수 디자인상 수상 · 2017 - Present : Asian Advisory Board, Spark Design Award · 편집위원, Archives of Design Research · 상임이사, The Korean Society of Design Science

• Applied Ergonomics / Effects of cursor freeze time on the performance of older adult users on mouse-related tasks / Tufail, M., & KM. Kim / 2017-06 • Design Studies / Collaborative Product Design Process of Industrial Design and Engineering Design in Consumer Product Companies / KM. Kim, KP Lee / 2016 • Design Studies / Cognitive styles in design problem solving: Insights from networkbased cognitive maps / EJ Kim, KM. Kim / 2015-09

Patents (selected) • 미로형태의 큐브 블록 / 김관명, 양지현, 김명진 / 2019-12 • 운동 및 재활치료를 위한 보조장치 / 김관명, 김명진 / 2019-04

College of Information and Biotechnology

205

Department of Design

The Integration and Innovative Design Laboratory is a laboratory that integrates design, ergonomics and engineering to develop innovative products, and specially studies methods and processes related to them. In order for designers to demonstrate leadership in product development, they need to be able to present a creative design concept, as well as the ability to implement the design by applying technology and engineering principles. They should also be able to collaborate with professional engineers to apply new technical principles. We are the only design research lab. that approaches to product design and development in an integrative way of design and engineering. Product design and development are completed with three attributes: functionality, usability, and aesthetic. Functionality is the technical element necessary for the product to achieve its main function, and it is usually achieved by applying the mechanical, electrical, and electronic principles to the design. Usability is a component related to ergonomic performance such as size, usage, interaction, and interface of a product, which is determined by the physical and mental limitations of users. The aesthetic is related to the symbolic or emotional appearance that depends on the person or the environment in which the product is used.We explore industrial design, engineering design, and ergonomic design methods and processes to apply these three elements comprehensively. Based on this, we develop concept designs that can be implemented and pursue actual commercialization.Developed products are actively promoting technology transfer and commercialization to create a model that contributes to society and industry through design initiatives. This experience enables our lab students to have design creativity and design engineering skills, and to have the skills and qualifications to lead the entire product development process, moving back and forth between a designer and an engineer.

Emotion Lab 이모션랩

김차중

_Chajoong Kim

Department of Design Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 1001-3 Lab : Bldg. 104 Rm. 1004 Tel : +82-52-217-2730 E-mail : cjkim@unist.ac.kr https://emotion.unist.ac.kr

Emotion lab stands for where design research and prototyping are integrated, with the motto, “creating products and services that supports and contributes to an emotion well-being for people”. Our objective is to contribute to the knowledge, skills, methods, and professional attitudes in the field of integrated product development with a goal to cultivate generalist industrial designers. This can be achieved by grasping the hidden needs and desires of the users based on the understanding of humans and cuttingedge technology. We innovate and improve the development of durable products and their related services for people, on the basis of the balanced interests of users, industry, society, and the environment. In this way, it will contribute to a sustainable society and economy through research in integrated product development. 이모션랩은 ‘---사람들의 정서적 행복을 지원하고 기여하는 제품 및 서비스 창출’을 모토로 디자인 연구와 프로토타이핑이 융합된 곳을 의미합니다. 우리의 목표는 아카데믹한 산업디자이너 양성을 목표로 통합제품 개발 분야의 지식, 기술, 방법 및 프로패셔널리즘에 기여하는 것입니다. 이는 인간

Curriculum Vitae

에 대한 깊은 이해와 첨단기술에 기반한 사용자의 숨겨진 욕구와 욕구를 파악함으로써 달성할 수 있

· Associate Professor in the Department of Design and the founder of Emotion Lab at UNIST

람을 위한 관련 제품 및 서비스의 개발을 혁신하고 개선하고, 통합 제품/서비스 개발 연구를 통해 지

습니다. 이모션랩은 사용자, 산업, 사회, 환경의 균형 잡힌 이익에 기초하여, 내구성이 있는 제품과 사 속 가능한 사회와 경제에 기여하고자 합니다.

Academic Credential · 2019 - 2020 : Visiting scholar at the Department of Design and Environmental Analysis, Cornell University. · 2012 : Ph.D. in Industrial Design Engineering at TU Delft · 2005 : MSc. in Industrial Design Engineering (specialized in Design for Interaction) at TU Delft · 1997 : B.Eng. in Mechanical Engineering at Chung-Ang University

Major research field User Experience, Emotional Design, Design for Emotional Well-being, Human-Product Interaction

Awards/Honors/Memberships

Research Keywords and Topics

· 2018 : Advisory committee member for PyeongChang Winter Paralympics Games · iF Awards winners · IDEA awards winner · Spark Design Awards winners · Executive board member at the Korean Society of Design Science

• User Experience • Emotional Design • Human-Product Interactions • Product, Service and System Design • Design for Emotional Well-being

Desired field of research Emotion regulation, Healthcare

Research Publications (selected) • The Design Journal(as the corresponding author) / Designing for Positive Emotions: Issues and Emerging Research Directions. / Yoon, J., Kim, C., Desmet, P., & Pohlmeyer, A. / 2021-02 • International Journal of Design, 14(2), 85-102. (as the corresponding author) / Positive user experience over product usage life cycle and the influence of demographic factors. / Yoon, J., Kim, C., & Kang, R / 2020-08 • The Design Journal / Exploring the First Momentary Unboxing Experience with Aesthetic Interaction. / Kim, C., Bae, J. & Self, J / 2018-05 • Design Studies / The Role of Design Properties and Demographic Factors in Soft Usability Problems. / Kim, C. & Christiaans, H / 2016-07

Patents (selected) • Laser measure and level device, PCT/KR2017/003940 / 2017, Int‘l patent • Smart seasonal clothes care device, 15/354,310 / 2016, Int‘l patent • Household Automatic sterilizer, 10-1743592 / 2017

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OF NOW Design Lab 오브나우 디자인 랩

OF NOW Design Lab is a design research laboratory exploring “Digital / Innovation / Service / Strategy”, part of UNIST. OF NOW aims to carry out meaningful digital innovation through design methods and creative process, values to propose a strategic solution in a holistic service point of view and approach. OF NOW is continuously asking and challenging current definition of design, trying to broaden and expand roles of design. SSID Design Lab is exploring how to contribute to an alternative way of living, adding different angles and layers and creating positive waves to techno-rapid-mobile world and life.

김황

_Hwang Kim

Graduate School of Creative Design Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 1001-2 Lab : Bldg. 104 Rm. 1009-B Tel : +82-52-217-2737 E-mail : hwangkim@unist.ac.kr https://ssidlab.com/

OF NOW 디자인 연구소는 “UX / 디지털 / 혁신 / 서비스 / 전략”을 연구하는 디자인 연구소로서 UNIST에 속하여 있습니다. OF NOW는 디자인 방법론과 창조적인 과정을 통해 디지털 혁신을 만들 어 내는 것을 목표 하고 있으며, 서비스의 전체적인 시점에서의 접근과 전략 단계에서의 솔루션 제 안에 가치를 두고 있습니다. OF NOW는 디자인 정의에 대하여 지속적으로 고민하며, 디자인 역할의 확장을 꾀합니다. 급변하는 세상과 삶에 다른 각도의 관점을 추가하고 대안을 모색하며 긍정적인 파 장을 일으키기 위해 노력합니다.

Desired field of research

UX/UI 리서치 & 디자인, 디지털 서비스/제품 디자인, 디자인 전략, 헬스케어 서비스 & 사용자 경험 디자인, 행동하는 디자인, 시스템 디자인, 혁신 경영, 디자인 문화 구축, 서비스 개인화, 행동 분석 & 행동 변화, 콘텐츠 전략

· Hwang Kim studied at Hongik Univ. and worked in Ahn Graphics as a UX designer. He moved to London and gained MA in Design Products from the RCA. Hwang worked in Philips Healthcare from the Singapore and Amsterdam as a UX Design Manager. Hwang has worked as a interaction designer for 15+ years in the fields of UX and UI design.

Academic Credential · 2008 - 2010 : MA Royal College of Art, London, UK · 2000 - 2006 : BFA Hong Ik University, Seoul, South Korea

Research Keywords and Topics • UX/UI research & design • Digital service/product design • Design strategy • Healthcare service & UX design • Design as an act • Systematic design • Innovation management • Design culture building • Service personalization • Behaviour analytics & change • Contents strategy

Awards/Honors/Memberships · 2020 : International Design Excellence Awards, Industrial Designers Society of America, PRIVY · 2020 : International Design Excellence Awards, Industrial Designers Society of America, SULI · 2020 : IF Design Awards, PRIVY · 2020 : IF Design Awards, HIBI · 2011 : Freedom to Create Award, Finalist, Pizzas for the People

Research Publications (selected) • AHFE / Dimensional themes’ matrix for Identifying design problem structure / Sangjin Joo, Dabin Lee, Soyoon Park, Hwang Kim, Kwanmyung Kim / 2020-07 • AHFE / Integrated Keyword Mapping Process: Bridging user research to style concept development / Sangjin Joo, Dabin Lee, Soyoon Park, Hwang Kim, Kwanmyung Kim / 2020-07

Patents (selected) • 영화관 자율주행 카트(10-2020-0010529) / 김황, 곽윤정, 김문의 / 2020 • 지속가능한 삶을 돕는 앱(10-2020-0040530) / 김황, 진효정, 이진백, 허남철, 최혜민 / 2020

College of Information and Biotechnology

207

Department of Design

Major research field

Curriculum Vitae

Interactive Product Design Lab 인터랙티브제품디자인 연구실

박영우

_Young Woo Park

Department of Design Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 1001-1 Lab : Bldg. 104 Rm. 907-B Tel : +82-52-217-2734 E-mail : ywpark@unist.ac.kr http://ipd.unist.ac.kr

Curriculum Vitae · 2015 - Present : Associate Professor, Department of Design Graduate School of Creative Design Engineering, UNIST · 2014 - 2015 : NASA-KAIST Postdoctoral Researcher NASA Ames Research Center, Intelligent Robotics Group (IRG), Moffett Field, CA, USA · 2014 : Postdoctoral Researcher Mobile Software Platform Center, KAIST

Interactive Product Design Lab combines product design and physical computing knowledge/technology to research in the field of human-computer interaction (HCI). In particular, we focus on designing and developing a tangible Internet of Things (IoT) interface expressing personal data and providing physical interaction with users. Specifically, we publish HCI+design related papers by intensive research on techniques for expressing dematerialized information such as personal lifelog data (e.g., schedule, reading volume, and music listening records) through the form of physical objects. In the past eight years, we published ACM CHI, the highest authority in the HCI field, a total of 7 papers and four papers at ACM DIS. At CHI'17, DIS'19, we were awarded the Honorable Mention Award regarding physicalizing personal schedule & music data and expressing it as the Internet of Things objects. Each of them was the result of an interactive case development + field study research. Also, not only for research prototypes, but also for several prototype exhibitions at the CHI, DIS, and Ubicomp conferences by enhancing the technical and design appearance to the level of prototypes. In 2019, our works were recognized in terms of design and won world-class design awards such as iF, Reddot, and G Mark through competition with several companies. These prototypes' design and interactive technologies include 34 patents (14 registrations) and 32 design rights, which are the basis for conducting new related research. The director and our lab are making research and practical achievements by converging lifelog data, IoT, product design, and HCI. We believe the above trials and performances will be the foundation for achieving a new research vision that combines design and technology knowledge and skills.

Academic Credential · Ph.D., Industrial Design, KAIST, Thesis: “Tactile Phone Conversation” · M.S., Culture Technology, KAIST · B.S., Information & Computer Engineering, Digital Media (Visual Design), Ajou University

Awards/Honors/Memberships · 2019 : Red Dot Award, “Soldi - Daily Soldering Stationery” · 2019 : G Mark (Japan Good Design Award), “Soldering Equipment / soldi” · 2019 : iF Design Award, “stool.D: Cycling-enabled stool” · 2019 : Honorable Mention Award, ‘muRedder’, ACM DIS 2019 · 2017 : Honorable Mention Award, ‘Quietto’, ACM CHI

Major research field Future everyday design, interactive objects, HCI, tangible user interface

Desired field of research Personal data as a resource for design, data materialization, digital therapy

Research Keywords • Data-user interaction, Everyday interactive objects, Self-reflection, Ephemeral user interface, Data Physicalization/Materialization, Tangible user interface

Research Topics • Exploring Aesthetic Qualities through Data Materialization • Designing Everyday Interactive Objects for Personal Data Acquisition • Tangible Daily Artifacts for Physical Accumulation/Representation of Personal Activity • Ephemeral User Interfaces for Interacting with Digital Data

Research Publications (selected) • 2019 Designing Interactive Systems Conference / muRedder: Shredding Speaker for Ephemeral Musical Experience / Kim, Kyung Jin; Jang, Sangsu; Kim, Bomin; Kwon, Hyosun; Park, Young-Woo / 2019-06 • ACM CHI Conference on Human Factors in Computing Systems (CHI 2019) / Bookly: An Interactive Everyday Artifact Showing the Time of Physically Accumulated Reading Activity / Ju, Somi; Lee, Kyung-Ryong; Kim, Subin; Park, Young-Woo / 2019-05 • 2017 ACM SIGCHI Conference on Human Factors in Computing Systems / Quietto: An Interactive Timepiece Molded in Concrete and Milled Wood / Lee, Kyung-Ryong; Goh, Geon-Ill; Park, Young-Woo / 2017-05

Patents (selected) • 독서 시간을 기록하는 장치(10-2078827) / 주소미, 박영우 외 3명 / 2020-02 • 조명 기구 및 조명 기구 제어 방법(10-1994991) / 노보람, 박영우 외 2명 / 2019-06

208

Expressive Computing Lab 표현적컴퓨팅 연구실

Artificial Intelligence (AI), often considered as a form of machine learning or computational intelligence, is increasingly being used to improve people’s interactions with products and services. While such technology has a big impact on creating new products and services, it has also been proven to be incredibly challenging to work with as a new material for design. To tackle this challenge, we explore the potential of computational intelligence in design by creating AI/ML-driven interactions, digital services, and products. We hope our research and experiment will enable us to create a more intuitive, natural, and expressive UI/UX, beyond task-oriented interactions (what to perform), toward the design of intelligent interactions that draw upon the nuances of human expression (how to perform).

_Kyung ho Lee

Department of Design Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 901-7 Lab : Bldg. 104 Rm. 907-A Tel : +82-52-217-3034 E-mail : kyungho@unist.ac.kr https://klee141.com

Curriculum Vitae · Assistant Professor, Graduate School of Creative Design and Engineering, UNIST, Ulsan, Korea · Assistant Professor (tenure-track), Arts Technology Program, Illinois State University, Illinois, USA · Research Fellow, National Center for Supercomputing Application (NCSA), Illinois, USA · I-UM Socious, Chief Design Officer, Seoul, Korea · e-motion, Innovation Lab Manager, Seoul, Korea

Academic Credential

Desired field of research

Major research field human-computer interaction, machine learning, gesture recognition, intelligent UI design, digital media design

· Ph.D. in Informatics (specialization Art and Cultural Informatics), University of Illinois at Urbana-Champaign, Illinois, USA · B.F.A in Design, B.A. in Interdisciplinary Studies in Information, Culture and Technology, Seoul National University, Seoul, Korea

human-centered machine learning, deep technical UI/UX design, information design, emerging media arts

Awards/Honors/Memberships

Research Keywords and Topics • human-centered machine learning • deep-technical ui/ux • emerging media arts for audio/visual expression

Research Publications (selected) • Proceedings of the 25th International Symposium on Electronic Art (ISEA’19) / Misplaced Euphoria: Developing Kinesthetic Empathy Through Interactive Performance / Kyungho Lee / 2019 • Proceedings of the 9th ACM SIGCHI Conference on Creativity and Cognition (C&C'15) / Express it!: An Interactive System for Visualizing Expressiveness of Conductor’s Gestures / Kyungho Lee, Donna J Cox and Guy Garnett / 2015-06 • Proceedings of International Working Conference on Advanced Visual Interfaces (AVI’14) / How Collective Intelligence Emerges: Knowledge Creation Process in Wikipedia from Microscopic Viewpoint / Kyungho Lee / 2014-05

· 2016 : Fiddler Innovation Fellowship · 2012 : Fulbright Scholarship · 2011 : 5th Korea National Internet Awards, Gold Prize · 2004 : KSDS Undergraduate Design Research Competition, Grand Prize · Seoul National University Merit-Based Scholarship

College of Information and Biotechnology

209

Department of Design

최근의 딥러닝 기술의 발전으로 인공지능(AI)과 컴퓨터지능(CI)은 보다 더 자연스럽고, 지능적인 제 품 및 서비스의 사용자경험을 디자인하는 데 적극적으로 이용되고 있습니다. 이러한 기술은 혁신적 인 제품과 서비스를 만드는 데 필수적인 요소로 자리매김 할 것으로 예상되지만, 이들을 새로운 디 자인 재료이자 도구로 활용하는 일에는 그 새로움 만큼이나 여러가지 어려움이 존재합니다. 이러한 문제의식을 바탕으로 우리 연구실에서는 (1) AI/ML 기반 상호 작용, 디지털 서비스 및 제품의 디자인; (2) AI 기반 인터랙션 디자인을 돕는 컴퓨터 도구와 프로세스의 설계, (3) HCI 및 인간 중심의 기계 학습 관점에서 이러한 기술과 깊이 결부된 사용자경험이 부여하는 설레임과 긴장감을 이해하 기 위한 사용자 경험을 평가하는 것에 중점을 둔 연구들을 진행하고 있습니다. 우리는 우리의 연구 및 디자인 작업이 AI 기반 제품과 서비스의 디자인에 있어 미래적 가치를 보다 인간중심의 시각에서 제시할 수 있기를 바랍니다. 동시에 이같은 지능화된 요소들이 사용자-컴퓨터 의 인터랙션에 있어 사용성 뿐만 아니라 표현성을 고양하는 데 기여할 수 있기를 희망합니다. 궁극 적으로 우리의 연구가 디자이너와 연구자들이 AI를 이용한 디자인 문제를 해결하는 데 기술적 장벽 을 낮추고, 인간중심적인 관점을 포함할 수 있도록 도움으로써, 더 많은 사람들이 이러한 새로운 기 술이 주는 혜택을 누리며, 소외되지 않도록 하는 데 기여할 수 있기를 희망합니다.

이경호

Design-Electronic Convergence System Lab 디자인-전자 융합 시스템 연구실

이희승

_Hui Sung Lee

Department of Design Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 901-1 Lab : Bldg. 104 Rm. 910 Tel : +82-52-217-2731 E-mail : huisung.lee@unist.ac.kr https://decs.unist.ac.kr

Design & Electronic Convergence System Lab creates novel sensing and interface technologies that foster powerful and delightful interactions between humans and machines. This research often lies in emerging use modalities, such as touch/gestural interaction, voice interaction, and emotional interaction. These technologies are applied and deployed to smart mobilities, future vehicles or social robots. Students can consider design factors and learn a wide range of electronic engineering skills necessary for product development. Any function required for the product can be developed with the optimum utilization of electrical or electronic elements.

Curriculum Vitae

디자인-전자 융합 시스템 연구실은 사람과 기계 사이의 상호 작용/교감을 위한 혁신적인 센서 기술

· 2017 - Present : Associate Professor, UNIST · 2010 - 2017 : Senior Research Engineer, Hyundai Motor Company · 2008 - 2010 : Senior Research Engineer, Samsung Electronics · 2007 : Part Time Researcher / Lecturer, ETRI / Hanbat University

과 인터페이스 기술을 연구하고 개발합니다. 인간이 사용하는 다양한 감각과 표현 기법을 활용하여 기계와 효과적으로 소통하는 방식을 연구합니다. 터치/제스처 인식/표현, 음성 인식/합성, 감정 인식 /표현 등 다양한 형태의 상호 작용 기술을 개발하고, 스마트 모빌리티와 소셜 로봇, 미래 자동차 등에 적용하는 것을 목표합니다. 학생들은 디자인 요소를 고려하고 제품 개발에 필요한 전자 공학 기술을 폭넓게 배우고 익힙니다. 제품에 필요한 어떠한 기능이라도 전기-전자 요소를 최적 활용하여 구현할 수 있는 능력을 키울 수 있습니다.

Major research field

Academic Credential · 2002 - 2008 : Ph.D. Electrical Engineering, KAIST · 2000 - 2002 : M.S. Electrical Engineering, KAIST · 1993 - 2000 : B.S. Electrical Engineering, KAIST

Awards/Honors/Memberships · 2016 : Best Paper, Hyundai Motors R&D Conference · 2012 : Best Prize, Hyundai Idea Festival · 2008 : Best Video Prize, IFAC · 2007 : Greatest Prize, Korea Mechatronics Contest 2007 · 2007 : Best Paper, Korea Intelligent Robot Conference · 2006 : Excellent Prize, 7th DSP Design Contest · 2004 : Best Teaching Assistant, KAIST Electrical Engineering · 2003 : KAIST Leadership 2003 · 2002 : Greatest Prize, 5th DSP Design Contest · Member of IEEE, ICROS, KROS, and KSDS

210

embedded system, smart mobility, human-robot interaction, social robot, emotional interaction 임베디드 시스템, 스마트 모빌리티, 휴먼-로봇 인터렉션, 소셜 로봇, 감정 상호작용

Research Keywords and Topics • Robot or Machine Emotional Interaction Modeling 로봇 또는 기계의 감정 상호 작용 모델링

• Innovative Personal Smart Mobility Realization 혁신적인 개인용 스마트 모빌리티 구현

• Sensor Fusion Technology to Interact with Robot or Machine 로봇 또는 기계와 소통할 수 있는 센서 융합 기술

• Optimization of Software and Hardware for Embedded Systems 임베디드 시스템에 적합한 소프트웨어 및 하드웨어 최적화 기법

Research Publications (selected) • Journal of Intelligent & Robotic Systems / Generation of Realistic Robot Facial Expressions for Human Robot Interaction / J. W. Park, Hui Sung Lee, M. J. Chung / 2015-06 • IEEE Trans. on Robotics / A Linear Affect-Expression Space Model and Control Points for Mascot-Type Facial Robot / Hui Sung Lee, J. W. Park, and M. J. Chung / 2007-10

Patents (selected) • System and method for controlling operation of IoT device(US10609161) / Hui Sung Lee, H. Shin, Y. Song, K. Yi / 2020-3 • Sun visor with display of traffic light(US10486505) / Hui Sung Lee, H. Shin, Y. Song, K. Yi / 2019-11 • Apparatus and method for controlling opening and closing of vehicle door(US09870701) / Hui Sung Lee / 2018-01 • System and method for controlling lamp in vehicle(US09688193) / Hui Sung Lee / 2017-06

Disegno T9 데시뇨티나인

We design all about form & structure that is main core of industrial design. Car, ship, airplane, spaceship, robot, electronic appliance, personal product, furniture, building, architecture of inside/outside, lifestyle infra structure of city, environmental design and design for public. All they are our area. We do not only styling but also from innovative idea generation to actual product prototyping. Based on professional design experience through global companies, we do best creative design and best innovative design. 우리는 형태와 구조를 다루는 산업디자인의 핵심영역을 연구합니다. 자동차, 배, 비행기, 우주선에서

정연우

_Yun woo Jeong

Department of Design Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 1001-4 Lab : Bldg. 104 Rm. 910 Tel : +82-52-217-2712 E-mail : yunwoojeong@unist.ac.kr https://www.disegnot9.com/

부터 로봇, 가전제품, 개인용 제품과 가구, 주택, 실내외 공간은 물론 도시와 생활 인프라스트럭쳐, 공 공디자인까지 형태와 구조가 필요한 모든 대상을 디자인합니다. 우주선부터 바늘까지 모든 실물이 우리의 디자인 연구 대상입니다. 미적 요소에 국한하지 않고, 혁신관점의 아이디어 도출부터 실제 제 품 프로토타이핑까지 전 영역의 프로세스가 연구에 포함됩니다. 글로벌기업에서 오랜 디자인 실무 경험을 바탕으로, 대학의 미래지향적 연구성향을 더해 가장 창의적이고 혁신적인 디자인 연구를 수

Curriculum Vitae

행합니다.

· 2014 - Present : UNIST 디자인학과 부교수 · 2010 - 2014 : 현대자동차그룹 제네시스 외장디자인 그룹장

· 2008 - 2010 : 폭스바겐그룹 벤틀리 외장디자이너

· 2004 - 2008 : 제네럴모터스 크리에이티

Academic Credential · 2017 : 서울대학교 디자인박사 · 2008 : Royal College of Art, London 자동차디자인 석사

· 2005 : 서울대학교 공업디자인 석사 · 2003 : 서울대학교 산업디자인 학사

Awards/Honors/Memberships · 2020 : IF 디자인어워드 본상, 독일 · 2020 : IDEA 디자인어워드 본상, 미국 · 2019 : IF 디자인어워드 본상, 독일 · 2019 : IDEA 디자인어워드 본상, 미국 · 2018 : IDEA 디자인어워드 본상, 미국 · 2017 : IDEA 디자인어워드 본상, 미국 · 2016 : IF 디자인어워드 본상, 독일 · 2015 : Reddot 디자인어워드 본상, 독일

Major research field 자동차, 조선, 항공, 우주, 드론, 모빌리티, 가전제품, 제품, 가구, 의료, 인테리어, 건축, 도시공간, 도시재생, 환경디자인, 산업디자인

Research Publications (selected) • ARCHIVES OF DESIGN RESEARCH / Retrospective Automotive Design and Innovative Meaning Making: The influence of retro design features / Goo, Kyohwe; Self, James; Jeong, Yunwoo / 2016-02

Patents (selected) • SEASONING REFRIGERATOR / 김차중, 정연우, 한가을, 주소미, 차진희, 한임경 / 2019-06 • 의류관리기 / 정연우, 김차중, 이희승, 김재희 / 2018-11

College of Information and Biotechnology

211

Department of Design

브디자이너

department of Biomedical engineering 바이오메디컬공학과

Translational Multiscale Biofluidics 멀티스케일 응용생체유체연구실

Translational Multiscale Biofluidics Laboratory is actively studying problems involving multiscale biological fluids that are related to disease models and developing biomedical devices translated into commercial products and new “theranostic” strategies. We aim to develop biomedical devices that enable to diagnose diseases in an early stage and new therapeutic strategies for treating diseases effectively. We extensively collaborate with clinical investigators, industrial partners, and start-ups. TMB Lab is a diverse group of members who have a broad range of expertise in engineering, physics, and medical research. 멀티스케일 응용생체유체소자 연구실은 나노에서 밀리미터 스케일의 다양한 바이오유체제어 기술 을 통해 질병 조기 진단과 새로운 치료법 개발을 위한 연구를 수행하고 있습니다. 질병 조기 진단 및

강주헌

_Joo Hun Kang

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 801-10 Lab : Bldg. 110 Rm. 804 Tel : +82-52-217-2595 E-mail : jookang@unist.ac.kr http://www.jookanglab.com

감염 원인 물질 제거를 위한 바이오유체소자, 사람의 다양한 장기(organs)를 칩에서 구현하여 신약 스크리닝, 독성 테스트, 체외 질병 모델 개발 등 위해 활용할 수 있는 장기모사칩 (organ-on-a-chip) 등을 개발하고 있습니다. 미세유체제어기술을 기반으로 생물학, 조직공학, 바이오정보학, 생물물리 학, 의학 등의 다양한 분야와 협동 연구를 통해 학생 연구원들의 연구 경험의 폭과 깊이를 더할 수 있 는 기회를 제공하고 있고, 병원과의 긴밀한 협력을 통한 중개연구 (translational research)에 집중하고 있습니다.

Desired field of research

· 2020 - Present : Associate Professor, Dept. Biomed Eng., UNIST · 2016 - 2020 : Assistant Professor, Dept. Biomed Eng., UNIST · 2012 - 2016 : Wyss Technology Development Fellow, Wyss Institute, Harvard University · 2010 - 2012 : Postdoctoral Research Fellow, Wyss Institute, Harvard University · 2009 - 2016 : Research Fellow, Boston Children’s Hospital, Harvard Med. School · 2008 - 2009 : Postdoctoral Research Fellow, KAIST

Academic Credential microbiome, stem cell engineering, cardiovascular diseases

Research Keywords and Topics • Biomedical devices, Infectious disease, Extracorporeal device for therapeutic applications, Organ-on-a-chip, Regenerative engineering, Cancer-on-a-chip, Metastasis, Microfluidics, Nanobiotechnology, Magnetophoresis, Nanobiosensor, Cell separation, Cell Biology, Tissue Engineering, Microfabrication Techniques, Mechanobiology, Vascular biology, Angiogenesis

Research Publications (selected) • Biosensors and Bioelectronics / An inflammatory vascular endothelium-mimicking microfluidic device to enable leukocyte rolling and adhesion for rapid infection diagnosis / Seyong Kwon, Amanzhol Kurmasheva, Min Seok Lee, and Joo H. Kang*, 2020, 168, 112558 • Small / Advection flows-enhanced magnetic separation for high-throughput bacteria separation from undiluted whole blood / Soo Hyun Jung, Seyong Kwon, Eujin Um, Sungyoung Choi, Joo H. Kang* / 2018; 14(34) e1801731 • Nature Medicine / An extracorporeal blood-cleansing device for sepsis therapy / Kang JH, Super M, Yung CW, Cooper RM, Domansky K, Graveline AR, Mammoto T, Berthet JB, Tobin H, Cartwright MJ, et al. / 2014;20(10):1211-1216

Patents (selected) • 미세경사구조물을 이용한 자기영동분리방법 / 강주헌, 정수현 / 2019-10 • 질병진단을 위한 전혈 분석용 통합 랩온어칩기술 / 강주헌, 권세용, 오지웅 / 2020-05

· 2008 : Ph.D. Korea Advanced Institute of Science and Technology(KAIST) · 2004 : M.S. Korea Advanced Institute of Science and Technology(KAIST) · 2002 : B.S./B.S. Sogang University

Awards/Honors/Memberships · 2019 : Emerging Investigator, Lab on a Chip, The Royal Society of Chemistry · 2015 : SLAS Innovation Award Top Candidate, SLAS2015, Washington DC · 2014 : Baxter Young Investigator Award, Baxter International Inc., IL, USA · 2013 : Young Frontiers in Bio and Brain Engineering, KAIST · 2012 : Postdoctoral Award for Professional Development, Harvard University · 2008 : The Best Graduate Thesis Award, KAIST · Wyss Technology Development Fellowship, Harvard University

College of Information and Biotechnology

213

Department of Biomedical Engineering

Major research field Microfluidics, lab on a chip, biochip, organ-on-a-chip, diagnostics, therapeutics, magnetic separation, infectious diseases, nanotechnology

Curriculum Vitae

3D Biofabrication Laboratory 3D 바이오가공 연구실

강현욱

_HyunWook Kang

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 105. Rm. 221 Lab : Bldg. 105 Rm. 206 Tel : +82-52-217-2527 E-mail : hkang@unist.ac.kr https://3dbioprinting.wixsite.com/unist3 dbio

Bioprinting technology enables the fabrication of computer-designed 3D microarchitectures consisting of multiple types of living cells, biomaterials, and biomolecules, making it possible to produce real organ/tissue-like cellular construct. Many researchers have reported that biomimetic design has a great effect not only on artificial tissue formations, but also on functional recovery of damaged organs. Our team is developing new 3D bioprinting systems and processes to build 3D precise cellular constructs with biomimetic architectures. Based on the technology, we are also conducting various studies on bio-applications such as artificial tissue/organ regeneration, wound healing, disease model, and body-on-a-chip. 3D 바이오 프린팅 기술은 다양한 종류의 세포, 생체 재료 및 생체 분자 등을 이용하여 컴퓨터 디자인 된 3차원 구조물의 제작을 가능하게 한다. 이러한 기술적 특징은 여러 종류의 세포로 구성된 장기와 유사한 생체 모방형 구조물의 제작을 가능하게 한다. 이미 많은 연구를 통하여 생체 모방형 구조물 이 인공 조직 및 장기의 재생 및 손상된 장기의 기능 회복에 매우 우수한 성능을 가짐이 증명되었다.

Curriculum Vitae · 2020 - Present : UNIST, Associate Professor · 2015 - 2020 : UNIST, Assistant Professor · 2013 - 2015 : Wake Forest School of Medicine, Wake Forest Institute for Regenerative Medicine, Instructor

본 연구팀은 3D 바이오 프린팅을 이용하여 생체 모방형 구조물 제작을 위한 고 정밀 공정 기술 및 관 련 응용 기술에 대하여 연구한다. 관련 응용 기술로는 바이오 프린팅 기술을 이용한 인공 조직 및 장 기 재생, 신약 검증용 진단 칩 개발, 질병 모델 개발 등이 활발히 진행되고 있다.

Academic Credential · 2004 - 2009 : Ph.D. Mechanical Engineering, Pohang University of Science and Technology · 2002 - 2004 : M.S. Mechanical Engineering, Pohang University of Science and Technology

Awards/Honors/Memberships · 2019 - Present : Board Member of International Society for Biofabrication · 2016 - Present : Editorial Board Member of BIOPRINTING Journal · 2017 - Present : Vice President of Committee of Scientific Affairs of Korean Society for Medical 3D Printing · 2019 - Present : Member of Editorial of International Journal of Precision Engineering and Manufacturing · 2011 : Wake Forest Institute for Regenerative Medicine : 2nd Place Award · 2009 : Best Presentation Award in The 2nd World Congress of Tissue Engineering

Major research field Regenerative Medicine, Tissue Engineering, Artificial Tissue/Disease Model, Body-on-a-chip

Desired field of research Clinic applications of Artificial tissue or organ, Artificial tissue/organ model for drug discovery market

Research Keywords and Topics • 3D Bioprinting, Tissue engineering and Regenerative medicine, Artificial tissue/disease model, Body-on-a-chip • 3D 바이오 프린팅, 조직공학 및 재생의학, 인공 생체 및 질병 모델, 생체칩

Research Publications (selected) • Biobabrication / Decellularized extracellular matrix-based bio-ink with enhanced 3D printability and mechanical properties / 2020 • Additive Manufacturing / Direct-write printing for producing biomimetic patterns with self-aligned neurites / 2020 • Nature Biotechnology / A 3D bioprinting system to produce human-scale tissue constructs with structural integrity / 2016

Patents (selected) • A method for manufacturing cell spheroid using bio-ink. 16/751,008. United States. 20200123 & EP 20156113.1. / 2015 • Integrated Organ and Tissue Printing Methods, System and Apparatus. US 2012/0089238 A1. United States / 2012

214

Color & Affective Engineering Lab 색채 및 감성공학 연구실

The color science is a scientific discipline that deals with “color” we perceive. My main research interests are quantifying the visual perception such as color, texture and gloss, figuring out how those perceptions influence the human emotion (KamSung in Korean), and then applying those knowledge on the various product developments such as display image quality enhancement and affective lighting development. 색채과학은 사람이 인지하는 색에 관해 연구하는 과학 분야입니다. 색채 및 감성공학 연구실에서는 색, 질감과 같은 시각 특성에 관한 수학적 모델을 개발하고, 시각 특성과 감성의 관계에 관한 연구를 진행하고 있으며, 이를 디스플레이 화질 향상, 감성 조명 개발 등에 응용하는 것을 목표로 합니다.

곽영신

_Youngshin Kwak

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 1001-5 Lab : Bldg. 104 Rm. 1002 Tel : +82-52-217-2710 E-mail : yskwak@unist.ac.kr http://yskwak.unist.ac.kr/

Major research field Color Science, Color Engineering, Affective Engineering, Color Appearance, Display Image Quality, Lighting Quality

Curriculum Vitae

Research Publications (selected) • Color Research & Application / Discomfort luminance level of head‐mounted displays depending on the adapting luminance / H. Ha, Y. Kwak, H. Kim, Y. J. Seo / 2020 / 45(4), 622-631 / • Optics express / Preferred display white prediction model based on mixed chromaticadaptation between ‘prototypical display white’ and surround lighting color / Y. Kwak, H. Ha, H. Kim, Y. Seo / 2019 / 27(3), 2855-2866 • Color Research & Application / Hue and warm‐cool feeling as the visual resemblance criteria for iso‐CCT judgment. / S. Oh, Y. Kwak / 2019 / 44(2), 176-183

· 2014 - Present : Associate Professor, UNIST · 2009 - 2014 : Assistant Professor, UNIST · 2003 - 2009 : R&D Staff Member, Samsung Advanced Institute of Technology · 1997 - 1999 : Researcher, Ewha Color & Design Research Institute

Academic Credential

Awards/Honors/Memberships · CIE (International Commission on Illumination) Division1. Vision and Colour Director · SID (Society of Information Display) Applied Vision / Human Factors Subcommittee Member · Associate director of Korean National Committee of CIE · Steering committee of Korea Society of Color Studies · Steering committee of Korea Society for Imaging Science and Technology

College of Information and Biotechnology

215

Department of Biomedical Engineering

· 2003 : Ph.D., Colour & Imaging Institute, University of Derby (UK) · 1997 : M.S., Physics, Ewha Womans University · 1995 : B.S., Physics, Ewha Womans University

Perception, Action, & Learning Lab 지각, 운동, 학습 연구실

권오상

_Oh-Sang Kwon

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 1001-10 Lab : Bldg. 104 Rm. 302 Tel : +82-52-217-2735 E-mail : oskwon@unist.ac.kr http://pal.unist.ac.kr

The natural ability to acquire relevant sensory information from the environment is critical in everyday life. In Perception, Action, & Learning Lab, we study the fundamental principles that govern the process of human perception and action and apply that knowledge to improve the quality of life. Our current research focuses on 1) revealing the computational mechanism of human motion perception, 2) understanding cognitive biases and selective exposure in new media environment, 3) quantifying the spatiotemporal integration in human vision, 4) developing a perceptual learning-based training tool for presbyopia. 감각기관을 통해 환경에 대한 정보를 습득하고 그 정보를 이용하여 효과적인 반응을 하는 정신작용 은 일상의 거의 모든 활동에 필수적입니다. Perception, Action, & Learning Lab은 인간의 감각과 운동 반응의 기저에 있는 계산원리를 밝히는 것을 연구 목표로 하며, 이를 제품 개발 및 특수 인구 (고령자 등)의 재활에 활용하여 삶의 질을 높이는 데 기여하려고 합니다. 본 연구실에서는 현재 1) 움직임 지 각에 대한 계산모형 개발, 2) 뉴미디어 환경에서의 인지편향 및 선택적 노출 문제, 3) 시각 신호의 시

Curriculum Vitae · 2019 - Present : Associate Professor DHE, UNIST · 2015 - 2019 : Assistant Professor DHE, UNIST · 2013 - 2015 : Research Associate Center for Visual Science, Univ. of Rochester · 2009 - 2013 : Post Doc Center for Visual Science, Univ. of Rochester

Academic Credential · 2009 : Ph.D. Purdue Univ., Psychology (Mathematical & Computational Cognitive Science) · 2002 : M.AKorea Univ., Psychology (Experimental Psychology) · 2000 : B.A Korea Univ., Psychology

공간 통합 기제, 4) 노안진행 완화을 위한 훈련 프로그램 개발 등의 연구를 진행하고 있습니다.

Major research field Motion perception, Aging vision, Statistical learning, Bayesian inference, Perceptual learning, Computational Modeling, Cognitive Bias, Spatiotemporal integration in human vision.

Research Keywords and Topics • Computational models of motion perception • Perceptual learning for presbyopia • Cognitive bias • Statistical learning and transfer • Bayesian inference • Spatiotemporal integration in human vision • Sensory cue integration

Research Publications (selected) • Scientific Reports / Temporal Dynamics of Visual Attention Allocation. Scientific Reports / Moon, J., Choe, S., Lee, S., & Kwon, O.-S. / 2019 • PNAS / A unifying account of visual motion and position perception / Kwon, O.-S., Tadin, D., & Knill, D.C. / 2015 • PNAS / The brain uses adaptive internal models of scene statistics for sensorimotor estimation and planning / Kwon, O.-S., & Knill, D.C. / 2013

Patents (selected) • 지각적 학습에 기반한 시각 훈련 방법 및 시각 훈련 장치 / 권오상 Suraiya Jahan Liza / 2020-03

216

TaejoonLab 기능유전체 실험실

We studies the function of human genes involved in diseases, based on their deep homology in multiple organisms. By utilizing large-scale functional genomic data in multiple organisms, we computationally infer the role of uncharacterized genes (or novel function of already characterized genes) in phenotype that we are interested in. By integrating engineering perspectives, we also develop novel experimental platform to validate our predictions in model organisms. 저희 연구실은 질병과 관련된 유전자의 기능을 진화적 관점에서 이해하기 위해 여러 모델 동물의 데 이터를 연구하고 있습니다. 대규모 기능 유전체 데이터 분석을 통하여 유전자의 새로운 기능을 찾고,

권태준

_Taejun Kwon

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 701-8 Lab : Bldg. 110 Rm. 705 Tel : +82-52-217-2583 E-mail : tkwon@unist.ac.kr https://www.taejoonlab.org

관련된 형질을 연구합니다. 공학적 관점에서 이러한 연구에 필요한 새로운 실험 기법 역시 같이 개 발하고 있습니다.

Curriculum Vitae

Major research field

Desired field of research Birth defect, COPD, Proteomics, Disease Modeling

Research Keywords and Topics • Host-microbe interaction: nasal microbiome, blood microbiome, imaging-based pathogen detection, probe design • Mucociliary epithelium: multiciliated cells, proteomics, single-cell transcriptome, differentiation, goblet cell, mucus secretion, ionocytes, serotonine • High-throughput screening: deep learning, image processing • Imaging-Omics: Substantia nigra, dopamin, neuromelanin, MRI • Cancer organoid: proteomics, multi-omics, DNA damage, gene therapy, CRISPR, drug resistance

Research Publications (selected)

Academic Credential · 2012 : Ph.D. in Cell. Mol. Biol. (CMB) Institute for Cellular & Molecular Biology, UT Austin, USA · 2006 : M. Phil. in Comp. Biol. CCBI, Univ. of Cambridge (Clare Hall), UK · 2000 : M.S. in Chem. Eng. Seoul National University, Rep. of Korea · 1998 : B.S. in Chem. Eng. Seoul National University, Rep. of Korea

• J Proteome Res. / Simple Method To Characterize the Ciliary Proteome of Multiciliated Cells / Sim HJ, Yun S, ..., Park TJ, Kwon T / 2020 • Epigenetics Chromatin / Physiological effects of KDM5C on neural crest migration and eye formation during vertebrate development / Kim Y, ..., Kwon T, Lee HS / 2018 • Nature / Genome evolution in the allotetraploid frog Xenopus laevis, Session AM / Uno Y, Kwon T, et al. / 2016

Patents (selected) • 다중 프로브 혼성화를 이용한 미생물 검출 방법, 10-2084688 / 강주헌, 권태준, 김하진 / 2020-02 • 유전자가 변이된 세포의 사멸 유도 조성물 및 상기 조성물을 이용한 유전자가 변형된 세포 사멸 유 도 방법, 10-2131869 / 명경재, 권태준, 백인준, 라재선, 서유리, 윤성민 / 2020-07

College of Information and Biotechnology

217

Department of Biomedical Engineering

Functional genomics, Proteomics, Xenopus, Microbiome, Host-microbe interaction, Imaging-Omics

· 2021 - Present : Assistant Professor, Department of Biomedical Engineering, UNIST, Rep. of Korea · 2005 - 2020 : Assistant Professor, Department of Biomedical Engineering, UNIST, Rep. of Korea · 2012 - 2015 : Post-doc. Research Fellow : Center for Systems & Synthetic Biology, UT Austin, USA · 2006 - 2007 : Computational biologist, WT/CRUK Gurdon Institute (with J. Ahringer), Cambridge, UK · 2001 - 2005 : Researcher: Biochip Project Team, Samsung Advanced Institute of Technology/Samsung Electronics, Rep. of Korea

Brain-Computer Interface Lab 뇌-컴퓨터 인터페이스 연구실

김성필

_Sung-Phil Kim

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 901-2 Lab : Bldg. 110 Rm. 903 Tel : +82-52-217-2727 E-mail : spkim@unist.ac.kr http://bci.unist.ac.kr/

Curriculum Vitae · 2015 - Present : Associate Professor, School of Design and Human Engineering, UNIST, Ulsan, Korea · 2013 - 2015 : Assistant Professor, School of Design and Human Engineering, UNIST, Ulsan, Korea · 2012 - 2013 : Assistant Professor (Research), Research and Business Foundation, Korea University, Seoul, Korea · 2009 - 2012 : Assistant Professor, Dept. of Brain and Cognitive Engineering, Korea University, Seoul, Korea

Academic Credential · 2001 - 2005 : Ph.D. Electrical and Computer Engineering, University of Florida, Gainesville, FL, USA · 1998 - 2000 : M.S. Electrical and Computer Engineering, University of Florida, Gainesville, FL, USA · 1990 - 1994 : B.S. Nuclear Engineering, Seoul National University, Seoul, Korea

Awards · IEEE EMBS, Society for Neuroscience, Korean Society for Computational Neuroscience, Korea Society for EEG and Neurophysiology, Korea Society for Brain and Neural Sciences, Brain Engineering Society of Korea, Korea Society for Emotion and Sensibility, Ergonomics Society of Korea, Review Boards at Brain and Innovative Medical Engineering Group of National Research Foundation of Korea

218

As a neuroengineering lab, we are conducting researches on how to establish interfaces to the brain to read out neural information for understanding brain mechanisms and developing technologies used for humans. Our research activities largely cover a number of specific topics. The research of intracortical brain-computer interfaces (BCIs) aims to understand how neuronal activities encode information and to develop a system that harnesses intracortical neuronal signals to actuate external systems. Specifically, we are working on developing a bi-directional BCI to control a robotic arm by reading motor cortical activities and at the same time, delivering somatosensory senses back to the brain by writing the code of senses directly to the somatosensory neurons. The non-invasive BCI research builds a similar BCI system, but using non-invasive brain signals such as electroencephalography (EEG) to control home appliances of daily use. The non-invasive BCI system targets a wider range of populations to allow people to gain brain control over a variety of devices such as a TV set, a refrigerator, a smart LED system, and so on. We aim to achieve this goal by combining BCIs with augmented reality (AR) technology. The neuromarketing research pursues to establish a set of tools to help understand the cognitive and affective states of consumers by reading and analyzing brain activities. The tactile intelligence research is concerned with building a model to learn tactile percepts from artificial tactile sensor signals, by mimicking the way the human somatosensory system works. Taking all these together, our lab ultimately aims to understand the brain better and utilize the brain information more effectively for human life.

Major research field brain-computer interface, neuromarketing, tactile neuroscience, neural decoding

Desired field of research neuron-inspired AI, brain-AI interface, autism, neural encoding, tactile intelligence

Research Keywords and Topics • brain-computer interface, neuromarketing, tactile neuroscience, neural decoding, neural encoding

Research Publications (selected) • Scientific Reports / Shared neural representations of tactile roughness intensities by somatosensation and touch observation using an associative learning method / J. Kim, I. Buelthoff, S.-P. Kim, H.H. Buelthoff / 2019 • Frontiers in Neuroscience / Group-level neural responses to service-to-service brand extension / T. Yang and S.-P. Kim / 2019 • Frontiers in Computational Neuroscience / A spike train distance robust to firing rate changes based on the Earth Mover’s Distance / D. Sihn and S.-P. Kim / 2019

Patents (selected) • 신경 발화 패턴을 이용한 촉감의 모델링 방법, 촉감 모델 및 신경 발화 패턴을 이용한 촉감의 생성 방법 / 김성필, 박지성, 정승준, 장동표 / 2018-09

• 영상콘텐츠의 몰입도 측정 방법 및 장치 / 김성필, 강다윤, 조양석, 박완주 / 2017-03

Molecular Biomedicine Lab 분자생의학 연구실

Molecular Biomedicine Lab. (MBL) is a global stem cell research group that has a network with Max Planck Institute, the world-leading research institute. MBL aims to develop novel stem cell technologies to treat incurable disease. Direct conversion is a technology that can generate target cells from skin cells by bypassing the pluripotent stage thereby solving the tumorigenic risk of pluripotent stem cells. MBL focuses on developing stem cell treatments that repair damaged tissues or damaged organs using patient-specific stem cells generated by direct conversion technology, organoid technology or stem cellbased tissues produced by 3D bio-printing technology.

김정범

_ Jeong Beom Kim

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 105 Rm. 220 Lab : Bldg. 105 Tel : +82-52-217-5201 E-mail : jbkim@unist.ac.kr https://jbkim.unist.ac.kr/

분자생의학 Lab (MBL)은 글로벌 줄기세포 연구그룹으로 세계적인 연구기관인 막스 플랑크 연구소 와 네트워크를 가지고 있으며, 난치병을 치료할 새로운 줄기세포 기술을 개발하는 것을 목표로 하고 있다. MBL은 전분화능 단계를 우회하여 목표 세포를 직접 생성하여 전능줄기세포의 종양생성 위험 을 해결할 수 있는 직접교차분화 기술을 개발하여 환자맞춤형 줄기세포 제작에 초점을 맞추고 있다. 또한 손상된 조직이나 장 기 손상을 복구하기 위한

Curriculum Vitae

새로운 치료법을 찾기 위

· 2017 - Present : CEO, SuPine Therapeutics · 2017 - Present : Associate Professor · 2012 - 2016 : Group leader, Max Planck Partner Group-MBL · 2010 - Present : Director, Hans Schöler Stem Cell Research Center (HSSCRC) · 2009 - 2016 : Assistant Professor

해 오가노이드 기술과 3D 바이오 프린팅 기술 을 이용한 줄기세포 기반 조직을 개발하는 데 주력 하고 있다.

Reprogramming, Direct conversion, 3D bio-printing, Spinal cord injury (SCI), Neuro-degenerative diseases

Academic Credential

Desired field of research

· 2009 : Ph.D., Biology, Max Planck Institute for Molecular Biomedicine, Germany · 2004 : M.S., Medical Science, Yonsei University College of Medicine, Korea · 2001 : B.S., Biology, Dongguk University, Korea

Patient-specific stem cells, Organoids, First-in-class drugs, Drug screening & development

Research Keywords and Topics • Our research is based on an understanding of the mechanism of iPS reprogramming, direct conversion and the generation of patient-specific stem cells for future cell therapy. The aim is to develop innovative cell therapeutic methods for a degenerative and incurable diseases, and for innovative techniques of drug screening and toxicity tests.

Research Publications (selected) • ELIFE / Sequentially induced motor neurons from human fibroblasts facilitate locomotor recovery in a rodent spinal cord injury model / Lee, H,…, Kim, JB / 2020 • NATURE / Direct reprogramming of human neural stem cells by OCT4 / Kim, JB,…, Schöler, HR / 2009 • CELL / Oct4-Induced Pluripotency in adult neural stem cells / Kim, JB,…, Schöler, HR / 2009 • NATURE / Pluripotent stem cells induced from adult neural stem cells by reprogramming with two factors / Kim, JB,..., Schöler, HR / 2008

Patents (selected) • Hydorgel patch / Jeong Beom Kim and Donggyu Nam / 2019-12 • Composition for inducing direct conversion of somatic cell into Oligodendrocyte Progenitor Cells and use the same / Jeong Beom Kim / 2017-10

Awards/Honors/Memberships · 2018 : Award of HYUNDAI Heavy Industries, HYUNDAI · 2017 : Award of Minister of Small and Medium Business Administration, Korea · 2017 : Young Korean Academy of Science and Technology (Y-KAST), KAST · 2013 : Hanrim Leading Scientist, KAST · 2010, 2011 : “The leaders of Korea after 10 years”, Dong-A Newspaper · 2010 : Otto-Hahn Award (Max Planck Society, Germany) · 2009 : MTZ-MPI Award (MTZ foundation, Germany) · 2008 : International Society of Stem cell Research (ISSCR), Junior Investigator Award, USA

College of Information and Biotechnology

219

Department of Biomedical Engineering

Major research field

Single Molecule Biophysics Group 단분자 생물물리학 연구실

김하진

_Hajin Kim

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 701-7 Lab : Bldg. 110 Rm. 702 Tel : +82-52-217-2557 E-mail : hajinkim@unist.ac.kr http://single.unist.ac.kr/

We look at “Life”, molecule by molecule. Single molecule approaches to biology and biophysics reveal unforeseen details about the building blocks of biology. From these, we can understand the role of fluctuations and the interplay of molecules, to open new insights into the functioning of the biomolecules. These insights can provide novel strategies toward biomedical problems as well as answers to scientific questions. We develop and combine cutting-edge single molecule and single cell techniques to solve important problems in biological science, including the organization and dynamics of chromosomes, biomolecular recognition/assembly, molecular machinery working on nucleic acids, and intrinsically disordered proteins. Our study requires cross-disciplinary efforts from biologists, physicists, chemists, and engineering scientists and we pursue collaborations with groups from diverse scientific disciplines. One of our major interests is to uncover the molecular level principles that govern the spatiotemporal organization of chromatin and its epigenetic control for regulating DNA repair and gene expression, eventually determining the fate of the cell.

Curriculum Vitae · 2019 - Present : Associate Professor, UNIST · 2014 - 2019 : Assistant Professor, UNIST · 2009 - 2014 : Research Associate, UIUC/Howard Hughes Medical Institute · 2006 - 2009 : Postdoc Fellow, UC Berkeley

Academic Credential · 2006 : Ph.D., Physics, Seoul National University · 2001 : M.S., Physics, Seoul National University · 1999 : B.S., Physics, Seoul National University

Major research field Single Molecule Dynamics, Molecular Motors, Genome Imaging, Chromatin Dynamics, Super-Resolution Microscopy, Single Molecule Mechanobiology

Research Interests • Single molecule study of DNA replication and repair processes • Transcription initiation dynamics • Super-resolved imaging of genome dynamics • Visualization of 4D (spatiotemporal) organization of chromatin • Imaging-based identification and characterization of microbial species

Research Publications (selected) • Nature Communications / The Dynamic Landscape of Transcription Initiation in Yeast Mitochondria / 2020 • Nature Communications / Regulation of PCNA cycling on replicating DNA by RFC and RFC-like complexes / 2019 • Nature Communications / Evolution of Protein-Coupled RNA Dynamics during Hierarchical Assembly of Ribosomal Complexes / 2017 • Nature Communications / Direct Evidence for Sequence-Dependent Attraction between Double-Stranded DNA Controlled by Methylation / 2016 • Nature / Protein-Guided RNA Dynamics during Early Ribosome Assembly / 2014 • Nature Struct. Mol. Biol. / A Rule of Seven in Watson-Crick Base Pairing of Mismatched Sequences / 2012

220

Center for Genomic Integrity 유전체 항상성 연구단

DNA is the building block for the genome and provides the blueprint for almost every aspect of life. DNA can be damaged by endogenous assaults such as replication errors, oxidative stress or by exogenous challenges such as radiation or toxic chemicals. Failure to repair such damage results in cell death or the accumulation of changes in DNA that can cause genetic diseases including cancers or can lead to premature aging. Research at the IBS Center for Genomic Integrity is concerned with the many DNA damage response and repair pathways that can sense and repair damaged DNA and signal to cells that there is an urgent problem to be addressed. We also study the link of these pathways to other parts of cellular metabolism, including DNA replication, cell cycle regulation or transcription. Our research spans many disciplines and techniques, including molecular, cell, chemical and structural biology, genetics, biochemistry and the use of animal models. Finally, we are interested in leveraging our research to develop small molecule modulators of DNA repair pathways as probes and to exploit vulnerabilities of tumors in therapeutic settings.

Major research field

Desired field of research

Synthetic lethality, DNA Repair, DNA Reconbination, DNA Damage Response, Cancer, Aging

DNA Repair, Synthetic lethality, Cancer, DNA Damage Response, ATAD5, PCNA, CRISPR, CRISPR-Cas9

Research Keywords and Topics

Research Publications (selected) • CELL REPORTS / PCNA Unloading Is Negatively Regulated by BET Proteins / Kang M, Kim J, Ryu E, Ha N, Hwang S, Kim B, Ra J, Kim Y, Hwang J, Myung K, Kang S. / 2019-12 • NATURE COMMUNICATIONS / ATAD5 promotes replication restart by regulating RAD51 and PCNA in response to replication stress / Park S, Kang N, Song E, Wie M, Lee E, Hwang S, Lee D, Ra J, Park I, Park J, Kang S, Park J, Hohng S, Lee K, Myung K. / 2019-12 • NUCLEIC ACIDS RESEARCH / CTCF cooperates with CtIP to drive homologous recombination repair of double-strand breaks, Hwang S, Kang M, Baik C, Lee Y, Hang N, Kim B, Han J, Jeong J, Park D, Myung K, Lee J. / 2019-09 • NUCLEIC ACIDS RESEARCH / The structure of human EXD2 reveals a chimeric 3′ to 5′ exonuclease domain that discriminates substrates via metal coordination / Park J, Lee S, Jeong H, Kang M, Haute L, Minczuk M, Seo J, Jun Y, Myung K, Rhee H, Lee C / 2019-07 • NATURE COMMUNICATIONS / Regulation of PCNA cycling on replicating DNA by RFC and RFC-like complexes / 2019-06

Patents (selected) • Compounds and Method for treating PARP1-deficient cancers, US patent 61/930,291 (E-039-2014/0-US-01) / 2014 • Composition For Inducing Apoptosis of Cancer Cell And Method For Inducing Apoptosis of Cancer Cell Using the Same, KOREA patent

_Kyungjae Myung

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 214 Lab : Bldg. 103 Rm. 228 Tel : +82-52-217-5323 E-mail : kjmyung@unist.ac.kr https://www.ibs.re.kr/cgi/

Curriculum Vitae · 2014 - Present : Distinguished Professor, Ulsan National Institute of Science and Technology, Ulsan, Korea · 2014 - Present : Director, Center for Genomic Integrity, Institute for Basic Science, Ulsan, Korea · 2013 - Present : Adjunct Professor, Department of Biological Sciences, KAIST, Daejeon, Choongnam, Korea · 2013 - 2014 : Adjunct Professor, School of Nano-Bioscience and Chemical Engineering, UNIST · 2011 - 2014 : Adjunct Professor, Division of Molecular and Life Science, POSTECH

Academic Credential · 1994-1999 : Ph.D. Molecular Biology, Cell Biology and Biochemistry, Brown University, Mentor : Eric A. Hendrickson Ph.D. · 1991-1993 : M.S. Molecular Biology, Seoul National University, Mentor: Sang Dai Park Ph.D. · 1987-1991 : B.S. Zoology, Seoul National University, Seoul, Korea

Awards/Honors/Memberships · 2017 : Genetic Society of Korea Scholar of the Year 2017 · 2014 : Scientist of the year Award from KSEA and KOFST · 2013 : Outstanding Service award from KSEA Washington Metro Chapter · 2013 : US Government Service Award · 2012 : Director of the year 2012 award from KSEA · 2008 : Bea Singer Young Investigator Award · 2008 : US Government Service Award

College of Information and Biotechnology

221

Department of Biomedical Engineering

• Developing small molecules or methods for inducing apoptosis of cancer cells with precision medicine method • Molecular Analysis of DNA replication, repair, recombination genes and proteins • Cellular Response to DNA damaging agents • Animal models to understand defects in DNA replication, repair, recombination • Identification of potential precision therapeutic molecules for cancers and aging

명경재

Bio-Optics Lab 바이오광학 연구실

박정훈

_Jung-Hoon Park

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 701-5 Lab : Bldg. 110 Rm. 707 Tel : +82-52-217-2556 E-mail : jh.park@unist.ac.kr http://www.biooptics.org

Curriculum Vitae · 2016 - Present : Assistant/Associate Professor, UNIST · 2015 - 2016 : Postdoctoral Researcher, Purdue University · 2014 - 2015 : Postdoctoral Researcher, HHMI Janelia Research Campus

Academic Credential · 2014 : PhD in Physics, KAIST · 2009 : BS in Physics, Korea University

Awards/Honors/Memberships · 2019 - Present : Program Committee, IEEE Photonics Conference · 2018 : POSCO TJ Park Young Professor Fellowship · 2017 : Program Committee, IEEE EMBC · 2017 - Present : Organizing Committee, Annual Biophotonics Conference · 2014 : Best PhD Thesis Award · 2013 : Top 10 scientific news of 2013, Korean Federation of Science and Technology Societies · 2013 : Best Paper Award, ACP · 2013 : Travel Grant, Janelia Research Campus · 2012 : Best Paper Award, ACP

We are interested in developing new techniques to control the propagation of light through opaque media. The reason things look opaque (white) is because it reflects all wavelengths of light due to multiple scattering. The ultimate goal of our research is to control light so that we can noninvasively peek into thick opaque tissue for diagnosis and treatment of disease as well as for fundamental biological studies. We emphasize on interdisciplinary research that lies between physics, engineering, and biology and will venture into many different interesting paths that pop up along the way. 바이오광학 연구실은 불투명한 복잡매질을 통과한 빛의 진행방향을 마음대로 제어할 수 있는 새로 운 광학개념 및 기법들을 개발하고 있습니다. 하얀 물체가 불투명한 이유는 복수산란으로 인해 모든 파장의 빛이 난반사되기 때문입니다. 우리 연구실의 궁극적인 목표는 빛을 효과적으로 제어하여 불 투명한 생체 심부조직 내부 깊은 곳까지 비침습적으로 관찰하여 빛을 이용한 다양한 질병 기전의 이 해 및 치료, 그리고 생명현상의 기본원리를 이해하는 것입니다. 물리학, 공학, 생물학 분야의 전문지 식을 포괄하는 융합연구를 추구하며 우리의 꿈을 향해 나아가는 동안 찾을 수 있는 다양한 주제들에 대해 호기심을 원동력 삼아 끊임없이 탐구하고자 합니다.

Desired field of research

Major research field Wavefront Shaping for Deep Tissue Imaging, Computational Imaging, Neurophotonics, In-vivo Superresolution Imaging, Holography, Diagnosis and Treatment

Cool stuff I can't even imagine

Research Keywords and Topics • Wavefront Shaping for Deep Tissue Imaging • Computational Imaging • Neurophotonics • In-vivo Superresolution Imaging • Holography • Diagnosis and Treatment of Disease Using Light

Research Publications (selected) • Optica / Limiting the incident NA for efficient wavefront shaping through thin anisotropic scattering media / H Jin, B Hwang, S Lee, JH Park / 2021-03 • Optica / Tunable SIM: observation at varying spatiotemporal resolutions across the FOV. / T Woo, SH Jung, C Ahn, B Hwang, H Kim, JH Kang, JH Park / 2020-08 • Nature Methods / Large field of view imaging by Multi-Pupil-Adaptive-Optics. / JH Park, L Kong, Y Zhou, M Cui / 2017-06 • Nature Photonics / Subwavelength light focusing using random nanoparticles. / JH Park, C Park, HS Yu, J Park, S Han, J Shin, SH Ko, KT Nam, YH Cho, YK Park / 201306

Patents (selected) • Method and apparatus for manipulating nearfield using light scattering, US patent no: 9279764 B2

222

Materials and Chemistry Laboratory (MCL) 재료화학실험실

Our research focuses on the nanotechnology based on materials chemistry, developing of advanced nanomaterials for energy and biological application. Of particular interest are areas regarding the designed synthesis of quantum dots for highly efficient QDLED & solar cell and the development of system to achieve high yield & narrow size distribution of various nanomaterials using micro-fluidics system. We are also interested in the surface engineering of nanomaterials for molecular imaging, sensing, and targeting for biological applications. 본 연구실은 에너지와 바이오 분야에 응용될 수 있는 첨단 나노재료를 개발하는 연구를 진행하고 있 다. 그 중에서도 특히 고효율의 QD-LED와 태양전지에 사용될 양자점 합성에 대한 연구와 미세 유체 반응기를 이용한 고수율의 균일한 나노물질의 대량 합성에 대한 연구를 중점적으로 하고 있다. 또한, 생물학적 응용을 위한 분자 영상, 감지, 타겟팅에 사용될 나노물질의 표면 처리를 통한 나노메디신 개발에 관한 연구를 진행하고 있다.

박종남

_Jongnam Park

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 501-7 Lab : Bldg. 104 Rm. 502 Tel : +82-52-217-2927 E-mail : jnpark@unist.ac.kr http://www.matchemlab.com

Curriculum Vitae

Major research field Quantum Dots, Inorganic Synthesis, Nanomaterials, Surface Engineering, Bioimaging & Biosensor

Research Keywords and Topics

양자점, 무기합성, 나노재료, 표면공학, 바이오 이미징 & 바이오센서

• Designed synthesis of nanomaterials for energy and biological application via surface engineering

Academic Credential

에너지와 바이오 응용을 위한 표면이 개질된 나노재료의 디자인 및 합성

• Development of new quantum dots for LED and nanomedicine 발광소자 및 나노의약품향 신규 양자점 개발

• Bioapplication of nanomaterials including biosensor, MR/optical imaging, molecular sensing, targeting, and drug delivery system MRI, 광학 이미징, 바이오 센서, 분자감지, 표적형 약물 전달 시스템 등의 나노메디신 개발

Research Publications (selected) • Chem. Mater / Large-Scale Synthesis of Highly Luminescent InP@ZnS Quantum Dots Using Elemental Phosphorus Precursor / Eunbyul Bang, Yonghoon Choi, Jinhee Cho, Yo-Han Suh, Hyeong Woo Ban, Jae Sung Son, and Jongnam Park / 2017 • Chem. Mater / Graphene Oxide Assisted Synthesis of Self-assembled Zinc Oxide for Lithium-Ion Battery Anode / Chungho Kim, Jin Wook Kim, Hyunhong Kim, Dong Hyeon Kim, Changhoon Choi, Yoon Seok Jung, Jongnam Park / 2016 • Adv. Mater / Inverted Colloidal Quantum Dot Solar Cells / Gi-Hwan Kim, Bright Walker, HakBeom Kim, Jin Young Kim, Edward H. Sargent*, Jongnam Park* and Jin Young Kim / 2014 • Nature materials / Ultra-Large Scale Syntheses of Monodisperse Nanocrystals / Jongnam Park, Kwangjin An, Yosun Hwang, Je-Geun Park, Han-Jin Noh, Jae-Young Kim, Jae-Hoon Park, Nong- Moon Hwang, and Taeghwan Hyeon / 2004

Patents (selected) • Process for large-scale production of monodisperse nanoparticles, US 7,811,545 B2 / Jongnam Park and Taeghwan Hyeon / 2010 • Method of synthesizing nanorods by reaction of metal-surfactant complexes injected using a syringe pump, US 0214190 / Jongnam Park and Taeghwan Hyeon / 2005

· 2005 : Ph.D. School of Chemical and Biological Eng., Seoul National University · 2001 : M.S. School of Chemical and Biological Eng., Seoul National University · 1999 : B.S. School of Chemical and Biological Eng., Seoul National University

Awards/Honors/Memberships · Member of Korean Institute of Chemical Engineers · Member of Materials Research Society · Member of American Chemical Society · Member of Korean Chemical Society · 2011 : The Creative Knowledge Award by the Ministry of Education, Science and Technology, 지식창조대상 · 2007 - 2010 : Full Post-doc associate of MIT · 2007 : Korea Research Foundation Grant funded by Korean Government

College of Information and Biotechnology

223

Department of Biomedical Engineering

• Quantum Dots, Inorganic Synthesis, Nanomaterials, Surface Engineering, Bioimaging & Biosensor

· 2017 - Present : Associate Professor, UNIST · 2017 - 2018 : Visiting Professor, Department of Chemical and Biomolecular Engineering, University of Pennsylvania · 2010 - 2017 : Assistant Professor, UNIST · 2006 - 2010 : Postdoctoral Associate, Department of Chemistry, Massachusetts Institute of Technology · 2005 - 2006 : Postdoctoral Fellow, Institute of Molecular Biology and Genetics, Seoul National University

Genome Lab 게놈랩

박종화

_Jong Hwa Bhak

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 301-8 Lab : Bldg. 110 Rm. 305 Tel : +82-52-217-5329 E-mail : jongbhak@unist.ac.kr

Genome lab is all about genomes. Bioinformatics, Genomics, Omics and Variomics. We use both experiments and computers to analyze genome data.

Academic Credential · 1994 : Aberdeen University, BSc. Biochemistry · 1997 : Cambridge University, Ph.D., Bioinformatics

Research Keywords and Topics • Genomics and molecular aging

Research Publications (selected) • SCIENCE ADVANCES / Korean Genome Project: 1,094 Korean personal genomes with clinical information / Jeon, Sungwon; Bhak, Youngjune; Choi, Yeonsong; Jeon, Yeonsu; Kim, Seunghoon; Jang, Jaeyoung; Jang, Jinho; Blazyte, Asta; Kim, Changjae; Kim, Yeonkyung; Shim, Jungae; Kim, Nayeong; Kim, Yeo Jin; Park, Seung Gu; Kim, Jungeun; Cho, Yun Sung; Park, Yeshin; Kim, Hak-Min; Kim, Byoung-Chul; Park, Neung-Hwa; Shin, Eun-Seok; Kim, Byung Chul; Bolser, Dan; Manica, Andrea; Edwards, Jeremy S; Church, George; Lee, Semin; Bhak, Jong / 2020-05 • TRANSLATIONAL PSYCHIATRY / Depression and suicide risk prediction models using blood-derived multi-omics data / Bhak, Youngjune; Jeong, Hyoung-oh; Cho, Yun Sung; Jeon, Sungwon; Cho, Juok; Gim, Jeong-An; Jeon, Yeonsu; Blazyte, Asta; Park, Seung Gu; Kim, Hak-Min; Shin, Eun-Seok; Paik, Jong-Woo; Lee, Hae-Woo; Kang, Wooyoung; Kim, Aram; Kim, Yumi; Kim, Byung Chul; Ham, Byung-Joo; Bhak, Jong; Lee, Semin / 2019-10 • GENE / Whole genome sequencing and bioinformatics analysis of two Egyptian genomes / ElHefnawi, Mahmoud; Jeon, Sungwon; Bhak, Youngjune; ElFiky, Asmaa; Horaiz, Ahmed; Jun, JeHoon; Kim, Hyunho; Bhak, Jong / 2018-08

Patents (selected) • 공통서열을 포함한 참조표준 게놈지도 구축 장치 및 방법 / 김현호, 전재훈, 조성웅, 조윤성, 박종화, 김학민 / 2018-12

• 기계학습을 통한 오믹스 바이오마커 통합 분석 프로그램 / 이세민, 박영준, 정형오, 박종화 / 2017-12

224

Micro Tissue Engineering & Nanomedicine 미세조직공학 및 나노의학

Human body is the most complex organic system in nature. To understand its integrated physiological functions, it is important to recapitulate multi-cellular interactions in tissue and map networks of dynamical organ system in vitro. An ‘Organ on a chip’ is microfluidic cell culture device that contains microenvironment of living organ, which could revolutionize drug development as alternatives to animal testing. We are developing ‘organ-on-a-chip’ using multiple cell types or organoid system to emulate human organs in different physiological states. For precision medicine, we are also creating personalized organ model using stem cell source. Through human in vivo-like organ model, we develop new approach to screen drug and targeted drug delivery, and test drug and observe reactions in real time. Finally, we aim to develop safe and efficient nanomedicines which target specific physiological microenvironment.

박태은

_Tae-Eun Park

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 801-11 Lab : Bldg. 110 Rm. 805 Tel : +82-52-217-2614 E-mail : tepark@unist.ac.kr http://www.mtenlab.com

인체는 자연계에서 가장 정교한 생물학적 시스템이다. 인체의 복잡한 생리적 환경을 이해하기 위해 서는 인체 조직 내 다양한 세포들의 상호작용 및 다른 장기들 간의 유기적인 작동 매커니즘을 구현해 야 한다. 그러나 2D 세포배양 기술은 이러한 요구를 충족하지 못하였으며 기존의 동물실험은 인간과

Curriculum Vitae

실험동물간 차이로 한계가 있어왔다. ‘Organ-on-a-chip’ 은 마이크로칩 내부에 인체의 미세환경을 담

· 2017 - Present : Assistant Professor, UNIST · 2015 - 2017 : Postdoctoral Researcher, Wyss Institute at Harvard University · 2015 : Postdoctoral Researcher, Seoul National University

아낸 플랫폼으로서 기존 동물실험과 세포배양의 한계를 극복할 수 있는 유망한 대체기술이다. 본 연구그룹은 미세조직공학 기술에 기반하여 세포 혹은 organoid를 이용한 ‘organ-on-a-chip’을 개 발함으로써, 다양한 생리학적 상태에 있는 인간의 장기를 모사한다. 또한 줄기세포를 이용해 개인 맞 춤형 organ-on-a-chip을 제작하여 장기 수준에서 정밀의학 연구를 가능하게 한다. 구축된 인공 생체 칩 안에서 약물을 스크리닝하고 약물 표적 전달기술을 개발하며, 약물의 실시간 작용기전을 연구함 으로써 궁극적으로는 인간에게 안전하고 더욱 효율적인 신약개발에 기여하는 것이 목표이다. 인체 내 물리적, 화학적, 생물학적인 미세환경 및 기능을 구현하기 위한 생체 소재 개발, 줄기세포 엔지니 어링, 최적화 미세유동 컨트롤 등의 기술개발뿐만 아니라 임상에 적용하기 위한 응용기술의 개발에

· 2015 : M.S.&Ph.D. Animal Biotechnology, Seoul National University, Korea. · 2011 : B.S. Animal Biotechnology, Seoul National University, Korea

Awards/Honors/Memberships

Major research field Organ-on-a-Chip, Organoid, Microfluidics, Nanotherapeutic, Phage Display

· Member of the International Brain Barriers Society (IBBS) · Member of the Korean Tissue Engineering and Regenerative Medicine Society · Member of the Korean Society for Biomaterials (KSBM) · 2019, Young Scientist Award (KSBM)

Desired field of research Personalized Medicine, Stem Cell Engineering

Research Keywords and Topics • Organ-on-a-Chip, Organoid, BioChip, Nanotherapeutic, Phage Display 오간온어칩, 오가노이드, 바이오칩, 나노의약, 파지디스플레이

Research Publications (selected) • Nature Biomedical Engineering / Robotic fluidic coupling and interrogation of multiple vascularized organ chips / 2020 • Nature Communications / Hypoxia-enhanced Blood-Brain Barrier Chip recapitulates human barrier function and shuttling of drugs and antibodies / 2019 • Biomaterials / Enhanced BBB permeability of osmotically active poly(mannitol-co-PEI) modified with rabies virus glycoprotein via selective stimulation of caveolar endocytosis for RNAi therapeutics in Alzheimer’s disease / 2015

College of Information and Biotechnology

225

Department of Biomedical Engineering

도 힘쓰고 있다.

Academic Credential

Optical Image Based Smart Healthcare

배성철

_Sungchul Bae

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 701-6 Lab : Bldg. 110 Rm. 703 Tel : +82-52-217-2553 E-mail : scbae@unist.ac.kr

Our research is focused on in-vivo and in-vitro optical imaging techniques for smart healthcare applications. Particular interests are concerned with the development of an integrated state-of the-art optical imaging devices for diagnostic and therapeutic purposes. In order to overcome the limitation of optical imaging, various image analysis techniques including artificial intelligence are under deveopment. 연구실에서는 광학영상을 기반으로 한 헬스케어 진단장비 및 치료장비 개발을 진행하고 있습니다. 특히 의료분야에서 투과도가 떨어지는 광학영상기기의 한계를 극복하기 위하여 인공지능을 이용한 영상분석을 통하여 새로운 의료영상장비 개발을 목표로 하고 있습니다.

Curriculum Vitae · 2020 - Present : Dean of Planning and Budget, UNIST · 2015 - 2020 : Dean of University Industry Relations · 2020 - Present : Director, Global Research Center for Organ Mimetics · 2013 - Present : Associate Professor, UNIST · 2011 - Present : Vice President and Co-founder, Accendo Systems, USA · 2009 - 2011 : President, Numentek America, USA · 2001 - 2013 : Postdoctoral Fellow, Visiting Research Assistant Professor, and Research Scientist, University of Illinois at Urbana-Champaign · 2000 - 2001 : Senior Scientist, POSTECH · 1999 - 2000 : Postdoctoral Fellow, University of Illinois at Urbana Champaign · 1997 - 1999 : Postdoctoral Fellow, POSTECH

Academic Credential · 1997 : Ph.D. POSTECH, Chemistry · 1993 : M.S. POSTECH, Chemistry · 1991 : B.S. POSTECH, Chemistry

Memberships · Member of SPIE · Member of Optical Society of America

Research Keywords • Optical Image Biomarker, Laser spectroscopy, Optical microscopy, Laser sensing, Soft matter physics, Surface and interfacial science, Laser Matter Interaction

Research Interests • Optical Microscope Image Analysis • Optical Image Biomarker

Research Interests/Topics • Development of optical imaging devices in diagnostic and therapeutic application • Artificial intelligence based image analysis

Research Publications (selected) • ACS SENSORS / Implementation of combinatorial genetic and microenvironmental engineering to microbial-based field-deployable microbead biosensors for highly sensitive and remote chemical detection / Lee, K; et al. / 2019-10 • NATURE COMMUICATIONS / Mitochondria localization induced self-assembly of peptide amphiphiles for cellular dysfunction / Jeena, M. T.; et al. /2017-06 • NATURE / Linking synchronization to self-assembly using magnetic Janus colloids / Yan, Jing; Bloom, Moses; Bae, Sung Chul; Luijten, Erik; Granick, Steve / 2012-11 • NATURE MATERIALS / When Brownian diffusion is not Gaussian / Wang, Bo; Kuo, James; Bae, Sung Chul; Granick, Steve / 2012-06 • SCIENCE / Supracolloidal Reaction Kinetics of Janus Spheres / Chen, Qian; Whitmer, Jonathan K.; Jiang, Shan; Bae, Sung Chul; Luijten, Erik; Granick, Steve / 2011-01 • JOURNAL OF THE AMERICAN CHEMICAL SOCIETY / Vesicle Budding Induced by a Pore-Forming Peptide / Yu, Yan; Vroman, Julie A.; Bae, Sung Chul; Granick, Steve / 201001 • SCIENCE / A Curious Antipathy for Water / Granick, Steve; Bae, Sung Chul / 2008-12 • ANNUAL REVIEW OF PHYSICAL CHEMISTRY / Molecular motion at soft and hard interfaces: From phospholipid bilayers to polymers and lubricants / Bae, Sung Chul; Granick, Steve / 2007

Patents (selected) Parathyroid Realtime Imaging System Sinus Trans-illumination Imaging Device

226

Ergonomics Lab 인간공학 연구실

Research at Ergonomics Lab aims at: 1) understanding human physical and physiological capacity and limitations; 2) identifying the mechanism of musculoskeletal injuries and disorders; and 3) designing people-friendly products and environments through science and engineering. UNIST 인간공학 연구실 (Ergonomics Lab)은 인간의 신체적, 인지적 특성과 한계에 대한 생리학적, 인체역학적 기본 연구를 바탕으로, 우리의 일과 삶에서 사용하는 제품, 도구, 시스템, 환경을 더욱 안 전하고 편리하게 사용할 수 있도록 설계하고 적용하는 연구를 하고 있습니다. 특히, 인간의 움직임에 대한 물리적 데이터와 생리학적 반응을 종합적으로 분석하여 ‘힘듦’, ‘불편함’,

신관섭

_Gwanseob Shin

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 301-5 Lab : Bldg. 104 Rm. 1010 Tel : +82-52-217-2719 E-mail : gshin@unist.ac.kr http://ergolab.unist.ac.kr

‘피곤함’의 발생과 변화를 정량적으로 파악하는 기술을 가지고 있으며, 이를 이용하여 제품 사용자의 만족감 향상, 작업자의 부상예방, 환자의 효율적인 재활에 관한 연구에 집중하고 있습니다.

Curriculum Vitae

Academic Credential

Major research field biomechanics, industrial ergonomics, ergonomic product design

· 2005 : Ph.D. Industrial Engineering, North Carolina State University · 2002 : M.S. Industrial Engineering, North Carolina State University, U.S. · 1996 : B.S. Mechanical Engineering, Korea University

Desired field of research rehabilitation engineering

Awards/Honors/Memberships · Member of the Human Factors and Ergonomic Society of U.S. · Member of the American Society of Biomechanics · Member of the Ergonomics Society of Korea

Research Keywords and Topics • biomechanics, rehabilitation, ergonomics 생체역학, 재활공학, 근골격계 질환 예방, 인간편의 제품 디자인

Research Publications (selected) • Human Factors / Neck muscular load when using a smartphone while sitting, standing and walking / Yoon, W., Choi, S., Han, H., and Shin, G. / 2020 • Ergonomics / Upper extremity muscular load during carpet vacuuming with household upright cleaners / Bak, H., D’Souza, C., and Shin, G. / 2019 • Ergonomics / Head flexion angle while using a smartphone / Lee, S., Kang, H., and Shin, G. / 2015

College of Information and Biotechnology

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Department of Biomedical Engineering

· 2013 - Present : Associate Professor, UNST · 2011 - 2013 : Assistant Professor, UNIST · 2007 - 2011 : Assistant Professor, State University of New York at Buffalo, U.S. · 2005 - 2007 : Ergonomist, Hayes & Associates, Inc. (forensic consulting), U.S. · 2005 - 2005 : Postdoctoral Researcher, Ergonomics Lab, North Carolina State Univ.

Medical Device and System Lab 광음향 의료기기 연구실

양준모

_Joon-Mo Yang

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 701-3 Lab : Bldg. 110 Rm. 707 Tel : +82-52-217-2529 E-mail : jmyang@unist.ac.kr https://pmi.unist.ac.kr/

Curriculum Vitae · 2018 - Present : Assistant Professor, Department of Biomedical Engineering, UNIST · 2015 - 2018 : Research Assistant Professor, Department of Physics, UNIST · 2013 - 2015 : Research Scientist, Dept. of Biomedical Engineering, Washington University in St. Louis · 2007 - 2013 : Postdoctoral Research Associate, Dept. of Biomedical Engineering, Washington University in St. Louis

Academic Credential · 2007 : Ph.D. in Physics, Seoul National University · 2002 : B.S. in Physics, Seoul National University

Awards/Honors/Memberships · 2015 : Best poster award, SPIE “Photons Plus Ultrasound: Imaging and Sensing” conference · 2014 : Technology licensing with Samsung (~$1.6 million royalty awarded to the institution) · Optical Society of America(OSA) · The International Society for Optical Engineering(SPIE) · Optical Society of Korea(OSK) · Korean Physical Society(KPS)

We develop various forms of novel biomedical imaging and sensing techniques based on optical and acoustical (i.e., ultrasound) methods to solve pending or unaddressed biological and medical problems. Pursuing this goal, our research needs to follow all the stages in developing the related technologies—i.e., from system design to implementation and related experiments—to demonstrate their utility and explore new application areas. Moreover, we collaborate with many specialized biology research groups and clinicians in hospitals or medical schools in universities. In addition to application-oriented studies, we will also make efforts to conduct a significant amount of fundamental research to solidify the related technical basis. Among the many existing sub-areas of optics and acoustics, we currently utilize photoacoustic and ultrasound imaging as the primary technical platforms to realize this goal. Based on the two techniques, we intend to develop new and advanced versions of imaging systems either in a separate (i.e., single-mode) or combined (i.e., dual-mode) form. In terms of combined imaging systems, our plans include a variety of miniaturized imaging devices, such as endoscopic probes for gastroenterology, intravascular imaging catheters for interventional cardiology, and many other minimally invasive imaging probes for urologic applications. We are also interested in developing handheld or portable imaging devices for dermatological treatments and a new generation of small-animal whole-body imaging and brain imaging systems that can visualize anatomical sites that cannot be covered by conventional systems. Photoacoustic imaging, also termed photoacoustic tomography (PAT), is a new technique that combines the high contrast benefit of optical imaging and the high-resolution and deep imaging capability of ultrasound imaging. In recent years, PAT has been widely recognized as one of the most promising approaches in clinical applications, such as human brain or breast imaging, minimally invasive imaging (i.e., endoscopy), and basic research, in fields such as neuroscience and cancer biology. As the technique enables high-resolution tomographic imaging at a clinically relevant depth and provides unique molecular, physiological, and functional information, it is expected that it will mature into a mainstream clinical imaging modality alongside magnetic resonance imaging (MRI), X-ray computed tomography (CT), positron emission tomography (PET), and ultrasound imaging. Furthermore, PAT is likely to become an indispensable complement to conventional optical microscopy tools, such as confocal microscopy, two-photon microscopy, and optical coherence tomography.

Major research field

Desired field of research

Medical Imaging, Biomedical Device and Instrumentation, Biophotonics, Biomedical Optics, Photoacoustic Imaging Ultrasound Imaging, GI Endoscopy

Biomedical Instrumentation and Its Commercialization, Development of Integrated Photoacoustic and Ultrasound Imaging Systems, Brain Imaging Application, Next Generation Tomographic Endoscopy

Research Keywords and Topics • Biomedical Devices, Photoacoustic Tomography, Ultrasound Imaging, Photoacoustic Endoscopy, Integrated Photoacoustic and Ultrasonic Endoscopy, Gastrointestinal Endoscopy, Cardiovascular Application, Brain Imaging, Cancer Imaging.

Research Publications (selected) • Nature Methods / High-speed label-free functional photoacoustic microscopy of mouse brain in action / J. Yao, L. Wang, J.-M. Yang, K. Maslov, T. Wong, L. Li, C.-H. Huang, Jun Zou, L.V. Wang / 2015-05 • Nature Medicine / Simultaneous functional photoacoustic and ultrasonic endoscopy of internal organs in vivo / J.-M. Yang, C. Favazza, R. Chen, J. Yao, X. Cai, K. Maslov, Q. Zhou, K.K. Shung, and L.V. Wang / 2012-08 • Optics Letters / Photoacoustic endoscopy / J.-M. Yang, K. Maslov, H.-C. Yang, Q. Zhou, K.K. Shung, and L.V. Wang / 2009-05

Patents (selected) • Array transducer-based side-scanning photoacoustic-ultrasonic endoscope, Korean Patent Registered / J.-M. Yang, C.U. Kim / 2019-06 • Photoacoustic and ultrasonic endoscopy system including a coaxially-configured optical and electromagnetic rotary waveguide assembly and embodiment method thereof, Korean Patent Registered / J.-M. Yang, C.U. Kim / 2018-09

228

Computational Biology Lab 계산생물학 실험실

We analyze a large number of cancer genomes using multiple omics approaches to characterize various kinds of germline/somatic alterations in many different human cancer types. In order to understand somatic mosaicism, heterogeneity, and evolution in cancer, we also use single-cell genomics approaches.

이세민

_Semin Lee

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 301-7 Lab : Bldg. 110 Rm. 302 Tel : +82-52-217-2663 E-mail : seminlee@unist.ac.kr http://compbio.unist.ac.kr

Curriculum Vitae

Major research field Cancer genomics, single-cell omics, structural bioinformatics, machine learning, precision medicine

· 2020 - Present : Associate Professor, Department of Biomedical Engineering, UNIST · 2016 - 2020 : Assistant Professor, School of Life Sciences, UNIST · 2011 - 2016 : Research Fellow, Department of Biomedical Informatics, Harvard Medical School

Desired field of research Rare disease genomics, Immunogenomics

Academic Credential · 2011 : PhD, Department of Biochemistry, University of Cambridge · 2005 : MSc, Department of Bio and Brain, Engineering, KAIST · 2003 : BA, School of Biological Sciences, Seoul National University

암유전체학, 단일세포오믹스, 구조생명정보학, 기계학습, 정밀의학

Research Publications (selected) • Sci. Adv. / Korean Genome Project: 1,094 Korean personal genomes with clinical information / Jeon S, Bhak Y, Choi Y, et al. / 2020-05 • Acta Neuropathologica / Genomic analysis reveals secondary glioblastoma after radiotherapy in a subset of recurrent medulloblastomas / Ji Hoon Phi, Ae Kyung Park, Semin Lee, et al. / 2018-06 • Science / Mosaic Mutations Trace Developmental and Transcriptional Histories of Single Human Neurons / Lodato MA, Woodworth MB, Lee S, Evrony GD, Mehta BK, Karger A, Lee S, Chittenden TW, Cai X, Luquette LJ, Lee E, Park PJ, Walsh CA. / 2015-10

College of Information and Biotechnology

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Department of Biomedical Engineering

Research Keywords and Topics • Cancer genomics, single-cell omics, structural bioinformatics, machine learning, precision medicine

Decision Neuroscience & Cognitive Engineering lab 의사결정의 신경과학 및 인지공학 연구실

정동일

_Dongil Chung

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 104 Rm. 1001-9 Lab : Bldg. 104 Rm. 1003 Tel : +82-52-217-2744 E-mail : dchung@unist.ac.kr http://dnce.unist.ac.kr

Research in our lab focuses on the neural and psychological foundations of valuation and decision-making. To date, our research has examined social and economic decision behaviors in two streams of inquiry: (i) neural basis of value-based and social decisionmaking, and (ii) abnormalities of decision-making in psychopathology. Our work takes a multidisciplinary approach that integrates methods from behavioral economics, neuroimaging, decision neuroscience, social psychology, computational modeling, and machine learning. 본 연구실에서는 가치평가와 의사결정의 신경 및 심리학적 기작을 이해하는데 중점을 두고 있습니 다. 주 연구 방향으로는 (i) 가치 기반 또는 사회적 상황에서의 의사결정의 신경기작 에 대한 연구, 그리고 (ii) 정신병리학적 환 자에게서의 의사결정 기작 변화에 대한 연 구들이 있습니다. 이 연구들을 수행하기 위

Curriculum Vitae

해서 본 연구실은 행동경제학, 뇌 영상, 의

· 2018 - Present : Assistant Professor, UNIST · 2018 - 2020 : Research Faculty, Fralin Biomedical Research Institute at VTC, Roanoke, VA · 2014 - 2018 : Sr. Research Associate, Virginia Tech Carilion Research Institute · 2011 - 2014 : Postdoctoral Associate, Virginia Tech Carilion Research Institute

사결정의 신경과학, 사회심리학, 계신신경

Academic Credential · 2011 : Ph.D. Bio and Brain Engineering, KAIST · 2006 : B.S. BioSystems(Biomedical Engineering), KAIST

Awards/Honors/Memberships · 2014 : Selected attendee for Perspectives and Future Directions in Social Neuroscience · 2014 : Selected attendee for Professional Development Workshop · 2012 : Best paper award, Dept. of Bio and Brain Engineering, KAIST · 2008 : Selected discussant for Okinawa Institute of Science and Technology(OIST) decision making workshop

과학, 그리고 기계학습 등의 다양한 융합학 문적 방법을 이용합니다.

Major research field decision-making, learning, neuroimaging, social interaction, computational psychiatry, neuroscience 의사결정, 학습, 뇌영상, 사회적 상호작용, 계산정신의학, 신경과학

Research Keywords and Topics • Decision-making, Neuroimaging, Decision Neuroscience, Computational Modeling, Social Interaction, Computational Psychiatry - Investigating determinants of value of social information - Observational learning and value-based decision-making in depression - Neural mechanisms of social influence on decision-making and learning in smokers

Research Publications (selected) • Proceedings of the National Academy of Sciences of the United States of America / Valuation of peers’ safe choices is associated with substance-naïveté in adolescents / Dongil Chung, Mark A. Orloff, Nina Lauharatanahirun, Brooks King-Casas, Pearl H. Chiu / 2020 • Nature Neuroscience / Social signals of safety and risky confer utility and have asymmetric effects on observers’ choices / Dongil Chung, George I. Christopoulos, Brooks King-Casas, Sheryl B. Ball, Pearl H. Chiu / 2015 • Social Cognitive and Affective Neuroscience / Decoding covert motivations of free riding and cooperation from multi-feature pattern analysis of EEG signals / Dongil Chung, Kyongsik Yun, Jaeseung Jeong / 2015

Patents (selected) • Apparatus for predicting choices using EEG, providing context information to induce neurocognitive enhancement, and method thereo / Dongil Chung, Sung-Phil Kim, Chung Ho Lee, Minho Hwang / 2018 • EEG analysis device, EEG device, brain-brain interface device and lie-detector using the same, and EEG analysis method / Kyongsik Yun, Jaeseung Jeong, Dongil Chung / 2011

230

Healthcare Lab 헬스케어 연구실

The healthcare industry is ready for disruption, due to increased costs for mental health, chronic diseases such as diabetes, and aging with cognitive decline. Quality of care became more important both inside and outside of the hospital. Prevention and health promotion will also be a very important topic. In healthcare lab, we are applying technology, such as web, mobile and virtual reality to advance healthcare system for the general population, patients, and caregivers. Healthcare center in the campus will provide a good model. 정신 건강 비용의 증가, 당뇨병과 같은 만성질환, 인지기능 저하와 노화 등으로 인해 헬스케어 산업 에 급격한 변화가 예상됩니다. 병원 안팎으로 케어의 질이 더욱 중요해지고 있습니다. 예방과 건강 증진 또한 중요한 이슈가 될 것입니다.

정두영

_Dooyoung Jung

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : 104 Bldg. 301-1 Lab : 104 Bldg. 310 Tel : +82-52-217-4010 E-mail : dooyoung@unist.ac.kr https://sites.google.com/view/unisthealthcare-lab

헬스케어 연구실에서는 웹, 모바일, 가상현실 등의 최신의 기술들이 일반인, 환자, 보호자 등 다양한 사람들을 편리하게 해주는 방법을 연구하고 있습니다. 캠퍼스 내에 위치한 헬스케어센터는 좋은 모 델로 활용될 수 있습니다.

Curriculum Vitae · 2016 - Present : Assistant Professor, UNIST · 2016 - Present : Director, UNIST Healthcare Center · 2013 - 2015 : Clinical Fellow, Psychosomatic medicine / Consultation-liaison psychiatry, Psycho-oncology, Seoul National University Hospital

Stress, Aging, Chronic illness 스트레스, 노화, 만성질환

Academic Credential · 2016 : Ph.D. Psychiatry and Behavioral Sciences, Seoul National University College of Medicine · 2013 : M.S. Molecular and Clinical Oncology, Seoul National University College of Medicine · 2008 : M.D. Seoul National University College of Medicine · 2000 : B.S. Biological Sciences, Korea Advanced Institute of Science and Technology

Patient experience, Online, Wearable, Prevention 환자경험, 온라인, 웨어러블, 예방

Research Keywords and Topics • VR/AR for mental problem 정신 건강을 위한 가상현실/증강현실

• Interface for education and training 교육, 훈련을 위한 인터페이스

• Mobile application and wearable device for health 건강 증진을 위한 모바일 어플리케이션 및 웨어러블

Awards/Honors/Memberships

Research Publications (selected) • PSYCHIATRY INVESTIGATION / The Association between Excessive Internet Gaming Behavior and Immersive Tendency / Mediated by Attention Deficit/Hyperactivity Disorder Symptoms, in Korean Male University Students, Jung, D, Shim, E, Park, H, Lee, K, Lee, S, Kim, E, Chang, J, Jeong, S, Kim, Y, Ahn, Y, Hahm, B / 2020-02 • JOURNAL OF PSYCHOSOMATIC RESEARCH / Pre-treatment anxiety is associated with persistent chemotherapy-induced peripheral neuropathy in women treated with neoadjuvant chemotherapy for breast cancer / Lee, KM, Jung, D, Hwang, H, Son, KL, Kim, TY, Im, SA, Lee, KH, Hahm, BJ / 2018-05 • PSYCHOSOMATIC MEDICINE / Longitudinal Association of Poor Sleep Quality With Chemotherapy-Induced Nausea and Vomiting in Patients With Breast Cancer / Jung, D, Lee, KM, Kim, WH, Lee, JY, Kim, TY, Im, SA, Lee, KH, Spiegel, D, Hahm, BJ / 2016-10

· 2015 : Young Investigator, American Psychosomatic Society · 2014 : Medical Fellow Travel Scholarship, American Psychosomatic Society · 2013 : Board Certification, Psychiatry, Korean Neuropsychiatric Association · Member of American Psychosomatic Society · Member of Korean Neuropsychiatric Association · Member of Korean Psycho-Oncology Society

Patents (selected) • [국내] 섬망 지표 데이터 제공 방법 및 장치 / 함봉진, 정두영, 장호종, 박상현 / 2016-06

College of Information and Biotechnology

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Department of Biomedical Engineering

Desired field of research

Major research field

Translational Biophotonics Lab 의광학연구실

정웅규

_Woonggyu Jung

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 701-9 Lab : Bldg. 110 Rm. 709 Tel : +82-52-217-2542 E-mail : wgjung@unist.ac.kr https://www.tbl.unist.ac.kr

The mission of TBL is to develop innovative bio-instruments that address challenges in medicine, biological and neuroscience research. While the term “bench-to-bedside” is most often associated with translational research process, our objective of changing healthcare service is to not only be translational, but also transformational. In order to accomplish this goal, TBL has pursued an interdisciplinary research integrating photonics, medicine, neuroscience, biology, and multiple engineering fields. Activities of TBL span in a wide range of topics such as multi-scale optical imaging, image-guided tissue engineering, optical neuronal stimulation and mobile-based medical device development. We also endeavor to commercialize mature TBL technologies via licensing or through start-up companies. 의광학 연구실은 융합기술을 기반으로 의학, 뇌과학, 생명과학 연구를 위한 새로운 광학 기술 개발에 집중하고 있습니다. 주된 연구분야는 창의적인 광학 센싱 및 영상 기술 및 모바일 기반 의료기기 개 발이며, 다양한 질병 모델을 바탕으로 동물 및 임상실험까지의 연계연구를 활발히 진행하고 있습니

Curriculum Vitae

다. 본 연구실은 논문만을 위한 연구가 아닌 기술 이전 및 창업 등이 용이한 바이오 실용화 연구를 지

· Prof. Jung is an associate professor of Department of Biomedical Engineering at UNIST. He earned a Ph.D. in Department of Biomedical Engineering from UC Irvine and has worked at two Beckman institutes in UC Irvine and UIUC. Since joining UNIST in 2012, he has established translational biophotonics laboratory (TBL), focused on developing innovative bio-instruments that address challenges in medicine, neuroscience, and biological research.

향하고 있으며, 이를 위해 다양한 국내외 기업들과의 네트워크를 통한 협업을 형성하고 있습니다.

Major research field Optical Imaging, Probe-based Diagnostics ICT Medical Device, Point-of-Care Diagnostics using Smartphone Bio Artificial Intelligence

Desired field of research

Futuristic Biomedical Devices

Research Keywords and Topics • The ultimate goal of TBL research is to bring forth successful translation of many optical imaging and biomedical techniques for solving significant biological and health care problems. During past 8 years, endeavors of TBL have established the innovative and trustworthy bio-technologies to address challenges across many health domains. With the accumulated knowledge and engineering solutions at UNIST, our group should be able to explore new frontiers and achieve technical breakthroughs in various research fields including optical imaging, tissue engineering, neuroscience, and personalized medicine.

Research Publications (selected) • Scientific Reports / Serial optical coherence microscopy for label-free volumetric histopathology / 2020 • JMIR mHealth and uHealth / Quantitative screening of cervical cancers for lowresource settings: Pilot study of smartphone-based endoscopic VIA using machine learning technique / 2020 • Journal of Biophotonics / Label‐free optical projection tomography for quantitative three‐dimensional anatomy of mouse embryo / 2019

232

Genome Engineering Lab 유전체 엔지니어링 연구실

Major research field Genome and epigenome engineering, epigenome profiling

조승우

_Seung Woo Cho

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 801-7 Lab : Bldg. 110 Rm. 802 Tel : +82-52-217-3250 E-mail : swcho@unist.ac.kr https://gel.unist.ac.kr/

Curriculum Vitae · 2019 - Present : Assistant Professor, UNIST · 2014 - 2018 : Postdoctoral Research Associate, Howard Hughes Medical Institute, Center for Personal Dynamic Regulomes, Stanford School of Medicine

Academic Credential · 2014 : Ph.D. Biochemistry, Seoul National University · 2007 : B. S. Chemistry, Chung-Ang University

Awards/Honors/Memberships · 2019 - Present : committee member of Korean Association for Genome Editing · 2018 : Patent and Technology Awards (Korean Intellectual Property Office)

Desired field of research Functional genomics, Non-coding RNA, Gene regulation

Research Keywords and Topics • Development of genome and epigenome editing technology • Development of sequencing technology for specific epigenetic signatures • Identifying disease-associated aberrations and their underlying mechanisms • Development of therapeutic strategies based on CRISPR technology

Research Publications (selected) • Cell / Promoter of lncRNA gene PVT1 is a tumor suppressor DNA boundary element / Cho et al / 2018 • Nature Biotechnology / Targeted genome engineering in human cells with the Cas9 RNA-guided endonuclease / Cho et al / 2013 • Genome Research / Analysis of off-target effects of CRISPR/Cas-derived RNA-guided endonucleases and nickases / Cho et al / 2014

Patents (selected) • Composition for cleaving a target DNA comprising a guide RNA specific for the target DNA and Cas protein-encoding nucleic acid or Cas protein, and use thereof, KR1016562360000 / 2016

College of Information and Biotechnology

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Department of Biomedical Engineering

We are interested in 1) Genome / epigenome editing of disease-associated aberrations using CRISPR technology. Mutations in protein coding-sequence and regulatory elements can cause altered gene expression which can cause diseases. Mis-regulated gene expression can be corrected by direct editing of genomic elements. Indeed, artificial transcription factors can regulate gene expression resulting rescue phenotypes. The fact that less than 2% of our genome encodes protein suggests regulatory elements are promising candidates for therapeutics. We aim to identify and develop strategy for correction of disease-associated aberrations using CRISPR and its derivative technology. 2) Identifying disease-associated functional lncRNAs using CRISPR library screening. Non-coding RNA are not encoding proteins, regulates epigenetic environments to regulate gene expression, which has critical role in disease developments. Systematic functional studies of lncRNAs can be achieved. CRISPR screen allows for functional studies of thousands of lncRNAs in manner of connecting genotype and phenotype. Using this, we screen lncRNAs affecting tumor microenvironment adaptation. These studies will provide novel understands and therapeutic approaches to treat the cancer. 3) Identifying regulatory elements of cancer using ATAC-seq In eukaryotes, gene expression is from “accessible genome”, which allows for binding of transcription factors. The accessible genome is strongly specific to the and developmental stage and cell fate. Monitoring the accessible genome provides the information of gene expression and regulation. Using ATAC-seq, a technology for rapid and efficient identification of accessible genome, we are exploring the disease-associated active genome and their function. 4) Development of new methods for genome / epigenome editing Programmable nucleases are the most promising technology for research and medicine future, we develop its applications and improve the “molecular machinery” for genome editing and gene regulation.

FRUITS Lab 나노바이오융합연구실

조윤경

_Yoon-Kyoung Cho

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 308 Lab : Bldg. 103 Rm. 101 Tel : +82-52-217-2511 E-mail : ykcho@unist.ac.kr http://fruits.unist.ac.kr/

The main research theme in YK Cho’s research group is focused on the development of lab-on-achip system with fundamental understanding of bio-molecular interactions and fluidic behavior in micro/nano scales. A family of unique microfluidic platforms are utilized to probe cells with unprecedented precision and to have systems understanding of cellular communications in tumor microenvironment. Current research topics include a lab-on-a-disc for the detection of rare cells, exosomes, and cancer biomarkers, quantitative analysis of single cells, and system analysis of cell to cell communication. 마이크로/나노 스케일의 미세유체현상과 바이오물질 반응에 대한 기본적인 이해를 바탕으로 새로 운 기능과 성능을 갖는 랩온어칩 시스템 개발과 바이오메디컬분야 응용이 주요 연구 분야이다. 랩온

Curriculum Vitae

어칩은 실험실에서 큰 장비를 이용해야만 분석 가능한 각종 생화학 반응을 바이오칩이나 미세유체

· 2015 - Present : Group leader, IBS center for soft and living matter, Prof., Biomedical Engineering, Life Science, UNIST · 2014 - 2015 : Prof., Chair, School of Life Science, UNIST · 2008 - 2014 : Prof., Chair, School of Nano-Bioscience& Chemical Engineering, UNIST · 1999 - 2008 : Senior Researcher, Samsung Advanced Institute of Technology(SAIT)

칩을 활용하여 빠르고 정확하고 언제 어디서나 수행 가능하도록 하는 시스템을 뜻하며, 세포분석, 단

Academic Credential · 1999 : Ph. D. Mat. Sci. & Eng., Univ. of Illinois at Urbana-Champaign, USA. · 1994 : M. S. Chem. Eng., POSTECH, Korea · 1992 : B. S. Chem. Eng., POSTECH , Korea

백질 및 유전자 검사 등 바이오메디컬공학 분야에서 크게 각광받는 분야이다. 특히, 랩온어디스크 분 야의 세계적 선도 연구 그룹이며, 최근에는 혈액, 소변 등 체액으로부터 암세포, 엑소좀 등을 분리하 여 개인맞춤형 암진단 및 치료에 활용하는 액체생검 디바이스를 개발하고 상용화한 바 있다. 또한, 암세포미세환경 및 세포간 신호교신 연구를 위한 세포칩 및 오간온어칩, 단일세포분석 등 첨단 융합 연구에 집중하고 있다.

Major research field Lab-on-a-chip, Nanobio materials, Point-of-care diagnostics, Biomimetics, AI-assisted Nanomedicine, Precision medicine, Translational research

Desired field of research Exciting, multidisciplinary, challenging but high societal impact research at the interface of engineering and life sciences

Research Keywords and Topics • Microfluidics, Lab-on-a-chip, Personalized Medicine, Liquid Biopsy, Nanobioengineering 미세유체제어, 랩온어칩, 바이오칩, 세포칩, 오간온어칩, 개인맞춤의료, 정밀 의료, 액체생검

• Point-of-care diagnostics, Biosensors, Organ-on-a-Chip, Nano Chemistry, Soft Matter 나노바이오공학, 현장맞춤형진단기기, 바이오센서, 나노화학, 연성물질, 생물 물리

Awards/Honors/Memberships · 2019 - Present : CBMS, Board of directors · 2019 - Present : Lab Chip, Associate Editor · 2019 : National Top 100 R&D Performances, Ministry of Science and ICT, Korea · 2018 : Presidential Advisory Council on Science & Technology, member · 2017 : Ministry commendation, Ministry of Health and Welfare, Korea · 2016 - Present : Fellow of Royal Society of Chemistry · 2012 : Faculty of the Year Award, UNIST · 2011 : Minister Award, Ministry of Knowledge Economy · 2010 : Korean Woman Engineer of the Year · 2009 : NRF Award for Young Mentor

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Research Publications (selected) • Nature Biomedical Engineering / A fidget spinner for the point-of-care diagnosis of urinary tract infection / Issac Michael, Dongyoung Kim, Oleksandra Gulenko , Sumit Kumar, Saravana Kumar , Jothi Clara, Dong Yeob Ki, Juhee Park , Hyun Yong Jeong, Taek Soo Kim, Sunghoon Kwon and Yoon-Kyoung Cho / 2020-05 • Nano Letters / Near-field electrospinning for 3D stacked nanoarchitectures with high aspect ratio / Yang-Seok Park, Junyoung Kim, Jung Min Oh, Seungyoung Park, Seungse Cho, Hyunhyub Ko, and Yoon-Kyoung Cho / 2019-11 • Advanced Functional Materials / Human Platelet Membrane Functionalized Microchips with Plasmonic Codes for Cancer Detection / Sumit Kumar, Jae‐A Han, Issac J. Michael, Dongyeob Ki , Vijaya Sunkara, Juhee Park, Shreedhar Gautam, Hong Koo Ha, Liangfang Zhang, Yoon-Kyoung Cho / 2019-05

Patents (selected) • Particle Filtration device and method of particle filtration) / Yoon-Kyoung Cho, Tae-Hyeong Kim / KR10-1776245(2017-09), JP6371857(2018-07), US10465186(2019-11), EP3048163(2020-04) • Microfluidic devices and control system for the same / Yoon-Kyoung Cho, Tae-Hyeong Kim, Yubin Kim / KR10-1638941(2016-07), EP3020682 (2019-01), US10130948(201811), JP6192850(2017-08)

Biomedical Imaging Science and Engineering Lab

We are young and interdisciplinary group of people spending most of our time in developing quantitative in vivo biomedical imaging techniques. Interdisciplinary nature of undergoing investigations keeps us busy and think outside the box everyday, focused on pushing the limit of state-of-art imaging technologies. 유니스트 MRI 랩에서는 다양한 질환의 조기영상진단에 쓸 수 있는 영상바이오마커를 개발하는 연 구를 수행하고 있습니다. 최근에는 뇌 미세혈관의 구조 및 기능정보를 정량화 하는 연구와 뇌 다중 철 및 지질의 구조적 영상을 얻는 방법을 주로 연구하고 있습니다.

조형준

_Hyungjoon Cho

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 105 Rm. 222 Lab : Bldg. 105 Rm. 103 Tel : +82-52-217-5204 E-mail : hjcho@unist.ac.kr http://mri.unist.ac.kr/

Curriculum Vitae · 2010 - Present : Assistant/Associate Professor, UNIST · 2009 - 2010 : Staff MR physicist, Schlumberger Technology Center · 2007 - 2009 : Postdoc, Memorial Sloan Kettering Cancer Center · 2005 - 2007 : Postdoc, Schlumberger Doll Research/ Martinos Center for Biomedical Imaging (MGH)

Research Topics • Quantitative microvascular MRI 정량적 미세혈관영상 MRI 연구

Academic Credential

• MR relaxivity based iron and myelin MR Imaging

Research Publications (selected) • NEUROIMAGE / MRI size assessment of cerebral microvasculature using diffusiontime-dependent stimulated-echo acquisition: A feasibility study in rodent / Lee, D.K.; Kang, M.S.; Cho, H. / 2020-07 • NEUROIMAGE / MRI T2 and T2* relaxometry to visualize neuromelanin in the dorsal substantia nigra pars compacta / Lee, Hansol; Baek, Sun-Yong; Kim, Eun-Joo; Huh, Gi Yeong; Lee, Jae-Hyeok; Cho, Hyungjoon / 2020-05 • NEUROIMAGE / Specific visualization of neuromelanin-iron complex and ferric iron in the human post-mortem substantia nigra using MR relaxometry at 7T / Lee, Hansol; Baek, Sun-Young; Chun, Se Young; Lee, Jae-Hyeok; Cho, Hyungjoon / 2018-05 • NEUROIMAGE / Robust MR assessment of cerebral blood volume and mean vessel size using SPION-enhanced ultrashort echo acquisition / Han, SH; Cho, JH; Jung, HS; Suh, JY; Kim, JK; Kim, YR; Cho, G; Cho, Hyungjoon / 2015-05

· 2005 : Ph.D. Radiological Science and Technology, MIT · 2000 : B.S. Physics, Seoul National University

School services · 2020 - Present : BK21plus Leader · 2021 - Present : Director of “Smart Healthcare Research Center” · 2019 - 2020 : Dean of Admissions and Student Affairs · 2016 - 2017 : Dean of Admissions and Student Affairs

College of Information and Biotechnology

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Department of Biomedical Engineering

다중 철 및 지질 MRI 영상 연구

Laboratory for Biomaterials and Translational Medicine 생체 재료 및 중개 의학 연구실

주진명

_Jinmyoung Joo

Department of Biomedical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 801-6 Lab : Bldg. 110 Rm. 803 Tel : +82-52-217-3251 E-mail : jjoo@unist.ac.kr http://joogroup.unist.ac.kr

Curriculum Vitae · 2019 - Present : Assistant Professor, UNIST · 2016 - 2018 : Assistant Professor, University of Ulsan College of Medicine · 2013 - 2016 : Postdoctoral Research Associate, University of California, San Diego · 2012 - 2013 : Postdoctoral Research Fellow, Institute of Environmental and Energy Technology, POSTECH

The lab focuses on utilization of functional nanomaterials in diagnostic and therapeutic platforms and finds governing principles for biomedical materials design. Ultimate goals are starting from these findings and set a cutting-edge foundation of engineering sophisticated “multiscale biomedical material systems” for translational applications. In order to achieve the goals, we emphasize fundamental understandings of how nanostructured materials interact with biological systems. We also investigate the thermodynamic and kinetic basis of physicochemical interactions between synthetic biomedical materials and complex biological systems, with a specific focus on the surface chemistry and interface engineering. 생체 재료 및 중개 의학 연구실은 다양한 기능성 나노 소재를 활용한 진단 및 치료 플랫폼 개발을 위 해, 생체 시스템에 대한 이해와 신소재 설계를 중점적으로 연구하고 있다. 궁극적으로는 의학적으로 임상에서 활용 가능한 중개의학 시스템을 개발하고자 하며, 세포 표면 수용체 반응 및 신호 전달 프 로세스부터 조직 미세환경에 이르는 광범위한 생체 시스템을 이해함으로서 질병의 조기 진단 및 치 료를 이끌어 낼 수 있는 바이오메디컬 툴(tool)을 제시하는 것을 목표로 한다. 단백질과 DNA, 펩타이 드 등 생물학적 기본 구성 요소와 비슷한 크기와 기능을 가지는 나노소재를 활용함으로써, 각종 질 병의 진단과 치료에 연관된 생물학적 과정을 이해할 수 있고, 이를 바탕으로 신경 질환, 암, 감염병 등 의 질환을 효과적으로 치료할 수 있는 의학적 개념을 제시할 수 있다. 특히, 나노소재의 표면 및 생체 시스템과의 계면에서 발생하는 물리-화학적 상호 작용의 열역학적 이해와 동역학적 원리를 근본적 으로 이해함으로써 나노-생체소재의 중개의학적 활용을 이끌 수 있다.

Academic Credential · 2012 : Ph. D. Chemical Engineering, POSTECH · 2007 : B. S. Chemical Engineering, POSTECH

Awards/Honors/Memberships · 2019 : POSCO TJ Park Science Fellow · 2019 : Emerging Investigator, Journal of Materials Chemistry B, Royal Society of Chemistry, UK · 2018 - Present : Associate Editor, Frontiers in Bioengineering and Biotechnology · 2018 - Present : Education and Accreditation Committee, Korean BioChip Society · 2017 - Present : Committee, Materials Division of the Korean Institute of Chemical Engineers · 2019 - Present : Academic Program Committee, Korean Society of Medical and Biological Engineering

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Major research field 나노-바이오 소재, 약물 전달 시스템, 바이오이미징, 중개의학

Desired field of research 생체소재, 생분해성 나노신소재, 질병 조기 진단 및 표적 치료

Research Keywords and Topics • Systems Nano-Bioengineering, Biomedical Materials, Nano-Bio interface, Biosensor, Drug Delivery Systems, Regenerative Medicine, Bioimaging, Surface Chemistry, Molecular Engineering, Gene Therapy 나노-바이오공학 시스템, 의생명소재, 나노-바이오 계면 공학, 바이오센서, 약물 전달 시스템, 재생 의학, 생체 영상, 계면 화학, 분자 공학, 유전자 치료

Research Publications (selected) • Nature Biomedical Engineering / Antibiotic-loaded nanoparticles targeted to the site of infection enhance antibacterial efficacy / 2018 • Advanced Materials / Tracking the fate of porous silicon nanoparticles delivering a peptide payload by intrinsic photoluminescence lifetime / 2018 • ACS Nano / Highly sensitive diagnostic assay for the detection of protein biomarkers using microresonators and multifunctional nanoparticles / 2012

department of Industrial engineering 산업공학과

Process-Aware AI Lab 프로세스 기반 인공지능 연구실

코무치, 마르코 _Marco Comuzzi Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-9 Lab : Bldg. 112 Rm. 302-2 Tel : +82-52-217-3187 E-mail : mcomuzzi@unist.ac.kr http://iel.unist.ac.kr/

The Process-Aware AI Lab (PAAI) Lab focuses on engineering of solutions for efficient and effective "evidence-based" business process management. To do so, we work with process event logs, i.e., logs of information systems that contain “evidence” of the execution of tasks and decisions within a business process. In particular, we apply advanced machine learning techniques to extract knowledge from process event logs and use this knowledge to improve process execution. Recently, we are also interested in blockchain as a tool for re-engineering information exchange and process management across networks of collaborating parties. Specifically, we focus on extending blockchain systems (public and permissioned) to support the assessment of data quality of transaction payloads. PAAI (프로세스 기반 인공지능 연구실) 랩은 효율적이고 효과적인 “증거 기반” 비즈니스 프로세스 관 리를 위한 솔루션 엔지니어링에 중점을 두고, 이를 위해 프로세스 이벤트 로그, 즉 비즈니스 프로세 스 내에서 태스크 및 의사 결정의 ‘증거’를 포함하는 정보 시스템의 로그로 작업합니다. 특히, 고급 기

Curriculum Vitae · 2019 - Present : Director, UNIST Blockchain Research Center · 2017 - Present : Associate Professor, UNIST · 2016 - 2017 : Assistant Professor, UNIST · 2013 - 2016 : Assistant Professor, City University of London · 2009 - 2013 : Assistant Professor, Eindhoven University of Technology

Awards/Honors/Memberships · Member of IEEE, ACM, IEEE TC on Enterprise Systems · Service-Oriented computing and Applications(Springer) - Associate Editor

계 학습 기술을 적용하여 프로세스 이벤트 로그에서 지식을 추출하고 이 지식을 사용하여 프로세스 실행을 개선하고 있습니다. 최근에는 협업 당사자 네트워크에서 정보 교환 및 프로세스 관리를 리엔 지니어링하는 도구로 블록 체인에 역점을 두고 있으며, 특히 트랜잭션 페이로드의 데이터 품질 평가 를 지원하기 위해 블록 체인 시스템 (공개 및 허가된)을 확장하는 데 집중하고 있습니다.

Major research field process mining, machine learning, business process management, blockchain

Research Keywords and Topics • Knowledge extraction from business process event logs • Classification techniques for process predictive analytics • Streaming AI analytics for process mining • Explainable predictive analytics

Research Publications (selected) • INFORMATION SCIENCES / Detecting anomalies in business process event logs using statistical leverage / Ko, Jonghyeon; Comuzzi, Marco / 2021-03 • ACM TRANSACTIONS ON INTELLIGENT SYSTEMS AND TECHNOLOGY / An Empirical Investigation of Different Classifiers, Encoding, and Ensemble Schemes for Next Event Prediction Using Business Process Event Logs / Tama, Bayu Adhi; Comuzzi, Marco; Ko, Jonghyeon / 2020-11 • EXPERT SYSTEMS WITH APPLICATIONS / Autoencoders for improving quality of process event logs / Nguyen, Hoang Thi Cam; Lee, Suhwan; Kim, Jongchan; Ko, Jonghyeon; Comuzzi, Marco / 2019-10 • INFORMATION SCIENCES / Optimal directed hypergraph traversal with ant-colony optimisation / Comuzzi, Marco / 2019-01 • DECISION SUPPORT SYSTEMS / Evaluating the effect of best practices for business process redesign: An evidence-based approach based on process mining techniques / Cho, Minsu; Song, Minseok; Comuzzi, Marco; Yoo, Sooyoung / 2017-12

238

Operations Research and Applied Optimization Lab 최적화 연구실

The mission of the Operations Research and Applied Optimization Lab is to conduct high-quality academic research while addressing real industrial and government problems. Research activities are focused on the use and development of advanced computer software to analyze and optimize performance measures of actual systems. The lab's faculty participants have a unique combination of expertise and experiences that allow them to address complex problems in logistics, transportation, and renewable energy systems, stochastic modeling and analysis of manufacturing systems, facility layout and location, and network design and optimization.

권상진

_Sang Jin Kweon

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-5 Lab : Bldg. 112 Rm. 302-9 Tel : +82-52-217-3146 E-mail : sjkweon@unist.ac.kr http://or.unist.ac.kr/

최적화 연구실은 높은 수준의 학술 연구를 통해 실제 산업 및 정부가 추진하는 다양한 과제들을 다 루고 실현 가능한 가장 좋은 솔루션을 도출하여, 궁극적으로 인류의 삶의 질 향상에 기여하는 데 목 표를 두고 있습니다. 이를 위해 다양한 수학적 기법과 컴퓨터 기반의 문제해결법을 개발 및 적용하 여 시스템을 설계/분석하며, 최근에는 데이터 사이언스 발전의 도움을 받아 더 복잡하고 정교한 과 제들의 최적 솔루션까지도 이론적으로 도출하고 민감도 분석을 통하여 환경에 끼치는 효과를 분석 하는 데에 연구 범위를 확장하고 있습니다. 주요 연구 분야는 물류, 교통, 에너지 및 공유경제이며, 인 류의 삶의 질을 향상시킬 수 있는 더 다양한 분야로 연구를 확장하고 있습니다.

Curriculum Vitae · Assistant Professor at Department of Industrial Engineering · Director of the Mobility-as-a-Service Department at the UNIST Center for Smart Mobility

Academic Credential

Major research field 최적화, 교통, 물류, 공유경제, 에너지, 알고리즘

Desired field of research 인공지능, 기계학습, 강화학습, 디지털 트윈

Research Keywords and Topics

Research Publications (selected)

Awards/Honors/Memberships · IISE Pritsker Doctoral Dissertation Award, 3rd Place, 2018 Institute of Industrial and Systems Engineers (IISE) Annual Conference & Expo, Institute of Industrial and Systems Engineers, Orlando, FL, USA · Exceptional Achievement Award in Pure Science/Engineering Session, Mid-Atlantic Regional Conference 2016, Washington Metro Chapter, Korean-American Scientists and Engineers Association, Vienna, VA, USA · 10 more awards(word limits)

• Journal of Advanced Transportation / A continuous deviation-flow location problem for an alternative-fuel refueling station on a tree-like transportation network / Kweon, S. J., Hwang, S. W., and Ventura, J. A. / 2017-12 • Energy Policy / Energy policy considerations in the design of an alternative-fuel refueling infrastructure to reduce GHG emissions on a transportation network / Ventura, J. A., Kweon, S. J., Hwang, S. W., Tormay, M., and Li, C. / 2017-12 • European Journal of Operational Research / Locating alternative-fuel refueling stations on a multi-class vehicle transportation network / Hwang, S. W., Kweon, S. J., and Ventura, J. A. / 2017-09

College of Information and Biotechnology

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Department of Industrial Engineering

• Optimization problems in the sharing economy, logistics and transportation sectors, and their effects on energy sustainability and environment • Logistics problems related to energy systems in the areas of facility location and allocation; inventory management; supply chain logistics; graph theory; dynamic programming; multiple criteria optimization; queueing theory; markov decision processes • Public policies for welfare economics and spatial equity • Application of operations research to the fundamental research that forms the foundation for smart grid and smart & connected communities • Data mining and big data analytics to analyze and formulate drivers/riders behavior patterns • Polynomial-time algorithms to search and optimize vehicle detour options • Analysis of potential effects of autonomous vehicles in logistics and transportation areas

· Ph.D. Pennsylvania State University, University Park, PA, USA · M.S. Pennsylvania State University, University Park, PA, USA · B.S. Yonsei University, Seoul, Republic of Korea

Institute for th 4th Industrial Revolution 4차 산업혁명 기술 제조 혁신 연구소

김동섭

_Dongsub Kim

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 301-6 Lab : Bldg. 110 Rm. 301-5 Tel : +82-52-217-1092 E-mail : dongsupk@unist.ac.kr https://i4ir.unist.ac.kr/bbs/board.php?b o_table=notice&wr_id=18

Manufacturing Innovation utilizing the 4th IR technologies 1. Smart Factory and Smart Industrial city 2. AI and Data driven manufacturing innovation & Industrial safety 3. Unconventional Oil and Renewable Energy 4차 산업혁명 기술을 활용한 제조 혁신 1. 스마트 팩토리와 스마트 산업 도시 2. AI 및 데이터 기반 제조 혁신 및 산업안전 3. 석유 개발과 에너지 정책, 신재생 에너지

Curriculum Vitae · Management of Technology, UNIST · 2009 - 2015 : President, Global Technology, Head of R&D Center (SVP) and CTO of SK Innovation, President of Solar PV Business Development, Austin, TX USA · 2008 - 2009 : Regional Manager, Shell Global Solutions, Kuala Lumpur, Malaysia · 1990 - 2008 : Technical Advisor & Global FFS Team Leader, Shell R&D Center, Houston

Academic Credential · 1985 - 1989 : The Ohio State University, Columbus, OH · 1989 : Ph. D in Industrial Systems & Welding Engineering Dissertation Title: “Fracture Mechanics of Welded offshore Tubular Joints Using JIntegral Method” · 1975 - 1981 : Seoul National University, Seoul, Korea · 1981 : MS Dept. of Naval Architecture and Ocean Engineering · 1979 : BS Dept. of Naval Architecture and Ocean Engineering

Awards/Honors/Memberships · 2021 : MSS Award (중소벤처기업부 장관 표창)

· 2018 : Ambassador, World Manufacturing Forum · 2011 : Most Outstanding R&D organization of the Year in Korea ‘JungJinKi Award’ (매일경제 정진기 언론대상)

· 2008 : Most Outstanding High School Alumni of the Year, KB High School · 2007 : National Medal of Honor, Republic of Korea (대한민국 산업 포장 훈장)

240

Major research field Data driven manufacturing innovation, industrial safety, Energy policy & renewable energy

Research Keywords and Topics • Reliability, Smart Factory, Manufacturing Innovation • Unconventional Oil and Renewable Energy

Research Publications (selected) • Strategic Response of Small and Medium-sized Automobile Part Industry for the 4th Industrial Revolution Era / 2018 • World Energy Council (WEC) / Advanced Technology Development Reducing CO2 Emissions / 2010 • Proceedings of The World Congress of Korean Foundation of Science and Engineering / Fitness for Service Decision Making for Continuous Safe Operation / 1996-06

Patents (selected) • Thermal Processes for Subsurface Formations, US 7,121,342 B2 • Inhibiting Effects of Sloughing in Wellbores, US 7,357,180 B2 • Thermal Processes for Subsurface Formations, US 7,360,588 B2 • Low Temperature Barriers for use with In-Situ Process, US 7,546,873,B2 • High Strength Alloys, US7,785,427 B2 • Subsurface Connection Methods for Subsurface Heaters, US 7,860,377 B2 • High Strength Alloys, US 8,192,682 B2

Data Analytics Lab 데이터 애널리틱스 연구실

Welcome to the Data Analytics Lab at the Ulsan National Institute of Science and Technology (UNIST). Our research focuses on development of novel statistical methods for solving complex engineering problems. Our team pursues leading-edge research in the field of data science and business analytics with industry, government, and community partners. Our research can be characterized by three aspects: i) statistics as a research methodology, ii) motivation from real data, and iii) applications to industry. 다양한 산업 현장에서 발생하는 복잡한 공학 문제를 해결하는 새로운 통계 및 데이터 사이언스 방법 론을 연구합니다. 특히, 제조와 물류 분야에서 발생하는 품질 향상, 이상 감지, 시스템 분석 연구를 진

김성일

_Sungil Kim

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-8 Lab : Bldg. 112 Rm. 302-5 Tel : +82-52-217-3195 E-mail : sungil.kim@unist.ac.kr http://analytics.unist.ac.kr/

행하고 있습니다. 4차 산업혁명 시대의 산업 현장에 인공지능 기술을 접목하여 혁신적인 변화를 이 끌어내는 연구에 관심을 가지고 있습니다.

Curriculum Vitae · 2020 - Present : Associate Professor, UNIST · 2016 - 2020 : Assistant Professor, UNIST · 2014 - 2016 : Senior Engineer, Samsung SDS · 2011 - 2013 : Consultant, Terra Technology

Academic Credential

Major research field

AI in Quality Engineering

Research Keywords and Topics • Industrial statistics and data analytics; Quality engineering and management; Response surface methodology; Demand forecasting; Machine learning and data mining; Business analytics

Research Publications (selected)

Awards/Honors/Memberships · 2019 : IISE Best Paper Award, Quality Control & Reliability Engineering Division, The Institute of Industrial and Systems Engineers

• Spatial Statistics / Multiresolution spatial generalized linear mixed model for integrating multi-fidelity spatial count data without common identifiers between data sources / Sungil Kim, Rong Duan, Guang-Qin Ma, and Heeyoung Kim / 2020-10 • Information Sciences / Revealing household characteristics using connected home products / Sungil Kim / 2019-06 • Journal of the Operational Research Society / Early detection of vessel delays using combined historical and real-time information / Sungil Kim, Heeyoung Kim, and Yongro Park / 2017-02 • International Journal of Forecasting / A new metric of absolute percentage error for intermittent demand forecasts / Sungil Kim and Heeyoung Kim / 2016-07

Patents (selected) • System and method for detecting and predicting anomalies based on analysis of timeseries data / Sundeuk Kim, Hyuntaek Oh, Sungil Kim / 2018-04 • 이동체의 기준 경로 계산 장치 및 방법 / 김성일, 이성우, 차인혁 / 2017-08

College of Information and Biotechnology

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Department of Industrial Engineering

System Monitoring & Anomaly Detection, Sequential Learning, Large-scale Calibration, Uncertainty Quantification

· 2011 : Ph.D. in Industrial Engineering, Georgia Tech · 2007 : M.S. in Statistics, Georgia Tech · 2007 : M.S. in Industrial Engineering, Georgia Tech · 2005 : B.S. in Industrial Engineering, Yonsei University

Desired field of research

Statistical Decision Making 통계적 의사결정

김지수

_Gi-Soo Kim

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-13 Lab : Bldg. 112 Rm. 302-4 Tel : +82-52-217-3715 E-mail : gisookim@unist.ac.kr

Curriculum Vitae · 2020 - Present : Assistant Professor, Ulsan National Institute of Science and Technology · 2019 - 2020 : PostDoc, Seoul National University

Academic Credential · 2013 - 2019 : Ph.D. in Statistics, Seoul National University · 2008 - 2013 : B.Agr. in Food Science and Biotechnology and B.S. in Statistics, Seoul National University

Awards/Honors/Memberships · 2016 - 2019 : Global Ph.D. Fellowship Grant · 2017 : Second prize for presentation at Korean Statistical Society conference

Our research interests are focused on statistical approaches to the sequential decision problem. The multi-armed bandit (MAB) problem formulates the sequential decision problem in which a learner is sequentially faced with a set of available actions, chooses an action, and receives a random reward in response. The actions are often described as the arms of a bandit slot machine. The act of choosing an action is characterized as pulling an arm of the bandit machine, where different arms give possibly different rewards. By repeating the process of pulling arms and receiving rewards, the learner accumulates information about the reward compensation mechanism and learns from it, choosing the arm that is close to optimal as time elapses. In our lab, we integrate online learning and optimization techniques to develop algorithms that efficiently learn the reward model while maximizing the rewards. We also apply the developed algorithms to real tasks such as recommendation systems and mobile health apps. We also use causal inference to evaluate the performance of multi-armed bandit algorithms in a retrospective way. 순차적 의사결정을 위한 다중 슬롯 머신 (multi-armed bandit) 을 연구합니다. 다중 슬롯 머신은 주어 진 다수의 선택지 가운데 하나를 선택하고 보상을 받는 과정을 반복하면서 축적되는 정보로 보상 메 커니즘를 학습하여 시간이 지남에 따라 최적의 선택지를 찾아가는 알고리즘입니다. 온라인 학습 방 법론, 최적화 방법론 등을 활용하여 미지의 보상 모형을 효율적으로 학습하는 동시에 보상을 최대화 하는 알고리즘을 개발하며 이론적 성능을 도출합니다. 또한 개발된 알고리즘을 뉴스 기사 추천 시스 템, 전자 상거래 아이템 추천 시스템, 모바일 헬스 어플리케이션 등에 적용하는 프로젝트를 진행합니 다. 이외에도 인과적 추론 방법을 활용하여 다중 슬롯 머신 알고리즘을 후 향적 (retrospective method) 으로 평가, 비교하는 연구도 진행합니다.

Major research field Sequential Decision, Multi-armed bandit algorithms, Online learning, Causal inference, Policy evaluation

Desired field of research Reinforcement learning, Online deep learning

Research Keywords and Topics • Sequential Decision, Multi-armed bandit algorithms, Online learning, Causal inference, Policy evaluation, Causal inference, Missing data analysis

Research Publications (selected) • Statistical Methods in Medical Research / Cluster-specific nonignorably missing, endogenous, and continuous regressors in multilevel model for binary outcome. / Kim, G.S., Lee, Y., Kim, H., Paik, M.C. / 2020-07 • Neural Information Processing Systems / Doubly-robust Lasso bandit / Kim, G.S., Paik, M.C. / 2019-12 • Proceedings of the 36th International Conference on Machine Learning (ICML 2019) / Contextual multi-armed bandit algorithm for semiparametric reward model. / Kim, G.S., Paik, M.C. / 2019-06

Patents (selected) • METHOD AND DEVICE FOR REINFORCEMENT LEARNING USING NOVEL CENTERING OPERATION BASED ON PROBABILITY DISTRIBUTION (신규한 가중치를 이용한 센터링 연산을 적용한 강화 학습 방법 및 장치) / 백명희조, 김지수 / 2020-03

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Financial Engineering Lab 금융공학연구실

UNIST Financial Engineering Laboratory aim to identify various problems associated with finance industry and solve them via quantitative methods. Our research areas include: - Customized financial planning for individuals/institutions: use ML/AI techniques to analyze clients data, and use mathematical optimization to derive optimal financial plans - Analyzing and modeling financial markets: use probabilistic models, ML/AI techniques to analyze and model financial assets such as equities, bonds, real estates, commodities, or data. UNIST 금융공학연구실에서는 개인 또는 기관의 재무설계(financial planning)를 위한 데이터 기반의

이용재

_Yongjae Lee

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-7 Lab : Bldg. 112 Rm. 302-6 Tel : +82-52-217-3118 E-mail : yongjaelee@unist.ac.kr http://felab.unist.ac.kr/

정량적인 기법들을 연구하고 개발합니다. 연구 분야는 크게 다음 세 가지로 구분될 수 있습니다. 1. 투자자(고객) 분석 2. 시장 분석 3. 의사결정 최적화

Curriculum Vitae · 2020 - Present : Editorial Advisory Board Member, Journal of Financial Data Science · 2018 - Present : Assistant Professor, Department of Industrial Engineering, UNIST, Korea · 2017 - 2018 : BK Assistant Professor, Department of Transdisciplinary Studies, Seoul National University, Korea · 2016 - 2017 : Post-doctoral Researcher, KAIST Center for Wealth Management Technologies, Korea

Major research field Financial Engineering, Financial Optimization, Financial Data Analysis, Financial Planning

Academic Credential

• Individual financial data analysis 개인 금융 데이터 분석

• Financial time series analysis 금융 시계열 분석

• Large-scale financial optimization

Awards/Honors/Memberships

대형 금융 최적화

· 2016 : Outstanding Paper Award, KIIE · 2016 : Best Management Science Ph.D. Thesis Award, KORMS

Research Publications (selected) • Journal of the Operational Research Society / Sparse and Robust Portfolio Selection via Semi-Definite Relaxation / Lee, Yongjae; Kim, Min Jeong; Kim, Jang Ho; Jang, Ju Ri; Kim, Woo Chang / 2020-05 • Quantitative Finance / Personalized Goal-Based Investing via Multi-Stage Stochastic Goal Programming / Kim, Woo Chang; Kwon, Do-Gyun; Lee, Yongjae; Kim, Jang Ho; Lin, Changle / 2020-03 • Applied Economics / An Alternative Approach for Portfolio Performance Evaluation: Enabling Fund Evaluation Relative to Peer Group via Malkiel’s Monkey / Lee, Yongjae; Kwon, Do-Gyun; Kim, Woo Chang; Fabozzi, Frank J. / 2018-02

Patents (selected) • Method and Apparatus for Asset Management(자산 운용 방법) (No. 10-1951340), Country: Korea / Inventors: Kim, Woo Chang; Kwon, Do-Gyun; Lee, Yongjae; Kim, Jang Ho; Lin, Changle / 2019-02

College of Information and Biotechnology

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Department of Industrial Engineering

· 2016 : Ph.D. in Industrial & Systems Engineering, KAIST · 2011 : B.S. in Computer Science, KAIST · 2011 : B.S. in Mathematical Science, KAIST

Research Keywords and Topics

Data Mining Laboratory 데이터마이닝 연구실

이정혜

_Junghye Lee

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-12 Lab : Bldg. 112 Rm. 302-7 Tel : +82-52-217-3129 E-mail : junghyelee@unist.ac.kr http://dm.unist.ac.kr

우리는 산업의 중요한 문제를 해결 및 새로운 가치를 창출하는 데 도움이 될 예측 분석 및 데이터 프 라이버시 및 보안을 위한 최적의 데이터 분석 알고리즘, 시스템 및 응용 프로그램을 개발하는 것을 목적으로 합니다.

Curriculum Vitae · 2018 - Present : 조교수, 울산과학기술원 산업공학과, Ulsan, Korea · 2017 - 2018 : 박사후연구원, 캘리포니아 주립대학교 샌디에고, 의과대학, 생물의료정 보학, San Diego, USA · 2017 : 박사후연구원, 가톨릭대학교 의과 대학, 의료정보학, Seoul, Korea · 2016 : 교환연구원, 캘리포니아주립대학교 샌디에고, 의과대학, 생물의료정보학, San

Diego, USA

Academic Credential · 2017 : 박사, 포항공과대학교(POSTECH), 산업경영공학과, Pohang, Korea · 2012 : 학사, POSTECH, 산업경영공학과, Pohang, Korea

Awards/Honors/Memberships · 2019 : 베스트페이퍼, IMIA · 2017 : 우수논문연제상, 한국의료정보학회 · 2017 : 최우수박사학위논문상, POSTECH · 2013 : 최우수연구발표상, POSTECH

Major research field Private AI - Federated learning - Differentially private & secure machine learning

Deep Representation Learning - Graph representation learning - Domain adaptationGenerative models

Applications - AI in healthcare - AI in smart manufacturing - Recommender system

Research Keywords and Topics • 연합 및 분산 학습, 보안 및 개인 정보 보호 기계 학습, 산업 인공지능, 딥러닝 기반의 표현 학습, 확 률 그래프 모델

Research Publications (selected) • Expert Systems with Applications / An efficient multivariate feature ranking method for gene selection in high-dimensional data / Junghye Lee†, Inyoung Choi, and Chi-Hyuck Jun / 2021-03 • Expert Systems with Applications / Markov blanket-based universal feature selection for classification and regression of mixed-type data / Junghye Lee†, Junyong Jeong, and Chi-Hyuck Jun / 2020-11 • Expert Systems with Applications / Word2vec-based latent semantic analysis (W2VLSA) for topic modeling: A study on blockchain technology trend analysis / Suhyeon Kim, Haecheong Park, and Junghye Lee† / 2020-08 • IEEE Transactions on Information Forensics and Security / Secure and Differentially Private Distributed Logistic Regression for Horizontally Distributed Data / Miran Kim, Junghye Lee†, Lucila Ohno-Machado, and Xiaoqian Jiang / 2019-06 • Journal of Medical Internet Research Medical Informatics, 6(2) / Privacy-preserving patient similarity learning in a federated environment / Junghye Lee†, Jimeng Sun, Fei Wang, Shuang Wang, Chi-Hyuck Jun, and Xiaoqian Jiang / 2018-04

Patents (selected) • Sensor Drift for Classification of Gas Mixtures in Electronic Nose Systems, 2020 • Type 2 Diabetes Mellitus Prediction System Using Genome-wide Polygenic Risk Score, 2020 • Apparatus and Method for Calculating Risk Index based on Learning Reflecting Risk Score, 2020 • Apparatus and Method for Estimating Biological Age based on Deep Learning, 2020 • Automatic Malfunction Detection and Correction Algorithm based on Liquid Oil Cargo Item Description, 2020

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Unstructured Data Mining and Machine Learning Lab 비정형데이터마이닝 및 기계학습 연구실

Our research focuses on developing machine learning models for effective knowledge discovery from unstructured data. The theoretical components of our research have direct relevance to various areas, including manufacturing (e.g., smart factory, predictive maintenance, anomaly detection, additive manufacturing), safety management, customer feedback analysis (e.g., social media, online customer reviews, recommender systems), and healthcare. 우리의 연구는 비정형데이터에서 효과적 인 지식 발견을 위한 기계학습 모델 개발

임성훈

_Sunghoon Lim

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-10 Lab : Bldg. 112 Rm. 302-3 Tel : +82-52-217-3119 E-mail : sunghoonlim@unist.ac.kr http://sunghoonlim.unist.ac.kr

을 목표로 하고 있습니다. 우리 연구는 제 조 (예 : 스마트공장, 예지정비, 이상감지, 3D프린팅), 안전 관리, 고객 피드백 분석 (예 : 소셜 미디어, 온라인 고객 리뷰, 추 천시스템) 및 헬스케어를 포함한 다양한

Curriculum Vitae

분야에 적용할 수 있습니다.

· 2018 - Present : Assistant Professor,

Major research field Machine Learning, Deep Learning, Industrial Artificial Intelligence, Social Network Analysis, Crowdsourcing

Department of Industrial Engineering, Ulsan National Institute of Science and Technology (UNIST), Ulsan, Republic of Korea

Academic Credential

Research Keywords Topics

· 2018 : Ph.D. Industrial Engineering,

• Machine Learning / Deep Learning • (Unstructured) Data Mining • Industrial Artificial Intelligence (AI+X) • Text Mining • Social Network Analysis / Crowdsourcing

The Pennsylvania State University · 2013 : M.S. Industrial Engineering,

The University of Pittsburgh · 2009 : M.S. Industrial Engineering,

KAIST

Research Applications

KAIST

• Manufacturing (e.g., Smart Factory, Predictive Maintenance, Anomaly Detection, Additive Manufacturing) • Safety Management (e.g., Car Crash Detection) • Customer Feedback Analysis Using Online Data (e.g., Social Media, Online Customer Reviews, Recommender Systems) • Healthcare (e.g., Disease Discovery)

Research Publications (selected) • Computer Science Review / Ensemble learning for intrusion detection systems: A systematic mapping study and cross-benchmark evaluation / Bayu Adhi Tama, and Sunghoon Lim, / 2021-02 • IEEE Access / A Multi-Objective Differential Evolutionary Method for Constrained Crowd Judgment Analysis / Sujoy Chatterjee, and Sunghoon Lim / 2020-05 • Expert Systems with Applications: X / Mining twitter data for causal links between tweets and real-world outcomes / Sunghoon Lim, and Conrad S. Tucker / 2019-09

Awards · Design Education (DEC) Technical

Committee Best Paper Award, ASME 2017 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference

Memberships · The American Society of Mechanical

Engineers (ASME) · Korean Institute of Industrial Engineers

(KIIE)

Patents (selected) • 반복 회전동작으로 인한 부상 방지 재활 방법 및 부상 방지 재활 장치 / 권상진, 권용웅, 임성훈 (출원) • 근로자의 반복적인 근무 활동 동안 근육 부상을 예측하는 방법 및 장치 / 권상진, 권용웅, 임성훈 (출원)

College of Information and Biotechnology

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Department of Industrial Engineering

· 2005 : B.S. Industrial Engineering,

Service Engineering & Knowledge Discovery Lab 서비스 지식 연구실

임치현

_ Chiehyeon Lim

We solve service problems in industries and develop knowledge discovery methods.

Department of Industrial Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 112 Rm. 301-11 Lab : Bldg. 112 Rm. 302-1 Tel : +82-52-217-3112 E-mail : chlim@unist.ac.kr http://service.unist.ac.kr

Academic Positions · 2017 - Present : Associate Professor, Assistant Professor, UNIST · 2015 - 2017 : Project Scientist and Lecturer, California Center for Service Science, University of California, Merced · 2014 - 2015 : Post-doctoral Researcher, POSTECH Information Research Laboratories

Research Keywords • Smart service systems, Service-oriented data analytics, Knowledge discovery from data mining

Education

Recent Publications

· 2014 : Ph.D. in Industrial and Management Engineering, POSTECH · 2009 : B.S. in Industrial and Management Engineering, POSTECH

• Lee, C. and Lim, C., “From Technological Development to Social Advance: A Review of Industry 4.0 through Machine Learning,” Technological Forecasting & Social Change, Vol. 167, 120653, 2021 • Lim, C., Kim, M., Kim, K., Kim, K. and Maglio, P., “Customer Process Management: A Framework for Using Customer-related Data to Create Customer Value,” Journal of Service Management, Vol. 30, No. 1, 105-131, 2019 • Lim, C. and Maglio, P., “Data-driven Understanding of Smart Service Systems through Text Mining,” Service Science, Vol. 10, No. 2, 154-180, 2018 • Lim, C., Kim, M., Heo, J. and Kim, K., “Design of Informatics-based Services in Manufacturing Industries: Case Studies Using Large Vehicle-related Databases,” Journal of Intelligent Manufacturing, Vol. 29, No. 3, 497-508, 2018 • Lim, C., Kim, K. and Maglio, P., “Smart Cities with Big Data: Reference Models, Challenges, and Considerations,” Cities, Vol. 82, 86-99, 2018 • Lim, C., Kim, K., Kim, M., Heo, J., Kim, K. and Maglio, P., “From Data to Value: A Ninefactor Framework for Data-based Value Creation in Information-intensive Services,” International Journal of Information Management, Vol. 39, 121-135, 2018 • Lim, C., Kim, M., Kim, K., Kim, K. and Maglio, P., “Using Data to Advance Service: Managerial Issues and Theoretical Implications from Action Research,” Journal of Service Theory and Practice, Vol. 28, No. 1, 99-128, 2018

Awards/Honors · 2021 : 2020 UNIST Outstanding · Faculty Award (Research) · 2019 : Best Paper for the 2018 Literati Awards for Excellence, JSTP · 2019 : 2018 UNIST Outstanding Faculty Award (Education) · 2018 : Award from the Minister of Science and ICT, Best Work of the KIST CRPC Fellowship · 2016 : Best Paper, SERVSIG · 2009 : Best Paper, APIEMS

246

department of Biological Sciences 생명과학과

DNA Damage Response and Genetic Toxicology 유전체 손상 반응 및 독성물

게르트너, 안톤 _Gartner Anton Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 215 Lab : Bldg. 103 Rm. 205 Tel : +82-52-217-5532 E-mail : tgartner@unist.ac.kr Lab Website : https://sites.google.com/view/gartnerla b/home?authuser=4 IBS Website : https://cgi.ibs.re.kr/html/cgi_en/researc h/research.html

Curriculum Vitae · 2019 : Distinguished Professor at UNIST and Associate Director at IBS Center for Genomic Integrity · 2019 : Associated Member, University of Dundee. Scotland. · 2017 - 2019 : Member of the University of Dundee Senate · 2016 - 2019 : Academic Lead of Dundee University School of Life Science Summer School · 2014 : Professor, Chair for Genetics, University of Dundee, Scotland · 2010 - 2016 : Wellcome Trust Senior Research Fellow · 2010 : Reader University of Dundee · 2009 : Tenure · 2004 : Lecturer, University of Dundee, Scotland

Awards/Honors/Memberships · 2010 : Wellcome Trust Senior Research Fellowship, UK · 2003 : CR-UK Career Development Award, UK · 1999 : Schroedinger Postdoctoral fellowship, Austria · 1997 : EMBO long-term Postdoctoral fellowship, Europe · 1997 : Max Kade fPostdoctoral fellowship, Austria, USA

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Our research focuses on understanding basic mechanisms of mutagenesis and on fail-safe mechanisms that ensure faithful genome maintenance and the elimination of compromised cells by programmed cell death. We mainly use C. elegans as an invertebrate model organism and employs advanced genetics, genomics, cell biology and next generation sequencing based approaches. Despite of its simplicity, C. elegans is a multicellular organism that shares many fundamental genetic programs with humans. Thus, many results obtained in the C. elegans system are likely to be applicable to mammalian systems. Our studies on C. elegans are facilitated by the simplicity of the organism at the developmental and anatomical level, by the ease of its maintenance, as well as by the power of forward and reverse genetic procedures. At the same time, we use mammalian cells to translate our insights gained from the invertebrate model. Our studies are relevant for understanding fundamental mechanisms leading to cancer formation and also aimed to better understand and more effectively use a range of agents commonly used for cancer therapy. We are engaged in multiple national and international collaborations. "유전체 손상 반응 및 독성물" 연구실은 돌연변이 유발의 기본 메커니즘과 정확한 게놈 유지를 보장 하고 프로그래밍 된 세모 사멸로 손상된 세포를 제거하는 안전 메커니즘을 연구하고 있습니다. 우리 는 C. elegans를 무척추 동물 모델로 사용하고 고급 유전학, 유전체학, 세포 생물학 및 차세대 시퀀싱 기반 접근 방식을 사용합니다. 단순함에도 불구하고 C. elegans는 인간과 많은 기본 유전 프로그램을 공유하는 다세포 유기체입니다. 따라서 C. elegans 시스템에서 얻은 많은 결과는 포유류 시스템에 적 용할 수 있습니다. C. elegans에 대한 우리의 연구는 발달 및 해부학적 수준에서 유기체의 단순성, 유 지 관리의 용이함, 전진 및 역 유전 절차의 힘에 의해 촉진됩니다. 우리의 연구는 암 형성으로 이어지 는 근본적인 메커니즘을 이해하는 것과 관련이 있으며 암 치료에 일반적으로 사용되는 다양한 약제 를 더 잘 이해하고 더 효과적으로 사용하는 것을 목표로 합니다.

Major research field DNA repair, mutagenesis, next generation sequencing. C. elegans, genetics, DNA damage response

Desired field of research Genome Stability

Research Keywords and Topics • How cell deal with persistent DNA bridges just before cell divide • The mutagenic process of cancer chemotherapeutic agents • DNA repair mechanisms

Research Publications (selected) • bioRxiv / Systematic analysis of mutational spectra associated with DNA repair deficiency in C. elegans / B Meier, NV Volkova, Y Hong, S Bertolini, V González-Huici, T Petrova, S Boulton, PJ Campbell, M Gerstung, A Gartner / 2020-06 • Nature Communications / Moritz Gerstung Mutational signatures are jointly shaped by DNA damage and repair / Nadezda V Volkova, Bettina Meier, Víctor González-Huici, Simone Bertolini, Santiago Gonzalez, Federico Abascal, Iñigo Martincorena, Peter J Campbell, Anton Gartner / 2020-11 • Nature Communications / LEM-3 is a midbody-tethered DNA nuclease that resolves chromatin bridges during cytokinesis / Ye Hong, Remi Sonneville, Bin Wang, Viktor Scheidt, Bettina Meier, Alexander Woglar, Sarah Demetriou, Karim Labib, Verena Jantsch, Anton Gartner / 2018-02

Schärer Laboratory

We are an international and interdisciplinary research team focused on the study to the molecular pathways underlying DNA repair and the DNA damage response and its connection to tumorigenesis and cancer therapy. Our research combines biochemical, molecular, cellular structural and biology with organic chemistry and genetics. We study a variety of DNA repair pathways, including nucleotide excision repair (NER) and interstrand crosslink (ICL) repair as well as responses to replication stress and double-strand break (DSB) formation. Our studies aim to elucidate the mechanisms by these pathways prevent tumorigenesis and the inherited genetic disorders xeroderma pigmentosum (XP) and Fanconi anemia (FA) and conversely, how they may be targeted in cancer therapy to target the inherent vulnerabilities of tumors and to improve outcomes of treatment by agents such as cisplatin. Specific Research Areas 1. Chemical Approaches for Studying DNA Repair Pathways 2. Molecular Mechanisms of Human Nucleotide Excision Repair (NER) 3. Mechanistic Basis of Resistance and Diagnostic Tools for Platinum Anticancer Therapy 4. Hijacking Transcription-Coupled Nucleotide Excision Repair for Cancer Therapy

Major research field Life Science, Biology, Chemistry

Desired field of research Genomic Integrity, Cancer Biology, Chemical Biology

Research Keywords and Topics

샤러, 올랜도 _Orlando D. Schärer Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 208 Lab : Bldg. 110 Rm. 205 Tel : +82-52-217-2531 E-mail : orlando.scharer@unist.ac.kr http://www.scharerlaboratory.org

Curriculum Vitae · 2017 - Present : Associate Director, Center for Genomic Integrity (CGI), Institute of Basic Sciences (IBS), Ulsan, Korea · 2017 - Present : Distinguished Professor, School of Life Sciences, Ulsan National Institute of Science and Technology (UNIST), Ulsan, Korea · 2005 - 2016 : Professor, Department of Pharmacological Sciences and Department of Chemistry, Stony Brook University, NY, USA · 1999 - 2005 : Group Leader / START Fellow, Institute of Molecular Cancer Research, University of Zürich, Switzerland

Academic Credential · 1996 : PhD, Chemistry, Harvard University, Cambridge, MA, USA · 1991 : Diplom(MSc), Chemistry, ETH Zürich, Switzerland

Awards/Honors/Memberships

Research Publications (selected) • NATURE COMMUNICATIONS / SDE integrates into the TIMELESS-TIPIN Complex to Protect Stalled Replication Forks / Rageul J, Park J, Zeng PP, Lee EA, Yang JY, Hwang SY, Lo N, Westheimer A, Schärer OD, Yeo JE, Kim HJ / 2020-12 • Nucleic Acids Research / Bypass of DNA interstrand crosslinks by a Rev1-DNA Polymerase complex / Bezalel-Buch R, Cheun YK, Roy U, Schärer OD, Burgers P / 2020-07 • Nucleic Acids Research / A key interaction with RPA orients XPA in NER complexes / Topolska-Wos′ AM, Sugitani N, Cordoba JJ, Le Meur KV, Le Meur RA, Kim HS, Yeo JE, Rosenberg D, Hammel M, Schärer OD, Chazin WJ / 2020-02

· 2016 : Excellence in Senior Research Award, Stony Brook University, School of Medicine · 2013 : Fanconi Anemia Research Fund Discovery Award · 2005 : NYSTAR Faculty Development Award · 2001 : EMBO Young Investigator Award · 1999 - 2006 : START fellow of the Swiss National Science Foundation

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Department of Biological Sciences

• Cancer Chemotherapy • Genomic Integrity • DNA Repair • DNA Damage • Cisplatin • Nucleotide Excision Repair • DNA Interstrand Crosslink Repair • Personalized Medicine

Applied and Environmental Microbiology Lab(AEML)

미첼, 로버트 _Robert J. Mitchell Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 601-9 Lab : Bldg. 110 Rm. 602 Tel : +82-52-217-2513 E-mail : esgott@unist.ac.kr

The Applied and Environmental Microbiology Lab pursues research into a variety of different bacterial processes and their impacts on human health. Towards this end, our research has advanced the use of predatory bacteria as living antibiotics to combat multidrug resistant human pathogens by exploring the cellular and sub-cellular processes involved, including transcriptomics, proteomics and, more recently, genome sequencing. A second major area is the production of beneficial secondary metabolites (violacein and prodigiosin) that have both antibiotic and anticancer activities, with our group collaborating with others to understand the activities of these compounds in their natural ecologies as well as in medical applications.

Curriculum Vitae · 2018 - Present : Professor, School of Life Sciences, UNIST · 2012 - 2018 : Associate Professor, School of Life Sciences, UNIST · 2008 - 2012 : Assistant Professor, School of Life Sciences, UNIST · 2007 - 2008 : Invited Scientist, Division of Bioenergy, Korea Institute of Science and Technology · 2004 - 2007 : Post-Doctoral Fellow, Oral Pathogens Group, Forsyth Dental Institute, Boston, MA · 2004 - 2007 : Research Fellow, Oral Medicine, Infection, and Immunity, Harvard University, Cambridge, MA

Academic Credential · 1990 - 1995 : B.Sc in Microbiology & B.Sc in Chemistry University of Illinois, Urbana, Il, USA · 1998 - 2000 : M.Sc in Environmental Science and Engineering Environmental Toxicology Gwangiu Institute of Science and Technology, Gwangju, South Korea · 2000 - 2004 : Ph.D in Environmental Science and Engineering Environmental Toxicology Gwangiu Institute of Science and Technology, Gwangju, South Korea

Memberships · Korea Biochip Society (KBS) International Coordinator · Korean Microbiology and Biotechnology (KORMB) International Coordinator · International Society for Microbial Ecology (ISME) · Korea Society for Biotechnology and Bioengineering (KSBB)

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Major research field Predatory Bacteria and Multi-Drug Resistant Pathogens; Secondary Chromogenic Metabolites

Research Keywords and Topics • Bdellovibrio bacteriovorus; Antibiotic Resistance; Predation; Human Health; BALO; Violacein; Prodigiosin

Research Publications (selected) • Nature / Concentric liquid reactors for chemical synthesis and separation / Cybulski, Olgierd; Dygas, Miroslaw; Mikulak-Klucznik, Barbara; Siek, Marta; Klucznik, Tomasz; Choi, Seong Yeol; Mitchell, Robert J.; Sobolev, Yaroslav I.; Grzybowski, Bartosz A. / 2020-10 • Biosensors and Bioelectronics / Enhanced Microbial Fuel Cell (MFC) Power Outputs Through Membrane Permeabilization Using a Branched Polyethyleneimine / Soh, Sandrine M.; Lee, Dong-Gyu, Mitchell, Robert J . / 2020-12 • Environmental Microbiology / Chromobacterium violaceum delivers violacein, a hydrophobic antibiotic, to other microbes in membrane vesicles / Choi, Seong Yeol; Lim, Sungbin; Cho, Gayoung; Kwon, Jisoo; Mun, Wonsik; Im, Hansol; Mitchell, Robert J / 2020-02 • ISME Journal / Bdellovibrio bacteriovorus HD100, a predator of Gram-negative bacteria, benefits energetically from Staphylococcus aureus biofilms without predation / Im, Hansol; Dwidar, Mohammed; Mitchell, Robert J. / 2018-08 • mBIO / Cyanide Production by Chromobacterium piscinae Shields It from Bdellovibrio bacteriovorus HD100 Predation / Mun, Wonsik; Kwon, Heeun; Im, Hansol; Choi, Seong Yeol; Monnappa, Ajay K.; Mitchell, Robert J. / 2017-12

Patents (selected) • Determination of the Predator Prey Population Dynamics Using a Quantitative Bioluminescence Assay / Korean Patent #10-1624263 • Violacein supported particle, and manufacturing method of the same / Korean Patent #10-1578372 • Degradation of the recombinant genome with predator bacteria inside soil / Korean Patent #10-1557459 • Patterning of Bacterial Biofilms on Mammalian Cells / Korean Patent #10-1524268

Cancer Biology 암생물학실험실

Cancer Mitochondrial biology Mitochondria is critical regulatory nodal points intersecting multiple cell death signaling pathways. We are interested in molecular regulatory mechanisms of mitochondrial outer and inner membrane permeabilization (MMP) which is the most important event for 'life or death' decision and is the 'point of no return' in cell death program. Mitochondrial chaperones and related molecules (Hsp90, TRAP1, Hsp60, mtHsp70, and Cyclophilin-D) and Bcl-2 family members regulate the mitochondrial membrane permeabilization and can induce biochemical, physiological, and structural changes in mitochondria. The function of these molecules in MMP and molecular mechansims of their cross-regulation are our primary interest.

Major research field 샤페론에 의한 미토콘드리아 기능조절, 종양 면역반응과 종양미세환경, 미토콘드리아 타겟 혁신신약 개발

Desired field of research 대사성 난치질환에서의 미토콘드리아 기능연구, 혁신신약 개발과 사업화 연구

Research Keywords and Topics • Cellular functions and molecular regulatory mechanism of the mitochondrial chaperone TRAP1 • TRAP1 and client networks : implications for human diseases (Cancer & beyond) • Development of TRAP1 inhibitors as anticancer drugs : mitochondria-accumulating and mitochondria-permeable drugs • Cancer stem cells and development of resistance to chemo - and radiation therapies • Tumor microenvironment : metabolic cross-talk between cancer and stromal cells

_Byoung Heon Kang

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 401-8 Lab : Bldg. 110 Rm. 402 Tel : +82-52-217-2521 E-mail : kangbh@unist.ac.kr https://sites.google.com/site/mitomed/

Curriculum Vitae · 2021 - Present : Professor. Dept. Biological Sciences, UNIST · 2016 - 2021 : Associate professor. Dept. Biological Sciences, UNIST · 2017 - 2018 : Visiting Scholar. Department of Biochemistry and Biophysics, University of California San Francisco, USA · 2010 - 2016 : Assistant professor. School of Life Sciences, UNIST · 2004 - 2009 : Postdoctoral associate/ Instructor. Department of Cancer Biology, University of Massachusetts Medical School, USA

Academic Credential · 1999 - 2004 : Ph.D. Department of Life Science (Biochemistry) POSTECH, South Korea · 1995 - 1997 : M.S. Department of Life Science (Biochemistry) POSTECH, South Korea · 1991 - 1995 : B.S. Department of Life Science KAIST, South Korea

Patents (selected) • Compound for inhibiting neovascularization factor and use thereof Dec. 16, 2019, Korea No. 10-2019-0168238 / Kang BH, Kim SY, Yun NG, Lee C, Park DH • In vivo pan Hsp90 family protein inhibitor Panvotinib-401 as cancer therapeutics" Oct. 26, 2016, Korea No. 10-2016-0140260; Jul. 21, 2017, PCT/KR2017/007907 / Kang, B.H., Park, H.K., et al.

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Department of Biological Sciences

Research Publications (selected) • JOURNAL OF MEDICINAL CHEMISTRY / Dual Binding to Orthosteric and Allosteric Sites Enhances the Anticancer Activity of a TRAP1-Targeting Drug. / Hu S, Ferraro M, Thomas AP, Chung JM, Yoon NG, Seol JH, Kim S, Kim HU, An MY, Ok H, Jung HS, Ryu JH, Colombo G, Kang BH. / 2020-03 • CANCER RESEARCH / Interplay between TRAP1 and sirtuin-3 modulates mitochondrial respiration and oxidative stress to maintain stemness of glioma stem cells / Park HK, Hong JH, Oh YT, Kim SS, Yin J, Lee AJ, Chae YC, Kim JH, Park SH, Park CK, Park MJ, Park JB, Kang BH / 2019-04 • JOURNAL OF THE AMERICAN CHEMICAL SOCIETY / Development of a mitochondria-targeted Hsp90 inhibitor based on the crystal structures of human TRAP1 / Lee C, Park HK, Jeong H, Lim J, Lee AJ, Cheon KY, Kim CS, Thomas AP, Bae B, Kim ND, Kim SH, Suh PG, Ryu JH, Kang BH / 2015-04

강병헌

Protein Nanobio Laboratory 단백질 나노바이오 연구실

강세병

_Sebyung Kang

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 401-7 Lab : Bldg. 110 Rm. 407 Tel : +82-52-217-5325 E-mail : sabsab7@unist.ac.kr https://sites.google.com/site/proteinna nobio/

Our researches focus on utilizing protein based nanobio-templates for biomedical and biomaterial applications. To achieve these goals, we are using various types of nanobiotemplates, such as viral capsids, small protein cages, and functional proteins, and biophysical and biochemical methods to elucidate their functions. 단백질 나노바이오 연구실의 연구 목표는 단백질 생체 분자를 기반으로 단백질 공학과 분자 엔지니 어링을 이용하여 암과 그외의 난치질환들에 대해 표적 특이적인 진단 기술과 치료 기술을 개발함으 로써 의생명과학분야에 이바지하고, 생명 연장과 무병장수 실현에 일조하고자 합니다. 단백질 나노 바이오 연구실에서는 다양한 기능성 단백질들과 복잡한 형태를 띄고 있는 다양한 형태와 크기의 단 백질 나노입자를 기본체들로 사용하고 있으며, 이들 기본체들에 표적 지향성 리간드, 치료제, 면역 조절 분자, 및 진단체 등을 표지하거나 담지함으로써 암과 난치질환의 조기 진단과 표적 특이적 치 료에 응용하고 있습니다. 특히, 표적 지향성을 이루기 위해 표적 특이적인 항체와 더불어 단백질 공

Curriculum Vitae

학을 이용한 나노바디 (Nanobody), 애피바디 (affibody), 표적 결합 펩타이드 (target-binding peptide)

· 2021 - Present : Professor, Department of Biological Sciences, School of Life Sciences, UNIST · 2010 - Present : Assistant & Associate Professor, Department of Biological Sciences, School of Life Sciences, UNIST · 2018 - Present : Director, Center for Cell to Cell Communication in Cancers (대학중점연구소) · 2013 - Present : Team leader - UNIST BK21+ Biomolecular Network Research Team · 2017 - 2018 : Visiting scholar, Department of Chemistry, Indiana University, USA

등을 광범위하게 확보하고 있으며, 이들을 기능성 단백

Academic Credential · 2007 - 2009 : Post-Doc, Chemistry & Biochemistry, Montana State University, USA · 2007 : Post-Doc, Microbiology, Univ. of Alabama at Birmingham, USA · 2001 - 2006 : Ph.D. Biochemistry & Molecular Genetics, Univ. of Alabama at Birmingham, USA · 1998 - 2000 : MS. Microbial Engineering, Konkuk Univ. South Korea · 1991 - 1998 : BS. Microbial Engineering, Konkuk Univ. South Korea

Awards/Honors/Memberships · 2007 : Career Enhancement Award, · The Office of Postdoctoral Education, · University of Alabama at Birmingham, USA · 2005 : McKibbin Pre-doctoral Award, Dept. of Biochemistry & Molecular Genetics, University of Alabama at Birmingham, USA

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질들과 다가성 단백질 나노입자들에 적용함으로써 생 체 분자 기반 표적 지향성을 이루고 있습니다. 단백질 공학과 나노바이오 기술의 융합과 생체 적합성을 지닌 단백질 생체 분자의 결합을 통해 새로운 형태의 획기적 인 표적 특이적 진단 기술, 암제어 기술, 및 치료 기술을 개발할 것으로 기대합니다.

Major research field

Desired field of research

Nanobiotechnology, Protein Engineering, Protein Nanoparticle-based Drug Delivery and Diagnostic Probe Systems, Intracellular Protein Delivery, Biosens

Nanobiotechnology, Protein Engineering, Protein Nanoparticle-based Drug Delivery and Diagnostic Probe Systems, Intracellular Protein Delivery, Biosensors & Bioimaging

Research Keywords and Topics • Nanobiotechnology, Protein Engineering, Protein Nanoparticle-based Drug Delivery and Diagnostic Probe Systems, Intracellular Protein Delivery, Biosensors & Bioimaging 나노바이오기술, 단백질 공학, 단백질 나노입자 기반 약물 및 진단체 전달 시스템, 세포질 내 단백 질 전달, 바이오센서 & 바이오 이미징

Research Publications (selected) • Advanced Therapeutics / Selective and Effective Cancer Treatments using TargetSwitchable Intracellular Bacterial Toxin Delivery Systems / Park, S. G., Choi, B., Bae, Y., Lee, Y. G., Park, S. A., Chae, Y. C., and Kang, S. / 2020-06 • Nature Communications / Cloaking Nanoparticles with Protein Corona Shield for Targeted Drug Delivery / Oh, J. Y, Kim, H., Palanikumar, L., Go, E. M., Jana, B., Park, S. A., Kim, H. Y., Kim, K., Seo, J. K., Kwak, S. K., Kim, C.,* Kang, S.,* and Ryu, J-H. / 2018. 10 • ACS Nano / Effective Delivery of Antigen-Encapsulin Nanoparticle Fusions to Dendritic Cells Leads to Antigen-Specific Cytotoxic T cell Activation and Tumor Rejection. Choi, B.,# Moon, H.,# Hong, S. J., Shin, C. S., Do, Y., Ryu, S.* and Kang, S. / 2016-08

Patents (selected) • 면역화학적 분석에서 표적 특이적 신호증폭을 담당하는 범용성 재조합 2차 항체 유사체 / 강세병, 박태주, 이현우, 송은경, 민준선, 이지수 / 2017- 08

• 항원 펩타이드-페리틴 융합단백질 및 이를 포함하는 백신 조성물 / 강세병, 도윤경, 강영지, 한재아 / 2016-06

Cancer Epigenetics Laboratory 종양후생유전학연구실

How do alterations in epigenetic landscape disturb the barrier between normal and malignant states to cause cancers? How can we translate these cancer-related aberrations into more efficient cancer therapy? These are two overarching questions that our research is currently addressing. The intricate interplay between genetic and epigenetic pathways plays key roles in regulating normal and malignant cellular development. - 생체 내 암 발생 원리 규명 - 세포의 정상 분화 및 암화의 조절 메커니즘 규명 - 암특이적인 변이를 표적으로 하는 새로운 표적항암치료제 개발

고명곤

_Myung-gon Ko

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 401-6 Lab : Bldg. 110 Rm. 404 Tel : +82-52-217-2516 E-mail : mgko@unist.ac.kr https://myunggonko.wixsite.com/mgko

- 세포 내 (비만, 당뇨, 간질환 관련) 대사의 후생유전학적 조절

Curriculum Vitae · 2015 - Present : Assistant Professor, UNIST · 2011 - 2015 : Instructor, La Jolla Institute for Allergy & Immunology · 2010 - 2011 : Post-doctoral fellow, La Jolla Institute for Allergy & Immunology · 2009 - 2010 : Post-doctoral fellow, Harvard Medical School · 2006 - 2009 : Post-doctoral fellow, Seoul National University

Major research field Leukemia, hematopoiesis, obesity, diabetes, metabolic disease, cancer therapy

Academic Credential

Research Keywords and Topics • 암 발생 원리 규명 (Dysregulation of key genetic and epigenetic players that leads to the onset and progression of cancers)

of cancer-specific epigenetic aberrations)

Research Publications (selected) • Nature / Impaired hydroxylation of 5-methylcytosine in myeloid cancers with mutant TET2 / Ko M, Huang Y, Jankowska AM, Pape UJ, Tahiliani M, Bandukwala HS, An J, Lamperti ED, Koh KP, Ganetzky R, Liu XS, Aravind L, Agarwal S, Maciejewski JP, Rao A. / 2010-12 • Nature Communications / Acute loss of TET function results in aggressive myeloid cancer in mice / Jungeun An, Edah’i Gonzalez-Avalos, Ashu Chawla, Mira Jeong, Isaac F. Lopez-Moyado, Wei Li, Margaret A. Goodell, Lukas Chavez, Myunggon Ko, Anjana Rao / 2015-11 • Nature / Modulation of TET2 expression and 5-methylcytosine oxidation by the CXXC domain protein / Ko M, An J, Bandukwala HS, Chavez L, Aijö T, Pastor WA, Segal MF, Li H, Koh KP, Lähdesmäki H, Hogan PG, Aravind L, Rao A / 2013-05

Awards/Honors/Memberships · 2016 - Present : Member of Korean Society for Molecular and Cellular Biology · 2016 - Present : Editorial Board Member, Molecular and Cellular Biology · 2015 - Present : Member of Korean Society for Biochemistry and Molecular Biology · 2015 : TJ Park Science Fellowship, POSCO TJ Park Foundation · 2011 - 2014 : Special Fellow Award, Leukemia & Lymphoma Society · 2000 - 2001 : Woosan Fellowship, Woosan Foundation

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Department of Biological Sciences

* 혈액암 및 고형암 발달 기전 * 생체내 대사, 염증 및 면역반응 * 유전자 발현 및 세포 분화의 후생유전학적 조절 기전 • 종양특이적 후생유전학적 변이를 표적으로 하는 신개념 항암 치료제 개발 (Translational application

· 2006 : Ph.D., Molecular Immunology, Seoul National University · 2002 : M.S., Genetic Engineering, Seoul National University · 1999 : B.S., Molecular Biology, Seoul National University

Immunometabolism and Cancer 면역대사와 암

권혁무

_Hyug Moo Kwon

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 501-9 Lab : Bldg. 110 Rm. 509 Tel : +82-52-217-2535 E-mail : hmkwon@unist.ac.kr http://ikd.unist.ac.kr

Research projects in progress 1. R loop resolution and neuronal stem cells 2. Autoimmune diseases - rheumatoid arthritis and systemic lupus erythematosus 3. Breast cancer biology 4. Non-alcoholic fatty liver disease 5. SARS-CoV2 biology and anti-viral development 6. Development of small molecule therapeutics for autoimmune inflammatory diseases

Curriculum Vitae · 2011 - Present : Professor of Biological Sciences, UNIST · 2002 - 2013 : Professor of Medicine and Physiology, University of Maryland · 1991 - 2002 : Associate Professor of Medicine, Johns Hopkins University

Major research field

Academic Credential · 1988 : Post-doctoral Fellow, NIH · 1987 : PhD in Physiology, State University of New York · 1980 : BS in Zoology, Seoul National University

Awards/Honors/Memberships · 2020 - Present : Director, Coronavirus Therapeutics Development Project · 2018 - Present : SRC Director, Cellular Responses to Metabolic Stress Research Center · 2001 : Young Investigator Award, the American Society of Physiology · 1997 - 2003 : NIH Study Section Member (General Medicine B)

Metabolic stress, autoimmunity, breast cancer, SARS-CoV2

Research Keywords and Topics • Role of TonEBP in immunometabolic diseases - autoimmune diseases: rheumatoid arthritis, systemic lupus erythematodus, lupus nephritis - non-alcoholic steatohepatitis - development of orally active drugs for immunometabolic diseases: founder and CEO of “Herros Bio” • R-loop resolution and neuronal stem cells development • Development of orally active anti-CoV2 therapeutics

Research Publications (selected) • NATURE REVIEWS NEPHROLOGY / The evolving role of TonEBP as an immunometabolic stress protein / Choi, Soo Youn; Lee-Kwon, Whaseon; Kwon, Hyug Moo / 2020-06 • NATURE COMMUNICATIONS / TonEBP/NFAT5 promotes obesity and insulin resistance by epigenetic suppression of white adipose tissue beiging / Lee, Hwan Hee; An, Seung Min; Ye, Byeong Jin; Lee, Jun Ho; Yoo, Eun Jin; Jeong, Gyu Won; Kang, Hyun Je; Alfadda, Assim A.; Lim, Sun Woo; Park, Jiyoung; Lee-Kwon, Whaseon; Kim, Jae Bum; Choi, Soo Youn; Kwon, Hyug Moo / 2019-08 • GUT / Tonicity-responsive enhancer-binding protein promotes hepatocellular carcinogenesis, recurrence and metastasis / Lee, Jun Ho; Suh, Jae Hee; Choi, Soo Youn; Kang, Hyun Je; Lee, Hwan Hee; Ye, Byeong Jin; Lee, Gap Ryol; Jung, Seok Won; Kim, Chang Jae; Lee-Kwon, Whaseon; Park, Jiyoung; Myung, Kyungjae; Park, Neung Hwa; Kwon, H. Moo / 2019-02

Patents (selected) • 세룰레닌 또는 세룰레닌 유도체를 유효성분으로 함유하는 염증 질환 예방 또는 치료용 약학 조성 물, 10-1705253 / 권혁무, 최수연, 이환희 / 2017

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Molecular Oncology Laboratory 분자종양학 연구실

Our lab’s research goal is to promote our understanding of cancer with the aim of developing novel therapeutics that can be used as preventive and/or curative therapy. To this end, we are focusing on understanding the functional impact of genetic alterations in cancer and suggesting an attractive strategy for safely treating cancer. 암에서 발견되는 다양한 유전적 변이의 기능적 영향을 이해하고 이를 바탕으로 암세포 선택적 사멸 유도 전략을 제시하고자 합니다.

김은희

_Eunhee Kim

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 501-03 Lab : Bldg. 110 Rm. 503 Tel : +82-52-217-3046 E-mail : ehkim@unist.ac.kr

Curriculum Vitae

Major research field Cancer Biology, Cell Biology_Organelle stress, Molecular Biology_RNA Splicing

· 2016 - Present : Assistant Professor, Ulsan National Institute Science and Technology(UNIST) · 2013 - 2016 : Research Associate, Memorial Sloan Kettering Cancer Center, New York, USA · 2009 - 2013 : Postdoctoral fellow, Cleveland Clinic, Cleveland, USA · 2007 - 2009 : Postdoctoral fellow, Ajou University School of Medicine

Desired field of research Cell Death Mechanisms, Anticancer therapeutic strategies

Research Keywords and Topics

Academic Credential

• Understanding the molecular mechanisms of cancer development

· 2007 : Ph.D. Ajou University School of Medicine · 2004 : M.S. Ajou University School of Medicine · 2002 : B.S. Ajou University

암 발생의 분자 기전 이해

• Identification of signaling pathways and molecular targets involved in cancers 암과 관련된 신호전달경로 및 분자 표적 규명

• Study on the therapeutic strategies to selectively kill cancer cells 암세포 선택적 사멸 유도 전략 연구

Awards/Honors/Memberships • Front. Cell Dev. Biol./Intracellular Ca2+ imbalance critically contributes to paraptosis / Kim E, Lee DM, Seo MJ, Lee HJ, Choi KS / 2021-01 • Biochemical Pharmacology / Quercetin and Chloroquine Synergistically Kill Glioma Cells by Inducing Organelle Stress and Disrupting Ca 2+ Homeostasis / Jan E, Kim IY, Kim H, Lee DM, Seo DY, Lee JA, Choi KS, Kim E / 2020-08 • Cancer Cell / Synthetic Lethal and Convergent Biological Effects of Cancer-Associated Spliceosomal Gene Mutations / Lee SC, North K, Kim E, Jang E, Obeng E, Lu SX, Liu B, Inoue D, Yoshimi A, Ki M, Yeo M, Zhang XJ, Kim MK, Cho H1 Chung YR, Taylor J, Durham BH, Kim YJ, Pastore A, Monette S, Palacino J, Seiler M, Buonamici S, Smith PG, Ebert BL, Bradley RK, Abdel-Wahab O / 2018-08 • Cancer Cell / SRSF2 Mutations Contribute to Myelodysplasia by Mutant-Specific Effects on Exon Recognition / Kim E, Ilagan JO, Liang Y, Daubner GM, Lee SC, Ramakrishnan A, Li Y, Chung YR, Micol JB, Murphy ME, Cho H, Kim MK, Zebari AS, Aumann S, Park CY, Buonamici S, Smith PG, Deeg J, Lobry C, Aifantis L, Modis, Y, Allain FH, Halene S, Bradley RK, and Abdel-Wahab O / 2015-05

· 2015 - 2016 : Worldwide Cancer Research Grant · 2014 : ASH Abstract Achievement Award · 2013 : FASEB Science Research Conference Poster Award · Member of American Association for Cancer Research · Member of Korean Society for Molecular and Cellular Biology · Member of Korean Society for Cell Biology · Member of Korean Society for Biochemistry and Molecular Biology · Member of Korean Cancer Association

College of Information and Biotechnology

255

Department of Biological Sciences

Research Publications (selected)

Neural Circuit and Neurodegenerative Disease Lab 신경회로 및 퇴행성뇌질환 연구실

김재익

_Jae-Ick Kim

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 601-5 Lab : Bldg. 110 Rm. 604 Tel : +82-52-217-2458 E-mail : jikim220@unist.ac.kr

Basal ganglia are a group of subcortical nuclei including striatum, globus pallidus, and substantia nigra. The major function of this system is to integrate both sensory and motor information, eventually leading to motor coordination, action selection, and reward-related learning, most of which are severely impaired in Parkinson’s disease. Our long-term goal is to identify the essential modification of basal ganglia circuitry contributing to the development of neurodegenerative diseases. Taking advantage of multi-disciplinary approaches including whole-cell patch clamp, single-unit recording, two-photon laser microscopy, super-resolution imaging, optogenetics, and behavioral assays, we also aim to identify pre-symptomatic physiological markers for Parkinson’s disease. 기저핵은 선조체, globus pallidus, 시상하핵, 흑색질 등으로 이루어진 피질 하부의 거대한 뇌영역이 다. 기저핵 시스템은 감각, 운동 정보를 종합하여 적절한 수의운동을 선택하고 조절하는 역할을 하 며, 보상 및 동기 행동에도 광범위한 기능을 수행한다. 파킨슨병에서는 기저핵의 많은 영역들이 손상

Curriculum Vitae · 2021 - Present : Associate Professor, Department of Biological Sciences, UNIST, Korea · 2017 - 2021 : Assistant Professor, School of Life Sciences, UNIST, Korea · 2013 - 2017 : Postdoctoral fellow, Department of Neurosurgery, Stanford University, US · 2012 - 2013 : Postdoctoral fellow, Department of Biological Sciences, Seoul National University, Korea

Academic Credential · 2005 - 2012 : Ph.D. (Neurobiology), Department of Biological Sciences, Seoul National University, Korea · 1997 - 2005 : B.S., Department of Electrical Engineering, Seoul National University, Korea / B.S., Department of Biological Sciences, Seoul National University, Korea

Awards and Honors · 2018 : POSCO TJ Park Young Professor Fellowship · 2016 : Sammy Kuo Award (2nd place), Stanford Neuroscience Institute · 2016 : Basic Science Research Program Fellowship · 2012 : Brain Korea 21 Postdoctoral Fellowship · 2011 : Best Oral Presentation Award of 2011 KSBNS and MCCS-Asia Neuroscience Conference · 2006 : Seoul Science Fellowship

Memberships · Society for Neuroscience: member · KSBNS : member · KSND : member · AAAS : member

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을 받는 것으로 알려져 있다. 본 연구실의 연구목표는 패치클램프 레코딩을 중심으로 한 전기생리학, 이광자현미경법, 초고해상도 이미징, 광유전학, 동물행동분석 등의 다차원적인 실험기법들을 이용 하여 다양한 복잡성 수준에서 존재하는 기저핵 신경회로의 기능을 밝히고, 보상, 동기, 운동학 습과의 인과관계를 밝히는 것이다. 또한, 파킨 슨병 등의 퇴행성 뇌질환들에서 나타나는 다양 한 뇌영역들의 구조적, 기능적 이상을 규명하 고, 파킨슨병의 증상이 나타나기 전 존재하는 생리학적 지표들을 발굴하고자 한다.

Major research field Parkinson's disease, Alzheimer's disease, Basal ganglia microcircuits, Modulatory neurons, Dopamine neurons, Neurotransmitter co-transmission, Ageing

Desired field of research Normal and pathological ageing, Developing an early diagnostic tool for Neurodegenerative diseases, Finding a cure for Parkinson's disease

Research Keywords and Topics • Parkinson's disease, Alzheimer's disease, Neurodegenerative diseases, Basal ganglia microcircuits, Modulatory neurons, Dopamine neurons, Neurotransmitter cotransmission, Normal and pathological ageing, Developing an early diagnostic tool for neurodegenerative diseases, Finding a cure for Parkinson's disease 파킨슨병, 알츠하이머병, 퇴행성뇌질환, 기저핵 미세회로, 조절성 신경세포, 도파민 신경세포, 신경 전달물질 동시전달, 정상 및 병적 노화, 퇴행성 뇌질환의 조기 진단법 개발, 파킨슨병의 치료기술 개발

Research Publications (selected) • Brain / O-GlcNAcylation regulates dopamine neuron function, survival, and degeneration in Parkinson disease / Lee BE, Kim HY, Kim HJ, Jeong H, Kim BG, Lee HE, Lee J, Kim HB, Lee SE, Yang YR, Yi E, Hanover J, Myung K, Suh PG, Kwon T, Kim JI / 2020-12 • Scientific Reports / Deletion of PLC 1 in GABAergic neurons increases seizure susceptibility in aged mice / Kim HY, Yang YR, Hwang H, Lee HE, Jang HJ, Kim J, Yang E, Kim H, Rhim H, Suh PG, Kim JI / 2019-11 • Science / Aldehyde dehydrogenase 1a1 mediates a GABA synthesis pathway in midbrain dopaminergic neurons / Kim JI, Ganesan S, Luo SX, Wu YW, Park E, Huang EJ, Chen L, Ding JB / 2015-10

Cancer/DNA damage Lab 암/유전자 손상 반응 실험실

My lab focuses on studying the DNA damage response pathway and development/progression of chronic myeloid leukemia (CML). DNA damage responses are important in maintaining genetic stability in eukaryotic cells. Because many tumor suppressor proteins including ATM, ATR, MDC1, RNF8, RNF168, RAP80, BRCA1, and BRCA2 are involved in the DNA damage pathway, the complete understanding of this pathway is important in preventing neoplastic transformation. So, our laboratory’s goal is to understand the inherent genetic stability and molecular mechanisms of tumorigenesis by studying DNA damage signaling pathways. CML study is the second project in my Lab. My Lab has focused on identifying genes that are resistant to the tyrosine kinase inhibitor of CML. In addition, we are studying the molecular mechanisms of the discovered genes and applying them to CML patients. The aim of this research project is to ultimately contribute to the treatment and diagnosis of chronic myelogenous leukemia.

Major research field DNA damage, Cancer, CML

Research Keywords and Topics 1. DNA 손상 연구

(1) Double strand break 손상 신호에 대한 연구 주제 1) 손상 신호 전달에서 RAP80와 BRCA1의 기능 분석 - DNA 손상 복구 (HR and NHEJ) - Cell cycle checkpoint 2) DNA 손상에서의 후성 유전 조절 규명

- Histone modification - Chromatin remodeling (2) DNA Interstrand crosslinks (ICLs) repair 연구 1) ICL repair에서 TRAIP와 ZNF212의 기능 분석 - ICL repair 손상 복구 (FA and NEIL3 pathway) - Cell cycle checkpoint

김홍태

_Hongtae Kim

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 103 Rm. 412 Lab : Bldg. 103 Rm. 418 Tel : +82-52-217-5404 E-mail : khtcat@unist.ac.kr https://faculty.unist.ac.kr/khtlab/

Curriculum Vitae · 2018 - Present : Professor, UNIST · 2008 - 2018 : Professor, Sungkyunkwan University · 2006 - 2008 : Post-doctoral fellow, School of Medicine, Yale University · 2004 - 2006 : Post-doctoral fellow, Mayo clinic · 2004 : Ph.D. in Medical Sciences, School of Medicine, Catholic University · 1995 : M.S. in Biological education, Seoul National University · 1993 : B.S. in Biological education, Seoul National University

Academic Credential

2. 백혈병 진행 연구 (1) CML 치료제 내성 및 병기 진행 환자 샘플 유전체 분석

- Microarray - WGS, WES, Single cell analysis (2) CML 치료제 내성 및 병기 진행 기전 분석

- Identification of binding proteins - Functional analysis of identified proteins

Research Publications (selected) • Autophagy / GCA links TRAF6-ULK1-dependent autophagy activation in resistant chronic myeloid leukemia / Han SH, Korm S, Han YG, Choi SY, Kim SH, Chung HJ, Park K, Kim JY, Myung K, Lee JY, Kim H, Kim DW / 2019-12 • Leukemia / Cobll1 is linked to drug resistance and blastic transformation in chronic myeloid leukemia / Han SH, Kim SH, Kim HJ, Lee Y, Choi SY, Park G, Kim DH, Lee A, Kim J, Choi JM, Kim Y, Myung K, Kim H, Kim DW / 2017-07 • Nature communication / TRAIP/RNF206 is required for recruitment of RAP80 to sites of DNA damage / Lee NS, Chung HJ, Kim HJ, Lee SY, JJi J, Seo Y, Han SH, Choi M, Yun M, Lee SG, Myung K, Kim Y, Kang HC, Kim H / 2016-01

College of Information and Biotechnology

257

Department of Biological Sciences

· 1993 : B.S. in Biological education, Seoul National University · 1995 : M.S. in Biological education, Seoul National University · 2004 : Ph.D. in Medical Sciences, School of Medicine, Catholic University

Bioinformatics Lab 생물정보학 연구실

남덕우

_Doug-u Nam

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 601-7 Lab : Bldg. 110 Rm. 603 Tel : +82-52-217-2525 E-mail : dougnam@unist.ac.kr https://sites.google.com/site/bigunist2/

Curriculum Vitae · Senior Researcher, Korea Research Institute of Bioscience and Biotechnology (Bioinformatics) · Senior Researcher, National Institute for Mathematical Sciences (Bioinformatics)

Academic Credential · 2002 : KAIST, Applied Math, MS/Ph.D. · 1996 : Seoul National University, Math. Edu. B.S.

Awards/Honors/Memberships · 2011 - Present : Review Editor of Frontiers in Genetics/Physiology (IF 3.5/3.2) · 2010 : 9th European Conference on Computational Biology, oral presentation (Ghent, Belgium) · More information : https://sites.google.com/site/bigunist 2/Associate-Professor

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We are bioinformatics group at UNIST. Our research interests are as follows: (1) Identifying molecular markers and their functional networks that are associated with disease by analyzing transcriptomic and genomic data (2) Developing computational models and algorithms that impact bio-medical research (3) Classifying disease subtypes or cell types using gene expression big data (microarray, RNA-seq, single cell) To this aim, we analyze microarrays, RNA-seq, GWAS, and single cell data in an integrative manner. We also use and develop machine learning methods for data processing, clustering, dimension reduction, and classification. Current Topics of Interest: Development of single-cell data processing, clustering, and classification methods Biclustering analysis of transcriptome big data Pathway and network analysis of gene expression and GWAS data Detection of rare drivers in cancer by integrating mutation and expression Read count modeling and simulation of RNA-seq and single cell data Improving miRNA target prediction

Research Keywords • Bioinformatics • Genomics • Systems biology • Single-cell data • Transcriptomics • GWAS • microRNA

Research Publications (selected) • Nucleic Acids Research / Biclustering analysis of transcriptome big data identifies condition-specific microRNA targets / Sora Yoon, Hai C. T. Nguyen, Woobeen Jo, Jinhwan Kim, Sang-Mun Chi, Jiyoung Park, Seon-Young Kim, Dougu Nam*, / 2019-03 • Nucleic Acids Research / Efficient pathway enrichment and network analysis of GWAS summary data using GSA-SNP2 / Sora Yoon†, Hai C. T. Nguyen†, Yun Joo Yoo, Jinhwan Kim, Bukyung Baik, Sounkou Kim, Jin Kim, Sangsoo Kim and Dougu Nam* / 2018-03 • Bioinformatics / netGO: R-Shiny package for network-integrated pathway enrichment analysis / Jinhwan Kim, Sora Yoon, Dougu Nam* / 2020-05

Laboratory of Molecular Immunology 분자면역학 연구실

We study the immunologic aspects of a very broad range of human diseases, encompassing investigations in the fields of autoimmune diseases, inflammatory diseases, and hematopoiesis such as rheumatoid arthritis, systemic lupus erythematosus, atherosclerosis and leukemia. We are interested in how cytokines and inflammatory factors regulate the activation and function of innate immune and stromal cells, with a focus on macrophages, monocytes and fibroblasts. We are currently studying how cytokines such as IFNs, TNF and IL1 reprogram macrophage responses to the environment by altering transcription factor networks, chromatin states, cell metabolism, and the epigenomic landscape of enhancers. Such reprogramming results in macrophages that are hyperresponsive (primed) or desensitized (tolerized) to inflammatory challenges. To understand of underlying mechanisms, we integrate basic science investigation of signaling and epigenetic mechanisms with translational research using disease models and analysis of human disease samples with genome wide approaches such as single cell RNA-seq, ChIP-seq, and ATAC-seq. We are incorporating a precision medicine approach to identify disease mechanisms and the best therapies for individual patients. Our long-term research goals are to identify signaling and epigenetic mechanisms that can be targeted by new therapies for inflammatory diseases, including biological approaches to enhancing clinical outcomes.

Desired field of research

Major research field Cytokine Imprints, Plasticity in Macrophages, Innate Immune Memory, Chronic Inflammatory Diseases, Leukemia

Bioinfomatics, NGS-based Approach

Research Keywords and Topics • Cytokine Imprints and Plasticity in Macrophages • Autoimmune Diseases and Leukemia • Bioinformatics and NGS

박성호

_Sungho Park

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 401-4 Lab : Bldg. 110 Rm. 408 Tel : +82-52-217-5203 E-mail : parksu@unist.ac.kr http://immunology.unist.ac.kr

Curriculum Vitae · 2019 - Present : Assistant Professor, UNIST, Korea · 2018 - 2019 : Assistant Professor, Hospital for Special Surgery · 2015 - 2018 : Instructor, Hospital for Special Surgery · 2012 - 2015 : Postdoctoral Fellow, Weill Cornell Medical School · 2005 - 2007 : Research Assistant, The Rockefeller University, NY · 2005 : Visiting Student, Kobe Medical School, Japan

Academic Credential

Research Publications (selected)

College of Information and Biotechnology

259

Department of Biological Sciences

• CIRCULATION / Anti-Inflammatory Actions of Soluble Ninjurin-1 Ameliorate Atherosclerosis / Jeon, Sejin; Kim, Tae Kyeong; Jeong, Se-Jin; Jung, In-Hyuk; Kim, Nayoung; Lee, Mi-Ni; Sonn, Seong-Keun; Seo, Seungwoon; Jin, Jing; Kweon, Hyae Yon; Kim, Sinai; Shim, Dahee; Park, Young Mi; Lee, Sang-Hak; Kim, Kyu-Won; Cybulsky, Myron, I; Shim, Hyunbo; Roh, Tae-Young; Park, Woong-Yang; Lee, Hae-Ock; Choi, Jae-Hoon; Park, Sung Ho; Oh, Goo Taeg / 2020-11 • SCIENCE IMMUNOLOGY / Immunophenotyping of COVID-19 and influenza highlights the role of type I interferons in development of severe COVID-19 / Lee, Jeong Seok; Park, Seongwan; Jeong, Hye Won; Ahn, Jin Young; Choi, Seong Jin; Lee, Hoyoung; Choi, Baekgyu; Nam, Su Kyung; Sa, Moa; Kwon, Ji-Soo; Jeong, Su Jin; Lee, Heung Kyu; Park, Sung Ho; Park, Su-Hyung; Choi, Jun Yong; Kim, Sung-Han; Jung, Inkyung; Shin, EuiCheol / 2020-07 • SCIENCE IMMUNOLOGY / VEGF-A drives TOX-dependent T cell exhaustion in anti-PD1-resistant microsatellite stable colorectal cancers / Kim, Chang Gon; Jang, Mi; Kim, Youngun; Leem, Galam; Kim, Kyung Hwan; Lee, Hoyoung; Kim, Tae-Shin; Choi, Seong Jin; Kim, Hyung-Don; Han, Ji Won; Kwon, Minsuk; Kim, Jong Hoon; Lee, Andrew J.; Nam, Su Kyung; Bae, Seok-Joo; Lee, Sat Byol; Shin, Sang Joon; Park, Sung Ho; Ahn, Joong Bae; Jung, Inkyung; Lee, Kang Young; Park, Su Hyung; Kim, Hoguen; Min, Byung Soh; Shin, Eui-Cheol / 2019-11

· 2007 - 2012 : Weill Cornell Medical School, PhD · 2003 - 2005 : Seoul National University, MS · 1996 - 2003 : Yonsei University, BS

Molecular Metabolism Laboratory 분자대사학연구실

박지영

_Jiyoung Park

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 501-7 Lab : Bldg. 110 Rm. 507 Tel : +82-52-217-5322 E-mail : jpark@unist.ac.kr http://metabolism.unist.ac.kr

Curriculum Vitae · 2019 - Present : Associate Professor, Ulsan National Institute of Science and Technology · 2014 - 2019 : Assistant Professor, Ulsan National Institute of Science and Technology · 2011 - 2013 : Instructor, University of Texas Southwestern Medical Center, Dallas, USA · 2007 - 2011 : Post-doctoral fellow, University of Texas Southwestern Medical Center, Dallas, USA · 2005 - 2007 : Post-doctoral fellow, Seoul National University

Academic Credential · 2005 : Ph.D Seoul National University · 2001 : MS. Seoul National University · 1999 : BS. Ewha Womans University

Our research group is mainly focusing on the adipocyte biology at the level of metabolism and cancer. Through underlying the molecular mechanisms of obesity-related metabolic diseases, we aim to develop novel therapeutics for the metabolism and cancers. Main research topics are listed in below; 1. Adipose tissue remodeling via modulation of extracellular matrix proteins 2. Development of adipokine-based therapeutics for obesity-related metabolic diseases 3. Underlying the signaling networks between stromal adipocytes and cancer cells within the tumor microenvironment 4. Underlying the molecular mechanisms of metabolic stress-induced alteration of cancer cell behaviors 비만 연관 당뇨 및 암 질환의 분자 기전을 밝히고 치료제 개발을 위한 연구를 진행하고 있습니다. 1. 세포 외 기질단백질에 의한 지방조직 리모델링 연구 2. 지방조직 분비체 기반 대사성 질환 치료제 개발 연구 3. 종양미세환경에서 지방세포와 암세포 간의 상호신호 전달계 연구 4. 대사스트레스에 의한 암세포 대응기전 연구

Desired field of research

Major research field Adipocyte biology, obesity, diabetes, Obesity-related cancers, chronic liver diseases, development of therapeutics

ECM and fibrotic diseases Aging-related chronic diseases Immune response in metabolic diseases

Research Keywords and Topics • Obesity-related metabolic diseases and cancers • Adipose tissue remodeling • Extracellular matrix protein (ECM) and fibrosis

Awards/Honors/Memberships · 2019 - Present : Women's Bioscience Forum · 2014 - Present : Korean Society of Biochemical and Molecular Biology · 2010 - Present : American Association of Cancer Research · 2010 - Present : American Diabetes Association · 2010 - Present : Korean Society for Molecular and Cellular Biology

Research Publications (selected) • Journal of Clinical Investigation / Adipocyte-derived endotrophin promotes malignant tumor progression / Park J, and Scherer P. E. / 2012 • Proc. Natl. Acad. Sci / The Neuregulin 1-HER Axis as a Key Mediator of Hyperglycemic Memory Effects in Breast Cancer / Park J, Sarode V, Euhus D, Kittler R, and Scherer P.E. / 2012 • Nature Communications / Endotrophin triggers adipose tissue fibrosis and metabolic dysfunction / Park J, Sun K, Gupta O, Holland W.L, Auerbach P.L, Zhang N, Marangoni R.G, Nicoloro S.M, Czech M.P, Varga J, Ploug T, An Z and Scherer P.E. / 2014

Patents (selected) • Endotrophin neutralization and use thereof, USA Patent / Philipp.E. Scherer, Jiyoung Park, Zhiqiang An / 2017-03 • 엔도트로핀 절단 효소의 저해제를 포함하는 엔도트로핀 활성 저해용 조성물 및 이의 용도, 대한민 국 / 박지영, 김민, 이상민, 조우빈 / 2020-02

260

Calcium Dynamics Lab 칼슘다이나믹스

The goal of our research is to understand how calcium signaling is important and diverse. Numerous vital physiological processes such as cell division, proliferation, apoptosis, gene transcription, and immune cell activation are regulated by calcium channels. Consequently, calcium channels are important for many pathological processes and diseases including autism, immune deficiency syndrome, and cardiovascular diseases. We are interested in the dynamic calcium signaling events mediated by voltage-gated calcium channels (VGCCs) and store-operated calcium channels (SOCs). One more thing!

박찬영

_Chan Young Park

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 401-9 Lab : Bldg. 110 Rm. 405 Tel : +82-52-217-2539 E-mail : cypark@unist.ac.kr http://www.chanyounglab.com

Recently, we know and have interested in the role of calcium signaling in (coronavirus) viral immunity. Another goal is to provide effective solutions designed to boost your ability, to ensure you achieve your dreams of success, and to help you be a nice lab citizen.

Curriculum Vitae

Major research field

· 2017 - Present : Associate Professor · 2010 - 2017 : Assistant Professor, School of Life Sciences. UNIST · 2010 - 2011 : Research Associate/Visiting Professor Department of Neurobiology, Stanford, CA, USA / Advisor: Ricardo Dolmetsch · 2004 - 2010 : Postdoctoral Associate Department of Neurobiology, Stanford, CA, USA / Advisor: Ricardo Dolmetsch

칼슘채널, 칼슘신호, 세포분화 (근육, 지방, 혈액), 면역반응 (세포성 및 바이러스감염)

calcium channel mediated signaling, cellular differentiation, coronavirus, innate immune

Research Keywords and Topics • calcium channel signaling • immune system activation • Cell signaling • host cell responses to viral infection (Coronavirus infection) • translational medicine

Research Publications (selected)

Academic Credential

• Proc. Natl Acad Sci USA / Distinct gating mechanism of SOC channel involving STIMOrai coupling and an intramolecular interaction of Orai in Caenorhabditis elegans / Kim KM, Wijerathne T, Hur JH, Kang UJ, Kim IH, Kweon YC, Lee AR, Jeong SJ, Lee SK, Lee YY, Sim BW, Lee JH, Baig C, Kim SU, Chang KT, Lee KP, Park CY / 2018-05 • Science / The CRAC Channel Activator STIM1 Binds and Inhibits L-Type VoltageGated Calcium Channels / 2010-10 • Cell / STIM1 Clusters and Activates CRAC channels via Direct Binding of a Cytosolic Domain to Orai1 / Park CY, Hoover PJ., Mullins F, P. Bachhawat, Covington ED., Raunser S., Walz T., Garcia KC., Dolmetsch RE, and Lewis RS / 2009-03

· 2003 : Ph.D. Gyeongsang Nat'l Univ. · 1999 : MS. Gyeongsang Nat'l Univ. · 1997 : BS. Gyeongsang Nat'l Univ.

· 2009 - 2010 : Robert Smittcamp CVI Postdoctoral fellowship, Stanford · 2008 - 2009 : SPARK Program 2 years research grant, Dean’s grant, Stanford · 2006 - 2009 : Dean’s Fellowship, Stanford · 2005 - 2006 : KOSEF Fellowship, NSF, Korea

College of Information and Biotechnology

261

Department of Biological Sciences

Patents (selected) • CALCIUM SIGNALING MODULATORS INVOLVING STIM AND ORAI PROTEINS (61/155,761) (International Publication Number WO 2010/099401A1) • Organic compounds that inhibit or activate store operated calcium channels (61/459,322) (International Patent Application No. PCT/US2011/064234)

Awards/Honors/Memberships

Morphogenesis lab 발생학연구실

박태주

_Taejoo Park

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 701-4 Lab : Bldg. 110 Rm. 704 Tel : +82-52-217-5324 E-mail : parktj@unist.ac.kr https://sites.google.com/site/unistmorp hogenesis/

We study the mechanisms for shape formation during early development using Xenopus Laevis. Our long term goal is to understand cell biological mechanisms for the morphogenesis in various tissues. To study the mechanisms, we use several imaging techniques and also general cell and molecular biology techniques. 저희 연구실에서는 Xenopus laevis와 마우스 동물모델을 사용하여 발생과정에서 조직의 형태형성 을 조절하는 기작을 연구하고 있습니다. 형태형성에 관련된 세포와 분자수준의 기작을 연구하기 위해 다양한 이미징 기술과 분자, 세포생물 학적 기법을 이용하고 있습니다.

Major research field Curriculum Vitae · 2019 - Present : Associate professor, Ulsan National Institute of Science and Technology (UNIST) · 2011 - 2019 : Assistant professor, Ulsan National Institute of Science and Technology (UNIST) · 2009 - 2011 : Miller Postdoctoral fellow, University of California at Berkeley, PI; Richard Harland · 2008 - 2009 : Postdoctoral fellow, University of Texas at Austin, PI; Dr. Edward Marcotte and Dr. John B. Wallingford

Academic Credential · 2003 - 2008 : PhD, University of Texas at Austin · 1999 - 2001 : MS, Life science, Gwangju Institute of Science and Technology, Gwangju, Korea · 1993 - 1999 : BS, Biology, Kyung Hee University, Seoul, Korea

Developmental Biology, Cartilage development, Cilia formation

Research Keywords and Topics • My lab focuses on studying the molecular and cell biological mechanisms for the morphogenetic processes during early development in vertebrate animals. Morphogenesis (Shape formation) is one of the most intriguing phenomena in living organisms. Every living organisms such as bacteria, algae, plants and animals has their own shapes. In most of cases the shape of individual cells or large tissues are critical for the survival of the organisms. In this sense, it is not surprising that the morphogenetic processes are tightly controlled by complicated signaling and mechanisms. To uncover the molecular and cell biological mechanisms for critical morphogenesis during embryonic development, my lab uses Xenopus laevis and mouse as model systems. • Current research topics include cartilage formation and destruction, developmental and pathological processes of muco-ciliay epithelium.

Research Publications (selected) • SCIENTIFIC REPORTS / Alpha-tocopherol exerts protective function against the mucotoxicity of particulate matter in amphibian and human goblet cells / Yang HS, Sim HJ et al. / 2020-04 • JOURNAL OF PROTEOME RESEARCH / Simple Method To Characterize the Ciliary Proteome of Multiciliated Cells / Sim HJ, Yun S et al. / 2020-01 • SCIENCE TRANSLATIONAL MEDICINE / ITGBL1 modulates integrin activity to promote cartilage formation and protect against arthritis. / Song EK, Jeon J et al. / 2018-10

Patents (selected) • 연골질환 예방 또는 치료용 약학적 조성물 / 송은경, 박태주 / 2020-07 • 면역화학적 분석에서 표적 특이적 신호증폭을 담당하는 범용성 재조합 2차 항체 유사체 / 강세병, 박태주 외 4인 / 2017-08

262

Biochemistry and Molecular Biophysics Lab 생화학 및 분자생물물리 연구실

Biochemistry and Molecular Biophysics Lab (BioCheMP) seeks to elucidate the molecular mechanisms underlying DNA metabolism such as DNA replication, transcription, recombination, DNA repair, and chromatin dynamics using a novel single-molecule imaging technique called as 'DNA curtain’ in addition to biophysicochemical assays. Because DNA contains genetic information, DNA metabolism is the most essential reaction for sustaining life in all kingdoms of life. Among diverse DNA metabolic reactions, the key research topic of my laboratory is DNA damage repair. DNA damage induces modification, loss, or distortion of genetic information and can cause malignant human diseases including cancer. Therefore, studying DNA damage repair is important for understanding the malignant diseases . We are focusing on nucleotide excision repair (NER) and homologous recombination. On the other hand, we are also interested in chromatin dynamics. Human DNA stays as a compact structure called chromatin inside a nucleus. The basic unit of chromatin is a nucleosome, in which DNA wraps around histones. The chromatin has significant influences on DNA metabolism and is dynamically altered by endogenous and environmental factors. We examine the roles and functions of histone chaperones and chromatin remodelers, which contribute to altering chromatin structures. Furthermore, we are investigating how DNA damage repair processes occur in the chromatin context.

_Ja Yil Lee

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 601-6 Lab : Bldg. 110 Rm. 605 Tel : +82-52-217-3069 E-mail : biojayil@unist.ac.kr https://bcmolbp.modoo.at/

Curriculum Vitae · 2020 - Present : Associate Professor in Department of Biological Sciences UNIST (Ulsan National University of Science and Technology), Korea · 2016 - 2020 : Assistant Professor in School of Life Sciences UNIST (Ulsan National University of Science and Technology), Korea · 2008 - 2016 : Associate Research Scientist with Professor Eric C. Greene Columbia University, New York, NY · 2006 - 2008 : Research Professor in Dept. of Physics with Professor SeokCheol Hong Korea University, Seoul, South Korea

Academic Credential

• Single-molecule imaging, DNA metabolism, DNA damage repair, chromatin dynamics

· 2003 - 2006 : Ph.D. in Dept. of Physics (Prof. Dai-Sik Kim), Seoul National University · 1997 - 1999 : M. S. in Dept. of Physics (Prof. Dai-Sik Kim) Seoul National University · 1993 - 1997 : B. S. in Dept. of Physics, Seoul National University

Research Publications (selected)

Awards/Honors/Memberships

• Nucleic Acids Research / TonEBP recognizes R-loops and initiates m6A RNA methylation for R-loop resolution / Kang HJ, Cheon NY, Park H, Jeong GW, Ye BJ, Yoo EJ, Lee JH, Hur JH, Lee EA, Lee K, Choi SY, Lee-Kwon W, Myung K, Lee JY, and Kwon HM / 2021-01 • Nature Communications / Structural basis of nucleosome assembly by the Abo1 AAA+ ATPase histone chaperone / Cho C, Jang JW, Kang Y, Watanabe H, Uchihashi T, Kim SJ, Kato K, Lee JY, and Song J-J / 2019-12 • Nucleic Acids Research / Single-molecule visualization reveals the damage search mechanism for the human NER protein XPC-RAD23B / Cheon NY, Kim HY, Yeo J-E, Scharer OD and Lee JY / 2019-09 • Science / Base triplet stepping during DNA strand exchange by the Rad51/RecA family of recombinases / Lee JY, Tsuyoshi T, Qi Z, Steinfeld JB, Redding S, Kwon YH, Gaines WA, Zhao X, Sung P, and Greene EC / 2015-08

· 2019 - Present : Samsung Science & Technology Foundation Grant (BA190113468) · 2017 - Present : Posco TJ Park Science Fellowship · 2014 : Travel Grant in Korean Society of Molecular Cell Biology · 2013 : KASBP-Yuhan Fellowship Award · 2008 - 2010 : Korean Research Foundation Grant (KRF-2008-357C00048)

Major research field single-molecule imaging, DNA metabolism, DNA damage repair, chromatin dynamics

Desired field of research telomere, live cell imaging

Research Keywords and Topics

College of Information and Biotechnology

263

Department of Biological Sciences

Biochemistry and Molecular Biophysics Lab(BioCheMP)에서는 최신 단분자 이미징 기술인 'DNA 커 튼'과 다양한 생화학 및 생물물리 기법들을 이용하여 DNA 대사과정(복제, 전사, 재조합, 손상 복구, 크로마틴 동역학)의 분자생물학적인 메커니즘을 규명하고 있습니다. DNA는 유전 정보를 포함하고 있으며, DNA 대사과정(DNA metabolism)은 모든 생명현상의 가장 기 본적이며 생명현상 유지에 필수적인 활동입니다. 여러 DNA 대사과정 중에서 우리 연구실에서 중점 적으로 연구하는 분야는 DNA가 손상을 입었을 경우에 이를 원상태로 복구하는 DNA 손상복구에 대 해서 연구를 진행하고 있습니다. DNA의 손상은 유전정보의 변형, 누락, 왜곡을 야기시켜 암을 비롯 한 여러 질병의 원인이 되기 때문에, DNA 손상 복구에 대한 연구는 건강한 삶을 영위하는 데 중요합 니다. 우리 연구실에서는 nucleotide excision repair(NER)과 상동재조합(homologous recombination) 에 대해서 주로 연구를 진행하고 있습니다. DNA 손상 복구와 더불어, 우리 연구실에서는 크로마틴 동역학(dynamics)에 대해서 연구를 진행하고 있습니다. 사람의 DNA는 히스톤이라는 단백질에 감겨 서 nucleosome을 형성하고, 세포핵 내부에서 조밀한 크로마틴 형태로 존재합니다. 이러한 크로마틴 은 DNA의 대사과정에 지대한 영향을 미칩니다. 크로마틴의 구조는 세포 내외적인 요인들에 의해서 변화하게 되는데, 이러한 변화를 야기하는 여러 인자들(히스토 샤페론, 크로마틴 리모델러 등)의 기 능과 역할이 무엇인지 밝히는 연구를 진행하고 있습니다. 나아가 DNA 대사과정들이 어떻게 크로마 틴 구조에서 일어나는가를 연구하고 있습니다.

이자일

Structural Biology and Cellular Biochemistry Lab 단백질 구조 및 세포 생화학 연구실

이창욱

_Changwook Lee

Department of Biological Sciences, Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 501-6 Lab : Bldg. 110 Rm. 502 Tel : +82-52-217-2534 Fax : +82-52-217-3219 E-mail : changwook@unist.ac.kr https://sites.google.com/site/changwo oklab/

Our laboratory focuses on the structural, biochemical and functional basis of proteins involved in cell biology such as protein trafficking, protein turnover, mitochondria dynamics, membrane dynamics and autophagy in eukaryotic cells. In addition, we are interested in elucidating the structure and function of newly discovered cancer-related proteins. We use X-ray crystallography to determine protein structure and use biochemical analysis to elucidate their mechanisms. 본 연구실은 특정 세포 소기관에서 일어나는 생명현상들 (단백질 이동, 소포체 매개 단백질 분해, 미 토콘드리아 다이나믹스, 세포 소기관 로지스틱스, 오토파지)에 대해, 관련된 단백질 복합체의 3차원 구조를 고해상도로 규명하고, 3차원 구조를 바탕으로 항암제, 퇴행성 뇌질환 등 난치성 질병 치료제

Curriculum Vitae · 2018 - Present : Associate Professor, UNIST · 2011 - 2017 : Assistant Professor, UNIST · 2005 - 2010 : Research Associate, Howard Hughes Medical Institute, Structural Biology Program, Memorial Sloan-Kettering Cancer Center, New York, NY, USA

Academic Credential · 2005 : Ph. D. Life Science, POSTECH · 2003 : M. S. Life Science, POSTECH · 2001 : B. S. Life Science, Korea University

Awards/Honors/Memberships · 2018 : Blue Ribbon Lecture, The Korean Society for Molecular and Cellular Biology · 2012 : TJ Park Science Fellowship, POSCO TJ Park Foundation · 2005 : Young Scientist Award from 62nd Korean Society for Biochemistry and Molecular Biology (KSBMB) · 2005 : Best Thesis Award from POSTECH, Life Science · 2004 : Young Scientist Fellowship from 10th International Conference on the Crystallization of Biological Macromolecules (ICCBM) · 2003 : Best Thesis Award from POSTECH, Life Science · Member of Korean Society for Biochemistry and Molecular Biology · Member of Korean Society for Molecular and Cellular Biology

264

개발에 초점을 두고 있다.

Major research field Cell biology, Structural biology, Protein biochemistry, Membrane biology, Cancer biology 세포생물학, 구조생물학, 단백질 생화학, 막 생물학, 암생물학

Desired field of research Cryo-EM, Membrane dynamics, Membrane proteins, 초저온 전자현미경, 세포막 다이나믹스, 세포막 단백질, 단백질 구조 및 기능

Research Keywords and Topics • Autophagy, Mitochondrial dynamics, Membrane dynamics, Organelle contact sites 오토파지, 세포 소기관 막접촉점, 미토콘드리아 다이나믹스, 단백질 기능 제어, 항암제 개발, 바이 러스 치료제 개발

Research Publications (selected) • AUTOPHAGY / Quaternary structures of Vac8 differentially regulate the Cvt and PMN pathways. / Park, Jumi; Kim, Hye-In; Jeong, Hanbin; Lee, Miriam; Jang, Se Hwan; Yoon, So Young; Kim, Hyejin; Park, Zee-Yong; Jun, Youngsoo; Lee, Changwook / 2020-06 • NUCLEIC ACIDS RESEARCH / The structure of human EXD2 reveals a chimeric 3′ to 5′ exonuclease domain that discriminates substrates via metal coordination / Park, Jumi; Lee, Song-Yi; Jeong, Hanbin; Kang, Myeong-Gyun; Haute, Lindsey Van; Minczuk, Michal; Seo, Jeong Kon; Jun, Youngsoo; Myung, Kyungjae; Rhee, Hyun-Woo; Lee, Changwook / 2019-07 • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Crystal structures of Mmm1 and Mdm12-Mmm1 reveal mechanistic insight into phospholipid trafficking at ER-mitochondria contact sites / Jeong, Hanbin; Park, Jumi; Jun, Youngsoo; Lee, Changwook / 2017-11 • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Mechanistic insight into the nucleus-vacuole junction based on the Vac8p-Nvj1p crystal structure / Jeong, Hanbin; Park, Jumi; Kim, Hye-In; Lee, Miriam; Ko, Young-Joon; Lee, Sanghwa; Jun, Youngsoo; Lee, Changwook / 2017-06 • EMBO REPORTS / Crystal structure of Mdm12 reveals the architecture and dynamic organization of the ERMES complex / Jeong, Hanbin; Park, Jumi; Lee, Changwook / 2016-12 • JOURNAL OF THE AMERICAN CHEMICAL SOCIETY / Development of a MitochondriaTargeted Hsp90 Inhibitor Based on the Crystal Structures of Human TRAP1 / Lee, Changwook; Park, Hye-Kyung; Jeong, Hanbin; Lim, Jaehwa; Lee, An-Jung; Cheon, Keun Young; Kim, Chul-Su; Thomas, Ajesh P.; Bae, Boram; Kim, Nam Doo; Kim, Seong Heon; Suh, Pann-Ghill; Ryu, Ja-Hyoung; Kang, Byoung Heon / 2015-04

Neurogenetics and Ribonomics Laboratory 신경유전학 및 리보노믹스 실험실

임정훈

Research Interests • Decoding Non-canonical Translation Gene expression is central to all facets of physiology, and its mechanistic basis had long been studied in the context of the classical paradigm of transcription and translation. However, recent advances in RNA biology have revealed the robustness of “non-canonical” translation mechanisms that occur at distinct post-transcriptional steps. We aim to address: 1) how ribosomal machinery and translation factors “read” the code on mRNA molecules for non-canonical translation, and 2) why animals have evolved such unusual translation mechanisms. We employ molecular, genetic, genomics, and biochemical strategies to answer these fundamental questions to discover novel molecular principles underlying non-canonical translation and its physiological significance. • Molecular Mechanisms Underlying Neurodegenerative Diseases We have previously demonstrated that an RNA-binding protein ATAXIN-2 forms two functionally distinct protein complexes with LSM12 and ME31B/DDX6 to sustain circadian period and amplitude, respectively, in animal behaviors. Given the established roles of ATAXIN-2 and other RNA-binding proteins in neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS, also known as Lou Gehrig’s disease), we now expand our working model to degeneration in iPSC (induced pluripotent stem cells)-derived motor neurons from ALS patients to elucidate how genetic mutations in RNA-binding proteins and regulatory RNAs cause aging and neurodegeneration. Our studies will help develop a novel therapeutic strategy to efficiently treat those RNA-relevant neurological disorders. • Neural and Genetic Bases of Sleep Behaviors and Sleep-relevant Physiology Sleep is essential physiology and well-conserved among animal species. However, molecular and neural mechanisms underlying sleep behaviors remain elusive. We exploit Drosophila as our model system to understand 1) how our genes and neurons are functionally organized into sleep-regulatory pathways to support sleep homeostasis; 2) how the sleep-regulatory pathways interact with the environment to adaptively adjust sleep behaviors, thereby manifesting sleep plasticity; and 3) how a lack of sleep could affect higher-order brain function and metabolism. Our studies will provide the neuro-genetic landscape of sleep regulation in Drosophila, hinting at the fundamental principles of how the human brain controls sleep along with other sleep-relevant physiology.

Curriculum Vitae · 2018 - Present : Associate Professor, Department of Biological Sciences, UNIST · 2013 - 2018 : Assistant Professor, School of Life Sciences, UNIST · 2007 - 2013 : Postdoctoral Fellow, Department of Neurobiology, Northwestern University (Advisor : Dr. Ravi Allada) · 2004 - 2007 : Postdoctoral Fellow, Department of Biological Sciences, KAIST (Advisor : Dr. Joonho Choe)

Academic Credential · 2001 - 2004 : Ph. D., Department of Biological Sciences, KAIST · 1999 - 2001 : M.S., Department of Biological Sciences, KAIST · 1995 - 1999 : B.S., Department of Biological Sciences, KAIST

Awards/Honors

Research Publications (selected) • PLOS Biology / LSM12-EPAC1 defines a neuroprotective pathway that sustains the nucleocytoplasmic RAN gradient. / Lee, J., Park, J., Kim, J.-H., Lee, G., Park, T.-E., Yoon, K.-J., Kim, Y.K., and Lim, C. / 2020-12 • Science Advances / A sleep-like state in Hydra unravels conserved sleep mechanisms during the evolutionary development of the central nervous system. / Kanaya, H.J., Park, S.*, Kim, J.-H.*, Kusumi, J., Krenenou, S., Sawatari, E., Sato, A., Lee, J., Bang, H., Kobayakawa, Y., Lim, C.**, and Itoh, T.Q.** / 2020-10 (*co-second authors; **cocorresponding authors) • eLife / Sleep-promoting effects of threonine link amino acid metabolism in Drosophila neuron to GABAergic control of sleep drive / Ki, Y. and Lim, C. / 2019-07 • PNAS / Serine metabolism in the brain regulates starvation-induced sleep suppression in Drosophila melanogaster / Sonn, J.Y.*, Lee, J.*, Sung, M.K., Ri, H., Choi, J.K., Lim, C.**, and Choe, J.** / 2018-07 (*co-first authors; **co-corresponding authors) • Molecular Cell / LSM12 and ME31B/DDX6 define distinct modes of post-transcriptional regulation by the ATAXIN-2 protein complex in Drosophila circadian pacemaker neurons / Lee, J.*, Yoo, E.*, Lee, H.*, Park, K., Hur, J.-H., and Lim, C. / 2017-04 (*cofirst authors)

· 2017 : Young Investigator, Suh Kyungbae Foundation · 2014 : TJ Park Science Fellowship, POSCO TJ Park Foundation · 2008 : FRAXA Award, FRAXA Research Foundation · 2004 : Excellent Thesis Award, Korean Society for Molecular and Cellular Biology · 2004 : Valedictorian, KAIST

Memberships · Editorial Board, Scientific Reports · Editorial Board, Frontiers in Molecular Neuroscience · Editorial Board, Molecules and Cells

College of Information and Biotechnology

265

Department of Biological Sciences

Research Keywords and Topics • Ribosome Biology, Translation, Neurodegeneration, Behavioral Genetics

_Chunghun Lim

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 501-8 Lab : Bldg. 110 Rm. 505 Tel : +82-52-217-2554 E-mail : clim@unist.ac.kr https://sites.google.com/view/thelimlab/

Cancer Translational Research Lab 암 중개 연구실

채영찬

_Youngchan Chae

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 401-5 Lab : Bldg. 110 Rm. 408 Tel : +82-52-217-2524 E-mail : ychae@unist.ac.kr https://chaelab.unist.ac.kr/

Curriculum Vitae · 2017 - Present : 조교수, 울산과학기술원 · 2010 - 2016 : Associate Staff Scientist, The Wistar Institute, USA · 2006 - 2010 : Senior Researcher, POSTECH Biotech Center

Academic Credential · 2006 : Ph.D, Dept of Life Science, POSTECH; Advisor Sung Ho Ryu · 2001 : B.S, Dept of Life Science, POSTECH

Genetic mutations and growth signals in cancer microenvironments can dynamically alter metabolic pathways. This results in increased biosynthesis and abnormal bioenergetics which in turn promote cell proliferation, metastasis and survival and immune destruction avoidance. Furthermore, metabolic remodeling regulates tumor epigenetic alterations by regulating the activity of epigenetic modification enzymes and gene expression in cancer. Therefore, targeting of cancer metabolism may provide new effective therapies to treat cancer. To investigate role of metabolism of cancer we mainly focus on mechanism of metabolic reprograming of cancer especially in hypoxic environmental stress, oncogenic growth signaling and cancer stem cells. 본 연구실은 암 주변 미세환경(Tumor Microenvironment)으로부터 필연적으로 발생하는 여러 세포 대사 스트레스를 극복하기 위한 암세포의 스트레스 반응(Stress Response) 중 하나인 암세포 에너지 대사 조절(cancer Metabolic Rewiring)이 암의 발생 및 성장, 전이, 항암내성 등 악성화로 진행되는 과 정에 미치는 영향과 그 기전에 대한 연구를 통해 암을 효과적으로 제어할 수 있는 방법을 개발하고 있다. 이를 위해 전통적인 분자세포생물학적 접근법과 단백질체 및 대사체 연구 등 시스템적인 접근 법을 종합적으로 사용하는 연구를 통해 궁극적으로 암의 진단 및 치료제 개발을 위해 활용 가능한 translational Research 연구를 수행하는 것을 목표로 하고 있다.

Major research field

Desired field of research

Cancer Metabolism, Stress Response of Cancer, Mitochondria of Cancer

Molecular Mechanisms of Cancer Initiation, Progression and Therapy, Mechanism of tumor therapeutic resistance

Research Keywords and Topics • Role of Metabolic reprogramming mechanism in Cancer and Cancer Stem Cells 항암제 개발을 위한 암세포 특이적 에너지 대사 신호 발굴

• Role of Mitochondrial dynamics changes in cancer progression 암의 성장 및 전이 항암내성 과정에서 종양미세환경 스트레스와 암세포 대사 재프로그래밍 (Metabolic Reprogramming under Stress Condition in Cancer Cell)의 역할에 대한 연구

• Mechanism of tumor therapeutics resistance 미토콘드리아 항상성 조절을 통한 암세포의 Necrotic cell death의 유도

Research Publications (selected) • CANCER LETTERS / Androgen-induced expression of DRP1 regulates mitochondrial metabolic reprogramming in prostate cancer / Lee, Yu Geon; Nam, Yeji; Shin, Kyeong Jin; Yoon, Sora; Park, Weon Seo; Joung, Jae Young; Seo, Jeong Kon; Jang, Jinho; Lee, Semin; Nam, Dougu; Caino, M. Cecilia; Suh, Pann-Ghill; Chae, Young Chan / 2020-02 • EBIOMEDICINE / Mitochondrial fission factor is a novel Myc-dependent regulator of mitochondrial permeability in cancer / Seo, Jae Ho; Agarwal, Ekta; Chae, Young Chan; Lee, Yu Geon; Garlick, David S.; Storaci, Alessandra Maria; Ferrero, Stefano; Gaudioso, Gabriella; Gianelli, Umberto; Vaira, Valentina; Altieri, Dario C. / 2019-10 • CANCER CELL / Mitochondrial Akt Regulation of Hypoxic Tumor Reprogramming / Chae, Young Chan; Vaira, Valentina; Caino, M. Cecilia; Tang, Hsin-Yao; Seo, Jae Ho; Kossenkov, Andrew V.; Ottobrini, Luisa; Martelli, Cristina; Lucignani, Giovanni; Bertolini, Irene; Locatelli, Marco; Bryant, Kelly G.; Ghosh, Jagadish C.; Lisanti, Sofia; Ku, Bonsu; Bosari, Silvano; Languino, Lucia R.; Speicher, David W.; Altieri, Dario C. / 2016-08

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Lab of Diabetes and Metabolism 당뇨 및 대사질환 연구실

최장현

Our lab is interested in understanding the molecular pathways that link adipose tissue biology to this staggering array of pathologies such as diabetes and metabolic diseases. These studies can be the scientific basis for developing novel anti-diabetic agents. Followings are our main research topics :

_Jang Hyun Choi

Department of Biological Sciences Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 110 Rm. 501-4 Lab : Bldg. 110 Rm. 508 Tel : +82-52-217-2543 E-mail : janghchoi@unist.ac.kr https://ldmunist.wixsite.com/choilab

1. Molecular mechanism of regulating systemic glucose and lipid metabolism 2. Regulation of cancer development 3. Development of novel therapeutics for metabolic diseases

Major research field Obesity, Diabetes, Metabolic Diseases, Inflammation, Non-Alcoholic Fatty Liver Disease (NAFLD)

Curriculum Vitae

Desired field of research Metabolic Diseases, Aging, Cancer Metabolism, DNA Damage Response (DDR)

Research Keywords and Topics • Understanding of molecular mechanisms of regulating glucose/lipid metabolism & development of novel therapeutics for metabolic diseases 당/지질 대사 조절 핵심 기전 규명 및 새로운 대사질환 치료제 개발

• Development of novel anti-obesity drugs via browning of white adipocytes 백색지방의 갈색지방화를 활성화를 이용한 항비만 약물 개발

• Understanding the molecular mechanisms of cancer progression & development of novel anti-cancer drugs 암 생성, 활성 조절 분자 기전 연구 및 새로운 혁신 항암제 개발

· 2016 - Present : Associate Professor, Ulsan National Institute of Science and Technology, School of Life Sciences, Korea · 2012 - 2016 : Assistant Professor, Ulsan National Institute of Science and Technology, School of Life Sciences, Korea · 2007 - 2012 : Post-Doctoral Fellow & Research Fellow, Department of Cell Biology, Dana-Farber Cancer Institute, Harvard Medical School, USA · 2004 - 2007 : Post-Doctoral Fellow, POSTECH Biotech Center, POSTECH, Korea

Academic Credential

• Cells / PPM1A controls diabetic gene programming through directly dephosphorylating PPARy at Ser273 / Khim, K. W. et al. / 2020 • FASEB Journal / Glucosylceramide synthase is a molecular switch of adipo-osteogenic balance through synergistic activation of PPARγ with GlcCer / Jang, H. J. et al. / 2020 • Diabetes / PPARγ antagonist Gleevec improves insulin sensitivity and promotes the browning of white adipose tissue / Choi, S. et al. / 2016 • Genes & Development / Thrap3 docks on phosphoserine 273 of PPARγ and controls diabetic gene programming / Choi, J. H., et al. / 2014 • Nature / Anti-diabetic actions of a non-agonist PPARy ligand blocking Cdk5-mediated phosphorylation / Choi, J. H. et al. / 2011 • Nature / Anti-diabetic drugs inhibit obesity-linked phosphorylation of PPARγ by cdk5 / Choi, J. H., et. al. / 2010

· 2001 - 2004 : Ph.D. Department of Life Science, POSTECH, Korea · 1999 - 2001 : M.S. Department of Life Sciences, POSTECH, Korea · 1995 - 1999 : B.S. Department of Life Sciences, POSTECH, Korea

Patents (selected) • Compositions, Kits, and Methods for Identification, Assessment, Prevention, and Therapy of Metabolic Disorders. PCT/US2011/021855 / Choi, J. H. • Composition for degrading PPAR gamma comprising TRIM25 an active ingredient. 10-2072075 / Choi, J. H. & Choi, S.

Awards/Honors/Memberships · 2018 : Rising-star Distinguished Professor @ UNIST · 2016 : Rising Scientists for 21th Century (Dona-A Ilbo & POSTECH) · 2012 : TJ Park POSCO Chung-Am Fellowship · 2012 : Excellence Young Investigator Fellowship from NRF · 2008 : American Diabetes Association Fellowship · 2006 : Best Research Award from Korean Society of Cell Biology · 2004 : Best Paper Award from Korean Society for Molecular and Cellular Biology · 2003 : Best Research Award from Scientific Meeting of the Cell Biology

College of Information and Biotechnology

267

Department of Biological Sciences

Research Publications (selected)

graduate School of artificial Intelligence 인공지능대학원

Machine Learning and Vision Lab 머신러닝 및 비전 연구실

Our goal is to advance the understanding of how we can explore, make sense of, and interact with data. We contribute to this endeavor by exploiting and developing new techniques in machine learning, computer vision, and computer graphics. 유니스트 머신러닝 및 비전 연구실에서는 사람이 쉽게 데이터를 분석하고 데이터와 상호작용하는 다양한 가능성에 대해 연구하며, 이를 위해 새로운 기계학습 기법을 개발하고, 이를 영상과 비디오 등 시각적 자료의 처리와 이해에 용용하고 있습니다.

김광인

_Kwang In Kim

Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-10 Lab : Bldg. 106 Rm. 710-2 Tel : +82-52-217-2149 E-mail : kimki@unist.ac.kr https://sites.google.com/view/mlvlab

Curriculum Vitae · 2019 - Present : Associate Professor, UNIST · 2016 - 2019 : Senior Lecturer (Associate Professor), CS Dept, University of Bath · 2013 - 2016 : Lecturer (Assistant Professor), School of Computing and Communications, Lancaster University · 2010 - 2013 : Post-doc, GVV Group and Computer Graphics Department, Max Planck Institute for Informatics · 2008 - 2009 : Post-doc, Machine Learning Group, Saarland University · 2002 - 2004, 2005 - 2008 : Post-doc, Empirical Inference Department, Max Planck Institute for Biological Cybernetics

Major research field machine learning, computer vision, multi-task learning, semi-supervised learning, 3D understanding

Research Keywords and Topics • Machine learning; deep learning; computer vision; 3D vision

Research Publications (selected)

Academic Credential · 2000 : PhD, Computer Engineering, Kyungpook National University

College of Information and Biotechnology

Graduate School of Artificial Intelligence

• ECCV / Combining task predictors via enhancing joint predictability / K. I. Kim, C. Richardt, and H. J. Chang / 2020 • ECCV / Look here! A parametric learning based approach to redirect visual attention / Y. A. Mejjati, C. F. Gomes, K. I. Kim, E. Shechtman, and Z. Bylinskii / 2020 • CVPR / RGBD-Dog: Predicting canine pose from RGBD sensors / S. Kearney, W. Li, M. Parsons, K. I. Kim, and D. Cosker/ 2020 • CVPR / On implicit filter level sparsity in convolutional neural networks / D. Mehta, K. I. Kim, and C. Theobalt / 2019 • CVPR / Joint manifold diffusion for combining predictions on decoupled observations, K. I. Kim, and H. J. Chang / 2019 • NeurIPS / Unsupervised attention-guided image-to-image translation / Y. A. Mejjati, C. Richardt, J. Tompkin, D. Cosker, and K. I. Kim / 2018 • ECCV / Improving shape deformation in unsupervised image-to-image translation / A. Gokaslan, V. Ramanujan, D. Ritchie, K. I. Kim, and J. Tompkin / 2018 • CVPR / High-order tensor regularization with application to attribute ranking / K. I. Kim, J. Park, and J. Tompkin / 2018 • CVPR / Multi-task learning by maximizing statistical dependence / Y. A. Mejjati, D. Cosker, and K. I. Kim / 2018

269

NECSST(Next-generation Embedded/ Computer System Software Technology) Lab 차세대 임베디드 컴퓨터 시스템 소프트웨어 연구실

노삼혁

_Sam H. Noh

Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology, UNIST Department of computer Seience & Engineering, UNIST Office : Bldg. 106 Rm. 601-4 Lab : Bldg. 106 Rm. 605-1 Tel : +82-52-217-2166 E-mail : samhnoh@unist.ac.kr http://next.unist.ac.kr/

The NECSST (Next-generation Embedded/Computer System Software Technology) Lab has been conducting research on flash memory since the year 2000 and research on non-volatile memory (aka NVRAM, NVM, Persistent Memory, (PM), Storage Class Memory (SCM), etc.) since the year 2004. Our research has been supported by NRF (the NFS equivalent of Korea), the Ministry of Science and ICT, and Samsung Electronics, among others. Our current focus of research is as follows: • Operating system redesign for non-volatile memory deployed systems • Systems Support for big data and deep learning • Operating system issues related to flash memory & Solid State Drives (SSDs) • Efficient file system design and implementation for SSDs • Efficient FTL design and implementation for Flash memory • QoS issues for flash memory and SSDs 초대량의 데이터를 다루는 빅데이터와 딥러닝 응용에서 컴퓨팅 시스템의 효율성은 더욱 중요해지

Curriculum Vitae · 2015 - Present : Full Professor, Department of Computer Science and Engineering, UNIST · 2020 : Head, Artificial Intelligence Graduate School, UNIST · 2016 - 2018 : Dean of the School of ECE, UNIST · 2006 - 2015 : Full Professor, Hongik University · 2001 - 2002 : Visiting Associate Professor, University of Maryland, College Park, UMIACS · 1994 - 2006 : Associate Professor, Hongik University · 1993 - 1994 : Visiting Assistant Professor, George Washington University

Academic Credential · 1993 : PhD, University of Maryland, College Park, Maryland (Computer Science) · 1986 : B.E, Seoul National University, Seoul, Korea (College of Engineering)

Awards/Honors/Memberships · ACM Fellow/Distinguished Member · IEEE Senior Member · Editor-in-Chief, ACM Transactions on Storage · 2020 : USENIX FAST Program CoChair · 2018 : IEEE NVMSA, Best Paper award · 2013 : USENIX FAST, Best Paper award

고 있다. 본 연구실은 플래시 메모리와 비휘발성메모리와 같은 차세대메모리를 통해 시스템의 효율 을 극대화하는 연구를 수행하고 있다.

Major research field Operating system, flash memory, SSD, persistent memory, Systems for big data and deep learning

Research Keywords and Topics • system software, operating system, file system, storage

Research Publications (selected) • USENIX Annual Technical Conference (ATC ’20) / HetPipe: Enabling Large DNN Training on (Whimpy) Heterogeneous GPU Clusters through Integration of Pipelined Model Parallelism and Data Parallelism • IEEE International Conference on Data Engineering (ICDE 2020) / Doubleheader Logging: Eliminating Journal Write Overhead for Mobile DBMS • USENIX Conference on File and Storage Technologies (FAST 2020) / Write-Optimized Dynamic Hashing for Persistent Memory • USENIX Conference on File and Storage Technologies (FAST 2020) / SLM-DB : Single - Level Key-Value Store with Persistent Memory • USENIX Annual Technical Conference (ATC ’19) / Alleviating Garbage Collection Interference Through Spatial Separation in All Flash Arrays • USENIX Annual Technical Conference (ATC ’19) / Pre-Select Static Caching and Neighborhood Ordering for BFS-like Algorithms on Disk-based Graph Engines

Patents (selected) • Apparatus and method of managing multi solid state disk system / 노삼혁, 김병석, 김재호, 임광현 / 2019-12

• 비휘발성 메모리를 위한 단일 레벨 키-벨류 스토어 / 노삼혁, 최영리, Olzhas Kaiyrakhmet, 이송이 / 2019-11

• 뉴메모리 기반 메모리 관리 방법 및 이를 수행하는 장치들 (METHOD OF MANAGING MEMORY BASED ON NEW MEMORY, AND APPARATUSES PERFORMING THE SAME) / 노삼혁, 송현호 / 2019-06 • 전자 장치 및 제어 방법 (Electronic device and controlling method thereof) / 노삼혁, 박재형, 김정 현, 문영제, 송현섭 / 2019-04

270

UNIST VISION AND LEARNING LAB 유니스트 시각처리 및 학습 연구실

The mission of our lab is to develop the cutting-edge computer vision and machine (deep) learning algorithms. In particular, our lab is focusing on the various computer vision applications including 3D pose estimation and action/gesture recognition of human bodies, faces and hands, 3D reconstruction of objects and scenes, scene and object recognition. We are also concerning about the insufficient data issues in computer vision problem and try to solve it via synthesizing realistic data using GAN, self-supervision, weakly supervised learning, active learning, domain adaptation methods. 본 연구실은 최첨단 컴퓨터 비전 및 머신러닝 (딥러닝) 기반 알고리즘 개발을 목표로 하고 있습니다. 특별히 우리 연구실의 관심사는 컴퓨터 비젼 응용분야에 초점이 맞추어져 있고, 사람 몸, 얼굴, 손에

백승렬

_Seungryul Baek

Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-9 Lab : Bldg. 106 Rm. 407-2 Tel : +82-52-217-2205 E-mail : srbaek@unist.ac.kr https://sites.google.com/site/bsrvision00/ http://vision.unist.ac.kr

대한 행동 및 자세 인식, 물체와 전경에 대한 3차원 복원 및 인식에 관한 연구를 하고 있습니다. 우리 는 또한 컴퓨터 비전 문제에서의 데이터 부족 문제에 대해 고민하고 있으며, GAN을 활용한 실제와 비슷한 데이터 합성, 자가 지도, 약한 지도학습, 능동 학습, 도메인 전이 등의 기법을 통한 문제 해결 을 위해 노력하고 있습니다.

Curriculum Vitae · 2020 - Present : Assistant Professor, AIGS & Dept. of CS, UNIST, South Korea · 2019 - 2020 : Post-doctoral Research Assistant, University of Oxford, UK. · 2019 - 2019 : Student Internship, INRIA Sophia Antipolis, France · 2011 - 2015 : Computer Vision Engineer, Samsung Electronics, DMC Research, Suwon, South Korea

Major research field Computer Vision and Machine (Deep) Learning

Desired field of research

Academic Credential

3D Pose estimation and action/gesture recognition, 3D scene and object reconstruction and recognition

Research Keywords and Topics • Computer Vision • Deep/Machine Learning • Pose Estimation of Human Body, Face and Hand • Action and Gesture Recognition • Semantic Segmentation • Object Recognition

Awards/Honors/Memberships

Research Publications (selected) • Proc. of IEEE Conf. on Computer Vision and Pattern Recognition (CVPR), Seattle, WA, USA (Oral presentation, 5.7% Accept ratio) / Weakly-supervised Domain Adaptation via GAN and Mesh Model for Estimating 3D Hand Poses Interacting Objects / Seungryul Baek, Kwang In Kim, Tae-Kyun Kim / 2020 • Proc. of IEEE Conf. on Computer Vision and Pattern Recognition (CVPR), Long Beach, CA, USA / Pushing the envelope for RGB-based dense 3D hand pose estimation via neural rendering / Seungryul Baek, Kwang In Kim, Tae-Kyun Kim / 2019 • Proc. of IEEE Conf. on Computer Vision and Pattern Recognition (CVPR), Salt Lake City, Utah, USA (Oral presentation, 2.1% Accept ratio) / Augmented skeleton space transfer for depth-based hand pose estimation / Seungryul Baek, Kwang In Kim, TaeKyun Kim / 2018

· 2020 : CVPR 2020 Best Paper Award Nominee · 2018 : Europe Finalist at Qualcomm Innovation Fellowship · 2013 : Silver prize at Samsung Best Paper Awards

College of Information and Biotechnology

271

Graduate School of Artificial Intelligence

· 2020 : Ph.D. at Dept. of Electrical and Electronic Engineering, Imperial College London, London, UK · 2011 : M.S. at Dept. of Electrical Engineering, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, South Korea · 2009 : B.S. at Dept. of Electrical Engineering, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, South Korea

Intelligent System Software Lab 지능형 시스템 소프트웨어 연구실

백웅기

_Woongki Baek

Department of Computer Science and Engineering Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-8 Lab : Bldg. 106 Rm. 605-2 Tel : +82-52-217-2143 E-mail : wbaek@unist.ac.kr

Curriculum Vitae · 2020 - Present : Head, Department of Computer Science and Engineering · 2017 - Present : Associate Professor, Department of Computer Science and Engineering and Graduate School of Artificial Intelligence, UNIST, Ulsan, Republic of Korea · 2013 - 2017 : Assistant Professor, Department of Computer Science and Engineering, UNIST, Ulsan, Republic of Korea · 2012 - 2013 : Senior Researcher, Electronics and Telecommunications Research Institute (ETRI), Daejeon, Republic of Korea · 2011 - 2012 : Platform Software Engineer, Microsoft Corporation, Redmond, WA, US

Academic Credential · 2011 : Ph.D. in EE, Stanford University · 2005 : M.S. in EECS, Seoul National University · 2003 : B.S. in MSE and EE, Seoul National University

Awards/Honors/Memberships · 2020 : Most Influential PLDI Paper Award · Program committee member for premier computer systems conferences including PACT ’21, FAST ’21, PACT ’20, CCGrid ’20, and DATE ’20 · 2018 : Best Paper Finalist at CCGrid · Stanford Graduate Fellowship · Samsung Scholarship (formerly known as the Samsung Lee Kun Hee Scholarship Foundation (SLSF))

272

Intelligent System Software Lab (ISSL) investigates innovative system software techniques that significantly improve the performance, efficiency, security, and reliability of computer systems. ISSL takes a vertically integrated research approach to maximize the synergistic effects across the entire computer system hierarchy including computer architecture, system software, runtimes, and applications. Currently, ISSL focuses on the following research projects - (1) system software for high-performance and efficient machine learning, (2) machine learning-augmented system software, (3) scalable and efficient parallel and distributed computing, and (4) computer systems security. 지능형 시스템 소프트웨어 연구실은 컴퓨터 시스템의 성능, 효율성, 보안성, 신뢰성을 획기적으로 향 상시키는 혁신적인 시스템 소프트웨어 기법들에 대해서 연구한다. 본 연구실은 컴퓨터 아키텍처, 시 스템 소프트웨어, 런타임 시스템, 응용에 걸친 시스템 전체 계층에 대한 수직적이고 통합적인 최적화 연구를 지향한다. 본 연구실은 현재 (1) 고성능, 효율형 기계학습을 위한 시스템 소프트웨어, (2) 기계 학습 기반 시스템 소프트웨어 최적화, (3) 고확장, 고효율 병렬 및 분산 컴퓨팅, (4) 시스템 보안 등에 대한 연구를 활발히 수행하고 있다.

Major research field System software for machine learning, ML-augmented system software, scalable parallel and distributed computing, computer systems security

Research Keywords and Topics • System Software for High-Performance and Efficient Machine Learning - Characterizing and optimizing the machine-learning frameworks using highperformance accelerators - Resource management for large-scale distributed systems for high-performance machine learning • Machine Learning-Augmented System Software - Improving the efficiency of parallel and distributed task schedulers and resource managers using machine learning - Machine learning-augmented dynamic data placement and migration techniques

Research Publications (selected) • IEEE Transactions on Computers (TC) / Hotness- and Lifetime-Aware Data Placement and Migration for High-Performance Deep Learning on Heterogeneous Memory Systems / Myeonggyun Han, Jihoon Hyun, Seongbeom Park, and Woongki Baek / 2020 • the 28th International Conference on Parallel Architectures and Compilation Techniques (PACT) / MOSAIC: Heterogeneity-, Communication-, and Constraint-Aware Model Slicing and Execution for Accurate and Efficient Inference / Myeonggyun Han, Jihoon Hyun, Seongbeom Park, Jinsu Park, and Woongki Baek / 2019-09 • the 14th European Conference on Computer Systems (EuroSys) / CoPart: Coordinated Partitioning of Last-Level Cache and Memory Bandwidth for Fairness-Aware Workload Consolidation on Commodity Servers / Jinsu Park, Seongbeom Park, and Woongki Baek / 2019-03

Visual Information Processing Lab 시각정보처리 연구실

Visual Information Processing (VIP) Lab. is carrying out research on Computer Vision, Image Processing, and Machine Learning, based on the academic background of Electrical Engineering, Computer Science, Mathematics, and Artificial Intelligence. Specific research topics of VIP Lab. are image/video restoration and enhancement, large-scale 3D visual data processing, object detection and recognition, image stitching, and multimedia data compression. Applications of research include smart vehicles, mixed reality, robot vision, and visual intelligence systems. 시각정보처리 연구실은 전기전자공학, 컴퓨터과학, 수학, 인공지능 분야의 지식을 바탕으로 컴퓨터 비전, 영상처리, 기계학습 분야를 연구한다. 주요 연구 주제로는 영상 복원 및 개선, 대용량 3차원 영

심재영

_Jae-Young Sim

Graduate School of Artificial Intelligence Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-2 Lab : Bldg. 106 Rm. 509-2 Tel : +82-52-217-2117 E-mail : jysim@unist.ac.kr https://vip.unist.ac.kr

상처리, 물체 검출 및 인식, 영상 합성, 멀티미디어 데이터 압축 등이 있다. 본 연구를 통하여 개발하 는 기술은 스마트 자동차, 혼합 현실, 로봇 비전, 시각 지능 시스템 등 다양한 분야에서 활용 가능하다.

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2020 - 2021 : Visiting Researcher, Univ. of California San Diego, USA · 2018 - 2019 : Acting School Head of Electrical and Computer Eng., UNIST · 2016 - 2019 : Chair of Electrical Eng. track, UNIST · 2013 - 2020 : Associate Professor, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2005 - 2009 : Research Staff Member, Samsung Advanced Institute of Technology, Samsung Electronics Co.

Major research field Computer Vision, Image Processing, 3D Visual Processing, Machine Learning, Artificial Intelligence

Research Keywords and Topics • Image restoration, image enhancement, 3D point cloud, object detection, person search, saliency detection, multi-view image stitching, deep learning 영상 복원, 영상 개선, 3차원 포인트 클라우드, 객체 검출, 사람 검색, 중요도 검출, 다시점 영상 합 성, 딥러닝

Research Publications(selected)

· 2005 : Ph.D. Electrical Engineering & Computer Science, Seoul National University · 2001 : M. S. Electrical Engineering & Computer Science, Seoul National University · 1999 : B. S. Electrical Engineering, Seoul National University

Awards/Honors/Memberships · 2018 : Education Model Research Award, UNIST · 2017 : Best Paper Award, IPIU · 2014 : Best Poster Award, IPIU · 2003 : Humantech Paper Award, Samsung Electronics Co. · 2005 - Present : Member of IEEE

Patents(selected) • Apparatus for removing reflection image and operation method of the apparatus / 심 재영, 윤재성 / 2019-11 • Apparatus and method for image processing / 심재영, 한병주 / 2019-09

College of Information and Biotechnology

273

Graduate School of Artificial Intelligence

• Jae-Seong Yun and Jae-Young Sim, “Virtual point removal for large-scale 3D point clouds with multiple glass planes,” IEEE Trans. Pattern Analysis and Machine Intelligence / 2021-02 • Eunpil Park and Jae-Young Sim, “Underwater image restoration using geodesic color distance and complete image formation model,” IEEE Acess, Aug. 2020. • Byeong-Ju Han and Jae-Young Sim, “Glass reflection removal using co-saliency based image alignment and low-rank matrix completion in gradient domain,” IEEE Trans. Image Processing / 2018-08 • Se-Won Jeong and Jae-Young Sim, “Saliency detection for 3D surface geometry using semi-regular meshes,” IEEE Trans. Multimedia, Dec. / 2017-12

Academic Credential

Machine Intelligence and Information Learning Lab 기계지능 및 정보학습 연구실

윤성환

_Sung Whan Yoon

Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-2 Lab : Bldg. 106 Rm. 409-1 Tel : +82-52-217-2204 E-mail : shyoon8@unist.ac.kr https://sites.google.com/view/swyoon89

Curriculum Vitae · I am currently an assistant professor of Graduate School of AI & Department of Electrical Engineering at Ulsan National Institute of Science and Technology (UNIST) from Mar. 2020. I received my Ph.D. from School of Electrical Engineering at Korea Advanced Institute of Science and Technology (KAIST), in Aug. 2017, under supervision by Prof. Jaekyun Moon. Before joining UNIST, I was a postdoctoral researcher at KAIST from Sep. 2017 to Mar. 2020.

Academic Credential · I received my Ph.D. from School of Electrical Engineering at Korea Advanced Institute of Science and Technology (KAIST), in Aug. 2017, under supervision by Prof. Jaekyun Moon. Before joining UNIST, I was a postdoctoral researcher at KAIST from Sep. 2017 to Mar. 2020.

Awards/Honors/Memberships · 2019 : Samsung AI Forum Best Poster Award · 2015, 2018 : Qualcomm Innovation Paper Award · 2017 : IEEE International Conference on Communications (ICC), Best Paper Award for Communication Theory Symposium

More on our lab (QR links)

연구주제 소개 영상 (Talk by Prof. Yoon)

274

연구실 홈페이지 바로 가기

In our Machine Intelligence and Information Learning laboratory (MIIL lab), we focus on developing novel machine learning algorithms which overcome the daunting challenges for future intelligence systems beyond deep-learning algorithms: i) dependency on a massive amount of training data, ii) lack of generalization to unseen tasks, iii) difficulty for online learning for a new concept and iv) lack of consideration of realistic systems with distributed resources. To tackle these problems, members of our lab (5 graduate students and 3 interns) are studying following topics: few-shot learning (소수샷 학습), meta-learning (메타학습), lifelong learning (연속 및 점진적 학습), meta-reinforcement learning (메타 강화학습) and federated learning (연합 학습). Also, we are interested in developing intelligent network systems such as 6-Generation mobile communications which will be the most important and powerful platform for executing Continual learning algorithm AI algorithms and services. To from MIIL lab (ICML 2020) this end, we focus on novel learning and communicating platforms that efficiently utilize distributed resources such as storage, communication and computing power on highly-distributed and connected devices or servers (self-driving cars, computers, mobile devices, small local servers, central server, etc.).

Major research field Meta-learning, Few-shot learning, Lifelong learning, federated learning, 6G communications

Research Keywords and Topics • In a broad sense, our group’s research direction is to develop novel learning algorithms which overcome remaining challenges of deep-learning techniques. To this end, we are focusing on the following topics: few-shot learning, meta-learning, lifelong learning (continual learning), meta-reinforcement Learning and federated learning.

Research Publications (selected) • International Conference on Machine Learning (ICML), Virtual Conf., “XtarNet: Learning to Extract Task-Adaptive Representation for Incremental Few-Shot Learning,” Sung Whan Yoon, D. Kim, J. Seo and J. Moon / 2020 • International Conference on Machine Learning (ICML), Long Beach, CA, USA, “TapNet: Neural Network Augmented with Task-Adaptive Projection for Few-Shot Learning,” Sung Whan Yoon, J. Seo and J. Moon / 2019 • IEEE Transactions on Information Theory, vol. 65, no. 1, pp. 81-107, “Capacity of Clustered Distributed Storage,” J. Sohn, B. Choi, Sung Whan Yoon and J. Moon / 2019-01

Patents (selected) • Controller and operating method thereof / 미국특허 출원번호 : US 15601039 / Jaekyun Moon, Soonyoung Kang and Sung Whan Yoon / 2019-09 • Controller, semi-conductor memory system and operating method thereof / 미국특허 등록번호 : US 10,439,647 / Jaekyun Moon, Beongjun Choi and Sung Whan Yoon / 2019-10

Machine Learning Lab 머신러닝연구실

The vision of our lab is to engage in theoretical and applied aspects in the broad field of artificial intelligence (AI) and to push the frontiers of the state-of-the-arts in machine learning research. The current focus is on the science of deep learning in which the goal is to understand the general principles in neural networks and their optimization, to establish precise theories to explain the complex phenomena behind these models, and further to extend the findings to diverse topics in AI applications.

이남훈

_Namhoon Lee

Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology (UNIST) Tel : +82-52-217-3451 E-mail : nlee@unist.ac.kr

본 연구실에서는 인공지능의 이론과 실무적인 부분들을 폭넓게 아우르며 머신러닝의 최신 기술을 연구합니다. 주요 연구 사안으로는 인공신경망과 이의 최적화의 기본을 이해하고, 이들이 보이는 복 잡한 현상들을 설명할 수 있는 정확한 이론을 정립하고자 하며, 이를 다양한 인공지능 응용 분야에 까지 적용하고자 합니다.

Major research field

Desired field of research

machine learning, optimization, computer vision, natural language processing

broad aspects in artificial intelligence research

Academic Credential · 2020 : PhD in Engineering Science, University of Oxford · 2015 : MS in Computer Science, Carnegie Mellon University · 2013 : BS in Electrical and Computer Engineering, Hanyang University

Research Keywords and Topics • machine learning, deep learning, optimization, computer vision, artificial intelligence

Research Publications (selected) • International Conference on Learning Representations (ICLR) / Understanding the Effects of Data Parallelism and Sparsity on Neural Network Training / Namhoon Lee, Thalaiyasingam Ajanthan, Philip H. S. Torr and Martin Jaggi / 2021-05 • International Conference on Learning Representations (ICLR) / A Signal Propagation Perspective for Pruning Neural Networks at Initialization / Namhoon Lee, Thalaiyasingam Ajanthan, Stephen Gould and Philip H. S. Torr / 2020-05 • International Conference on Learning Representations (ICLR) / SNIP: Single-shot Network Pruning based on Connection Sensitivity / Namhoon Lee, Thalaiyasingam Ajanthan and Philip H. S. Torr / 2019-05 • Conference Vision and Pattern Recognition (CVPR) / DESIRE: Distant Future Prediction in Dynamic Scenes with Interacting Agents / Namhoon Lee, Wongun Choi, Paul Vernaza, Christopher B. Choy, Philip H. S. Torr and Manmohan Chandraker / 2017-07

Graduate School of Artificial Intelligence

Patents (selected) • Dynamic scene prediction with multiple interacting agents / W Choi, P Vernaza, M Chandraker, N Lee / US Patent 10,595,037

College of Information and Biotechnology

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Learning Intelligent Machine Lab LIM Lab

임성빈

_Sungbin Lim

Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 801-10 Lab : Bldg. 106 Rm. 707-2 Tel : +82-52-217-3206 E-mail : sungbin@unist.ac.kr https://sites.google.com/view/sungbin

Our research interest is focused on Artificial Intelligence (AI) and its applications to industrial and scientific problems. Specifically, we pursue principled approaches to incomplete data problems in machine learning via the view of statistics and mathematics. These topics are profoundly related to statistical learning, meta learning, and causal reasoning. Currently, we are working with the following research topics: - Causal Learning - Stochastic Optimization - Reinforcement Learning - Automated Machine Learning Learning Intelligent Machine Lab에서는 수학과 통계학적 원리를 바탕으로 인공지능 연구를 진행하

Curriculum Vitae · Present : Assistant Professor, Dept. of Industrial Engineering, AI Graduate School, UNIST · 2018 - 2019 : Kakao Brain · 2017 : DeepBio · 2016 - 2017 : 삼성화재

Academic Credential · 2016 : Ph.D., Probability Theory, Harmonic Analysis, Korea University · 2010 : B.S., Political Science, Mathematics, Korea University

고 있으며, 주로 아래 분야의 주제에 집중하고 있습니다. - 인과학습 (Causal Learning) - 확률적최적화 (Stochastic Optimization) - 플래닝 / 강화학습 (Planning / Reinforcement Learning) - 자동화된 기계학습 (Automated Machine Learning)

Major research field

Desired field of research

Artificial Intelligence, Causal Learning, Stochastic Optimization, Optimal Control

Large-scale Causal Reasoning, Machine Reasoning

Research Keywords and Topics • Artificial Intelligence, Causal Learning, Stochastic Optimization, Optimal Control 인공지능, 인과학습, 확률적 최적화, 최적 제어

Research Publications (selected) • Advances in Neural Information Processing Systems (NeurIPS), 2020, Optimal Algorithms for Stochastic Multi-Armed Bandits with Heavy-Tailed Rewards • Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR oral), 2020, Task Agnostic Robust Learning on Corrupt Outputs by CorrelationGuided Mixture Density Network • Proceedings of the AAAI Conference on Artificial Intelligence (AAAI oral), 2020, Monte Carlo Tree Search in Continuous Spaces Using Voronoi Optimistic Optimization with Regret Bounds • Robotics : Science and Systems (RSS oral), 2020, Generalized Tsallis Entropy Reinforcement Learning and Its Applications to Soft Mobile Robots • Advances in Neural Information Processing Systems (NeurIPS), 2019, Fast AutoAugment • International Conference on Medical Image Computing and Computer-Assisted Intervention (MICCAI), 2019, Scalable Neural Architecture Search for 3D Medical Image Segmentation • Annals of Probability, 2019, A Sobolev space theory for stochastic partial differential equations with time-fractional derivatives

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Robotics and Visual Intelligence Lab 로보틱스 및 시각지능 연구실

Our lab aims to develop cuttingedge computer vision, robotics vision, and machine (deep) learning algorithms. Specifically, our research mainly focuses on 3D computer vision with a particular focus on geometric aspects. Our goal is to give the capability to a system (e.g., robots and autonomous vehicles) to understand and interpret various data in a manner that is similar to the way humans use their senses to relate to the world around them. To achieve this goal, we focus on processing and analyzing various sensor data such as image, video, 3D point cloud, and other sensory data. Currently, we are working on the following research topics: - 3D Computer Vision and Geometry - Robotics Vision - Urban Scene Understanding - Simultaneous Localization and Mapping (SLAM) - Sensor Fusion

Major research field Computer Vision, 3D Vision, Robotics Vision, Machine (Deep) Learning

Desired field of research 3D Reconstruction from images (SfM, SLAM, etc.), Sensor Fusion, Vision-based ADAS, Calibration, Geometry-based Deep Learning

Research Keywords and Topics • Computer Vision - 3D Reconstruction from images (SfM, SLAM, etc.) • Robotics Vision - Sensor Fusion, Vision-based ADAS, Calibration Machine (Deep) Learning - Geometry-based Deep Learning

주경돈

_Kyungdon Joo

Graduate School of Artificial Intelligence Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 801-7 Lab : Bldg. 106 Rm. 707-1 Tel : +82-52-217-3450 E-mail : kyungdon@unist.ac.kr https://rvi.unist.info

Curriculum Vitae · 2020 - Present : Assistant Professor, Dept. of CS & AI, UNIST, Korea · 2019 - 2020 : Post-doctoral Researcher, Carnegie Mellon University, US · 2019 - 2020 : Post-doctoral Researcher, KAIST, Korea · 2017 - 2017 : Research Intern, Oculus Research (Facebook), US

Academic Credential · 2019 : Ph.D., Electrical Engineering (EE), KAIST · 2014 : M.S., Robotics Program, KAIST · 2012 : B.S., Electrical and Computer Engineering (ECE), University of Seoul

Research Publications (selected)

Awards/Honors/Memberships · 2020 : RSS Pioneers - Robotics: Science and Systems (RSS), USA · 2019 : CVPR Doctoral ConsortiumIEEE Conference on Computer Vision and Pattern Recognition (CVPR), USA · 2015 : First Place of DARPA Robotics Challenge - Team KAIST, Prize: 2 million dollars

Patents (selected) • Camera and Camera Calibration Method, US 15474940 / In So Kweon, Hyowon Ha, Yunsu Bok, Kyungdon Joo, Jiyoung Jung / 2017 • 카메라 및 카메라 캘리브레이션 방법, 10-1818104-0000 / 권인소, 하효원, 복윤수, 주경돈, 정지영 / 2016

College of Information and Biotechnology

277

Graduate School of Artificial Intelligence

• IEEE Transactions on Pattern Analysis and Machine Intelligence / Globally Optimal Inlier Set Maximization for Atlanta World Understanding(IF: 17.861) / Kyungdon Joo, T.-H. Oh, I. S. Kweon, and J.-C. Bazin / 2020-10 • European Conference on Computer Vision / Non-Local Spatial Propagation Network for Depth Completion / J. Park, Kyungdon Joo, Z. Hu, C.-K. Liu, and I. S. Kweon / 2020-08 • IEEE International Conference on Robotics and Automation / Globally Optimal Relative Pose Estimation for Camera on a Selfie Stick / Kyungdon Joo, H. Li, T.-H. Oh, Y. Bok, and I. S Kweon, / 2020-05 • IEEE International Conference on Robotics and Automation / Linear RGB-D SLAM for Atlanta World / Kyungdon Joo, T.-H. Oh, F. Rameau, J.-C. Bazin, and I. S Kweon / 2020-05 • IEEE International Conference on Computer Vision / Personalized Cinemagraphs using Semantic Understanding and Collaborative Learning / Kyungdon Joo, T.-H. Oh, N. Joshi, B. Wang, I. S. Kweon, and S. B. Kang / 2017-10

department of electrical engineering 전기전자공학과

Ubiquitous Photonics Lab UP 랩

Nowadays liquid crystal displays, light emitting diodes, and optical communications, which are representative examples of photonics, are closely related to everyday life. Thus photonics seems to be ubiquitous or omnipresent. Moreover, it is believed to be essential in developing future technologies such as photonics-aided electronics, quantum computing, extremely sensitive detection of a single molecule, etc. The goal of UP Lab is not only to play a leading role in developing the future technologies but also to make disruptive improvements in the current technologies. We focus on design, realization, and analysis of photonic and plasmonic waveguide devices working at the telecom wavelengths, optical bio/chemical sensors, and mid-infrared devices handling free-space beams.

권민석

_Minsuk Kwon

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-2 Lab : Bldg. 106 Rm. 610 Tel : +82-52-217-2135 E-mail : mskwon@unist.ac.kr https://sites.google.com/view/ unist-uplab/

포토닉스는 현재 우리 주변의 다양한 분야에서 사용되고 있는 기술일 뿐만 아니라 미래의 핵심 기술로 판단되고 있다. 본 연구실은 포토닉스의 여러 분

Curriculum Vitae

야 중 광 도파로를 기반으로 하는 광 집

· 2014 - Present : Associate Professor, UNIST · 2012 - 2014 : Assistant Professor, UNIST · 2009 - 2011 : Assistant Professor, Sejong U · 2007 - 2009 : Full-time Lecturer, Sejong U · 2006 - 2007 : Senior Research Engineer, LG Electronics Institute of Technology · 2005 - 2006 : Postdoctoral Research Associate, USC

적회로 개발에 집중하고 있다. 특히 실 리콘 기반의 포토닉 집적회로와 금속과 실리콘 기반의 플라즈모닉 집적회로 개 발을 진행해오고 있다. 이와 더불어 그 래핀 기반의 광소자 개발과 다양한 광 센서 개발도 함께 진행하고 있다.

Major research field Integrated-optics, silicon photonics, plasmonics, mid-infrared photonics, graphene photonics

Academic Credential

Desired field of research

· 2005 : Ph.D. in Electrical Engineering, KAIST · 2000 : M. S. in Electrical Engineering, KAIST · 1998 : B. S.(Summa Cum Laude) in Electrical Engineering, KAIST

Photonic integrated-circuits for neuromorphic computing and quantum computing, photonic devices based on two-dimensional materials

Research Keywords

Awards/Honors/Memberships

• Photonics, Plasmonics, Waveguides, Photonic integrated-circuits, Graphene

Research Topics

Research Publications (selected) • IEEE Access / Solid-electrolyte-gated graphene-covered metal-insulator-siliconinsulator-metal waveguide with a remarkably large modulation depth, Yonghan Kim and Min-Suk Kwon / 2019 • IEEE Photonics Journal / Discussion of the epsilon-near-zero effect of graphene in a horizontal slot waveguide / Min-Suk Kwon / 2014 • Optics Express / Characterizations of realized metal-insulator-silicon-insulator-metal waveguides and nanochannel fabrication via insulator removal / Min-Suk Kwon, JinSoo Shin, Sang-Yung Shin, and Wan-Gyu Lee / 2012

College of Information and Biotechnology

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Department of Electrical Engineering

• Graphene-based silicon photonic modulators and photodetectors • Mid-infrared photonic devices using functional materials • Photonic integrated-circuits based on thin-film lithium niobate • Photonic devices based on ultra-thin metal films

· 2019 : Best Paper Award, COOC · 2018 : Best Paper Award, COOC · 2017 : Best Paper Award, COOC · 2014 : Best Paper Award, COOC · 2013 : Best Paper Award, COOC · 2010 : Best Paper Award, Photonics Conference · 2005 : Honor Prize at the 11th Samsung HumanTech Thesis · 2004 : Bronze Prize at the 10th Samsung HumanTech Thesis · 2000 - 2003 : Scholarship, Korea Foundation for Advanced Studies(KFAS)

Nano-Electronic Emerging Devices Lab 차세대 나노 전자 소자 연구실

김경록

_Kyung Rok Kim

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-1 Lab : Bldg. 106 Rm. 602 Tel : +82-52-217-2122 E-mail : krkim@unist.ac.kr http://needs.unist.ac.kr

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2019 - 2020 : (Tenured) Associate Professor, UNIST · 2014 - 2019 : Associate Professor UNIST · 2010 - 2014 : Assistant Professor UNIST · 2006 - 2010 : Senior Engineer, Samsung Electronics, Semiconductor Research Center, CAE/TCAD · 2004 - 2006 : Postdoctoral Fellow, Stanford University, CIS TCAD group

Development of nano-electronic emerging devices (NEEDs) is main research focus to achieve ultra-low power peta-scale digital and RF applications in THz bandwidth. Our laboratory research about novel “beyond CMOS” devices as well as high-performance /low-power nano-CMOS for multi-valued logic and memory applications, neuromorphic devices, plasma wave transistor (PWT) THz emitter and detectors based on nano-scale structures using Si/Ge/C-based and III-V novel materials as well as nanoelectronic circuit design. 차세대 나노 전자소자는 페타스케일 초저전력 디지털 및 THz 아날로그 반도체 시스템을 구현하는 데 필수적인 연구 분야로서, 현재 기가급 CMOS 반도체 시스템의 성능을 개선하면서 소모전력을 획 기적으로 줄일 수 있는 반도체 소자 기술이다. 우리 실험실은 초고성능/초저전력 동작의 새로운 소 자를 나노구조의 신물질 및 나노전자회로/시스템 연구와 병행하여, 다치로직 및 메모리, 뇌신경모방 소자, 플라즈마파 소자 기반 THz 신호원 및 검출기 응용연구를 하고 있다.

Major research field Nano-CMOS, Neuromorphic Device, Multi-Value Logic, THz Plasma-Wave Transistor (PWT), Monolithic TransistorAntenna (Trantenna), THz Imaging

Desired field of research Neuromorphic System, Processing-inMemory Architecture, THz Spectroscopy, Near-Field THz Imaging

Academic Credential

Research Keywords and Topics

· 2004 : Ph. D. Electrical Engineering and Computer Science, Seoul National University · 2001 : M. S. Electrical Engineering and Computer Science, Seoul National University · 1999 : B. S. Electrical Engineering, Seoul National University

• Multi-pixel plasmonic THz detector for real-time THz imaging application

Awards/Honors/Memberships · 2020 : Samsung Paper Prize (26th KCS) · 2019 : UNIST Young Distinguished Professor · 2019 : Best Chip Design Contest Prize (26th KCS/CDC) · 2019 : 25th HumanTech Paper Award (Samsung) · 2017 : 23rd HumanTech Paper Award (Samsung) · 2016 : 22nd HumanTech Paper Award (Samsung) · 2015 : Nanoscale Horizons Poster Prize (15th IEEE-NANO) · 2012 - Present : Editor, JSTS(IEEK) · 2010 - 2012 : Editing Committee of ITRS · Member of IEEE, Electron Device Society · Member of IEIE(Korea), IEICE(Japan)

280

실시간 테라헤르츠 영상구현을 위한 다중-픽셀 테라헤르츠파 검출기

• Nano-CMOS based terahertz (THz) plasma-wave transistor technology research 나노 CMOS 기반 테라헤르츠 플라즈마파 소자 기술 연구(신호원 및 검출기)

• Multi-valued logic/memory devices and neuromorphic devices for artificial neural network 초저전력 인공신경망을 위한 다치로직/메모리 소자 및 뇌신경모방 소자

(Samsung’s Future Tech Fostering Project: Next-generation semiconductor)

Research Publications (selected) • Nature Electronics / Tunnelling-based ternary metal-oxide-semiconductor technology / Jae Won Jeong, Young-Eun Choi, Woo-Seok Kim, Jee-Ho Park, Sunmean Kim, Sunhae Shin, Kyuho Lee, Jiwon Chang, Seong-Jin Kim, Kyung Rok Kim / 2019-07 • Symposium on VLSI Technology and Circuits / Record-High Performance Trantenna based on Asymmetric Nano-Ring FET for Polarization-Independent Large-Scale/RealTime THz Imaging / E-San Jang, Min Woo Ryu, Ramesh Patel, Sang Hyo Ahn, Hyeong Ju Jeon, Ki Jin Han, Kyung Rok Kim / 2019-06 • Symposium on VLSI Technology / Trantenna: Monolithic transistor-antenna device for real-time THz imaging system / Min Woo Ryu, Ramesh Patel, E-San Jang, Sang Hyo Ahn, Hyeong Ju Jeon, Mun Seok Choe, Eunmi Choi, Ki Jin Han, Kyung Rok Kim / 2017-06

Patents (selected) • TERNARY DIGIT LOGIC CIRCUIT, 국외 / 김경록, 신선해, 장이산, 정재원 / 2018-11 • RING-TYPE FIELD EFFECT TRANSISTOR FOR TERAHERTZ WAVE DETECTION, WHICH USES GATE METAL AS ANTENNA, 국외 / 김경록, 류민우, 안상효 / 2018-07

Bio-inspired Advanced Sensors Lab 지능형 센서 설계 연구실

Bio-inspired Advanced Sensors Laboratory (BIAS) aims to realize self-contained smart microsystems that will interface people to nature, machine, and even their own bodies with many electronic devices seamlessly. The system will be implemented on a single chip platform based on modern analog and digital VLSI circuits and systems technology. We are especially interested in imaging and bio-related applications for point-of-care diagnostics, human-machine interface, and novel implantable prosthetics.

김성진

_Seong-Jin Kim

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-1 Lab : Bldg. 106 Rm. 507 Tel : +82-52-217-2115 E-mail : kimsj@unist.ac.kr https://biml.unist.ac.kr

Curriculum Vitae · 2020 - Present : Associate Professor, UNIST · 2015 - 2020 : Assistant Professor, UNIST · 2012 - 2015 : Research Scientist, Institute of Microelectronics, A*STAR, Singapore. · 2008 - 2012 : Senior Research Staff, Samsung Advanced Institute of Technology.

Major research field Integrated analog-mixed signal circuit design, Semiconductor sensor interface circuits

Research Keywords and Topics • 3D image sensor for LiDAR systems in automotives 차량용 라이다 시스템을 위한 3D 영상센서

Academic Credential

• Low-power biomedical sensors for point-of-care diagnostics 현장 진단용 저전력 생체 의료 센서

• Implantable/Wearable healthcare smart devices 이식 가능하거나 입을 수 있는 헬스케어 스마트 소자

Research Publications (selected)

Awards/Honors/Memberships · 2019 - Present : International Technical Program Committee at ISSCC · 2011 : Bronze Prize at Samsung Best Paper Award · 2009 : Innovative Invention Award in Samsung Electronics Co. Ltd · 2005 : Bronze Prize at Samsung Humantech Thesis · Member of the Institute of Electrical and Electronics Engineers(IEEE)

Patents (selected) • US Patent #9,786,252 / Method and apparatus for suppressing background light in time of flight sensor / Jihyun Cho, Seong-Jin Kim, Jung-Soon Shin, and Euisik Yoon / 2017-10 • US Patent #9,429,781 / Filter for selective transmission of visible rays and infrared rays using an electrical signal / Seong-Jin Kim, Do Kyoon Kim, Kee Chang Lee, Jeroen Beeckman, Albert Theuwissen / 2016-08

College of Information and Biotechnology

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Department of Electrical Engineering

• IEEE ISSCC, pp. 108-109 / A 48×40 13.5-mm Depth Resolution Flash LiDAR Sensor with In-pixel Zoom Histogramming Time-to-Digital Converter / B. Kim, S. Park, J.-H. Chun, and J. Choi, and S.-J. Kim / 2021-02 • IEEE TBioCAS / A Real-Time Depth of Anesthesia Monitoring System Based on Deep Neural Network With Large EDO Tolerant EEG Analog Front-End / Y. Park, S.-H. Han, W. Byun, J.-H. Kim, H.-C. Lee, and S.-J. Kim / 2020-08 • IEEE SOVC / A 36-channel SPAD-integrated scanning LiDAR sensor with multi-event histogramming TDC and embedded interference filter / H. Seo, H. Yoon, D. Kim, J. Kim, S.-J. Kim, J.-H. Chun, and J. Choi / 2020-06 • IEEE ISSCC, pp. 100-101 / A Dynamic Pseudo 4-Tap CMOS Time-of-Flight Image Sensor with Motion Artifact Suppression and Background Light Cancelling Over 120klux / D. Kim, S. Lee, D. Park, C. Piao, J. Park, Y. Ahn, K. Cho, J. Shin, S. M. Song, S.-J. Kim, J.-H. Chun, and J. Choi / 2020-02

· 2008 : Ph.D. in Electrical Engineering, KAIST. · 2006 - 2007 : Predoctoral Researcher, University of Minnesota, Twin Cities. · 2003 : M.S. in Electrical Engineering, KAIST. · 2001 : B.S. in Electrical Engineering, POSTECH.

Convergence Semiconductor Design Lab 융합반도체설계연구실

김재준

_Jaejoon Kim

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-6 Lab : Bldg. 106 Rm. 405-2 Tel : +82-52-217-2126 E-mail : jaejoon@unist.ac.kr http://csdl.unist.ac.kr

Our future lifestyle would be implemented on a chip. Based on this belief, we have studied various future technology trends. Our current research topics include smart sensor interface circuits, healthcare circuits/systems, wearable interfaces, multiple gas detection circuits/systems, touch/fingerprint sensor interfaces, wireless transceivers, and various analog integrated circuits including data converters. 융합반도체설계연구실은 다양한 학문간의 융합기술을 시스템화하기 위해 필요한 반도체 회로 및 시스템 설계기술을 연구합니다. 특히, 웨어러블 디바이스, 헬스케어 및 의료 기기, 환경센서, 스마트 센서 분야를 주요 응용으로 하며 설계된 아날로그/혼성모드 신호처리칩을 기반으로 인공지능을 연 계한 시스템 및 플랫폼까지 연구개발하고 있습니다.

Curriculum Vitae · 18 years of industry and researchrelated experience giving both academic and practical perspective. 9 years of experience in teaching undergraduate & graduate level courses at UNIST. 6 years of government experience as a deputy director giving valuable understanding on national government R&D programs. · Authored 78 Patents including 17 International Patents, 43 SCI-level Journal Papers in the fields of healthcare devices, smart sensor interfaces, and integrated circuits/systems.

Academic Credential · 2003 : Ph.D., Electrical Engineering Korea Advanced Institute of Science and Technology, Daejeon · 1998 : M.S., Electrical Engineering Korea Advanced Institute of Science and Technology, Daejeon · 1996 : B.S., Electronic Engineering Hanyang University, Seoul

Awards/Honors/Memberships · Non-executive Board Member, Korea Communication Agency · Personnel Committee, Ulsan Technopark · Board Member, Korean Sensor Society · Board Member, Institute of Semiconductor Engineers · Board Member, Institute of Electronics and Information Engineers (IEIE) · Steering Committee, IEIE RF/Analog Integrated Circuits Society · Steering Committee, IEIE SoC Design Society · Senior Member, Institute of Electrical and Electronics Engineers (IEEE)

282

Major research field Integrated Circuits & Systems; Smart Sensor Systems; Wearable/Healthcare Devices

Desired field of research AI-Based Intelligent Smart Sensors, Brain-to-X Interfaces, Mental Healthcare Monitoring

Research Keywords and Topics • Advanced Intelligent IoT Sensor Platform with AI-Based Recognition and Self Calibration • Reconfigurable Attachable Heterogeneous Multi-Sensor Patches • Self-powered power and sensor integrated systems • Innovative Wearable Healthcare Device and Brain-to-Computer Interface (BCI) Platform

Research Publications (selected) • IEEE Transactions on Industrial Electronics, Vol. 67, Issue 3, pp. 2401-2410; doi:10.1109/TIE.2019.2905819 / An Energy-Efficient Multimode Multichannel GasSensor System with Learning-Based Optimization and Self-Calibration Schemes / K. Park, S. Choi, H. Y. Chae, C. S. Park, S. Lee, Y. Lim, H. Shin, J. J. Kim / 2020-03 • IEEE Transactions on Biomedical Circuits and Systems, Vol. 13, Issue 6, pp. 1535-1544; doi:10.1109/TBCAS.2019.2946875 / A Multi-Functional Physiological Hybrid-Sensing E-Skin Integrated Interface for Wearable IoT Applications / K. Lee, H. Y. Chae, K. Park, Y. Lee, S. Cho, H. Ko, J. J. Kim / 2019-12 • IEEE Transactions on Industrial Electronics., Vol. 64, Issue 3, pp. 2344-2352 / A MultiSensor Mobile Interface for Industrial Environment and Healthcare Monitoring / S. Choi, D. J. Kim, Y. Y. Choi, K. Park, S.-W. Kim, S. H. Woo, J. J. Kim / 2017-03

Patents (selected) • Composite monitoring apparatus and method / 08/01/2018. (US Patent, US10524732, 01/07/2020) • Successive Approximation register analog-to-digital converter combined with flash analog-to-digital converter (US Patent, US10277243, 04/30/2019) / 05/10/2018. / 2019-04

Integrated Circuit and Electromagnetic Compatibility Lab 집적회로 및 전자기파 융합연구실

The research approach of IC-EMC Lab. is to acquire a broader knowledge across subdisciplines in high-speed silicon IC design and electromagnetics. These areas are getting more important and intertwined, as frequency goes up and systems are integrated. We design intelligent ICs and filters for EM Noise Sensing and Cancelling. 시스템이 고속화, 고집적화, 고전력화 됨에 따라 집적회로와 전자기파 영역은 서로 융합되고 함께 해 석해야 한다. 본 연구실에서는 회로와 전자파 두가지를 융합 연구하며, 특히, 전자기파 노이즈 저감 및 콘트롤을 위한 다양한 회로를 설계를 연구한다.

김진국

_Jingook Kim

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-7 Lab : Bldg. 106 Rm. 504-1 Tel : +82-52-217-2127 E-mail : jingook@unist.ac.kr http://icemclab.unist.ac.kr

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2011 - 2020 : Associate/Assistant Professor, UNIST · 2009 - 2011 : Postdoc / Research Professor, Missouri University of Science and Technology · 2006 - 2008 : Senior Engineer, DRAM Design Team, Samsung Electronics

Major research field EMC, Signal Integrity, Electrostatic discharge, transient sensor IC, Intelligent EMI filter, RF interference, Antenna, AI-assist hardware design

Academic Credential

Research Keywords and Topics • Convergence between Circuit and EM domains 집적회로와 전자기장 해석의 융합

• Electromagnetic Compatibility, Signal Integrity, analog IC circuit design, Electrostatic Discharge, RF interference, intelligent ICs and EMI filters for EM Noise Sensing and Cancelling 전자파 적합성, 신호 충실성, 아날로그 회로설계, 정전기 방전, 전자파 간섭, 노이즈 센싱 및 보상을 위한 지능반도체 설계

Research Publications (selected)

Patents (selected) • A transformer-isolated common-mode active EMI filter, 10-1945463 / 2019-01 • CURRENT COMPENSATION DEVICE, 10-2131263 / 2020-07

Awards/Honors/Memberships · 2019 : 한국전자파학회 우수연구자상

· 2019 : Best Paper Award, IEEE International Symposium on EMC and SI · 2018 : Best Student Paper Award, IEEE Electrical Design of Advanced Packaging and Systems Symposium(EDAPS) · 2017 : Best Student Paper Award, Asia-Pacific International Symposium on EMC · 2016 : Best Student Paper Award, Asia-Pacific International Symposium on EMC · 2015 : Best Paper Award, IEEE Symposium on EMC and SI · 2010 : Best Technical Paper Award, IEEE International EMC Symposium

College of Information and Biotechnology

283

Department of Electrical Engineering

• IEEE Transactions on Electromagnetic Compatibility, vol. 61, no. 6, pp. 1926-1934 / A Proposed Terminal-Ground EMI Filter for Reduction of Conducted Emissions Considering Cable Radiation and Safety / Sangyeong Jeong, et al., Jingook Kim / 2019-12 • IEEE Transactions on Electromagnetic Compatibility, vol. 62, no 2, pp. 386-397 / A Balanced Feedforward Current-Sense Current-Compensation Active EMI Filter for Common-Mode Noise Reduction / Dongil Shin, et al., Jingook Kim / 2020-04 • IEEE Transactions on Electromagnetic Compatibility, vol. 62, no. 1, pp. 285-290 / A Cost-Effective Structure for Secondary Discharge Control to Improve System-Level ESD Immunity of a Mobile Product/ Junsik Park, et al., Jingook Kim / 2020-02

· 2006 : Ph. D., Electrical Engineering, KAIST · 2002 : M. S., Electrical Engineering, KAIST · 2000 : B. S., Electrical Engineering, KAIST

Internet of Things System Lab 사물인터넷 시스템 연구실

김학선

_Haksun Kim

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 701-4 Lab : Bldg. 106 Rm. 405-1 Tel : +82-52-217-2105 E-mail : hszic@unist.ac.kr

The Internet of things(IoT) is the inter-networking of physical devices, vehicles(also referred to as “connectted devices” and “smart devices”) buildings, and other items-embedded with electronics, software, sensors, actuators, and network connectivity that enable these objects to collect and exchange data. We are studying special target sensing technology, and wireless Communication Standards for IoT, and Data filtering for compensation. 인터넷을 이용한 사물간의 통신을 활용하여 위치의 파악, 데이터의 수집, 가정이나 상점, 공장의 자 동화를 실행하며 센서에 의해 수집된 Big Data를 처리하여 4차 산업혁명을 이끌수 있는 시스템을 구 축한다. 센서에 관한 영구와 이들을 연결하는 통신방식들 (Zigbee, Bluetooth, Wi-Fi, Cognitive Radio, Ultra wide band, 5G 등)의 표준을 제정하고 데이터의 정확도를 위한 Filtering 기법들을 연구한다. 아울러 빛의 효용성을 찾아내고 이들을 활용한 Therapy 기술도 연구한다.

Curriculum Vitae · 2017 - Present : Professor, UNIST · 2015 - 2016 : EVP, TV Development Team Leader, Samsung Display · 2013 - 2014 : EVP/CTO, Samsung Display · 2009 - 2012 : VP, Samsung Display · 2008 - 2009 : VP, Samsung elctromechanics · 1993 - 2008 : Professor, Hanbat National University

Academic Credential · 1993 : Ph. D. Electronic Engineering, Korea Aerospace University · 1990 : M.S. Electronic Engineering, Korea Aerospace University · 1986 : B.S. Electronic Engineering, Korea Aerospace University

Awards/Honors/Memberships · 2014 : Order of the Industry Dong-Tap · 2014 : The Korean Information Display Society(KIDS) award · Vice Chairman of Society of standard and Standardization, KIDS · Member of IEEK · Member of KICS · Member of Kiees · Member of SID/KIDS

Major research field IoT System, Sensing System, Data gathering System, Data Filtering system, Light wave Engineering

Desired field of research Visible Light Therapy, Pet TV Contents and Platform, Magnetic Wave Communication System.

Research Keywords and Topics • IoT System/Sensing Technology for Special Target, Multi-layer wireless communication. • Futher Display Technology/Color control of wearable, Stretchable Display. • Light wave engineering for human body therapy. • Pet Display.

Research Publications (selected) • INTERNATIONAL JOURNAL OF MORECULAR MEDICINE / Continuous irradiation with a 633-nm light-emitting diode exerts an anti-aging effect on hunan skin cells / HS kim, WS Park, Ji Back, BS Lee, DS Yoo, SJ Park / 2012-02 • Jounal of Information Display / A study on the ergonomic aspects of the proper luminance level of displays / E Lee, S Kim, HR Park, J Bae, S Lee, HS Kim / 2012-12 • IEEE Transaction on circuits and systems I- Regular paper / Analysis and Design of fully integrated High power parallel circuit Class-E CMOS power amplifier / O Lee, KH An, H Kim, DH Lee, J Han, KS Yang, CH Lee, HS Kim, J Laskar / 2010-03

Patents (selected) • Electronic Device Providing a bioeffect image, 101703748 / 2017 • Flexible Touch Screen Panel and flexible display device with the same panel, 101401406 / 2014

284

Wireless & Mobile Networking Laboratory 무선 및 모바일 네트워킹 연구실

The Wireless & Mobile Networking Laboratory (WMNL) is directed by Hyoil Kim, a professor in the Department of Electrical Engineering (EE) at UNIST. The WMNL's research focuses on the cutting edge technology in wireless/wired networking and communications, including: 1. AI-empowered networking 2. 5G/6G communications (e.g., URLLC, MEC, NR-U) 3. Next-generation WLAN (e.g., IEEE 802.11ax/be) 4. Vehicular networks (e.g., V2X, Hyperloop communications) 5. Cognitive radio (CR) and dynamic spectrum access (DSA)

김효일

_Hyoil Kim

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-7 Lab : Bldg. 106 Rm. 403 Tel : +82-52-217-2132 E-mail : hkim@unist.ac.kr http://wmnl.unist.ac.kr

WMNL(Wireless & Mobile Networking Laboratory)의 연구는 다음과 같은 차세대 무선/유선 네트워 킹 및 통신 기술에 중점을 둡니다. 1. AI 기반 네트워킹 2. 5G/6G 통신 (예 : URLLC, MEC, NR-U) 3. 차세대 WLAN (예 : IEEE 802.11ax/be)

Curriculum Vitae

4. 차량 네트워크 (예 : V2X, Hyperloop 통신)

· 2020 - Present : Professor, School of ECE, UNIST · 2020 - Present : Dean of Academic Information Affairs · 2015 - 2020 : Associate Professor, School of ECE, UNIST · 2011 - 2015 : Assistant Professor, School of ECE, UNIST · 2010 - 2011 : Post-Doctoral Researcher, IBM T.J. Watson Research Center (NY, USA)

5. 인지 무선 (CR) 및 동적 스펙트럼 액세스 (DSA) 기술

Academic Credential

Major research field AI-empowered networking, 5G/6G, WLAN, mobile cloud computing, V2X, Hyperloop, Cognitive radio

· 2010 : Ph.D in EE: Systems, University of Michigan (Ann Arbor) · 2005 : M.S. in EE: Systems, University of Michigan (Ann Arbor) · 1999 : B.S. in EE, Seoul National University

Desired field of research Communications-Computing convergence, Flying ad-hoc networks (FANET)

Awards/Honors/Memberships

Research Keywords and Topics • Network optimization, spectrum resource management, performance/capacity analysis, Quality-of-Service(QoS) and Quality-of-Experience(QoE), spectrum measurement.

· 2019 : Best paper award, KICS Fall Conf. · 2015 : Best paper award, ICTC · Senior Member of the IEEE · Member of the IEEE ComSoc Department of Electrical Engineering

Research Publications (selected) • ACM MobiCom 2020 [X-Array: Approximating Omnidirectional Millimeter-Wave Coverage Using an Array of Phased Arrays] • IEEE Trans. Mobile Comput. (TMC) 2019 [QoE-aware Computation Offloading to Capture Energy-Latency-Pricing Tradeoff in Mobile Clouds] • IEEE Trans. Mobile Comput. (TMC) 2018 [Performance Analysis of License Assisted Access LTE with Asymmetric Hidden Terminals]

Patents (selected) • Smart road-side infrastructure(SRI) based guided driving mechanism, 10-20190172323 / Hyoil Kim, Kyunghan Lee, Suhwan Jung, / 2019-12 • Proactive Listen-before-Talk(P-LBT) method for cellular operations in unlicensed bands, 10-2016-0010767 / SeungKwon Baek, Hyoil Kim, Hyun Jong Yang, Harim Lee / 2016-01

College of Information and Biotechnology

285

Antenna Technology Laboratory (ATL) 안테나기술연구실

변강일

_GangIl Byun

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-8 Lab : Bldg. 106 Rm. 504-2 Tel : +82-52-217-2107 E-mail : byun@unist.ac.kr https://byun.unist.ac.kr

ATL’s principal areas of research are in the design and analysis of antennas, antenna arrays, and RF hardware for adaptive beamforming, such as direction of arrival estimation, interference mitigation, and radar. Our research topics are associated with 5G wireless communications, satellite navigation systems, satellite communications, ground and aeronautic vehicles, and mobile devices, which covers both civil and military applications. Recent interests: We are actively trying to expand our research boundaries for more advanced technologies: Huygen’s metasurfaces, display-integrated antennas, opticallytransparent antennas, and microwave sensing for health-care systems.

Curriculum Vitae · 2018 - Present : Assistant Professor, Electrical and Computer Engineering, UNIST · 2017 - 2018 : Research Professor, Metamaterial Electronic Device Research Center, Hongik University · 2015 - 2017 : Research Professor, Research Institute of Science and Technology, Hongik University

Academic Credential · 2015 : Ph.D., Electronics, Computer and Communication Engineering, Hanyang University · 2012 : M.S., Electronics, Information and Communication Engineering, Hongik University · 2010 : B.S., Electronic and Electrical Engineering, Hongik University

Awards/Honors/Memberships · 2021 - Present : Executive Board Member of Academic-I Affair, Korean Institute of Electromagnetic Engineering and Science (학술1분과 집 행이사, 한국전자파학회)

· 2018 - Present : Associate Editor ICT Express · 2019 : Young Researcher Award by Korean Institute of Electromagnetic Engineering and Science (젊은연구자상, 한국전자파학회)

· 2016 : Young Scientist Award (YSA) at URSI Asia-Pacific Radio Science Conference 2016 (젊은과학자상, URSI)

286

Desired field of research

Major research field Antennas, antenna arrays, military antennas, Huygen’s metasurfaces, display-integrated antennas, 5G communications

Reflective Intelligent surfaces (IRS), multi-purpose metasurfaces, B5G communications, AI-aided radars

Research Keywords and Topics • Design of small antennas and antenna arrays 소형 안테나 및 배열안테나 설계

• Antennas for military and space operations 우주 및 국방용 안테나 설계

• Display-integrated transparent antennas 디스플레이 집적 투명 안테나

• Bio EM sensors and microwave sensing 바이오 EM센서 및 마이크로파센싱

• Huygen’s metasurfaces and their applications 고효율 메타표면 설계 및 응용

Research Publications (selected) • Thi Hai-Yen Nguyen, Hoon Yeub Jeong, Young Chul Jun, and Gangil Byun**, “Geometry-Independent Excitation of Dark Modes Using Dipole Moment Transitions,” IEEE Trans. Antennas Propag., vol. 68, no. 8, pp. 6172-6182, Aug. 2020. DOI: 10.1109/TAP.2020.2983770 • Hoon Yeub Jeong, Yeonsoo Lim, Soo‐Chan An, Thi Hai‐Yen Nguyen, Gangil Byun**, and Young Chul Jun*, “Tunable Resonance and Phase Vortices in Kirigami Fano‐Resonant Metamaterials,” Adv. Mater. Technol., 2000234, June 2020. DOI: 10.1002/admt.202000234 • Ming Huang, Chunhui Wang, Le Quan, Thi Hai-Yen Nguyen, Hanyang Zhang, Yi Jiang, Gangil Byun, and Rodney S. Ruoff*, “CVD Growth of Porous Graphene Foam in Film Form,” Matter, vol. 3, pp. 487-497, Aug. 2020. DOI: 10.1016/j.matt.2020.06.012

Bien’s Integrated Circuits Design Lab: BICDL 집적회로 설계 연구실

Current Research activities at BICDL (pronounced as ‘big-deal!’) includes mixed-signal, Analog & RF integrated circuits (IC) design for consumer electronics & bio-medical applications. We also have various projects for Wireless-Power Transfer technology including PMIC (Power Management IC) designs. Some of recent projects were funded by Samsung Display, Samsung Electronics, LG Electronics, Hyundai Motor Company, Hyundai Heavy Industry, DSME, KEPCO & many other government funded projects. As of Feb. 2021, we published 60 international journal papers, 68 international conference proceedings, 33 international patents, and 75 domestic patents. So far, 6 Ph.D. and 11 M.S Degree students graduated from BICDL, and currently 18 members are researching and working together at BICDL. Come joins us for your bright future!

변영재

_Franklin Bien

Department of Electrical Engineering, Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-3 Lab : Bldg. 106 Rm. 405-3 Tel : +82-52-217-2113 E-mail : bien@unist.ac.kr http://bicdl.unist.ac.kr

Curriculum Vitae · 2009 - Present : Professor @ EE UNIST · 2007 - 2009 : Senior IC Design Engineer @ Staccato Communications, San Diego, CA · 2003 - 2004 : IC Design Engineer @ Quellan, Inc., Atlanta, GA · 2000 - 2002 : Hardware Design Engineer @ Agilent Technologies, San Jose, CA

Academic Credential

Research Publications (selected)

· 2006 : Ph.D., Electrical & Computer Engineering Georgia Institute of Technology, Atlanta, GA, U.S.A - Dissertation: “Reconfigurable Equalization for 10-Gb/s Serial Data Links in a 0.18-um CMOS Technology” · 2000 : M.S.: Electrical & Computer Engineering, Georgia Institute of Technology, Atlanta, GA, U.S.A. · 1997 : B.S., Electronics Engineering, Yonsei University, Seoul, Korea

Awards/Honors/Memberships · 2020 : Recipient of the KIEES (Korea Institute of Electromagnetic Engineering & Science) Best Researcher Award · 2017 : Recipient of the IEIE (The Institute of Electronics and Information Engineers) Award · Director of Self-powered Mobile Tracker Research Center (ITRC) · Director of Samsung-UNIST Display Research Center · Awarded the Best Teaching Award in 2010 and Outstanding Research Achievements Award in 2013 by the UNIST President · Senior member of IEEE, Lifetime member of KIESS, & executive member of IEIE.

College of Information and Biotechnology

287

Department of Electrical Engineering

• S. Oruganti, F. Liu, D. Paul, J. Liu, J. Malik, K. Feng, H. Kim, Y. Liang, T. Thundat, and F. Bien**, “Experimental Realization of Zenneck Type Wave-based Non-Radiative, NonCoupled Wireless Power Transmission,” Scientific Reports, Article number: 925 / 2020-01 • S. Heo, K. Park, E. Choi, and F. Bien**, “Differential Coded Multiple Signaling Method with Fully Differential Receiver for Mutual Capacitive Fingerprint TSP,” IEEE Transactions on Circuits and Systems (T-CAS) I, Vol. 67, Issue. 1, pages: 74-85 / 2020 / 2020-01 • S. Seo, H. Jo, and F. Bien**, “Free Arrangement Wireless Power Transfer System with a Ferrite Transmission Medium and Geometry-Based Performance Improvement,” IEEE Transactions on Power Electronics, Vol. 35, Issue. 5, pages: 4518-4532 / 2020-05 • E. Choi, S. Kim, K. Park, S. Heo, H. Ma, G.H. Nam-Goong, H. Kim, and F. Bien**, “A 32-dB SNR Readout IC with 20-Vpp Tx Using On-Chip DM-TISM in HV BCD Process for Mutual-Capacitive Fingerprint Sensor,” IEEE Transactions on Circuits and Systems (T-CAS) II / 2019-08 • Jagannath Malik, Sai Kiran Oruganti, Seongkyu Song, Nak Young Ko, and Franklin Bien**, “Electromagnetically Induced Transparency in Sinusoidal Modulated Ring Resonator,” Applied Physics Letters / 2018-06 • Jihun Park, Sanghyun Heo, Kibog Park, Myoung Hoon Song, Juyoung Kim, Gyouhyung Gyung, Rodney Ruoff, Jang-Ung Park and Franklin Bien**, “Research on flexible display at Ulsan national institute of science and technology”, npj (Nature Partner Journals) Flexible Electronics / 2017-11 • Sanghyun Heo, Hyunggun Ma, Joohyeb Song, Kyoungmin Park, Eun-ho Choi, Jae Joon Kim,and Franklin Bien**, “72 dB SNR, 240 Hz Frame Rate Readout IC with Differential Continuous-mode Parallel Architecture for Larger Touch-Screen Panel Applications”, IEEE Transactions on Circuits and Systems I (T-CAS I), Volume:63, Issue 7, p.960-071 / 2016-06

Power & Integrated Circuit Technology for Universal Systems Lab (PICTUS) 전력관리 및 집적회로 시스템 설계 연구실

신세운

_Se-Un Shin

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 301-6 Lab : Bldg. 106 Rm 304-1 Tel : +82-52-217-2291 E-mail : seuns@unist.ac.kr https://sites.google.com/view/pictuslab

Our research interests include power management circuits (linear regulators and switching DC-DC converters), energy harvesting, wireless power transfer, hybrid power converter topology, and analog integrated circuits. Ultimately, We plan to build a complete system solution by incorporating our knowledge in the fields of energy harvesting (photovoltaic, thermoelectric, and piezoelectric) and sensor interfaces for IoT platforms and power and battery management ICs for mobile applications. Moreover, We will extend our research area to high-power and high-frequency inverters/converters for industrial applications. Additionally, to pioneer emerging technology, We will continue to work on synthesizable analog circuits with deep-learning.

Curriculum Vitae · 2021 - Present : Assistant Professor, UNIST · 2019 - 2021 : Assistant Professor, Dankook University (DKU) · 2018 - 2019 : Postdoctoral Researcher, University of Michigan, Ann Arbor, MI, USA

Academic Credential · 2018 : M.S.-Ph.D. combined degree in Electrical Engineering, KAIST. · 2013 : B.S. in Electrical Engineering, Kyungpook National University (KNU).

Major research field Power Management Integrated Circuits (PMICs), Energy Harvesting, Wireless Power Transfer (WPT)

Awards/Honors/Memberships

Research Keywords and Topics

· 2018 : Silver Prize, The 24th HumanTech Paper Award in SAMSUNG · 2018 : ISSCC presentations (1stauthor) in 2018 (two papers) · 2017-2018 : IEEE-SSCS Predoctoral Achievement Award, Awarded based on academic achievements in area of solid-state circuits · 2016 : Bronze Prize, The 22nd HumanTech Paper Award in SAMSUNG · Member of IEEE (Solid-State Circuits Society) · Technical Reviewer IEEE Transactions on Circuits and Systems - I IEEE Transactions on Circuits and Systems - II IEEE Transactions on Power Electronics IEEE Journal of Solid-State Circuits

• Power Management ICs: Switching Inductive/Capacitive DC-DC Converter, LDO Regulator, AC-DC Rectification • Energy Harvesting Circuits • Wireless Power Transfer • Analog Integrated Circuit Design • Low Power IC Design • Mixed Signal IC Circuit Design

Research Publications (selected) • IEEE JSSC / A Time-Interleaved Resonant Voltage Mode Wireless Power Receiver with Delay-based Tracking Loops for Implantable Medical Devices / Se-Un Shin, et al. / 2020-12 • IEEE ISSCC / A 95.2% Efficiency Dual-Path Step-Up Converter with Continuous Output Delivery Current and Low Voltage Ripple / Se-Un Shin, et al. / 2018-02 • IEEE ISSCC / A 13.56MHz Time-Interleaved Resonant-Voltage Mode Wireless Power Receiver with Isolated Resonator and Quasi-Resonant Boost Converter for Implantable Systems / Se-Un Shin, et al. / 2018-02 • IEEE SOVC / A Reconfigurable SIMO System with 10-Output Dual-Bus DC-DC Converter using the Load Balancing Function in Group Allocator for Diversified Load Condition/ Se-Un Shin, et al. / 2016-06

Patents (selected) • “Power switching circuit, a DC-DC converter including the same and a voltage conversion method”, US patent, US16788783 filed on Feb. 12, 2020. • “Wireless Power Receiving Apparatus and Method” US Patent App. 16/043,384

288

Signal Processing Lab 신호처리연구실

spl@UNIST studies nonstationary signal processing / machine learning in the application domains of image acquisition systems / image display systems / product quality inspection / plant & process automation. spl @ UNIST는 이미지 획득 시스템 / 이미지 디스플레이 시스템 / 제품 품질 검사 / 플랜트 및 프로세 스 자동화의 응용 분야에서 비정상 신호 처리 / 머신 러닝을 연구합니다.

Major research field Nonstationary Signal Processing

Desired field of research

양승준

_Seungjoon Yang

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-4 Lab : Bldg. 106 Rm. 410-1 Tel : +82-52-217-2110 E-mail : syang@unist.ac.kr

Product Quality Inspection, Plant & Process Automation

Research Keywords and Topics • Nonstationary Degradation Identification & Restoration • Design of Efficient Deep Neural Networks & Applications • Product Quality Inspection & Process Automation

Curriculum Vitae · Samsung Electronics Co. Ltd.

Academic Credential

Research Publications (selected) • Optics Express / Modeling Nonstationary Lens Blur Using Eigen Blur Kernels for Restoration / Gwak, Moonsung and Seungjoon Yang / 2020-12 • Neural Networks / Efficient Architecture for Deep Neural Networks with Heterogeneous Sensitivity / Cho, Hyunjoong, Jinhyeok Jang, Chanhyuk Lee, and Seungjoon Yang / 2021-02 • IEEE transactions on cybernetics / Facial attribute recognition by recurrent learning with visual fixation / Jang, Jinhyeok, Hyunjoong Cho, Jaehong Kim, Jaeyeon Lee, and Seungjoon Yang / 2019-02

· University of Wisconsin-Madison · Seoul National University

Department of Electrical Engineering

College of Information and Biotechnology

289

Intelligent Systems Lab 지능형시스템연구실

이규호

_Kyuho Lee

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-8 Lab : Bldg. 106 Rm. 410-2 Tel : +82-52-217-2252 E-mail : kyuho.jsn.lee@unist.ac.kr https://sites.google.com/view/kyuhojsnlee

Curriculum Vitae · 2018 - Present : Assistant Professor, UNIST · 2017 - 2018 : Postdoctoral Researcher, KAIST · 2016 : Hardware Designer, SRA, Dallas, TX, USA

Academic Credential · 2017 : Ph.D., Electrical Engineering, KAIST · 2014 : M.S., Electrical Engineering, KAIST · 2012 : B.S., Electrical Engineering, KAIST

Awards/Honors/Memberships · 2019 - Present : IEEE Senior Member · 2016 : Demonstration Session Certificate of Recognition, ISSCC · 2015 : Broadcom Foundation Leadership Award · 2009 : National On-Line Electrical Vehicle Design Contest Award · 2008 - Present : Fellowship from Korea Foundation for Advanced Studies · 2008 - 2012 : Korea Foundation for Advanced Studies Scholarship · 2008 - 2017 : National Science & Technology Scholarship · 2008 : National KSAE Baja & Formula Competition Award, KSAE

Intelligent Systems Laboratory (ISL) aims to make Artificial Intelligence Systems feasible and permeates our dailylife from autonomous drones or vehicles to Internet-of-Things. The AI system is implemented on a single chip based on advanced digital VLSI and analog-digital mixed-mode circuits to utilize Deep Leaning, AI, and Spiking Neural Networks. We design AI System-on-Chip but not limited to Deep Learning (including CNN and RNN) and embedded system in which integrates the AI System-on-Chip. Also, Spiking Neural Network is integrated to design Neuromorphic Processor, which mimics human brain to realize intelligence with ultra-low-power consumption. 지능형 시스템 연구실에서는 실생활에 적용 가능한 인공지능 시스템을 제작하여, 자율주행 드론 및 자동차에서 Internet-of-Things 까지 일상 생활에 인공지능을 적용하는 것을 목표로 연구합니다. 딥 러닝, AI 등의 시스템은 진보된 디지털 VLSI 와 아날로그-디지털 혼성회로를 바탕으로 하나의 칩으 로 구현합니다. 우리는 CNN과 RNN 등 딥러닝뿐만 아니라 포괄적인 AI System-on-Chip을 제작하 며, 각 칩을 집적한 임베디드 시스템을 제작하는 세계 최고의 연구를 도모하고 있습니다. 또한 사람 의 뇌를 모방하여 초저전력 인공지능 연산이 가능한 뉴로몰픽 프로세서를 연구합니다.

Major research field AI System-on-Chip, Deep Learning Processor, Neuromorphic Processor, AI Embedded Systems, Automotive Processor

Desired field of research Mixed-mode Circuits, Quantum Computing Circuits, Autonomous Technologies

Research Keywords and Topics • AI System-on-Chip, Deep Learning Processor, Neuromorphic Processor, AI Embedded Systems, Automotive Processor, Network-on-Chip, Processing-in-Memory Architecture

Research Publications (selected) • IEEE Journal of Solid-State Circuits, vol. 52, no. 1, pp. 139-150 / A 502GOPS and 0.984mW Dual-mode Intelligent ADAS SoC with Real-Time Semi-Global Matching and Intention Prediction for Smart Automotive Black Box System / Kyuho Jason Lee, et al. / 2017-01 • IEEE Journal of Solid-State Circuits, vol. 50, no. 4, pp. 1059-1069 / A Vocabulary Forest Object Matching Processor with 2.07 M-vector/s Throughput and 13.3 nJ/vector Per-Vector Energy for Full-HD 60 fps Video Object Recognition / Kyuho Jason Lee, et al. / 2015-04 • IEEE Transactions on Circuits and Systems I (T-CAS I): Regular Papers, Early Access / The Development of Silicon for AI: Different Design Approaches / Kyuho Jason Lee, et al. / 2020

Patents (selected) • “Cognitive Processor Mimicking Hyper-columns in Visual Cortex”, filed to Korean Patent NO.10-1356786 / Gyeonghoon Kim, Kyuho Lee, Injoon Hong, and Hoi-Jun Yoo / 2014-01

290

Ubiquitous Network Lab 유비쿼터스 네트워크 연구실

* Edge Computing Accelleration Technology development for 5G Ultra-low latency services - Design Architecture for Accellerating Edge Computing - Intenetworking Programmable HW for edge computing with Container tech * SDN based Slice manager desgin and analysis for End-to End QoS Service The service requirements of the next-generation mobile communication network include low latency, high capacity, massive connection, and high reliability, and various radio, access, and core network technologies have been proposed to support this. In particular, the next-generation mobile communication network needs a network slicing function that can flexibly handle various network resources and satisfy quality of service (Qos) end-to-end to reflect future service requirements. SDN (software-defined networking)-based slice manager architecture design that can guarantee end-to-end service quality to service providers is required. * MP-TCP This research aims to improve transmission performance by reducing network throughput, reliable transmission, and transmission delay by using multiple transmission paths. For this purpose, transmission path management, packet transmission scheduling, subflow management, and congestion control in mutipath are handled. Performance analysis in a real network environments are performed for the evaluation of the MP-TCP.

Major research field Real time Access Network for edge/distrbuted cloud service, Multi-Path TCP Protocol design and analysis Reliable IoT Service Management

Desired field of research smart network for smart factory

이재용

_Jaiyong Lee

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 301-1 Tel : +82-52-217-1011 E-mail : jailee35@unist.ac.kr

Curriculum Vitae · 2020 - Present : Professor, Electrical Electronics Computer Engineering Dept. UNIST · 1994 - 2020 : Professor, School of EE, Yonsei University · 1987 - 1994 : Associate Professor, Computer Science Department, POSTECH · 1977 - 1982 : Researcher, ADD (Agency for Defence Development)

Academic Credential

Research Keywords and Topics • Real-time Access Network Architechture for Edge Cloud Services using SDN/NFV/CCN - distributed cloud service architecture - real time wireless access architectue • Multi-path TCP - QoS enhancement for multi interface network - Data scheduling for MPTCP in wireless netwrok • Open IoT Software Platform Development for IoT Services - Sensor Network Life time Enhance ment / Energy efficient Protocol design - Sustainable Service Network Management architecture • IEEE Transactions on Vehicular Technology / Energy-Efficient Relay Selection of Cooperative HARQ based on the Number of Transmissions over Rayleigh-Fading Channels / J. Kim, K. Kim, J. Lee / 2017 • IEEE/ACM Transactions on Networking / Feedback-Based Path Failure Detection and Buffer Blocking Protection for MPTCP / B. H. Oh, J. Lee / 2016 • IEEE Computer Networks / Constraint-based proactive scheduling for MPTCP in wireless networks / OH, Bong-Hwan, LEE, Jaiyong / 2015

Patents (selected)

Awards · 2020 : 해동상(교육부문) 한국공학한림원 · 2019 : 한송엽 공학교육상 한국공학교육학회 · 2016 : 공학교육 표창장(장관상) 교육부 · 2014 : 우수성과창출과제상 (원장상) · 2014 : 정보통신기술진흥기술센터 · 2014 : 공로상 2014.10 5G Forum · 2011 : Special Contribution Award IEEE 54th MWSCAS

Honors · 석좌교수 한국통신학회 · 명예교수 연세대학교

Membership · Member IEEE · Regular Member NAEK(National Academy of Engineering Korea)

• 콘텐츠 중심 네트워크를 구성하는 단말 장치 및 이의 통신 방법, 미국(등록번호 9553790) / 이재용 외 / 2017-01

• 이종의 무선 통신 네트워크에서 핸드오버 장치 및 방법, 미국(등록번호 9319958) / 이재용 외 / 2016-04

College of Information and Biotechnology

291

Department of Electrical Engineering

Research Publications (selected)

· 1987 : Ph.D, Iowa State University, Computer Engineering · 1984 : MS, Iowa State University, Computer Engineering · 1977 : BS, Yonsei University, Electronics Eng.

Nanostructured Photonic Devices Laboratory 나노구조광소자 연구실

이종원

_Jong won Lee

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-9 Lab : Bldg. 106 Rm. 604 Tel : +82-52-217-2165 E-mail : jongwonlee@unist.ac.kr http://npdl.unist.ac.kr

In recent years, technologies in the area of nanophotonics have been explored extensively for variety of applications such as imaging systems, sensors, waveguides, light sources, metamaterials, to name a few examples. Our research aims at developing nanostructured plasmonic devices, metamaterials, metasurfaces, and their applications in mid-infrared (mid-IR) and terahertz (THz) portion of the electromagnetic spectrum (~1-150THz, or 2-300µm).

Curriculum Vitae

최근 들어 나노포토닉스를 기반으로 한 이미징 시스템, 센서, 광도파로, 광원, 메타물질 등의 응용으 로 활발히 연구가 진행되고 있다. 우리 실험실은 중적외선 (mid-IR) 및 테라헤르츠 (THz) 영역에서 (~1-150THz, or 2-300µm) 나노구조를 이용한 플라즈모닉 소자, 메타물질, 메타표면 및 다양한 광학

· 2019 - Present : Associate Professor, UNIST · 2015 - 2019 : Assistant Professor, UNIST · 2015 : Post-doctoral Research Fellow, University of Texas at Austin

Academic Credential · 2014 : Ph.D. Electrical and Computer Engineering, University of Texas at Austin · 2011 : M.S. Electrical and Computer Engineering, University of Texas at Austin · 2009 : B.S. Electrical Engineering, Korea Advanced Institute of Science and Technology (KAIST)

Awards/Honors/Memberships · 2020 : OSK rising star 30 · 한국광학회 평회원 · 한국센서학회 정회원 · 한국물리학회 정회원

· Optical Society of America (OSA) member

기기 응용을 연구하고 있다.

Major research field Plasmonics, Metamaterials, Metasurfaces, Nonlinear Optics, Infrared Spectroscopy

Desired field of research THz photonics and THz communications

Research Keywords and Topics • Active and Nonlinear metasurfaces based on intersubband transitions in MQWs 다중양자우물구조 부밴드전이 기반 능동변환 및 비선형 메타표면

• Ultrasensitive detection of biomolecules using metasurfaces 메타표면 기반 초고감도 바이오 센서

• Remote chemical detection with MIR QCLs 중적외선 양자폭포레이저기반 화학물질 원격탐지 시스템

Research Publications (selected) • D. Kim et al., “Giant nonlinear circular dichroism from intersubband polaritonic metasurfaces” Nano Letters, 20, 8032-8039 (2020). • H. Chung et al., “Generation of E-band metasurface-based vortex beam with reduced divergence angle” Scientific Reports, 10, 8289 (2020). • D. Kim et al., “Spin-controlled nonlinear harmonic generation from plasmonic metasurfaces coupled to intersubband transitions” Advanced Optical Materials, 8, 2000004 (2020). • J. Yu et al., “Third-harmonic generation from plasmonic metasurfaces coupled to intersubband transitions” Advanced Optical Materials, 7, 1801510 (2019). • I. Hwang et al., “Plasmon-enhanced infrared spectroscopy based on metamaterial absorbers with dielectric nanopedestals” ACS Photonics, 5, 3492-3498 (2018). • N. Nookala, J. Lee et al., “Ultrathin gradient nonlinear metasurface with a giant nonlinear response” Optica, 3, 283-288 (2016). • J. Lee et al., “Ultrathin second-harmonic metasurfaces with record-high nonlinear optical response,” Advanced Optical Materials, 4, 664-670 (2016). • J. Lee et al., “Giant nonlinear response from plasmonic metasurfaces coupled to intersubband transitions,” Nature, 511, 65-69 (2014).

Patents (selected) • Optical frequency modulation devices with broadband nonlinear optical responses / Jongwon Lee, Jaeyeon Yu and Seongjin Park / 2018-06 • Optical frequency modulation devices producing third-harmonic generation / Jongwon Lee, Jaeyeon Yu and Seongjin Park / 2018-06

292

Intelligent Computing and Codesign Lab 지능형 컴퓨팅 및 통합설계 연구실

Our research area is digital semiconductor design such as VLSI (Very Large Scale Integration) as well as processor architecture and compiler optimization. Through co-design of algorithm, hardware and software, we invent innovative techniques to optimize performance, power, cost and energy efficiency of emerging computer systems. Examples of such systems include AI (Artificial Intelligence) processors and Systems-on-Chips (SoCs) used for various applications. 우리 연구실의 주요 연구분야는 디지털 반도체 설계, 프로세서 아키텍처 및 컴파일러 등이며, 알고리 즘-하드웨어-소프트웨어의 통합 설계를 통하여 시스템의 성능, 전력, 비용, 에너지 효율성 등을 최적

이종은

_Jongeun Lee

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-5 Lab : Bldg. 106 Rm. 503 Tel : +82-52-217-2116 E-mail : jlee@unist.ac.kr http://iccl.unist.ac.kr

화하는 기술들을 연구합니다. 대표적으로 인공지능 (AI) 프로세서나 각종 응용에 사용되는 시스템온 칩 등이 이러한 기법을 필요로 합니다.

Curriculum Vitae · 2009 - Present : UNIST · 2017 - 2018 : Visiting professor at University of Toronto · 2007 - 2009 : Postdoc researcher at Arizona State University · 2004 - 2007 : Senior researcher at Samsung Electronics · 2002 - 2003 : Visiting scholar at Univ. of California-Irvine

Major research field

Academic Credential

Algorithm-hardware-software co-design, AI and neural network processors, Electronic design automation, Architecture and compilers for embedded system.

· 2004 : Ph.D., in EECS from Seoul National University · 1999 : M.Sc., in EE from Seoul National University · 1997 : B.Sc., in EE from Seoul National University

Research Keywords and Topics • Deep learning processor architecture • Quantization methods for deep neural networks • Resistive Random Access Memory (ReRAM) • In-memory computing • Energy efficiency • Reconfigurable architecture • Compilers

Awards/Honors/Memberships

Research Publications (selected)

Patents (selected) • 세밀한 정밀도 조정이 가능한 곱셈누적기, 대한민국 특허 10-2037043 / 이종은 외 1인 / 2019-10 • 반복 지수 양자화 기법 및 이를 이용한 딥뉴럴 네트워크 하드웨어 장치, 대한민국 및 미국 특허 출 원 중 / 이종은 외 2인

College of Information and Biotechnology

293

Department of Electrical Engineering

• IEEE Access / RRNet: Repetition-Reduction Network for Energy Efficient Depth Estimation / Sangyun Oh, Hye-Jin S. Kim, Jongeun Lee and Junmo Kim / 2020-06 • Proc. of ACM / IEEE International Symposium on Low Power Electronics and Design (ISLPED) / SparTANN: Sparse Training Accelerator for Neural Networks with Thresholdbased Sparsification / Hyeonuk Sim, Jooyeon Choi and Jongeun Lee / 2020-08 • Proc. of the 57th Annual ACM / IEEE Design Automation Conference (DAC) / Learning to Predict IR Drop with Effective Training for ReRAM-based Neural Network Hardware / Sugil Lee, Mohammed Fouda, Jongeun Lee, Ahmed Eltawil and Fadi Kurdahi / 2020-07 • Neural Networks / Cost-effective Stochastic MAC Circuits for Deep Neural Networks, Hyeonuk Sim and Jongeun Lee / 2019-09

· 2016 : Samsung HumanTech Award · Organizing committee / Program committee member : - 2019 : LCTES - 2018 : ASP-DAC - 2017 : ICCAD - 2017 : ASP-DAC - 2017 : VLSI-SoC - 2016 : ICCAD 2016 - 2013 - 2017 : KCS 2013-2017

Robotics and Mobility Lab 로보틱스 및 모빌리티 연구실

전정환

_Jeong hwan Jeon

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-3 Lab : Bldg. 106 Rm. 510-2 Tel : +82-52-217-2254 E-mail : jhjeon@unist.ac.kr http://rml.unist.ac.kr

Dr. Jeon’s areas of expertise lie in the fields of control theory, motion planning, optimization methods, robot algorithms, autonomous systems, and future mobility including selfdriving cars. After years of research at MIT and four years of work at nuTonomy (a self-driving technology startup acquired by Delphi/Aptiv in 2017), he hopes to make everyone’s daily living safer and efficient by technological advances. His current focus of research is on 1) algorithms in robotics and autonomous systems, 2) control theory and applications, 3) the design, development, and deployment of future mobility system and many of its components with maximized safety and efficiency, ultimately aiming for zero traffic fatality. Very often, research outcomes in robotics and control theory lead to the improved future mobility system. 로보틱스 및 모빌리티 연구실의 전문 분야는 제어 이론, 모션 계획, 최적화, 로봇 알고리즘, 자율 시스 템, 그리고 자율주행 자동차를 포함한 미래 모빌리티 분야입니다. MIT에서의 수년간 연구와 nuTon-

Curriculum Vitae

omy (2017년 Delphi/Aptiv가 인수한 자율주행 기술 스타트업 회사)에서의 4년간 근무경험을 바탕으

· 2019 - Present : Assistant Professor, UNIST · 2018 - 2019 : Principal Research Scientist, nuTonomy (an Aptiv company) · 2015 - 2018 : Senior Research Scientist, nuTonomy (an Aptiv company, acquired in 2017)

로, 기술 발전을 통해 모든 사람의 일상 생활을 보다 안전하고 효율적으로 만들고자 합니다. 현재 연구 초점은 1) 로봇 및 자율 시스템을 위한 알고리즘 2) 제어 이론 및 응용 3) 안전성과 효율성이 극대화된 미래 모빌리티 시스템 및 그 구성 요소의 설계, 개발 및 배포를 통해 궁극적으로 교통사고 사망을 방지하는 것에 있습니다. 로보틱스와 제어 이론의 연구 결과는 그 자 체로 미래 모빌리티 시스템을 개선하는 데 도움이 되곤 합니다.

Academic Credential · 2015 : Ph.D. in Aeronautics and Astronautics, MIT · 2009 : S.M. in Aeronautics and Astronautics, MIT · 2007 : B.S. in Mechanical and Aerospace Engineering, Seoul National University

Awards/Honors/Memberships · Member of the IEEE

Major research field control theory, motion planning, optimization methods, learning-based algorithms, robotics, autonomous systems, future mobility, self-driving cars

Research Keywords and Topics • control theory, motion planning, optimization methods, learning-based algorithms, robotics, autonomous systems, future mobility, self-driving cars • safe learning-based algorithms, behavior/intent prediction, safety against malicious attacks, high-performance robotic maneuvers, traffic control for self-driving cars, energy-efficient driving

Research Publications (selected) • International Journal of Applied Mathematics and Computer Science (AMCS) / Iterative methods for efficient sampling-based optimal motion planning of nonlinear systems / J. Ha, H. Choi, J. Jeon / 2018 • IEEE International Conference on Robotics and Automation (ICRA) / Optimal samplingbased feedback motion trees among obstacles for controllable linear systems with linear constraints / J. Jeon, S. Karaman, E. Frazzoli / 2015 • Journal of Field Robotics (JFR) / A situationally aware voice-commandable robotic forklift working alongside people in unstructured outdoor environments / M. Walter, M. Antone, E. Chuangsuwanich, A. Correa, R. Davis, L. Fletcher, E. Frazzoli, Y. Friedman, J. Glass, J. P. How, J. Jeon, S. Karaman, B. Luders, N. Roy, S. Tellex, S. Teller / 2015 • American Control Conference (ACC) / Optimal motion planning with the half-car dynamical model for autonomous high-speed driving / J. Jeon, R. V. Cowlagi, S. C. Peters, S. Karaman, E. Frazzoli, P. Tsiotras, K. Iagnemma / 2013 • IEEE Conference on Decision and Control and European Control Conference (CDCECC) / Anytime computation of time-optimal off-road vehicle maneuvers using the RRT* / J. Jeon, S. Karaman, E. Frazzoli / 2011

294

Nano-Optoelectronics Lab 나노광전자 연구실

We explore new science and technologies on nano-structured optoelectronic devices for applications in ultrahigh-speed communications for data centers and 6G backbones, bio/medical diagnosis silicon phontonic chips, ultra bright CMOS image sensors, and next generation LiDAR sensors. We are equipped with nano-photonics theory, numerical simulation codes/tools/methodologies, epitaxy designs, clean-room fabrication technologies, and advanced characterization set-ups. 우리 연구실에서는, 나노구조를 사용한 다양한 신개념의 광전소자를 연구하고, 그 결과가 초고속 데 이터센터 통신, 6G 기간망 통신, 바이오/의학 진단용 실리콘 칩, 차세대 CMOS image sensor, 차세대

정일석

_Il-Sug Chung

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-6 Lab : Bldg. 106 Rm. 603-1 Tel : +82-52-217-2102 E-mail : ischung@unist.ac.kr http://nano-opto.unist.ac.kr/

LiDAR 센서 등의 응용분야에 기술적 혁신으로 연결되는 것을 목표로 합니다. 이를 위해 필요한 나노 포토닉스 이론, 수치계산 코드/툴, epitaxy design, 클린룸 공정기술, 고성능 측정장비 및 분석방법을 갖추고 있습니다.

Curriculum Vitae · 2018 - Present : Associate Professor (tenure), School of Electrical and Computer Engineering, UNIST · 2011 - 2019 : Associate Professor (tenure), Department of Photonics Engineering, Technical University of Denmark · 2009 - 2011 : Assistant Professor, Department of Photonics Engineering, Technical University of Denmark · 2006 - 2018 : Postdoc at Research Center COM, Denmark

Major research field 나노포토닉스, 실리콘 기반 초고속 저전력 레이저, 실리콘 집적 고출력 레이저, 신개념 CMOS 이미지 센 서, LiDAR sensor, MEMS tunable devices

Research Keywords and Topics • Silicon photonics • High-speed laser • MEMS • LiDAR sensor • Super-bright CMOS image sensor • Tunable photodetector

Academic Credential · 2006 : Ph.D. in Information and Communications (Optoelectronics) from GIST · 2000 : M.Sc. in Physics from KAIST · 1997 : B.Sc. in Physics from KAIST

Research Publications (selected)

Department of Electrical Engineering

• Applied Physics Letters / Quasi bound states in the continuum with few unit cells of photonic crystal slab / Alireza Taghizadeh and Il-Sug Chung (corresponding author) / 2017-07 • Optics Express / Hybrid III-V/SOI resonant cavity enhanced photodetectors / Supannee Learkthanakhachon, Alireza Taghizadeh, Gyeong Cheol Park, Kresten Yvind, and IlSug Chung (corresponding author) / 2016-07 • Laser and Photonics Reviews / Hybrid vertical-cavity lasers with lateral emission into a silicon waveguide / Gyeong Cheol Park, Weiqi Xue, Alireza Taghizadeh, Elezaveta Semenova, Kresten Yvind, Jesper Mork, and Il-Sug Chung(corresponding author) / 2015-04

Patents (selected) • Hybrid vertical-cavity laser / Il-Sug Chung / EP2396861 granted on 2012-12 and US9,184,562 granted on 2015-11 • Laser device, US8,948,223 / Il-Sug Chung / 2015-02

College of Information and Biotechnology

295

Advanced Power Interface & Power Electronics Lab (APIPEL) 전력변환연구실

정지훈

_Jee-hoon Jung

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 301-2 Lab : Bldg. 106 Rm. 304-2, 305-1 Tel : +82-52-217-2140 E-mail : jhjung@unist.ac.kr http://apipel.unist.ac.kr

Curriculum Vitae · 2017 - Present : Associate Professor, Electrical Engineering, UNIST · 2013 - 2016 : Assistant Professor, UNIST · 2011 - 2012 : Senior Researcher, Power Conversion and Control Research Center, Korea Electro technology Research Institute (KERI) · 2009 - 2010 : Postdoctoral Research Associate, School of Electrical and Computer Engineering, Texas A&M University at Qatar (TAMUQ) · 2006 - 2009 : Senior Engineer, Digital Printing Division, Samsung Electronics Co., Ltd.

Academic Credential · 2006 : Ph. D., Electronic and Electrical Engineering, Pohang University of Science and Technology (POSTECH) · 2002 : M. S., Electronic and Electrical Engineering, POSTECH · 2000 : B. S., Electronic and Electrical Engineering, POSTECH

Awards/Honors/Memberships · 2020 : Best paper award from Journal of Power Electronics (JPE) · 2019 - Present : Asian Liason Officer of Industrial Power Converter Committee (IPCC) in the IEEE IAS · 2018 - Present : Editorial Board Member for Energies in the Multidisciplinary Digital Publishing Institute (MDPI) · 2014 - 2017, 2019 - Present : Associate Editor of Journal of Power Electronics (JPE) · 2014 - Present : Senior Member of IEEE Power Electronics, Industrial Electronics, Industry Applications, and Power & Energy Societies

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The research of APIPEL is focused on power conversion, power control, and power interface technology for the various industrial applications of consumer electronics, renewable energy, electric vehicles, etc. Particular interests are concerned with power applications of smart grids, wireless power transmission, dc micro/nano grids, real-time & power hardware-in-the-loop simulation using power converter/inverter topologies, power semiconductors, and digital signal processors with intelligent signal processing and digital control algorithms.

Major research field Power Converters, Wireless Power Transfer, Smart Power Interface, Power HIL System, Induction Heating System

Desired field of research AI-based Power Control System, Multifunctional Power Conversion System, Intelligent Power Interface

Research Keywords and Topics • High frequency power interface for consumer electronics, EV/ES, renewable energy, and EMI reduction 고주파 전력 인터페이스 : 가전, 전기추진, 신재생 에너지, EMI 저감용 고집적 전력변환

• Resonant power interface for wireless power transfer, resonant converters/inverters, IH applications 공진형 전력 인터페이스 : 무선전력전송, 공진형 컨버터/인버터, 유도가열 응용

• Bidirectional power interface for smart grid/DC microgrid, grid-interactive converters, ESS applications 양방향 전력 인터페이스 : 스마트그리드/마이크로그리드, 에너지 저장장치 응용

• Real-time and power hardware-in-the-loop simulation (PHILS) for various power systems 실시간 전력 HIL 모의시험 기술 : 다양한 전력계통, 신재생에너지원, 전력인터페스 모사

Research Publications (selected) • IEEE Transactions on Industrial Electronics / Effective Magnetic Component Design of Three Phase Dual Active Bridge Converter for LVDC Distribution System / Hyunjun Choi, Bong-Kyo Seo, Myunghyo Ryu, Young-Pyo Cho, and Jee-Hoon Jung / 2021-03 • IEEE Transactions on Industrial Electronics / Enhanced Dual-Active-Bridge DC-DC Converter for Balancing Bipolar Voltage Level of DC Distribution System / Jun-Young Lee, Ho-Sung Kim, and Jee-Hoon Jung / 2020-12 • IEEE Transactions on Power Electronics / Practical Design Methodology of IH and IPT Dual-Functional Apparatus / Mina Kim, Hwa-Pyeong Park, and Jee-Hoon Jung / 2020-09

Patents (selected) • INDUCTION HEAT COOKING APPARATUS TO IMPLEMENT WPT AND PFC POWER CONVERTER, 국외 / 정지훈 외 / 2021-02 • METHOD AND APPARATUS FOR CONTROLLING OUTPUT VOLTAGE OF INTERLEAVED LLC RESONANT CONVERTER USING SPREAD SPECTRUM, 국내 / 정지훈 외 / 2020-02

THz Vacuum Electronics and Applied Electromagnetics Lab (TEE Lab) 테라헤르츠파 & 전자파응용 연구실

The terahertz wave is a next-generation electromagnetic wave (0.1-10 THz) that is receiving much attention in recent years as 6G communication is highly feasible in the near future. The terahertz wave & electromagnetic wave application lab mainly focuses on 1) high-power compact terahertz wave generation techniques and 2) electromagnetic wave application research. Our lab is trying to implement high-power terahertz waves using the concept of a traveling wave amplifier using vacuum electronics microfabrication. We are pursuing nextgeneration communication/security/medical application research through freely implementing electromagnetic wave manipulation through focusing of electromagnetic wave beams, generation of multiple rotation modes, and interaction with materials.

최은미

_EunMi Choi

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 701-3 Lab : Bldg. 108 Rm 405 Tel : +82-52-217-2120 E-mail : emchoi@units.ac.kr

Curriculum Vitae

Major research field Microfabricated vacuum electron devices in millimeter/THz, OAM electromagnetics, high power THz sources, 6G communications

Research Keywords and Topics • Microfab-vacuum electron devices in millimeter/THz 마이크로공정과 전자빔 기반의 테라헤르츠 증폭/발진기 개발

• 6G wireless communications via OAM-MIMO based on E-band double beam vacuum device 6G E-band 대역 OAM-MIMO 무선 통신 시스템 연구

· 2014 - Present : Associate professor at UNIST · 2010 - 2014 : Assistant professor at UNIST · 2008 - 2009 : Physicist in Schlumberger in Houston, TX. · 2007 - 2008 : Post Doc in at Brookhaven National Laboratory, Long Island, NY.

Academic Credential

• Exotic electromagnetics transmission/propagation

· 2007 : Ph.D in Physics, Massachusetts Institute of Technology (MIT) · 2002 : M.S. in Physics, POSTECH · 2000 : B.S. in Physics, Ewha Womans University

테라헤르츠 전자기파 전송 및 모드변환

• OAM electromagnetics 궤도각운동량을 가진 전자기파 연구

• Interaction between electrons and meta-structures/Smith-Purcell radiation 전자 및 메타구조, 전자기파 및 메타구조 상호작용 연구

• EM wave based material characterization

Awards/Honors/Memberships

RF/밀리미터파/THz 대역 물질 특성 연구

• Remote detection of radioactive material based on electromagnetic waves 고출력 전자기파를 이용한 원거리 방사능 탐지 기법 연구

Research Publications (selected)

개발성과평가 근정포장)

· 2016 - Present : Associate Editor in Journal of Electromagnetic Engineering and Science · IEEE Member, APS member

Patents (selected) • 궤도 각운동량을 이용한 전이중 통신 안테나 설계 및 그 장치, 출원번호 10-2020-0063722 • 준광학 밀리미터 및 테라헤르츠파를 이용한 반도체 캐리어 수명 측정, 등록번호 10-2062701

College of Information and Biotechnology

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Department of Electrical Engineering

• IEEE Wireless Communications / Ultimate Capacity Analysis of Orbital Angular Momentum Channels / A. Sawant, I. Lee, B.C. Jung, and E. M. Choi / 2021-02 • IEEE Transactions on Terahertz Science and Technology / Microscopic Analyses of Electrical Conductivity of Micromachined-Folded Waveguides Based on Surface Roughness Measurement for Terahertz Vacuum Electron Devices / I. G. Lee, W. Choi, J. Shin, and E. M. Choi / 2018-11 • IEEE Transactions on Electron Devices / Self-Driving, Energy-Recirculating Micromachined G-Band Folded Waveguide Traveling-Wave Tube / I. G. Lee, A. Sawant, W. Choi, J. W. Shin, and E. M. Choi / 2018 • Nature Communications / Remote Detection of Radioactive Material using High-Power Pulsed Electromagnetic Radiation / D. S. Kim, D. H. Yu, A. Sawant, M. S. Choe, I. G. Lee, S. G. Kim, and E. M. Choi / 2017

· 2019 - Present : Associate Editor in IEEE Transactions on Terahertz Science and Technology · 2018 - Present : Associate Editor in Journal of the Korean Physical Society · 2018 : 국가연구개발 최우수성과 12선 · 2018 : Service Merit Medal from Korea Government (대한민국 국가연구

Intelligent Wireless Communications Laboratory 지능형 무선통신 연구실

최진석

_Jinseok Choi

Department of Electrical Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 301-5 Lab : Bldg. 106 Rm. 302 Tel : +82-52-217-2290 E-mail : jinseokchoi@unist.ac.kr https://sites.google.com/site/jinseokch oi89/

Our primary field of research is wireless communication which is an essential technology for accomplishing a life-level 4th industrial revolution that requires both 6G communication systems and life-level IoT environments. For next generation wireless communication systems, we aim to develop state-of-the-art communication techniques based on information theory, signal processing, and machine learning. In addition, we are expanding our research interests into developing IoT-oriented communication systems to realize true life-level IoT environments. IWCL 연구실의 주 연구분야는 무선통신이며, 이것은 4차 산업혁명을 실생활 수준으로 실현시키기 위한 필수적인 기술이다. 이를 실현시키기 위해서는 6G 통신 시스템 그리고 실생활에서 적용되는 IoT 환경이 필요하다. 따라서 IWCL 연구실은 정보이론, 신호처리, 그리고 머신러닝을 이용하여 차세 대 통신 시스템 구축을 위한 알고리즘을 개발하고 있으며, IoT환경을 실생활에서 구축하기위한 IoT-

Curriculum Vitae · 2020 - Present : Assistant Professor, Electrical and Computer Engineering, UNIST, Ulsan, Republic of Korea, · 2019 - 2020 : Senior System Engineer, Qualcomm Wireless R&D, San Diego, CA, USA, · 2016, 2017, 2018 : Graduate Intern, FutureWei Technologies, Plano, TX, USA

Academic Credential · 2019 : Ph.D in Electrical and Computer Engineering, The University of Texas at Austin, Austin, TX, USA · 2016 : MS in Electrical and Computer Engineering, The University of Texas at Austin, Austin, TX, USA · 2014 : Bachelor in Electrical and Electronic Engineering, Business Administration (dual degree), Yonsei University, Seoul, Korea

Awards/Honors/Memberships · 2017 : Engineering Fellowship Award · Friends of Alec Graduate Student Fellowship Fund, The University of Texas at Austin · 2016 : Top Electrical and Computer Engineering Teaching Assistant Award, The University of Texas at Austin · 2016 : Electrical and Computer Engineering Teaching Assistant Award, The University of Texas at Austin · 2016, 2018 : ECE Professional Development Award, The University of Texas at Austin · 2015 : Best Project Award in EE381V, The University of Texas at Austin

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oriented 통신시스템 개발에 대한 연구도 진행 중이다.

Major research field

Desired field of research

Wireless Communications, Machine Learning-aided Communication Systems

Deep Learning, Wireless Communications for Machine Learning

Research Keywords and Topics • Wireless Communications, Multiple-Input and Multiple-Output (MIMO) Systems, Massive MIMO, Millimeter Wave Communications, Beamforming, Hybrid Analog/Digital Beamforming, Machine Learning-aided Communications, IoT Communications, Massive Connectivity, Physical Layer Security, Ultra Low Latency Communications, Energy Efficient Communications, Systems with Low-Resolution ADCs and DACs, Cloud Radio Access Network, Device-to-Device Communications, Reconfigurable Intelligent Surface-aided Communications

Research Publications (selected) • IEEE Transactions on Signal Processing / Two-Stage Analog Combining in Hybrid Beamforming Systems with Low-Resolution ADCs / Jinseok Choi, Gilwon Lee, and Brian L. Evans / 2019-05 • IEEE Transactions on Signal Processing / Resolution-Adaptive Hybrid MIMO Architectures for Millimeter Wave Communications / Jinseok Choi, Brian L. Evans, and Alan Gatherer / 2017-12 • IEEE Communications Magazine / Advanced Receiver Architectures for Millimeter Wave Communications with Low-Resolution ADCs / Jinseok Choi, Gilwon Lee, Ahmed Alkhateeb, Alan Gatherer, Naofal Al-Dhahir, and Brian L. Evans

Patents (selected) • ADC Bit Allocation under Bit Constrained MU-Massive MIMO Systems, U.S. Patent Application No. 15/720,743 / Alan Gatherer and Jinseok Choi

department of Computer Science and engineering 컴퓨터공학과

Geometric Algorithms Lab 기하 알고리즘 연구실

비뉴롱, 앙투안 _Antoine Vigneron Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 701-1 Tel : +82-52-217-3186 E-mail : antoine@unist.ac.kr http://algo.unist.ac.kr/

Our main research area is computational geometry. In particular, we design and analyze worst-case efficient algorithms for various geometric problems. Our recent research topics include geometric pattern matching and path planning under geometric constraints. 우리의 주요 연구 분야는 계산 기하학입니다. 특히, 다양한 기하적 문제에 대해 최악의 경우 효율적 인 알고리즘을 설계하고 분석합니다. 우리의 최근 연구 주제는 기하적 패턴 매칭과 기하적 제약에 따른 경로 계획입니다.

Curriculum Vitae · 2016 - Present : Associate Professor of Computer Science and Engineering, UNIST · 2010 - 2015 : Associate Professor of Computer Science, KAUST, Saudi Arabia · 2006 - 2009 : Research Scientist, INRA, France · 2002 - 2005 : Assistant Professor of Computer Science, National University of Singapore

Academic Credential · 2002 : PhD in Computer Science, Hong Kong University of Science and Technology · 1999 : M.Sc. in Computer Science, École Polytechnique, Paris · 1998 : Engineer Diploma, École Polytechnique, Paris

Memberships · Program committee member -2021 : SoCG -2020 : ISAAC -2017 : WALCOM -2015 : SoCG -2013 : ISAAC -2005 : SoCG

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Major research field

Desired field of research

Computational geometry, algorithms design and analysis

Geometric pattern matching, path planning

계산 기하, 알고리즘 설계 및 분석

기하 패턴 매칭 , 경로 계획

Research Keywords and Topics • Computational Geometry, Algorithms Design and Analysis, Approximation Algorithms, Computational Complexity, Combinatorial Optimization, Path Planning, Pattern Matching 계산 기하학, 알고리즘 설계 및 분석, 근사 알고리즘, 계산 복잡도, 조합 최적화, 경로 계획, 패턴 매칭

Research Publications (selected) • ACM Transactions on Algorithms / Cheng SW, Mencel L, Vigneron A / 2016 • Algorithmica / Ahn HK, Bae SW, Cheong O, Gudmundsson J, Tokuyama T, Vigneron A / 2014 • ACM Transactions on Algorithms / Vigneron A / 2014 • Discrete & Computational Geometry / Yan L, Vigneron A / 2014 • SIAM Journal on Computing / Cheng SW, Na HS, Vigneron A, Wang Y / 2010 • SIAM Journal on Computing / Cheng SW, Na HS, Vigneron A, Wang Y / 2008 • Algorithmica / Fournier H, Vigneron A / 2008 • Algorithmica / Fournier H, Vigneron A / 2007 • Algorithmica / Cheng SW, Vigneron A / 2007 • Discrete & Computational Geometry / Alt H, Cheong O, Vigneron A / 2005 • SoCG / Binham D, Machado P, Vigneron A / 2017 • SODA / Cheng SW, Jin J, Vigneron A / 2015 • SoCG / Vigneron A, Yan L / 2013 • SODA / Vigneron A / 2010 • SODA / Cheng SW, Na HS, Vigneron A, Wang Y / 2007 • SoCG / Cheng SW, Na HS, Vigneron A, Wang Y / 2007 • SoCG / Ahn HK, Cheong O, Park CD, Shin CS, Vigneron A / 2005 • SODA / Cheng SW, Vigneron A / 2002 • SoCG / Ahn HK, Cheong O, Matousek J, Vigneron A / 2000

Agents and Robotic Transportation Lab 에이전트 & 로봇 운송 연구실

Agents and Robotic Transportation Lab (a.k.a. AI, Robotics, and Transportation Lab) is a research lab dedicated to Artificial Intelligence and Robotics research. Our goal is to scientifically investigate the foundations of intelligent systems for decision making and problem solving, using techniques such as planning, machine learning, automated reasoning, and game theory. Apart from traditional AI topics, our lab also focuses on AI/robot systems in transportation and logistics domains. 에이전트 및 로봇 운송 연구소 (AI, 로봇 공학 및 운송 연구소)는 인공 지능 및 로봇 공학 연구 전문 연 구소입니다. 우리의 목표는 계획, 기계 학습, 자동화된 추론 및 게임 이론과 같은 기술을 사용하여 의 사 결정 및 문제 해결을 위한 지능형 시스템의 기초를 과학적으로 조사하는 것입니다. 기존 AI 주제

오, 지추 _Tsz-Chiu Au Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 701-6 Lab : Bldg. 106 Rm. 709-2 Tel : +82-52-217-2138 E-mail : chiu@unist.ac.kr https://ai.unist.ac.kr/~chiu

외에도, 우리 연구소는 운송 및 물류 분야의 AI / 로봇 시스템에 중점을 둡니다.

Curriculum Vitae · 2020 - Present : Associate Professor. Ulsan National Institute of Science and Technology. South Korea · 2012 - 2019 : Assistant Professor. Ulsan National Institute of Science and Technology. South Korea · 2008 - 2012 : Postdoctoral Fellow. The University of Texas at Austin. U.S.A

Academic Credential

Major research field

Desired field of research

Artificial Intelligence, Robotics, Intelligent Transportation Systems

Game Theory, Deep Learning, Virtual Reality, etc.

Research Publications (selected)

Patents (selected) • The Design of Augmented Reality Glasses, Korean domestic patent / Young-woo Park, et al. / 2017

Awards/Honors/Memberships · 2019 - Present : Co-chair of IEEE Robotics and Automation Society Technical Committee on Algorithms for Planning and Control of Robot Motion · 2019 - 2020 : Senior program committee member of IJCAI · 2019 : AAMAS · 2007 - 2008 : Dean’s Fellowship Award, University of Maryland, College Park · 2005 : Third-place in the 20th Anniversary Iterated Prisoner’s Dilemma Competition’s “Noise” category · 2002 : Best Paper award - ECCBR · 2000 - 2002 : Graduate Fellowship, University of Maryland, College Park

College of Information and Biotechnology

301

Department of Computer Science and Engineering

• Proceedings of the International Conference on Robotics and Automation (ICRA) / Multiple-Place Swarm Foraging with Dynamic Robot Chains / D. Lee, Q. Lu, and T.C. Au / 2021 • Intelligent Service Robotics (JIST) / Autonomous Drone Racing: Challenges and Implemented Technologies / H. Hoon, et al. / 2019 • Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) / Scheduling of Mobile Workstations for Overlapping Production Time and Delivery Time / D. Lee and T.-C. / 2019 • Proceedings of the IEEE Intelligent Vehicles Symposium(IV) / A Constant-Time Algorithm for Reachability of Arrival Times and Velocities / T. Nguyen and T.-C. Au. / 2019 • Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems(IROS) / Learning of Vehicular Performance Models for Longitudinal Motion Planning to Satisfy Arrival Requirements / T. Nguyen, D. Nguyen, and T.-C. Au. / 2017

· 2008 : Ph.D in Computer Science. University of Maryland, College Park. U.S.A · 2002 : M.S. in Computer Science. University of Maryland, College Park. U.S.A · 1997 : B.Eng. in Computer Science. Hong Kong University of Science and Technology. Hong Kong

Intelligent Visualization and Human-Computer Interaction 지능형 시각화 및 HCI 연구실

고성안

_Sungahn Ko

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-10 Lab : Bldg. 106 Rm. 404 Tel : +82-52-217-2161 E-mail : sako@unist.ac.kr http://ivader.unist.ac.kr/

Curriculum Vitae · 2020 - Present : Associate Professor, Department of Computer Science and Engineering, UNIST · 2016 - Present : Assistant Professor, Department of Electrical and Computer Engineering, UNIST · 2014 - 2015 : Postdoc Researcher, School of Electrical and Computer Engineering, Purdue

Academic Credential · 2014 : Ph.D. in Electrical & Computer Engineering, Purdue University · 2008 : M.S. in Electrical & Computer Engineering, KAIST · 2006 : B.E. in Electrical Engineering, Korea University.

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Major research field 딥러닝 모델, 인공지능 시각화, 교통인공지능, 스토리텔링, Data Story

Desired field of research 스마트시티, 헬스케어, 추천시스템, AI+UI/UX/ AI 기반 인간-컴퓨터 상호작용 기술

Research Keywords and Topics • Traffic AI/Deep Learning Models/Visualization with AI 교통인공지능 및 인공지능 기반 시각화 기술 연구

• Human factors on visual data analysis (Visual Bias, Visual Working Memory) 효율적인 데이터 분석을 위한 인간과 기계의 상호작용 기술 및 영향 연구

Research Publications (selected) • Yunha Han, Hwiyeon Kim, Hyeshin Chu, Joohee Kim, Hyunwook Lee, Seunghyeong Choe, Dooyoung Jung, Dongil Chung, Bum Chul Kwon, Sungahn Ko Wait, Let's Think about Your Purchase Again: A Study on Interventions for Supporting Self-Controlled Online Purchases, The Web Conference (WWW), 2021 • Hyunwook Lee, Cheonbok Park, Seungmin Jin, Hyeshin Chu, Jaegul Choo, Sungahn KoAn Empirical Experiment on Deep Learning Models for Predicting Traffic Data, IEEE International Conference on Data Engineering (ICDE), 2021 • Chunggi Lee, Sanghoon Kim, Dongyun Han, Hongjun Yang, Young-Woo Park, Bum Chul Kwon, Sungahn Ko GUIComp: A GUI Design Assistant with Real-Time, MultiFaceted Feedback (2020) ACM Conference on Human Factors in Computing Systems (CHI) , Pages 1-13 • Chunggi Lee, Yeonjun Kim, Seungmin Jin, Dongmin Kim, Ross Maciejewski, David Ebert, and Sungahn Ko A Visual Analytics System for Exploring, Monitoring, and Forecasting Road Traffic Congestion IEEE Transactions on Visualization and Computer Graphics (TVCG), 2020

Applied Cryptography Lab 응용 암호학 연구실

Our main field of research is secure computation, which aims to develop advanced cryptographic primitives to protect sensitive data of individuals. In particular, we are interested in “Homomorphic Encryption” which is an encryption scheme that allows for operations on encrypted inputs without decryption. Currently, we are working on the development of privacy-preserving protocols in a wide range of applications such as genome analysis and machine learning (e.g., action, face, voice recognition). 주요 연구 분야는 개인의 민감한 데이터를 보호하기 위한 암호화 기술을 개발하는 것입니다. 특히, 암호 해독 없이 암호화된 데이터에 대한 연산을 허용하는 암호 체계인 “동형 암호”를 연구하고 있습 니다. 또한 유전체 분석 및 기계 학습 (예 : 행동, 얼굴, 음성 인식)과 같은 광범위한 분야에서 개인 정 보를 보호하는 동형 암호 프로토콜을 개발하고 있습니다.

Major research field Homomorphic Encryption, Secure Multi-Party Computation, Secure Genome Analysis, Privacy-Preserving Artificial Intelligence

_Miran Kim

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 701-7 Lab : Bldg. 106 Rm. 303-1 Tel : +82-52-217-2256 E-mail : mirankim@unist.ac.kr https://sites.google.com/site/mirankim 0618

Desired field of research Curriculum Vitae Oblivious Neural Network Inference, Privacy-Preserving Vision AI

Research Keywords and Topics • Homomorphic Encryption, Secure Multi-Party Computation, Secure Genome Analysis, Privacy-Preserving Artificial Intelligence 동형 암호, 다자간 연산, 안전한 유전체 분석, 개인정보를 보호하는 인공지능

Research Publications (selected) • ACM Conference on Computer and Communications Security (CCS) / Efficient MultiKey Homomorphic Encryption with Packed Ciphertexts with Application to Oblivious Neural Network Inference / Hao Chen, Wei Dai, Miran Kim, Yongsoo Song / 2019-11 • ACM Conference on Computer and Communications Security (CCS) / Secure Outsourced Matrix Computation and Application to Neural Networks / Xiaoqian Jiang, Miran Kim, Kristin Lauter, Yongsoo Song / 2018-10 • Asiacrypt / Homomorphic Encryption for Arithmetic of Approximate Numbers / Jung Hee Cheon, Andrey Kim, Miran Kim, Yongsoo Song / 2017-12

Patents (selected) • [국외] Performing Computations on Sensitive Data While Guaranteeing Privacy / Xiaoqian Jiang, 김 미란, Kristin Lauter, 송용수 / 2021

• [국외] Apparatus for Approximately Processing Encrypted Messages and Methods Thereof / 천정 희, 송용수, 김안드레이, 김미란, 한규형 / 2020

김미란

· 2020 - Present : Assistant Professor, Dept. of Computer Science and Engineering, Graduate School of Artificial Intelligence, UNIST · 2018 - 2020 : Assistant Professor, School of Biomedical Informatics, The University of Texas, Health Science Center at Houston · 2017 - 2018 : Postdoctoral Researcher Health Department of Biomedical Informatics, The University of California, San Diego · 2015 : Research Intern, Microsoft Research

Academic Credential · 2017 : Ph.D. in Seoul National University - Cryptography (Mathematics) · 2012 : M.S. in Seoul National University - Representation Theory (Mathematics) · 2010 : B.S. in Seoul National University - Mathematical Education

Awards/Honors/Memberships · 2018 : 한국여성수리과학회 여성수학자상 · 2016 : 국가암호공모전 대상

College of Information and Biotechnology

303

Department of Computer Science and Engineering

· 2015, 2017, 2018 : iDASH Genomic Data Privacy and Security Competition (by National Institutes of Health) 1st prize

Software Testing and Analysis Research Lab 소프트웨어 테스팅 및 분석 연구실

김미정

_Mijung Kim

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 801-6 Lab : Bldg. 106 Rm. 803-2 Tel : +82-52-217-2297 E-mail : mijungk@unist.ac.kr http://mjkim720.github.io

In Star (Software Testing and Analysis Research) lab, we are developing automated techniques for improving software reliability, securities, and trustworthiness. Our techniques perform test generation, fuzzing, regression testing, defect prediction, and mining software repositories. We also validate such techniques on real-world software systems, such as open-source projects and Artificial Intelligence (AI) software systems. 저희 소프트웨어 테스팅 및 분석 연구실에서는 소프트웨어의 신뢰성, 보안, 안정성을 향상시키기 위 한 자동화 테스팅 기술을 개발하고 있습니다. 우리 기술은 테스트 자동 생성, 퍼징, 회귀 테스트, 결함 예측 및 소프트웨어 저장소 데이터 등 다양한 방식으로 테스팅을 수행합니다. 또한, 본 연구실에서는 기술 개발뿐만 아니라 개발된 기술을 오프소스 소프트웨어 및 인공지능 시스템 등 실제 시스템에 적 용하고 검증하는 것을 목표로 합니다.

Curriculum Vitae · 2021 - Present : Assistant Professor, UNIST, South Korea · 2020 - 2021 : Postdoc, Purdue University USA · 2014 - 2015 : Research Assistant, Hong Kong University of Science and Technology, Hong Kong · 2005 - 2008 : Software Engineer, Samsung Electronics, South Korea

Academic Credential · 2019 : Ph.D., Computer Science and Engineering, Hong Kong University of Science and Technology, Hong Kong · 2010 : M.S., Computer Science, Georgia Institute of Technology, USA · 2005 : B.S., Computer Science, University of Illinois at Urbana Champaign, USA

Awards/Honors/Memberships · 2012 : Google Diversity Award

Major research field

Desired field of research

Test Generation, Fuzzing, Security Vulnerability Detection, Regression Testing, Search-based Software Testing, Mining Software Repository, and Defect Prediction

Software Testing for Artificial Intelligence Systems Artificial Intelligence for Software Testing

Research Keywords and Topics • Automated Test Generation - Test Generation for Diverse Program Behavior - Fuzzing for security vulnerability detection - Filtering False Test Failures

Research Publications (selected) • Mijung Kim, Shing-Chi Cheung, and Sunghun Kim. Which generated test failures are fault revealing? prioritizing failures based on inferred precondition violations using PAF. International Symposium on the Foundations of Software Engineering (ESEC/FSE). 2018 • Mijung Kim, Jaechang Nam, Jaehyuk Yeon, Soonhwang Choi, and Sunghun Kim. Remi: Defect prediction for efficient API testing. International Symposium on the Foundations of Software Engineering (ESEC/FSE). 2015 • Mijung Kim, Jake Cobb, Mary Jean Harrold, Tahsin Kurc, Alessandro Orso, Joel Saltz, Andrew Post, Kunal Malhotra, and Shamkant B. Navathe. Ecient regression testing of ontology-driven systems. International Symposium on Software Testing and Analysis (ISSTA). 2012

Patents (selected) • Kunal Taneja, Teresa Tung, and Mijung Kim / Testing framework for policy-based workfows / US Patent #20150095895 / 2015-04

304

3D Shape Analysis Laboratory 3차원 형상 분석 연구실

Our world consists of various 3D objects with their own shape characteristics. Recent advances in computational power allow us to navigate our world without 2D projection that limits encoding of 3D objects. 3D shape analysis aims at the automatic analysis of 3D objects naturally represented by 3D geometry. The applications in this field span multidisciplinary areas such as medical imaging. Our team seeks cutting-edge techniques in this field, and In its application domain, we endeavor to support the study of human cognition/behaviors or brain diseases/disorders (Alzheimer disease, autism spectrum disorder, etc.). 우리의 세계는 고유한 모양 특성을 가진 다양한 3차원 개 체들로 구성되어 있습니다. 컴퓨터 계산 능력의 발전과 함

류일우

_Ilwoo Lyu

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 801-5 Lab : Bldg. 106 Rm. 803-1 Tel : +82-52-217-2298 E-mail : ilwoolyu@unist.ac.kr https://ilwoolyu.github.io/

께 개체들의 3차원 데이터 표현 및 계산이 용이해졌고, 그 것을 통해 3차원 개체들의 입체적인 이해가 가능해졌습 니다. 이러한 맥락에서 본 연구실은 3차원 기하학적 접근 을 통해 3차원 개체의 다양한 특성을 자동으로 분석하는

Curriculum Vitae

것을 목표로 합니다. 3차원 형상 분석은 의료 영상, 생물 학, 인체 공학, 로봇 공학, 재료/화학 공학 등과 같은 다양 한 분야에 응용될 수 있습니다. 대표적인 응용분야로서, 본 연구실은 대뇌 형상 분석을 통해 인간의 인지/행동 또 는 뇌 장애(자폐 스펙트럼 장애, 알츠하이머병 등)에 대한 이해를 돕는 연구를 수행하고 있습니다.

Major research field 3D shape analysis Medical image processing Computer vision Machine learning Computational anatomy

· 2021 - Present : Assistant Professor of CSE, UNIST · 2017 - 2021 : Research Assistant Professor of EECS, Vanderbilt University · 2015 : Research Intern, IBM Almaden Research Center

Desired field of research

Academic Credential

Intelligent healthcare Shape analysis in multidisciplinary areas

Research Keywords and Topics • Landmark extraction, shape quantification, shape correspondence, shape segmentation 특징 추출, 형태 정량화, 형태 정합, 영역 분할

· 2017 : Ph.D. in Computer Science, the University of North Carolina at Chapel Hill · 2011 : M.S. in Computer Science, Korea Advanced Institute of Science and Technology · 2009 : B.S. in Computer Science, Korea Advanced Institute of Science and Technology

Research Publications (selected)

College of Information and Biotechnology

Department of Computer Science and Engineering

• NeuroImage / Labeling Lateral Prefrontal Sulci using Spherical Data Augmentation and Context-aware Training / Lyu et al. / 2021 • MICCAI / Cortical Surface Parcellation using Spherical Convolutional Neural Networks / Parvathaneni et al. / 2020 • Medical Image Analysis / Hierarchical Spherical Deformation for Cortical Surface Registration / Lyu et al. / 2019 • Medical Image Analysis / A Cortical Shape-Adaptive Approach to Local Gyrification Index / Lyu et al. / 2018 • IEEE Transactions on Medical Imaging / TRACE: A Topological Graph Representation for Automatic Sulcal Curve Extraction / Lyu et al. / 2018 • MICCAI / Hierarchical Spherical Deformation for Shape Correspondence / Lyu et al. / 2018 • MICCAI / Novel Local Shape-Adaptive Gyrification Index with Application to Brain Development / Lyu et al. / 2017 • IPMI / Group-Wise Cortical Correspondence via Sulcal Curve-Constrained Entropy Minimization / Lyu et al. / 2013 • NeuroImage / Spectral-based Automatic Labeling and Refining of Human Cortical Sulcal Curves using Expert-Provided Examples / Lyu et al. / 2010

305

Computer Systems Security Lab 컴퓨터 시스템 보안 연구실

문현곤

_Hyungon Moon

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-3 Lab : Bldg. 106 Rm. 607-1 Tel : +82-52-217-2253 E-mail : hyungon@unist.ac.kr https://hyungon.unist.ac.kr

The research projects in CSSLAB spans from software and hardware system design problems through automatic program analysis and transformation techniques, aiming at securing a variety of computer systems. Being a research group newly establishes very recently, we work on state-of-the-art problems such as secure remote executions or automatic vulnerability finding together. You will deepen your understandings of computer systems once you join us to find and fix interesting and critical security problems. CSSLAB의 연구 프로젝트는 소프트웨어 및 하드웨어 시스템 설계 문제에서 자동 프로그램 분석 및 변환 기술을 통해 다양한 컴퓨터 시스템을 보호하는 것을 목표로 합니다. 최근에 새로 설립된 연구 그룹으로서 우리는 보안 원격 실행 또는 자동 취약성 발견과 같은 최첨단 문제를 함께 해결합니다. 흥 미롭고 중요한 보안 문제를 찾아 해결하기 위해 우리와 함께하면 컴퓨터 시스템에 대한 이해가 깊어 질 것입니다.

Curriculum Vitae · 2018 - Present : Assistant professor at CSE, UNIST · 2017 - 2018 : Postdoctoral Fellow, Georgia Tech

Academic Credential · 2010 - 2017 : PhD at EECS, SNU

Major research field Systems Security, Program Analysis, Computer Architecture, Operation systems, Hardware design

Desired field of research Machine learning security

Research Keywords and Topics • Security, Systems Security, Program Analysis, Computer Architecture, Operation systems, Software analysis, Hardware analysis, Hardware design

Research Publications (selected) • USENIX Annual Technical Conference(ATC) / libmpk: Software Abstraction for Intel Memory Protection Keys (Intel MPK) / Soyeon Park, Sangho Lee, Wen Xu, Hyungon Moon, and Taesoo Kim / 2019-07 • IEEE Symposium on Security and Privacy(Oakland) / Fuzzing File Systems via TwoDimensional Input Space Exploration / Wen Xu, Hyungon Moon, Sanidhya Kashyap, Po-Ning Tseng, and Taesoo Kim / 2019-05 • International Symposium on Research in Attacks, Intrusions and Defenses(RAID) / Hardware Assisted Randomization of Data / Brian Belleville, Hyungon Moon, Jangseop Shin, Dongil Hwang, Joseph Nash, Seonhwa Jung, Yeoul Na, Stijn Volckaert, Per Larsen, Yunheung Paek, and Michael Franz / 2018-09

Patents (selected) • Snoop-based kernel integrity monitoring apparatus and method thereof, US Patent No. S9542557 / Yunheung Paek, Brent Byunghoon Kang, Hyungon Moon, Hojoon Lee, Jihoon Lee, and Kihwan Kim / 2017-01 • Hardware-based detection of kernel code injection attack apparatus and method thereof, Republic of Korea Patent No. 1016586410000 / Yunheung Paek, Hyungon Moon, and Jinyong Lee / 2016-09

306

Programming Languages and Software Engineering Lab 프로그래밍 언어 및 소프트웨어 공학 연구실

In PLaSE (Programming Languages and Software Engineering Lab), we are developing cutting-edge technologies to make software more reliable, secure and efficient in an automated manner. In other words, we are developing Software for Software that performs various tasks such as SW testing, fault localization and program repair. We are also conducting research on Intelligent Programming Tutoring System, an AI-system that helps students learn how to program by providing useful feedback automatically. 프로그래밍 언어 및 소프트웨어 공학 연구실에서는 소프트웨어의 신뢰성, 안전성, 효율성을 자동으 로 증대시키는 최신 기술들 (예: SW 테스팅, 결함 위치 식별, 자동 프로그램 수정), 즉 소프트웨어를 위한 소프트웨어에 대해 연구하고 있습니

이주용

_Jooyong Yi

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 401-6 Lab : Bldg. 106 Rm. 407-1 Tel : +82-52-217-2123 E-mail : jooyong@unist.ac.kr http://www.jooyongyi.com/

다. 이와 병행하여, 본 연구실에서는 지능형 프로그래밍 교습 시스템에 대한 연구를 진 행하고 있습니다. 이 시스템은 학생들이 프 로그래밍 기술을 습득할 수 있도록 유용한

Curriculum Vitae

피드백을 자동으로 제공해주는 등의 기능

· 2019 - Present : Assistant Professor, UNIST · 2017 - 2019 : Assistant Professor, Innopolis University, Russia · 2011 - 2016 : (Senior) Research Fellow, National University of Singapore · 2011 - 2011 : Research Professor, Korea University · 2010 - 2011 : Research Fellow, Korea University · 2008 - 2010 : Research Fellow, Kansas State University · 2007 - 2008 : Research Fellow, KAIST

을 합니다.

Major research field Intelligent Programming Systems (e.g., Program repair and Intelligent tutoring systems), Program analysis/synthesis, Software testing, fault localization

Desired field of research Intelligent Programming Systems (e.g., Program repair and Intelligent tutoring systems), Program analysis/synthesis, Software testing, fault localization

Research Keywords and Topics • Automated program repair - Patch synthesis - Patch validation - Patch verification • Fault localization • Software testing - Symbolic execution - Fuzzing

Academic Credential · 2007 : Ph.D., Computer Science, BRICS, Aarhus University, Denmark · 2002 : M.Sc., Computer Science and Engineering, Korea University · 2000 : B.Sc., Computer Science and Engineering, Korea University

Awards/Honors/Memberships

• Empirical Software Engineering (EMSE) / A Correlation Study between Automated Program Repair and Test-Suite Metrics / Jooyong Yi, Shin Hwei Tan, Sergey Mechtaev, Marcel Böhme and Abhik Roychoudhury / 2018-10 • European Software Engineering Conference and the ACM SIGSOFT Symposium on the Foundations of Software Engineering (ESEC/FSE) / A Feasibility Study of Using Automated Program Repair for Introductory Programming Assignments / Jooyong Yi, Umair Z. Ahmed, Amey Karkare, Shin Hwei Tan and Abhik Roychoudhury / 2017-09 • ACM/IEEE International Conference on Software Engineering (ICSE) / Angelix: Scalable Multiline Program Patch Synthesis via Symbolic Analysis / Sergey Mechtaev, Jooyong Yi and Abhik Roychoudhury / 2016-05

· Facebook Research Grant Award (2018) · Invited Speaker of 2019 KoreanAmerican Kavli Frontiers of Science Symposium · PC member of 2021 ICSE (International Conference on Software Engineering) · PC member of 2019 ISSTA (ACM SIGSOFT International Symposium on Software Testing and Analysis) · PC member of 2018 ESEC/FSE (ACM Joint European Software Engineering Conference and Symposium on the Foundations of Software Engineering)

College of Information and Biotechnology

307

Department of Computer Science and Engineering

Research Publications (selected)

Next-generation Networks and Systems Laboratory (N2SL) 차세대 네트워크 및 시스템 연구실

임영빈

_Youngbin Im

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 501-9 Lab : Bldg. 106 Rm. 502-1 Tel : +82-52-217-2255 E-mail : ybim@unist.ac.kr https://ybim.github.io

N2SL's research focuses on building and deploying practical systems that span multiple disciplines, including network systems, wireless networks, operating systems, big data processing, and machine learning. Especially, we are working on the research themes including bridging theory and practice in system research, AI-based diagnosis and management of largescale systems, supporting emerging applications in next-generation networks, new types of computing systems. 차세대 네트워크 및 시스템 연구실은 네트워크 시스템, 무선 네트워크, 운영체제, 빅데이터 처리, 기

Curriculum Vitae

계학습 등의 여러 학문 영역에 걸친 실용적인 시스템을 개발하고 활용하는 것에 연구의 초점을 맞추

· 2019 - Present : Assistant Professor, ECE, UNIST · 2015 - 2019 : Postdoctoral Researcher, University of Colorado Boulder · 2011 - 2012 : Visiting Researcher, Princeton University

고 있다. 특히, 이론과 실제의 결합을 통한 시스템 연구, AI 기반의 대규모 시스템 진단 및 관리, 차세

Academic Credential · 2014 : Ph.D. Computer Science, Seoul National University · 2006 : B.S. Computer Science, Seoul National University

Awards/Honors/Memberships · Member of the Institute of Electrical and Electronics Engineers (IEEE) · 2019 : Best Paper Award at ACM International Conference on Mobile Systems, Applications, and Services (MobiSys)

대 네트워크 상에서의 새롭게 등장하는 어플리케이션에 대한 지원, 새로운 형태의 컴퓨팅 시스템 등 의 주제로 연구를 진행 중이다.

Major research field network system, large-scale system, mobile system, emerging application

Desired field of research AI-based system, AI-based network

Research Keywords and Topics • Network systems, wireless networks, big data processing, machine learning, cloud computing, network protocols, video streaming, AR/VR, IoT, 5G/6G, edge computing 네트워크 시스템, 무선 네트워크, 빅데이터 처리, 머신 러닝, 클라우드 컴퓨팅, 네트워크 프로토콜, 비디오 스트리밍, AR/VR, 사물인터넷, 5G/6G, 엣지 컴퓨팅

Research Publications (selected) • The European Conference on Computer Systems (EuroSys) / I Sent It: Where Does Slow Data Go to Wait? / Youngbin Im, Parisa Rahimzadeh, Brett Shouse, Shinik Park, Carlee Joe-Wong, Kyunghan Lee, Sangtae Ha / 2019-03 • IEEE Transactions on Mobile Computing(TMC) / AMUSE: Empowering Users for CostAware Offloading with Throughput-Delay Tradeoffs / Youngbin Im, Carlee Joe-Wong, Sangtae Ha, Soumya Sen, Ted ‘Taekyoung’ Kwon, Mung Chiang / 2016-05 • ACM Conference on Applications, Technologies, Architectures, and Protocols for Computer Communication(SIGCOMM) / TUBE: Time-Dependent Pricing for Mobile Data / Sangtae Ha, Soumya Sen, Carlee-Joe Wong, Youngbin Im, Mung Chiang / 2012-08

Patents (selected) • [국외] Method and apparatus for controlling send buffer of transmission control protocol in communication system / Jin-Sung Lee, Young-Bin Im, Sangtae Ha, Sang-Jun Moon, Jung-Shin Park, Ji-Cheol Lee, Joo-hyung Lee / 2020-02 • Method and apparatus for assigning video bitrate in mobile communication system / Hyungho Lee, Taekyoung Kwon, Jicheol Lee, Youngbin Im, Hanna Lim, Taejoong Chung, Dookyoon Han / 2016-07

308

OMNIA 대용량 데이터처리 시스템 연구실

OMNIA is doing cutting-edge research on large-scale systems. Our research interests span distributed systems, data analytics engines, computer architecture, and applied machine learning. Our research goal is to advance the state of the art in emerging largescale computing platforms by making them more efficient, responsive, intelligent and programmable. Our current research topics at UNIST are on the following areas. 1. Systems + AI: We build systems support for improving machine learning frameworks and prediction-serving systems, as well as leverage machine learning in producing intelligent system software. 2. Big data analytics: We build data processing pipelines for real-time big data analytics at cloud/IoT scale that enable system operators to promptly troubleshoot system anomalies, improving performance and reliability of their services. 3. Systems for new HW: We produce substantially better system software in the face of the recent explosion of hardware features and heterogeneity, such as accelerators and processor/memory tailored to improve efficiency, density, performance predictability.

전명재

_Myeongjae Jeon

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-5 Lab : Bldg. 106 Rm. 607-2 Tel : +82-52-217-2251 E-mail : mjjeon@unist.ac.kr https://omnia.unist.ac.kr/

Curriculum Vitae · 2015 - 2018 : Microsoft Research · 2014 - 2015 : ARM Research

Academic Credential · PhD in Computer Science, Rice Univ · MS in Computer Science, KAIST · BE in Computer Engineering, Kwangwoon Univ

Awards/Honors/Memberships · 2020 : Facebook Faculty Research Award finalist · 2019 : Rice CS 35th Anniversary's panel speaker, 2019 · 2016 : Best student paper, SYSTOR

Major research field 빅데이터 시스템, 인공지능 시스템, 분산시스템

Research Keywords and Topics • 빅데이터 시스템, 인공지능 시스템, 분산시스템 - 분산 인공지능 학습 플랫폼 - 인공지능 클러스터 자원 관리 - 고효율 온디바이스 인공지능 시스템 - 인공지능 학습 알고리즘 디자인 - 엣지-클라우드 실시간 빅데이터 처리 - 서버 메모리 시스템 및 스케줄링 기법

Research Publications (selected) Department of Computer Science and Engineering

• USENIX ATC / Analysis of Large-Scale Multi-Tenant GPU Clusters for DNN Training Workloads / Myeongjae Jeon, Shivaram Venkataraman, Amar Phanishayee, Junjie Qian, Wencong Xiao, Fan Yang / 2019-07 • ASPLOS / StreamBox-HBM: Stream Analytics on High Bandwidth Hybrid Memory / Hongyu Miao, Myeongjae Jeon, Gennady Pekhimenko, Kathryn S. McKinley, Felix Xiaozhu Lin / 2019-04 • NSDI / Tiresias: A GPU Cluster Manager for Distributed Deep Learning / Juncheng Gu, Mosharaf Chowdhury, Kang G. Shin, Yibo Zhu, Myeongjae Jeon, Junjie Qian, Hongqiang Liu, Chuanxiong Guo / 2019-02

College of Information and Biotechnology

309

Secure Software Lab (S2Lab) 소프트웨어 보안 연구실

전유석

_Yuseok Jeon

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 701-8 Lab : Bldg. 106 Rm. 303-1 Tel : +82-52-217-2257 E-mail : ysjeon@unist.ac.kr https://ysjeon.net/

S2Lab's research aims to enforce software security closely applied to our real life by analyzing and eliminating vulnerabilities in software. More specifically, we intend to detect and eliminate vulnerabilities quickly, precisely, and broadly using our advanced compiler, fuzzing, or artificial intelligence-based solutions. Currently, S2Lab is working on enforcing the security in various areas, including C/C++ and Rust software, Linux containers, and autonomous vehicles. 소프트웨어 보안 연구실의 주요 연구 분야는 우리 실생활에 밀접하게 적용되는 소프트웨어의 취약 점을 분석하고 제거하여 안전한 소프트웨어 보급하는 것을 목표로 합니다. 이를 위해서, 컴파일러, 퍼징, 인공지능 기술들을 활용하여 정확하고 빠르게 프로그램 코드에서 취약점을 탐지하고 제거하 는 것을 목표로 하고있습니다. 현재 S2Lab은 C/C++ 프로그램의 메모리 및 타입 안전 취약점 제거, Rust 언어 보안, 리눅스 컨테이너 보안 및 자율주행 자동차 보안을 수행하고 있습니다.

Curriculum Vitae · 2021 - Present : Assistant Professor, Dept. of Computer Science and Engineering · 2018 : Research Intern, Intel · 2016 : Research Intern, NEC Labs America · 2013 - 2015 : Research Engineer, Samsung Research · 2010 - 2013 : Research Engineer, National Security Research Institute

Academic Credential · 2020 : Ph.D. Computer Science, Purdue University · 2010 : M.S. Computer and Communication Engineering, POSTECH · 2007 : B.S. Computer Science and Engineering, INHA University

Awards/Honors/Memberships · 2020 : 30인의 젊은 정보보호인 선정 · 2020 : CERIAS Diamond Award · 2020 : Bilsland Dissertation Fellowship

Major research field Software security, Systems Security, Program Analysis, Memory and Type safety, Fuzzing

Desired field of research Rust Security, Linux Containers Security, Autonomous Vehicle Security, AI Security

Research Keywords and Topics • Security, Software Security, Systems Security, Program Analysis, Rust Security, Memory and Type Safety, Fuzzing, LLVM, Linux Containers Security, Autonomous Vehicle Security, AI Security 보안, 소프트웨어 보안, 시스템 보안, 프로그램 분석, 러스트 언어 보안, 메모리 및 타입 안전, 퍼징, LLVM, 리눅스 컨터이너 보안, 자율주행 자동차 보안, 인공지능 보안

Research Publications (selected) • USENIX ATC / FuZZan: Efficient Sanitizer Metadata Design for Fuzzing / Yuseok Jeon, WookHyun Han, Nathan Burow, and Mathias Payer / 2020-07 • ACM CodaSpy / PoLPer: Process-Aware Restriction of Over-Privileged Setuid Calls in Legacy Applications / Yuseok Jeon, Junghwan Rhee, Chung Hwan Kim, Zhichun Li, Mathias Payer, Byoungyoung Lee, and Zhenyu Wu / 2019-04 • ACM CCS/ HexType: Efficient Detection of Type Confusion Errors for C++ / Yuseok Jeon, Priyam Biswas, Scott A. Carr, Byoungyoung Lee, and Mathias Payer / 2017-11

Patents (selected) • Fine-grained analysis and prevention of invalid privilege transitions, US Patent No. 10,402,564 / Junghwan Rhee, Yuseok Jeon, Zhichun Li, Kangkook Jee, Zhenyu Wu, Guofei Jiang / 2019-10 • Blackbox Program Privilege Flow Analysis with Inferred Program Behavior Context, US Patent No. 10,505,962 / Junghwan Rhee, Yuseok Jeon, Zhichun Li, Kangkook Jee, Zhenyu Wu, Guofei Jiang / 2019-12 • Apparatus and method for analyzing vulnerability of ZigBee Network, US Patent No. 9294496B2 / Yuseok Jeon, Incheol Shin, Jaeduck Choi, Gunhee Lee, Sinkyu Kim, Jungtaek Seo / 2016-03

310

System Software Lab 시스템 소프트웨어 연구실

The main focus of System Software Laboratory is to develop system software technologies for the efficient management of future cloud computing systems to support emerging large-scale applications. 시스템 소프트웨어 연구실에서는 새로운 대규모 응용들을 지원하기 위해 미래 클라우드 컴퓨팅 시 스템을 효율적으로 관리하기 위한 시스템 소프트웨어 기술을 연구 개발하고 있다.

최영리

_Young-ri Choi

Department of Computer Science and Engineering Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 106 Rm. 601-7 Lab : Bldg. 106 Rm. 605 Tel : +82-52-217-2136 E-mail : ychoi@unist.ac.kr http://ychoi.unist.ac.kr/

Curriculum Vitae

Major research field Cloud computing, Machine learning platforms, Big data analytics platforms, Storage systems, Scientific computing

· 2012 - Present : Assistant, Associate Professor, UNIST · 2010 - 2012 : Senior Researcher, KISTI · 2007 - 2009 : Member of Technical Staff, VMware, Inc. USA

Desired field of research Cloud computing, Machine learning platforms, Storage systems

Academic Credential

Research Keywords and Topics • Cloud computing, Machine learning platforms, Key-value stores, Big data analytics platforms, High-performance scientific computing, Management of large-scale systems 가상화 기반 클라우드 컴퓨팅, 머신러닝 플랫폼, Key-value 스토어, 빅데이터 분석 플랫폼, 고성능 과학 컴퓨팅, 대규모 시스템 관리

· 2007 : Ph. D. in Computer Sciences, University of Texas at Austin(Advisor: Prof. Mohamed G. Gouda) · 2002 : M.S. in Computer Sciences, University of Texas at Austin · B.S. in Computer Sciences, Yonsei University, Seoul, Korea

Research Publications (selected) • 2020 USENIX Annual Technical Conference (USENIX ATC ’20) / Enabling Large DNN Training on (Whimpy) Heterogeneous GPU Clusters through Integration of Pipelined Model Parallelism and Data Parallelism / Jay H. Park, Gyeongchan Yun, Chang M. Yi, Nguyen T. Nguyen, Seungmin Lee, Jaesik Choi, Sam H. Noh, and Young‐ri Choi / 2020-07 • 17th USENIX Conference on File and Storage Technologies (FAST 2019) / SLM-DB: Single-Level Key-Value Store with Persistent Memory / Olzhas Kaiyrakhmet, Songyi Lee, Beomseok Nam, Sam H. Noh, and Young‐ri Choi / 2019-02 • IEEE Transactions on Services Computing / Holistic VM Placement for Distributed Parallel Applications in Heterogeneous Clusters / Seontae Kim, Nguyen Pham, Woongki Baek, and Young‐ri Choi / 2019-01 Department of Computer Science and Engineering

Patents (selected) • 가상 머신 배치 선택 장치 및 방법, 국내 / 최영리, 백웅기, 김선태, Nguyen Pham / 2018-08 • 분산 파일 시스템을 기반으로 하는 빅데이터 처리 플랫폼의 태스크 스케줄링 방법, 이를 위한 컴퓨 터 프로그램 및 컴퓨터 판독 가능 기록 매체, 국내 / 최영리, 황은지, 김현구 / 2019-11

College of Information and Biotechnology

311

graduate SChool of teChnology & InnovatIon management 기술경영전문대학원

04 Graduate School of Technology & Innovation Management 기술경영전문대학원

Business Analytics Center 비즈니스 분석 센터

김여립

_Yeolib Kim

Graduate School of Technology and Innovation Management Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 706-8 Tel : +82-52-217-3189 E-mail : yeolib.kim@unist.ac.kr https://sites.google.com/view/yeolibkim/ home

I am an Associate Professor in the Graduate School of Technology and Innovation Management (MOT) / School of Business Administration (SBA) at Ulsan National Institute of Science and Technology (UNIST). I am also the Director of Center for Business Analytics. My research area is in information systems and business analytics. I received a Ph.D. in Information Studies and M.S. in Statistics from The University of Texas at Austin. I received a B.S. in Economics from Carnegie Mellon University. My research focuses on ecommerce, individual differences in IT use, IT marketing, and research methods. 비즈니스 분석 센터에서는 정보시스템과 비즈니스를 연계한 연구를 하고 있습니다. 전자 상거래, IT 사용의 개인차, IT 마케팅 및 Research methods에 중점을 둡니다.

Major research field E-commerce, research methods, individual differences in IT use, IT management, IT marketing

Research Keywords and Topics • Information Technology Adoption, E-Commerce, Research Methods

Research Publications (selected) • PSYCHOLOGY & MARKETING / Out‐of‐stock, sold out, or unavailable? Framing a product outage in online retailing / Peterson, Robert A.; Kim, Yeolib; Jeong, Jaeseok / 2020-03 • ASIAN JOURNAL OF COMMUNICATION / Meta-analysis of the relationship between Internet use and political participation: examining main and moderating effects / Chae, Younggil; Lee, Sookjung; Kim, Yeolib / 2019-01 • ASIA PACIFIC JOURNAL OF INFORMATION SYSTEMS / Individual Differences in Online Privacy Concern / Kim, Yeolib; Choi, Boreum; Jung, Yoonhyuk / 2018-12 • JOURNAL OF INTERACTIVE MARKETING / A Meta-analysis of Online Trust Relationships in E-Commerce / Kim, Yeolib; Peterson, Robert A. / 2017-05

314

Business Analytics & Technology Management

Our main research theme centers on the intersection between business analytics (in other words, machine learning, data science, data mining, artificial intelligence) and decision making in business, especially in technology management. The interactions between the two key elements, analytics and decision making, are bi-directional. From analytics to decision making, we propose and test applications of novel machine learning techniques to improve decision makings in diverse management contexts, such as technology forecasting and technology strategy, and in various industries like IT manufacturing, energy, shipbuilding, oil refinery, etc. In the other direction, from decision making to analytics, we try to fill in the gaps between analytics and decision making by incorporating theoretical findings from management research into advances in machine learning methodologies. Our research interest further extends to the coevolution of business and machines: how AI technologies affect humans in their workplace, organizations, and industries? how users and firms adopt AI technologies? '데이터 기반 기술경영' 연구실의 주요 연구 주제는 비즈니스 분석 (즉, 머신 러닝, 데이터 과학, 데이 터 마이닝, 인공 지능)과 비즈니스, 특히 기술 관리의 의사 결정 간의 교차점에 중점을 둡니다. 두 가 지 핵심 요소인 분석과 의사 결정 간의 상호 작용은 양방향입니다. 분석에서 의사 결정에 이르기까 지 우리는 기술 예측 및 기술 전략과 같은 다양한 관리 contexts와 IT 제조, 에너지, 조선, 정유 등과 같 은 다양한 산업에서 의사 결정을 개선하기 위해 새로운 기계 학습 기술의 응용 프로그램을 제안하고 테스트합니다. 다른 방향으로, 의사 결정에서 분석에 이르기까지 우리는 관리 연구에서 얻은 이론적 결과를 기계 학습 방법론의 발전에 통합하여 분석과 의사 결정 사이의 격차를 줄이고 있습니다.

Desired field of research

Major research field Technology Management Management Information Systems Data Mining Data-driven Decision Making AI-User co-evolution

Technology Management Data Mining Data-driven Decision Making AI-User co-evolution

우한균

_Hangyun Woo

Graduate School of Technology and Innovation Management Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 706-4 Tel : +82-52-217-3115 E-mail : hwoo@unist.ac.kr

Curriculum Vitae · Associate Professor, Graduate School of Innovation & Technology Management, UNIST

Academic Credential · 2005 : Ph.D. Business Administration - CIS), Georgia State University · 1998 : M.S. Business Administration OR/MIS, Seoul National University · 1996 : B.S. Business Administration, Seoul National University

Research Keywords and Topics • Applications of machine learning in technology management 기술 관리에서 기계 학습의 응용

• Technology forecasting and evaluation 기술 예측 및 평가

• Network analysis in R&D collaborations R&D 협업의 네트워크 분석

• Demand and price forecasting using deep learning techniques 딥 러닝 기법을 사용한 수요 및 가격 예측

• Experiments on coevolution between users and AI applications 사용자와 AI 애플리케이션 간의 공진화에 대한 실험

Research Publications (selected) • JOURNAL OF INFORMETRICS / Hawkes process-based technology impact analysis / Jang, Hyunjin; Woo, Hangyun; Lee, Changyong / 2017-05 • EUROPEAN MANAGEMENT JOURNAL / Pro-innovation Culture, Ambidexterity and New Product Development Performance: Polynomial Regression and Response Surface Analysis, / Lee, Kyootai; Woo, Han-Gyun; Joshi , Kailash / 2017-04 • TECHNOLOGICAL FORECASTING AND SOCIAL CHANGE / Stochastic Technology Life Cycle Analysis using Multiple Patent Indicators / Lee, Changyong; Kim, Juram; Kwon, Ohjin; Woo, Han-Gyun / 2016-05

Graduate School of Technology & Innovation Management

315

Graduate School of Technology & Innovation Management

데이터 기반 기술경영

Supply Chain Management and IT 공급망관리

인준환

_Joonhwan In

Graduate School of Technology and Innovation Management Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-12 Tel : +82-52-217-3207 E-mail : joonhwan@unist.ac.kr

His research interests lie in the area of the value of IT in supply chains, with a focus on issues related to a) supply chain information governance and b) the impact of supply chain IT on performance. Accordingly, his current research centers around examining how the governance of supply chain information flows translates to superior organizational performance and how IT/ Analytics can affect supply chain performance and organizational performance, especially in a healthcare context. 연구 관심 분야는 공급망에서 IT의 가치 영역에 있으며, a) 공급망 정보 거버넌스 및 b) 공급망 IT가 성 능에 미치는 영향과 관련된 문제에 중점을 둡니다. 따라서 그의 현재 연구는 공급망 정보 흐름의 거 버넌스가 어떻게 우수한 조직 성과로 이어지고 IT / 분석이 특히 의료 분야에서 공급망 성과 및 조직 성과에 어떤 영향을 미칠 수 있는지 조사하는 데 중점을 두고 있습니다.

Major research field Curriculum Vitae · 2020 - Present : Assistant Professor, SCM, UNIST · 2016 - 2019 : Assistant Professor, SCM, California State University Long Beach

Supply chain information governance, Supply chain analytics/ IT, Healthcare supply chains

Research Keywords and Topics • Governance of supply chain information flows 공급망에서의 정보 흐름 거버넌스

• Supply chain analytics / IT

Academic Credential · 2016 : Ph.D., Logistics, Haslam College of Business, University of Tennessee, Knoxville · 2008 : M.S., Management of Technology, University of New Hampshire, Durham · 2000 : M.S., Industrial Engineering, POSTECH · 1998 : B.S., Industrial Engineering, KAIST

Awards/Honors/Memberships · Decision Sciences Institute (DSI) · Council of Supply Chain Management Professionals (CSCMP)

316

공급망 애널리틱스 및 IT

• Healthcare supply chains 의료 공급망관리

Research Publications (selected) • JOURNAL OF SERVICES MARKETING / Social media engagement, service complexity, and experiential quality in U.S. hospitals / Lee, Youngsu; In, Joonhwan; Lee, Seung Jun / 2020-05 • INTERNATIONAL JOURNAL OF PRODUCTION ECONOMICS / Breaking the Chain: GPO Changes and Hospital Supply Chain Efficiency. International Journal of Production Economics / In, Joonhwan; Bradley, Randy V.; Bichescu, Bogdan C.; Smith, Antoinette L. / 2019-12 • PRODUCTION AND OPERATIONS MANAGEMENT / The Joint Use of RFID and EDI: Implications for Hospital Performance / Bradley, Randy V.; Esper, Terry L.; In, Joonhwan; Lee, Kang B.; Bichescu, Bogdan C.; Byrd, Terry Anthony / 2018-11

Entrepreneurship & Innovation Strategy Lab

본 연구실은 현대 사회의 새로운 가치 창출 메커니즘인 기업가정신(entrepreneurship)과 기술혁신 (technological innovation) 원리를 연구합니다. 세부 연구 분야는 다음과 같습니다: (1) 기업가정신 연 구: 벤처, 창업, 신생기업(start-up), 기술사업화 등의 키워드로 이해되는 기업가정신 현상의 원인, 주 체, 과정, 결과를 개인, 조직, 국가 수준의 분석단위에서 연구; (2) 혁신전략 연구: 기업지배구조, 기업 간 제휴, 다각화 등의 전략적 의사결정을 혁신의 관점에서 분석 (3) 4차 산업혁명과 경영 연구: 인공 지능 등 4차 산업혁명 기술과 환경변화가 기업가정신과 혁신전략에 미치는 영향을 분석하며 새로운 연구방법론 도입 (4) 기술혁신 현상 연구: 파괴적 혁신, 기초과학의 중개연구, 지역혁신 시스템 등 기 술혁신에 특화된 주제 연구

Major research field

최영록

_Young Rok Choi

School of Business Administration/ Graduate School of Technology and Innovation Management Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 601 Tel : +82-52-217-3145 E-mail : yrchoi@unist.ac.kr

Desired field of research Curriculum Vitae

기업가정신, 혁신전략, 기술경영

4차 산업혁명 기술과 경영의 변화

Research Keywords and Topics • Academic entrepreneurship • Entrepreneurship and OB • Learning from failure in venturing • Multiple goals and search behavior • Innovation ambidexterity and resources in SMEs • Masculinity of entrepreneurs and business angels and financing decisions • Pricing of technology licensing and patent litigation • Diversification and innovation in crisis • Confirmation bias and risk perception

Research Publications (selected) • SMALL BUSINESS ECONOMICS / Stereotypes about Academic Entrepreneurs and Their Negotiation Counterparts’ Collaborative Behavior / Zhang, Lu; Choi, Young Rok; Hao Zhao / 2020-05 • JOURNAL OF BUSINESS VENTURING / When should entrepreneurs expedite or delay opportunity exploitation? / Choi, Young Rok; Levesque, Moren; Shepherd, Dean A. / 2008-05 • JOURNAL OF MANAGEMENT / Entrepreneurs’ Decisions to Exploit Opportunities / Choi, Young Rok; Shepherd, Dean A. / 2004-06

· 2015 - Present : Professor & Associate Professor, School of Business Administration, UNIST · 2012 - 2014 : Assistant Professor, Division of Engineering and Technology Management (Faculty of Engineering), National University of Singapore, Singapore · 2002 - 2011 : Assistant Professor, Lee Kong Chian School of Business, Singapore Management University, Singapore

Academic Credential · 2001 : Ph.D. in Management (Entrepreneurship and Strategic Management), Lally School of Management & Technology, Rensselaer Polytechnic Institute (RPI) · 1990 : M.S. in Engineering (Management Science), School of Management Engineering, Korea Advanced Institute of Science and Technology (KAIST) · 1987 : B.S. in Business Administration, Department of Business Administration, Korea Aerospace University

Awards/Honors/Memberships · 2021- Present : National Academy of Engineering of Korea, Member · 2006, 2008, 2009 : Outstanding Reviewer Awards by Journal of Business Venturing, · 2006 - 2008 : Dean’s Teaching Honor Awards (SMU) · 2007 : SMS Best Conference Paper Prize Finalist, San Diego, CA. · 2002 : Nominee for the William H. Newman Award for outstanding papers at Academy of Management Meeting · 2001 : Coleman Foundation CEAE Doctoral Dissertation Scholarship

Graduate School of Technology & Innovation Management

317

Graduate School of Technology & Innovation Management

기업가정신과 혁신전략 연구실

SChool of BuSIneSS admInIStratIon 경영과학부

05 School of Business Administration 경영과학부

OB/HRM Lab OB/HRM Lab

장, 루 _Lu Zhang School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 707-7 Tel : +82-52-217-3143 E-mail : lzhang@unist.ac.kr

The lab mainly focuses on research topics related to diversity issues, team dynamics, and leadership. OB/HRM Lab은 다양한 이슈, 팀 역학 및 리더십과 관련된 연구 주제에 중점을 둔 연구를 하고 있습 니다.

Major research field diversity, leadership, team dynamics

Desired field of research entrepreneurship, AI interview

Research Keywords and Topics • diversity, leadership, team, entrepreneurship

Research Publications (selected) Curriculum Vitae · 2016 - Present : Associate Professor, Management, UNIST · 2012 - 2016 : Assistant Professor, Management, UNIST · 2008 - 2012 : Assistant Professor, Management, Penn State University Capital College · 2006 - 2008 : Assistant Professor, Management, Millersville University of Pennsylvania

Academic Credential · 2008 : Ph.D. Major Field: Human Resource Management, Supporting Field : Research Methods, George Washington University · B.A. Peking University

Awards/Honors/Memberships · 2012 - 2013 : Ulsan National Institute of Science and Technology New Faculty Research Grant · 2008 - 2010 : School of Business Administration Summer Research Grant, Penn State University - Capital College · 2001 - 2004 : Presidential Merit Fellowship, George Washington University

320

• HUMAN RESOURCE MANAGEMENT / Pygmalion in the pipeline: How managers’ perceptions influence racial differences in turnover / Sabat, Isaac; Goldberg, Caren, King, Eden, Dawson, Jeremy, & Zhang, Lu / 2020-10 • JOURNAL OF OCCUPATIONAL AND ORGANIZATIONAL PSYCHOLOGY / From new hires to their supervisors : The influence of newcomer race/ethnicity on the leadermember exchange conveyance / Zhang, Lu; Goldberg, Caren B.; McKay, Patrick F. / 2020-09 • SMALL BUSINESS ECONOMICS / Stereotypes about academic entrepreneurs and their negotiation counterparts' collaborative behavior / Zhang, Lu; Choi, Young Rok; Hao Zhao / 2020-05 • GROUP & ORGANIZATION MANAGEMENT / The effects of expertise and social status on team member influence and moderating roles of intragroup conflict / Hong, Woonki; Zhang, Lu; Gang, Kwangwook; Choi, Boreum / 2019-08

Financial Investments, Markets and Trading 금융투자, 시장 및 트레이딩 연구실

연구합니다. 시장미시구조 분야는 기본적으로 시장의 가격발견기능(Price discovery process)를 위한 시장의 제도 및 시스템을 어떻게 구성해야 하는지, 시장의 거래를 원활히 하기 위한 유동성 공급자 및 시장조성자의 역할, 비정상상적인 거래 및 투자행태와 관련된 규제를 연구합니다. 또한, 시장의 분할 및 통합, 대체거래소 (Alternative Trading System), 다크풀(Dark Pool) 등 시장의 거래 구조와 관 련된 연구를 진행합니다. 즉, 주식, 채권, 외환 및 상품 시장에서의 거래 제도, 시장구조, 투자자들의 거래행태 등이 자산의 가격 형성에 미치는 영향을 분석하여 공정하고(Fairly) 질서 있는 (Orderly) 시

김대진

_Daejin Kim

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.114 Rm. 701-1 Tel : +82-52-217-3169 E-mail : daejin@unist.ac.kr

장을 만들기 위한 연구를 진행합니다. 또한, 간접투자기구인 뮤추얼펀드(Mutual funds) 및 헷지펀드 (Hedge funds) 등에 편입되는 자산의 배분 및 전략과 관련된 연구를 진행하며, 이를 수행하기 위한 기관투자자들의 거래행태를 연구합니다. 기관투자자와 관련된 연구는 전문적인 트레이딩 회사들 인 알고리즘 거래(Algorithmic Trading) 및 고빈도 매매 (High Frequency Trading)의 거래행태 등이 시 장에 미치는 연구를 진행합니다. 또한, 최근 간접투자 중 절대적인 비중을 차지하는 ETFs 및 ETNs과 관련된 연구를 진행합니다. 즉, ETFs 및 ETNs의 구조, 유동성 공급자의 역할, 시장가격의 형성, 시장 가격과 내재가치(Net Asset Value) 또는 지수(Index)사이에서 발생하는 문제점들을 연구합니다.

Major research field Market Microstructure, Portfolio Management, High Frequency Trading, Algorithmic Trading, Mutual/Hedge Funds, ETFs/ETNs

Desired field of research 거래소 거래 제도 및 영향, 시장구조 (ATS and Dark Pool), 시장조성자, ETFs/ETNs, 파생상품, 구조화상품, 공매도 시장, AI 기반 이상거래 및 불공정 거래 탐지

Research Keywords and Topics • Market Microstructure • Market Making and Liquidity Providing • Exchange-Traded Funds(ETFs) /Exchange-Traded Notes(ETNs) • Alternative Trading System(ATS), Dark Pool, Market Fragmentation and Consolidation • High-Frequency Trading and Algorithmic Trading • Stock Markets, Fixed Income Markets, Commodities Markets, FX and Swap Markets • Exchange-Traded Derivatives Markets, OTC Derivatives Markets • Structured Products and Notes (ELW, ELD, ELS, etc.) • Mutual Funds, Hedge Funds

Curriculum Vitae · 2014 - Present : Assistant Professor, School of Business Administration, UNIST

Academic Credential · 2014 : Ph.D. Finance, Owen Graduate School of Management, Vanderbilt University · 2007 : M.S. Statistics, Department of Statistics, Stanford University · 1999 : B.B.A. Department of International Trade, College of Business Administration, Korea University

Awards/Honors/Memberships · 2020 : The 2019 Outstanding Faculty Award, UNIST · 2019 : Ulsan Mayor Citation, Ulsan City

Research Publications (selected) • JOURNAL OF FINANCIAL ECONOMICS / Liquidity risk and exchange-traded fund returns, variances, and tracking errors / Bae, Kyounghun; Kim, Daejin / 2020-10 • ASIAN JOURNAL OF TECHNOLOGY INNOVATION / A sequential pattern mining approach to identifying potential areas for business diversification / Lee, Gyumin; Kim, Daejin; Lee, Changyong / 2020-01

School of Business Administration

321

School of Business Administration

본 연구실은 재무학(Finance)의 투자(Investments)와 시장미시구조(Market Microstructure) 분야를

Digital/Big Data Marketing 디지털/빅데이터 마케팅

김모란

_Molan Kim

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 706-11 Tel : +82-52-217-3163 E-mail : mkim@unist.ac.kr https://sites.google.com/view/dr-mkim/home

With the rise of social media, consumers are increasingly interacting with their peer consumers in virtual environments. As this online consumer collective environment becomes more important in terms of customer relationship management, marketing strategy, and marketing communication, marketers are struggling with the question of how, where, and whether they should attempt to participate in this online C2C environment to interact with the consumer collectives. Using the advanced analytical techniques including text analytics, web analytics, and more, Dr. Kim’s lab suggests the answers for the above questions. 디지털 시대의 도래와 함께, 온라인 상 에서 소비자들은 자유롭게 그들의 상 품 관련 지식, 아이디어, 경험을 공유하 게 되었다. 본 연구실은, 하루가 다르게 쏟아져 나오는 방대한 양의 소비자와

Curriculum Vitae

마켓에 대한 데이터를 정확하게 분석

· 2016 - Present : Professor, UNIST · 2014 - 2015 : Professor, State University of New York

하는 방법을 연구한다.

Academic Credential · Ph.D., Marketing, Terry College of Business, University of Georgia · M.S., Marketing, Korea University · B.B.A., Business Administration, Korea University

Awards/Honors/Memberships · 한국마케팅학회 (KMA) 이사 · 한국소비자학회 (KSCS) 이사 · 한국정보통신정책학회 편집위원 · Asia Marketing Journal 편집위원 · 울산광역시 미래비전위원회 위원 · 울산광역시 출자출연기관 운영심의위원 · BNK금융그룹 DT (Digital Transformation) 자문교수

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하고 이를 기업의 마케팅 전략에 활용

Major research field 디지털 마케팅 전략, 빅데이터 분석 마케팅

Desired field of research 소셜 미디어 마케팅, AI 마케팅, 마케팅 자동화

Research Keywords and Topics • Digital Marketing Strategy • Social Media Marketing • Omni Channel Digital Marketing • Big Data Marketing • Marketing Analytics • AI Marketing • Automated Marketing

Research Publications (selected) • JOURNAL OF RETAILING AND CONSUMER SERVICES/ Impact of Visual Information on Online Consumer Review Behavior: Evidence from a Hotel Booking Website/ Molan Kim, Seung Min Lee, Sanghak Choi, and Sang Yong Kim / 2021-05 • JOURNAL OF INTERACTIVE MARKETING / Consumer Communities Do Well, But Will They Do Good? A Study of Participation in Distributed Computing Projects /Thompson, Scott A.; Kim, Molan; Loveland, James M.; Lacey, Russell; Castro, Iana A. / 2017-02 • JOURNAL OF MARKETING RESEARCH / Community Participation and Consumer to Consumer Helping: Does Participation in Third-Party Hosted Communities Reduce the Likelihood to Help? / Thompson, Scott A.; Kim, Molan; Smith, Keith Marion / 2016-04 • JOURNAL OF SERVICES MARKETING / Frequency of CRM Implementation Activities: A Customer-Centric View / Kim, Molan; Park, Jeong Eun; Dubinsky, Aln J.; Chaiy, Seoil / 2012-04

Strategic Marketing and Firm Value 전략적 마케팅과 기업가치

“Strategic Marketing and Firm Value”연구실은 다양한 마케팅 전략과 기업 가치 및 위험에 미치는 영

김민중

_Minchung Kim

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-5 Tel : +82-52-217-3123 E-mail : mckim@unist.ac.kr https://sites.google.com/view/minchun gkim/

향을 연구합니다. 또한 최고 경영자 팀 (TMT) 경영진의 특성이 전략적 의사 결정 및 성과에 미치는 영향을 조사합니다. 또한 기업의 CSR (기업의 사회적 책임) 도구를 고려하여 기업의 다양한 이해 관 계자를 향상시키고 기업의 CSR 활동이 다양한 이해 관계자의 부와 어떤 관련이 있는지 이해하려고 합니다. 이 연구소는 연구를 IT 및 AI 기반 마케팅 전략과 기업 가치 및 위험과의 연계로 확장 할 계획 입니다.

Curriculum Vitae · 2017 - Present : Associate Professor, UNIST · 2015 - 2016 : Assistant Professor, Faculty of Management and Marketing, University of Hong Kong · 2008 - 2015 : Assistant Professor, Faculty of Management and Marketing, Hong Kong Polytechnic University

Academic Credential

Research Keywords and Topics

· 2008 : Ph.D., Marketing, McCombs School of Business, University of Texas at Austin · 2003 : M. A. , Applied Statistics, University of Michigan, Ann Arbor · 2001 : B.B.A, Business Administration, SungKyunKwan University

• Marketing Strategy, Financial Performances, Advertising, R&D, Corporate Social Responsibility

Awards

Major research field 전략적 마케팅과 기업 가치

Desired field of research IT/AI기반 마케팅 전략의 효과에 관한 연구

Research Publications (selected) • JOURNAL OF THE ACADEMY OF MARKETING SCIENCE / Where does Pride Lead? Corporate Managerial Hubris and Strategic Emphasis / Kim, MinChung; Xiong, Guiyang; Kim, Kwang-Ho / 2018-05 • JOURNAL OF MARKETING / Stock Market Reaction to Unexpected Growth in Marketing Expenditure: Negative for Salesforce, Contingent on Spending Level for Advertising / Kim, MinChung; McAlister, Leigh M. / 2011-07 • JOURNAL OF MARKETING / Advertising, Research and Development, and Systematic Risk of the Firm / McAlister, Leigh; Srinivasan, Raji; Kim, MinChung / 2007-01

· 2011, 2012 : Faculty Prize in Research Excellence, from the Dean of Faculty of Business at Hong Kong Polytechnic University

Honors · 2018 : Best Paper Awards in 2018 APAIB-UNAI Joint Conference · 2017 : Best Paper Awards in Academy of Asian Business Review · 2008 : Finalist for 2007 MSI/H. Paul Root Award. MSI/H · 2007 : AMA Sheth Doctoral Consortium Fellow · 2006 : Houston Doctoral Symposium Fellow

School of Business Administration

323

School of Business Administration

The lab studies different marketing strategies and their impacts on firm value and risk. It also examines how the characteristics of executives in top management team (TMT) influence strategic decisions and their performance implications. Furthermore, the lab considers firms' corporate social responsibility (CSR) instruments to enhance different stakeholders of the firm and tries to understand how CSR activities from the firms are related to the wealth of different stakeholders. The lab plans to extend its research to IT and AI-based marketing strategies and their links with firm value and risk.

Organization & Innovation 조직과 혁신

김영춘

_Youngchoon Kim

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 706-3 Tel : +82-52-217-173 E-mail : yckim@unist.ac.kr https://sites.google.com/site/youngcho onkim/my-lab

This lab aims to comprehensively understand various phenomena surrounding organizational management, technology innovation, and corporate strategy, focusing on the fields of Organization Theory, Strategic Management, and Technology & Innovation Management. The ongoing research includes the impact of the achievement of a company's performance goals on the future corporate strategy, the composition and personnel of managers/engineers in the company, the relationship between management patterns and corporate strategy/performance, both inside and outside the company and research institutes. These are the process of technological innovation, changes in business models and strategies for companies' changes as they expand and accept digital technologies. Research is mainly conducted by collecting data on companies and technologies, conducting empirical analysis based on statistical methods, and verifying hypotheses about organizational management and corporate strategy through this. 본 연구실은 조직이론 (Organization Theory), 전략경영

Curriculum Vitae · Associate Professor, School of Business Administration, UNIST

Academic Credential · 2006 : Ph.D. Sociology. Dissertation: Institutional Learning of Technology Transfer in the US, Stanford University, Stanford CA, USA · 1998 : M.A. Sociology, Seoul National University · 1993 : B.A. Sociology, Seoul National University

(Strategic Management), 기 술 혁 신 경 영 (Technology & Innovation Management) 분야를 중심으로 조직관리, 기술혁신, 기업전략을 둘러싼 다양한 현상들을 통합적으 로 이해하고자 합니다. 진행 중인 연구로는, 기업의 성과 목표 달성여부가 차후 기업전략에 미치는 영향, 기업에서 의 관리자/엔지니어의 구성 및 인사, 관리 패턴과 기업전 략/성과 간의 관계, 기업 및 연구기관의 내-외부에서 기술혁신이 일어나는 과정, 디지털 기술의 확산 과 수용에 따라 나타나는 비즈니스 모델의 변화와 기업들의 변화전략 등입니다. 연구는 주로 기업 및 기술에 대한 데이터를 수집하여 통계적 방법에 기반한 실증분석을 실시하고, 이를 통해 조직관리 및 기업전략에 대한 가설을 검증하는 방식으로 진행됩니다.

Major research field 조직이론, 전략경영, 기술혁신

Desired field of research 기술혁신과 조직학습의 상호작용

Research Keywords and Topics • the process of performance feedback in which a firm’s past performance shapes its subsequent strategy • the association between human resource management (esp., for engineers and/or managers) and corporate strategy • the process of technological innovation inside and outside of corporate and research organizations • the changes of business model and corporate strategy in response to digital transformation.

Research Publications (selected) • ASIA PACIFIC JOURNAL OF MANAGEMENT / Enhancing Firm Performance Through Intra-Group Managerial Experience: Evidence from Group-Affiliated Firms in Korea / Kim, Young Choon; Shin, Taekjin; Park, Sangchan / 2019-06 • RESEARCH POLICY / Many Hands: The Effect of the Prior Inventor-Intermediaries Relationship on Academic Licensing / Kim, Young Choon; Rhee, Mooweon; Kotha, Reddi / 2019-04 • JOURNAL OF MANAGEMENT STUDIES / Following in Partners’ Footsteps: An Uncertainty-reduction Perspective on Firms’ Choice of New Markets for Entry / Makarevich, Alex; Kim, Young Choon / 2019-11

324

Financial Engineering Lab 금융공학연구실

서병기

_Byoungki Seo

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 706-6 Tel : +82-52-217-3150 E-mail : bkseo@unist.ac.kr http://bkseo.unist.ac.kr

서병기 교수는 2012년 UNIST 경영학부에 부임하기 전까지 한국 금융 파생상품 시장에서 퀀트와 트 레이더로 일해왔다. 그러한 경험을 바탕으로 금융시장에 솔루션을 제공하는 연구를 하고 있다. 그는 주로 금융 시장 변동성이나 유동성에 대한 논문을 쓰고 있으며, 금융시장을 안정화 시키기 위한 모 형을 개발하는 연구도 진행하고 있다.

Curriculum Vitae

최근 에너지 트레이딩에도 관심을 가져 “에너지상품거래 및 금융공학” 프로그램과 “국제에너지트레

· 2012 - Present : Associate/Assistant Professor, School of Business Administration, UNIST · 2006 - 2012 : Quant/Trader, FX and Derivatives Team, Trading Department, Industrial Bank of Korea · 2005 - 2006 : Researcher, Mathematical Institute, Utrecht University, the Netherlands · 2004 - 2005 : Researcher, Institute of Natural Science, KAIST

이딩 센터”를 설립하였다. 또, 블록체인과 관련된 “UNIST 블록체인센터”도 설립하여 센터장으로 역 임하였다. 인공지능 기법을 활용한 금융시장 분석과 예측 또한 중요한 연구주제 중 하나이다.

Major research field Financial Engineering, Market Microstructure

Desired field of research Energy Trading, Fintech, Artificial Intelligent

Research Publications (selected) • FINANCE RESEARCH LETTERS / Monetary policy rate expectation and energy prices during the FOMC announcement period / Jang, Hyeonung; Seo, Byoung Ki / 2020-03 • JOURNAL OF FUTURES MARKETS / Hyperbolic normal stochastic volatility model / Choi, Jaehyuk; Liu, Chenru; Seo, Byoung Ki / 2019-02 • JOURNAL OF ECONOMIC DYNAMICS & CONTROL / Modeling microstructure price dynamics with symmetric Hawkes and diffusion model using ultra-high-frequency stock data / Lee, Kyungsub; Seo, Byoung Ki / 2017-06 • JOURNAL OF EMPIRICAL FINANCE / Marked Hawkes process modeling of price dynamics and volatility estimation / Lee, Kyungsub; Seo, Byoung Ki / 2017-01

Academic Credential · 2004 : Ph.D. in Mathematics, KAIST · 1999 : M.S. in Mathematics, KAIST · 1997 : B.S. in Mathematics, KAIST

Awards/Honors/Memberships · 2018 : Commendation, Ulsan Mayor · 2018 : Best Paper Award, Asia-Pacific Association of Derivatives

School of Business Administration

325

School of Business Administration

Dr. Seo had worked on financial derivatives market as a quant and trader before being appointed as a professor of business administration at UNIST in 2012. The research is focused on giving solutions to the financial market based on his experiences. He published papers on financial market volatility and liquidity. He is also in the process of developing a model to stabilize the financial market. Recently, he was interested in energy trading and founded “Energy Commodity Trading and Financial Engineering” program and “Center for International Energy Trading”. He is also interested in blockchain technology and has established “UNIST Blockchain Research Center” and serves as the director. Financial market analysis and forecasting using AI techniques is one of his important research topics as well.

Asset Pricing Studies

신상욱

_Sang-Ook (Simon) Shin

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-10 Tel : +82-52-217-3204 E-mail : simonshin@unist.ac.kr https://sites.google.com/site/sangooks hin/

My research interests involve asset pricing, macro finance, and financial intermediation with an emphasis on intermediary asset pricing. 신상욱 교수 연구실에서는 자산 가격 결정, 거시 금융 및 금융 기관에 대하여 연구를 하고 있습니다. 수학적 이론 모형 및 다양한 실증 분석을 통해 금융 시장의 움직임을 설명하는 것에 중점을 맞추고 있습니다.

Major research field Asset Pricing, Macro Finance, Financial Intermediation

Research Keywords and Topics Curriculum Vitae · 2019 - Present : Assistant Professor of Finance, UNIST

Academic Credential · 2019 : Ph.D. Business Administration (Finance), Texas A&M University · 2012 : M.A. Management Science (Finance), KAIST · 2006 : B.A. in IT Business, KAIST

326

• Financial Markets (Stock/Bond markets) • Intermediary Asset Pricing • Heterogeneous Agents • Ambiguity/Uncertainty Aversion

Desired field of research Machine-Learning based Asset Pricing

Quantitative Marketing Research Lab 계량마케팅 연구실

이기연 교수의 연구는 기업과 고객, 고객 사

이기연

_KeeYeun Lee

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-6 Tel : +82-52-217-3198 E-mail : keeylee@unist.ac.kr

이의 동적 상호 소통의 통계 모델을 개발하 는 데 중점을 두고 있습니다. 그는 기업의 마케팅 커뮤니케이션 활동에 대한 고객의 반응뿐만 아니라 기업이 어떻게 이러한 자 극을 동적으로 개인 고객에게 최적화 할 수 있는지 측정하려고 노력합니다.

Fig. 1. The multistage mate choice process.

Major research field Choice Modeling, Bayesian Econometrics, Machine Learning, Database Marketing

Desired field of research Online Education, Subscription Economy

Curriculum Vitae · 2019 - Present : Assistant Professor, UNIST · 2013 - 2019 : Assistant Professor, Faculty of Management and Marketing, Hong Kong Polytechnic University

Academic Credential

Research Keywords and Topics • Choice Modeling 소비자들의 선택 행동 모형

• Bayesian Econometrics 베이즈 통계를 이용한 데이터 분석

• Donation Behaviors 기부 행동 분석

• Online Entertainment

· 2013 : Ph.D., Marketing, Ross School of Business, University of Michigan · 2006 : B.A., Statistics, Yonsei University

Awards/Honors/Memberships · 2010 : Close Award, Ross School of Business, University of Michigan · 2010 : Kendrick Award, Ross School of Business, University of Michigan

온라인 엔터테인먼트

• Customer Relationship Management 고객 관계 관리

Research Publications (selected) • PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Extracting multistage screening rules from online dating activity data / Bruch, Elizabeth; Feinberg, Fred; Lee, Kee Yeun / 2016-09

School of Business Administration

327

School of Business Administration

Prof. Lee's research focuses on developing statistical models of dynamic intercommunication: between firms and their customers and among customers themselves. He tries to measure not only customers’ responses to firms’ marketing communication actions (stimuli), but also how firms can optimize such stimuli to individual customers in a dynamic manner.

Uncertainty Lab 불확실성 연구실

이사야

_Saiah Lee

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-3 Tel : +82-52-217-3202 E-mail : saiahlee@unist.ac.kr http://www.saiahlee.com

I empirically examine macroeconomic issues and their underlying mechanism based on economic theories. My research interests span macro and monetary economics, international economics, and applied time-series. Recent works include the study of monetary policy under data uncertainty, household and corporate credit in emerging economies, and the relationship between macroeconomic conditions and wage inequality. I am also interested in time-series forecasting and empirical methods that help in understanding macroeconomic dynamics. My long-term research agenda includes interactions between financial markets and the macroeconomy, the behavior of inflation and unemployment, fluctuations in consumption and investment, the sources of macroeconomic fluctuations, and the use of machine learning in economics. “불확실성 연구실”은 경제 이론을 바탕으로 거시 경제 문제와 그 기본 메커니즘을 경험적으로 조사 합니다. 저의 연구 관심 분야는 거시 경제학, 통화 경제학, 국제 경제학, 응용 시계열입니다. 최근 연 구에는 데이터 불확실성, 신흥 경제의 가계 및 기업 신용, 거시 경제 조건과 임금 불평등 간의 관계에

Curriculum Vitae

대한 통화 정책 연구가 포함됩니다. 또한 거시 경제 역학을 이해하는 데 도움이 되는 시계열 예측 및

· 2019 - Present : Assistant Professor, Economics, UNIST

인플레이션과 실업의 행동, 소비 및 투자의 변동, 거시 경제 변동의 원인, 경제에서 머신 러닝 사용이

Academic Credential

포함됩니다.

경험적 방법에도 관심이 있습니다. 저의 장기 연구 의제에는 금융 시장과 거시 경제 간의 상호 작용,

· 2019 : Ph.D. Economics, University of Wisconsin-Madison · 2012 : M.S. Economics, University of Wisconsin-Madison · 2010 : M.A. Economics, Miami University · 2008 : B.A. Economics, Yonsei University

Awards/Honors/Memberships · 2016 - 2018 : Graduate Research Fellow at Institute for Research in Poverty, University of WisconsinMadison · American Economic Association · Econometric Society · Korea-America Economic Association · Korean Economic Association · Korea International Economic Association · Korean Association of Applied Economics

Major research field Macro and Monetary Economics, International Economics, Applied Time-Series

Desired field of research Decision Making under Uncertainty using Artificial Intelligence

Research Keywords and Topics • Monetary Policy under Data Uncertainty : Interest-Rate Smoothing from a CrossCountry Perspective 데이터 불확실성 하에서의 통화 정책 : 국가 간 관점에서 본 금리 평활화

• Household and Corporate Credit in Emerging Economies : Symbiosis or Competition? (with Seung-Gyu Sim) 신흥 경제의 가계 및 기업 신용 : 공생인가 경쟁인가? (심승규 공저)

• Macroeconomic Conditions and Wage Inequality : Expanding and Analyzing the Worldwide Dataset 거시 경제적 조건 및 임금 불평등 : 전 세계 데이터 세트 확장 및 분석

• Dynamic Coupling of the U.S. and Canadian Industrial Production Indices 미국 및 캐나다 산업 생산 지수의 동적 결합

• Economic Forecast and Optimization under Data Uncertainty using Artificial Intelligence 인공 지능을 이용한 데이터 불확실성 하에서 경제 예측 및 최적화

Research Publications (selected) • EMERGING MARKETS REVIEW / The cyclical behavior of household and corporate credit in emerging economies / Sim, Seung-Gyu; Lee, Saiah / 2020-12

328

CorpFin Lab 기업재무 연구실

Major research field Empirical Corporate Finance, Financial Disclosure, Market Efficiency, Institutional Investors, Corporate Governance, CSR, IPOs

Desired field of research 이사회와 기업지배구조, 기업구조조정, Private equity, 경제성 평가, ESG investment, 전자투표제도

이준엽

_JunYoup Lee

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-8 Tel : +82-52-217-3175 E-mail : junlee@unist.ac.kr https://scholarworks.unist.ac.kr/researc her-profile?ep=2763

Curriculum Vitae · 2020 - Present : Associate Professor, Finance, UNIST · 2014 - 2020 : Assistant Professor, Finance, UNIST

Academic Credential · 2014 : Ph. D. Finance, Statistics (Minor), Texas Tech University · 2006 : M.S. Financial Engineering University of Michigan at Ann Arbor · 2004 : B.A. Economics, University of Utah · 2002 : B.S. Business Administration, Yonsei University

Research Keywords and Topics

Awards/Honors/Memberships

• Empirical Corporate Finance (Ownership structure and tunneling, Bankruptcy, Financial distress and Debt restructuring, Payout policies of firms, Compensation & Incentives mechanism, Mergers & Acquisitions) • The role of Financial Disclosure in capital markets • Role of institutional investors in corporate finance • Corporate Governance, Board of Directors • Corporate Social Responsibility (CSR) • Environmental, Social and Governance (ESG) • IPOs

· 2020 : 남곡학술상, 재무관리학회 · 2018 : 매경최우수 논문상, 경영통합학회 · 2018 : 우수논문상, 대한회계학회

Research Publications (selected) • JOURNAL OF FINANCIAL RESEARCH / Revisiting Bookbuilding versus Auction IPOs: A Perspective of Informationally Efficient Prices in the Aftermarket / Shim, Hyeongsop; Lee, Jun-Youp; Yi, Ha-Chin / 2019-09 • INTERNATIONAL REVIEW OF FINANCE / CEO duality and Firm Performance: Does Economic Policy Uncertainty Mediate the Relation? / Chang, Kiyoung; Lee, Jun-Youp; Shim, Hyeongsop / 2019-12 • AUSTRALIAN ACCOUNTING REVIEW / Acquired In-Process Research and Development and Earnings Management / Lee, Junyoup; Lee, Eunsuh; Kim, Kevin H.; Paik, Daniel Gyung H. / 2018-12

School of Business Administration

329

School of Business Administration

The CORPFIN laboratory studies a variety of topics related to corporate finance. Corporate activities can be broadly divided into investment, financing, and profit distribution. Companies invest in tangible and intangible assets for production. Financing can include issuing bonds, reinvesting with retained profits, and further selling shares to shareholders. In other words, investment decisions are about the execution of funds, and capital raising decisions are about the company's capital structure. It is also very important to increase the value of the company through expansion so that it can use the fair distribution of profits (dividends) to shareholders so that they can trust and invest in the capital market again. A good corporate governance system is essential for the successful increase of corporate value. Under a good corporate governance system, all managers and employees have appropriate incentives and compensation systems to increase corporate value, and ultimately realize the value of a social enterprise that returns benefits to all stakeholders of the company. In this laboratory, the capital structure, corporate disclosure (Financial Disclosure), M&A (merger and acquisition), efficient market, corporate governance, social enterprise. We study various topics in corporate finance such as (Corporate Social Responsibility), Initial Public Offering (Initial Public Offering), and Valuation.

Risk Analysis Lab 위험분석연구실

장현진

_Hyun Jin Jang

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-2 Tel : +82-52-217-3165 E-mail : janghj@unist.ac.kr https://sites.google.com/site/janghj/

Risk Analysis Lab. focuses on a financial risk assessment based on quantitative methodologies for optimal decision making by financial institutions and regulators. We study how to quantify and forecast the risk embedded in financial markets based on empirical and statistical analyses and we are interested in exploring a cutting-edge methodology for its application. We ultimately aim to provide a better solution against unexpected shocks for financial industry.

Curriculum Vitae · 2019 - Present : Associate Professor, UNIST · 2014 - 2019 : Assistant Professor, UNIST · 2009 - 2014 : Risk manager/Risk quant, Samsung Securities

Academic Credential · 2010 : Ph.D. Mathematics (concentrated on Financial mathematics), KAIST · 2006 : M.S. Mathematics, KAIST · 2004 : B.S. Mathematics (Summa Cum Laude), SungKyunKwan University

Awards/Honors/Memberships · 2015 : The 5th Best Paper Awards in Derivatives by Korea Exchange (KRX) · Member of Editorial Advisory Board of the Global Commodities Applied Research Digest, J.P. Morgan Center for Commodities (JPMCC) at the University of Colorado Denver Business School

330

Major research field

Desired field of research

Financial Risk Management, Quantitative Methods in Finance, Derivatives

Neural Network Application to Financial Risk Management; Statistical Forecasts

Research Keywords and Topics • Quantitative risk management • Financial derivatives pricing and their calibration • Stochastic modeling in Finance

Research Publications (selected) • Journal of Economic Dynamics & Control / Optimal market-making strategies under synchronised order arrivals with deep neural networks. / Choi, So Eun; Jang, Hyun Jin; Lee, Kyungsub; Zheng, Harry / 2021-04 • North American Journal of Economics & Finance/ Assessment of time-varying systemic risk in credit default swap indices: Simultaneity and contagiousness / Choe, Geon Ho; Choi, So Eun; Jang, Hyun Jin / 2020-11 • European Journal of Finance / Why should we invest in CoCos than stocks? An optimal growth portfolio approach / Jia, Longjie; Jang, Hyun Jin; Zheng, Harry / 2020-11

Applied Macro Lab 응용거시경제 연구실

응용거시경제 연구실은 다음과 같은 특별한 관심을 가지고 응용 거시 경제학을 연구하고 있습니다. • 개방형 거시 경제학

정근석

_Keunsuk Chung

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 501-4 Tel : +82-52-217-3126 E-mail : chungk@unist.ac.kr

• 경제 성장 • 주택 시장

Curriculum Vitae · Associate Professor, School of Business Admin., UNIST

Academic Credential

Major research field applied macroeconomics, open macroeconomics, economic growth, housing markets

Desired field of research income distribution, human capital

· 2005 : Ph.D. Economics, University of Washington · 1994 : M.A. Economics, Seoul National University · 1991 : B.A. International Economics, Seoul National University

Research Keywords and Topics • international capital flows, economic growth, human capital

Research Publications (selected) • FINANCE RESEARCH LETTERS / Regime Switching in the Present Value Models: A Backward-solving Method / Kim, Jan R.; Chung, Keunsuk / 2020-01 • JOURNAL OF ECONOMIC BEHAVIOR & ORGANIZATION / Inefficient Competition in Shadow-Education Investment / Chung, Keunsuk; Lee, Dongryul / 2017-07 • JOURNAL OF INTERNATIONAL MONEY AND FINANCE / Foreign Debt Supply in an Imperfect International Capital Market: Theory and Evidence / Chung, Keunsuk; Turnovsky, S.J. / 2010-03

School of Business Administration

331

School of Business Administration

I study applied macroeconomics, with special interests in: • open macroeconomics • economic growth • housing markets

Accounting 회계

주정환

_Jeong-Hwan Joo

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 706-7 Tel : +82-52-217-3200 E-mail : jeongjoo@unist.ac.kr

The major themes of accounting lab are • What is the role of accounting information in the capital market? • What determines corporate governance and incentive mechanisms and what do they influence managers’ decision-making and behavior? For future research, we will continue to investigate the role of accounting in investment decisions, and the interplays between accounting, governance, and managerial incentives. We believe these research areas will continue to be important and promising. In the future, We will investigate the effects of accounting on innovation, corporate social responsibility, and operating and investing efficiency. In addition, We are also interested in cross-country differences in accounting standards, taxation, corporate culture, capital and labor specificity, and policy uncertainty. 회계 LAB의 현재 연구의 주요 주제는 • 자본시장에서 회계정보의 역할

Curriculum Vitae · 2013 : Ph.D., University of British Columbia · 2006 : MBA, University of Minnesota · 1994 : BBA, Seoul National University

• 기업 지배구조와 인센티브 메커니즘의 설계를 결정하는 경제적 요인과 관리자의 의사결정과 행동 에 미치는 영향 등이며 향후 연구 Agenda로서는 회계가 innovation, 기업의 사회적 책임, 그리고 투 자 및 영업의 효율성에 미치는 영향을 연구할 계획이다. 또한 회계, 세제, 기업문화, 기업과 노동의 특수성, 그리고 정책적 불확실성 등의 국가간 차이에 대해서도 연구 분야를 넓혀갈 계획이다.

Major research field

Academic Credential · 2019 - 2022 : Research Grants (UNIST), Principal Investigator · 2017 - 2019 : Seed Funding (University of Hong Kong), Principal Investigator · 2015 - 2018 : Hong Kong Government ECS Grants, Principal Investigator · 2013 - 2016 : Seed funding (University of Hong Kong), Principal Investigator

332

Financial reporting, security valuation, corporate governance, executive compensation

Research Publications • CONTEMPORARY ACCOUNTING RESEARCH / The effects of governance on classification shifting and compensation shielding / Joo, Jeong Hwan; Chamberlain, Sandra L. / 2017-02 • ASIA-PACIFIC JOURNAL OF ACCOUNTING & ECONOMICS / Differential performance impacts of outsider versus insider interim CEO succession / Bae, Jihun; Joo, Jeong Hwan; Park, Chul W. / 2020-10 • JOURNAL OF ACCOUNTING AUDITING AND FINANCE / The effect of industry business cycles on the information in pro-Forma earnings: evidence from U.S. REITs / Begley, Joy; Chamberlain, Sandra; Joo, Jeong Hwan / 2020-12 • KOREAN ACCOUNTING REVIEW / What determines the voluntary disclosure of CEO succession planning? Ahn, Minkwan; Joo, Jeong Hwan, 2020-10

Behavioral Finance and Asset Pricing

재무학에 관심이 있다면 누구나 환영입니다. 한희은 교수 연구실에서는 개인의 투자 행동, 기업 재무 활동, 투자 모델, 및 머신러닝을 이용한 시계열 분석으로 오일 가격 예측 등을 연구합니다. 그리고 기

한희은

_Hope hyeun Han

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 701-9 Tel : +82-52-217-3203 E-mail : hopehan@unist.ac.kr https://sites.google.com/view/hhhan/

후변화 및 코로나-19 와 같은 리스크가 시장에 미치는 영향에 대해 연구하고자 합니다.

Desired field of research

Major research field Behavioral Asset Pricing, Investment, Corporate events with behavioral perspective

Time-Series Forecasting with Machine Learning, Climate Risk, Health Risk

Curriculum Vitae

Research Keywords and Topics • Behavioral Asset Pricing 행동재무학

• Investment 투자론

• Corporate events with behavioral perspective 기업 재무 활동 + 행동재무학

• Time-Series Forecasting with Machine Learning 시계열 예측 + 머신러닝

· 2019 - Present : Assistant Professor, Finance, UNIST

Academic Credential · Ph.D., Finance, Florida State University · M.S., Statistics, University of Illinois Urbana-Champaign · B.S. Computer and Communication Engineering, Financial Engineering, Korea University

• Climate change risk 기후변화 리스크

• Health risk 건강 관련 리스크

Awards/Honors/Memberships · American Economic Association · American Finance Association · Korean-American Finance Association

Research Publications (selected) • SUSTAINABILITY / Sustainable Causal Interpretation with Board Characteristics : Caveat Emptor / Kim, Jong-Min; Jun, Chulhee; Han, Hope Hyeun / 2020-04

School of Business Administration

333

School of Business Administration

Anyone interested in Finance are welcome. Research interest includes studies on individuals' investment behaviors, corpoate events in behavioral perspective, asset pricing models, and time-series forecasting with machine learning. I am also interested in examining climate change and health risks (e.g. COVID-19) on financial and commodity market.

Human Matrix 휴먼 매트릭스

홍운기

_Woonki Hong

School of Business Administration Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 706-8 Tel : +82-52-217-3130 E-mail : hong@unist.ac.kr

Research is being actively conducted to enhance understanding of humans by collecting and analyzing sensing data such as movements and voices of human behavior using information technology. Through this, organizational behavior researchers are researching human behavior patterns by collecting data such as movement/voice/pulse of team members in real time with IT sensing technology, moving away from traditional research methodology. In this lab, we also created Human Matrix, a sensing tool, to quantify and predict/diagnose the types of interpersonal relationships and collaboration ability indicators that represent interactions and social competencies between people. 정보기술을 활용하여 인간 행동의 움직 임, 목소리 등의 센싱 데이터를 수집하여 분석함으로써 인간에 대한 이해도를 높 이기 위한 연구가 활발하게 이루어지고 있습니다. 이를 통해, 조직행동 연구자들

Curriculum Vitae

은 전통적인 연구 방법론을 벗어나 IT

· 부교수, 경영학과, UNIST

센싱 기술로 팀원들의 움직임/목소리/

Academic Credential · 2013 : Ph.D School of Labor and Employment Relations, University of Illinois at Urbana-Champaign · 2007 : M.A. 경영학과(인사조직), 고려대학교 · 2003 : B.A. 산업시스템 정보공학과, 고려대학교

맥박 등의 데이터를 실시간으로 수집해 인간 행동 패턴을 연구하고 있습니다. 본 연구실에서도 센싱 도구인 Human Matrix를 제작하여 사람들 간의 상호작용 및 사회적 역량을 나타나는 대인관계 유 형 및 협업 능력 지표들에 대한 계량화 및 예측/진단 연구하고 있습니다.

Major research field 팀 성과, 지식 활용 및 공유, 도움 행동

Desired field of research 센서를 활용한 팀 상호작용

Research Publications (selected) • GROUP DYNAMICS-THEORY RESEARCH AND PRACTICE / The Interactive Effects of Perceived Expertise, Team Identification, and Dyadic Gender Composition on Taskrelated Helping Behavior in Project Teams /Hong, Woonki; Lee, Eun Kyung; Son, Jooyeon / 2020-06 • JOURNAL OF ORGANIZATIONAL BEHAVIOR / Explaining Dyadic Expertise Use in Knowledge Work Teams: An Opportunity-Ability-Motivation Perspective / Hong, Woonki; Gajendran, Ravi Shanker / 2018-07 • GROUP & ORGANIZATION MANAGEMENT / Effects of expertise and social status on team member influence and moderating roles of intragroup conflict / Hong, Woonki; Zhang, Lu; Gang, Kwangwook; Choi, Boreum / 2019-08

Patents (selected) •센서 데이터를 이용한 개인 및 조직 상호작용 역량 분석 시스템 및 방법 (특허 등록 10-2109881) / 홍운기, 정윤혁, 우한균 / 2020-05

334

SChool of lIBeral artS 인문학부

06 School of Liberal Arts 인문학부

PostHumanism 포스트휴머니즘

타타르, 브래들리 _Bradley Scott Tatar School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 401-1 Tel : +82-52-217-2016 E-mail : btatar@unist.ac.kr

The PostHumanism lab carries out social scientific investigations of the relationships between humans and non-humans, drawing upon various theoretical perspectives such as Actor Network Theory, Risk Society, and Systems Theory. The ways that humans define their relationships to nonhuman animals are studied in order to reveal how humans structure their relationships toward nature and ecological systems. Research includes investigations of human-wildlife conflict as a ‘wicked problem,’ environmental governance and the wildlife trade, captivity and liberation of animals, and the commodification of nature as a public spectacle. PostHumanism 연구실은 Actor Network Theory, Risk Society 및 Systems Theory와 같은 다양한 이 론적 관점을 바탕으로 인간과 비인간 관계에 대한 사회 과학적 조사를 수행합니다. 인간이 인간이 아 닌 동물과의 관계를 정의하는 방법을 연구하여 인간이 자연 및 생태 시스템에 대한 관계를 어떻게 구성하는지 보여줍니다. 연구에는 ‘wicked problem’로서의 인간-야생 동물 갈등, 환경 거버넌스 및 야생 동물 거래, 동물의 포로 및 해방, 대중의 광경으로서의 자연 상품화에 대한 조사가 포함됩니다.

Curriculum Vitae · 2010 - Present : Assistant Professor, School of Liberal Arts, UNIST · 2008 - 2010 : Visiting Professor, College of Cultural Science, KAIST · 2006- 2008 : Visiting Professor, English, Catholic University of Korea · 2004 - 2006 : Visiting Professor, Greensboro/Anthropology, University of North Carolina

Academic Credential · 2003 : Ph. D. Cultural Anthropology, University at Albany · 1996 : M. A. Cultural Anthropology, University at Albany

338

Major research field Cultural anthropology

Desired field of research Risk analysis

Research Publications (selected) • RESEARCH IN SOCIAL MOVEMENTS, CONFLICT AND CHANGE / Whaling in Korea: Heritage, Framing, and Contention against International Norms / Tatar, Bradley / 202103 • JOURNAL OF INTERCULTURAL STUDIES / The Bangudae Petroglyph: Whaling and Remodernisation in a South Korean Industrial City / Tatar, Bradley / 2020-05 • COASTAL MANAGEMENT / Dolphin Liberation in Korea: Is it Beneficial for Conservation? / Kim, Sejoon; Tatar, Bradley / 2018-04 • MARINE POLICY / Getting to know the consumer : Toward mitigation of illegal whale meat consumption in South Korea / Tatar, Bradley; Jung, Changkuk / 2018-02 • 한국문화인류학 / Place-making, Landscape and Materialities : Whales and Social Practices in Ulsan, Korea / Tatar, Bradley / 2017-07 • JOURNAL OF MARINE AND ISLAND CULTURES / The safety of bycatch : South Korean responses to the moratorium on commercial whaling / Tatar, Bradley / 2014-12

Korean History and Civilization 한국 역사와 문화

초기 아시아 근대 역사, 정치적 정당성, 영화에 등장하는 역사, 공상 과학을 통한 역사에 중점을 둔 연 구실입니다. 간행물에는 학술 논문, 초기 근대 한국의 계몽된 독재자, 미국 종교 아카데미 저널, 아시 아 역사 저널, Acta Koreana의 기사가 있습니다. 이 작품들은 초기 근대 왕권, 정치적 정당성, 인문학 과 과학의 통일성, 현대 사회 조건에 대한 렌즈로서의 공상 과학 소설에 대한 비교 관점을 다룹니다. 역사를 전공에 관계없이 학생 교육을 위한 가장 중요한 지식 영역 중 하나로 생각합니다. 왜냐하면 역사적 학문에 대한 탄탄한 배경은 학생들이 정치적 결정, 사회적 상황 및 경제적 조건에 대해 현명

로빈스, 크리스토퍼 _Christopher Lovins School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 406-11 Tel : +82-52-217-3054 E-mail : cllovins@unist.ac.kr

Curriculum Vitae · 2016 - Present : Assistant Professor, UNIST · 2015 - 2016 : Postdoctoral Fellow, University of British Columbia · 2014 - 2015 : Visiting Assistant Professor, Oberlin College

한 판단을 내리는 데 도움이 될 수 있기 때문입니다. 주요 목표는 모든 중요한 진실 주장에 대해 회의

Academic Credential

적인 태도를 학생들에게 전달하고 복잡하고 다면적인 질문에 대한 간단하고 직접적인 대답을 거부

· Ph.D. Korean history, University of British Columbia · M.A. Korean studies, Korea University · B.A. History, University of South Carolina

하는 것입니다. 나는 논쟁의 대상이 되는 역사의 본질, 복잡성과 우발성, 관점과 접근의 다양성을 강 조합니다.

Major research field East Asian history, early modern history, political history

Desired field of research science fiction studies, film studies, consilience

Research Keywords and Topics • early modern history, political legitimacy, science fiction, kingship, political history, consilience, comparative history, film studies 근고사, 정치 정당성, 공상과학소설, 왕권, 정치사, 통섭, 비교역사학, 영화학

Research Publications (selected) • SUNY Press / King Chŏngjo : An Enlightened Despot in Early Modern Korea / Christopher Lovins / 2019-04 • JOURNAL OF ASIAN HISTORY / Monarchs, Monks, and Scholars : Religion and State Power in England and Korea / Christopher Lovins / 2019-12 • MOSF Journal of Science Fiction / A Ghost in the Replicant? Questions of Humanity and Technological Integration in Blade Runner and Ghost in the Shell / Christopher Lovins / 2019-02

Awards/Honors/Memberships · 2015 - 2016 : Academy of Korean Studies Postdoctoral Teaching Fellowship, University of British Columbia · 2012 - 2013 : Fulbright Study/Research Grant: Korea · 2008 - 2012 : Faculty of Arts Graduate Award, University of British Columbia · 2004 - 2006 : Freeman Fellowship, Korea University · 2003 - 2006 : Korea Foundation Graduate Fellowship, Korea University

School of Liberal Arts

339

School of Liberal Arts

I’m interested in early modern Asian history, political legitimacy, history as represented on film, and history through science fiction. My publications include a scholarly monograph, An Enlightened Despot in Early Modern Korea, and articles in the Journal of the American Academy of Religion, the Journal of Asian History, and Acta Koreana. These works address comparative perspectives on early modern kingship, political legitimacy, consilience of the humanities and the sciences, and science fiction as a lens on contemporary social conditions. I consider history to be one of the most vital areas of knowledge for student education, regardless of major, because a solid background in historical scholarship can help students make informed judgments regarding political decisions, social circumstances, and economic conditions. My primary goal is to impart to students a skeptical attitude towards all important truth-claims and to reject simple and straightforward answers to complex and multifaceted questions. I emphasize the contested nature of history, its complexity and contingency, its multiplicity of viewpoints and approaches.

Applied Linguistics 응용언어학

김정연

_Jeongyeon Kim

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 401-6 Tel : +82-52-217-2013 E-mail : jkim@unist.ac.kr

As an applied linguist and teacher, Dr. Kim works on pragmatics of foreign language in her research and teaching, social aspects of foreign language uses. She has focused on two themes regarding L2 teaching and learning, the effect of context on L2 learning and L2 intercultural communicative competence. Her research projects have helped to build a shared understanding of the foreign language reforms of higher education between different stakeholders, including local and international members (Kim, J., Kim, E. G., & Kweon, S-O., 2018; Kim, Kweon, & Kim, 2017; Kim, Tatar, & Choi, 2014). Throughout her studies, she has also communicated to stakeholders the impact of cultural diversity on institutions and their management. Currently, she is involved in multiple projects on L2 identity, motivational regulation in an online learning context, and human and AI interaction. 응용 언어학 전공자로서 김정연교수는 사회언어학적 외국어 사용에 관해 주로 연구한다. 특히, 외국 어 교육 및 학습에 있어 학습 환경의 사회적 요인의 영향과 외국어 문화 간 의사 소통 능력에 중점적

Curriculum Vitae

으로 연구해왔다. 최근에는 외국어 정체성 발달, 동기조절력, 온라인 학습환경 및 인간-AI 상호작용

· 2020 - Present : Professor/Language Education Program Coordinator (School of Liberal Arts/UNIST) · 2016 : Visiting Scholar, Center for Korean Studies, University of Hawaii · 2009 - 2020 : Assistant/Associate Professor (Division of General Studies, UNIST) · 2009 - 2019 : Director (U Innovative Education Center, Language Education Center, Health Center/UNIST) · 2004 - 2007 : Full time Lecturer, Dept. of Asian Languages & Cultures, UCLA

에 관한 연구프로젝트에 참여하고 있다.

Academic Credential

• SYSTEM / Negotiation of emotions in emerging language teacher identity of graduate instructors / Kim, Jeong-Yeon; Smith, H. Y. / 2020-12 • JOURNAL OF FURTHER AND HIGHER EDUCATION / International students’ intercultural sensitivity in their academic socialisation to a non-English-speaking higher education : a Korean case study / Kim, Jeong-Yeon / 2020-08 • ENGLISH FOR SPECIFIC PURPOSES / Challenges in implementing English-Medium instruction : Perspectives of Humanities and Social Sciences professors teaching engineering students. Kim, Jeong-Yeon; Kim, Eun Gyong; Kweon, Soo-Ok / 2018-07 • JOURNAL OF STUDIES IN INTERNATIONAL EDUCATION / English-medium instruction and intercultural sensitivity : A Korean case study / Kim, Jeong-Yeon; Choi, Jinsook; Tatar, Bradley / 2017-10

Major research field Foreign language policy, English for Specific Purposes, intercultural communicative competence

Desired field of research Foreign language learning motivation, language identity, teaching methods, intercultural communicative competence

Research Keywords and Topics • Foreign language learning motivation, language identity, language policy, English for Specific Purposes, intercultural communicative competence 외국어학습 동기, 언어정책, 언어정체성, 특수목적영어, 문화간의사소통능력

Research Publications (selected) · 2004 : Ph.D. Foreign Language Education, The University of Texas at Austin · 1995 : M.ED. English Education, Seoul National University · 1991 : B.A. English Language & Literature/Education(Second Major) Sogang University

Awards/Honors/Memberships · 2010 : Best Paper Award, The English Teachers’ Association of Korea · Board Members - Association of Asia TEFL, The Sociolinguistic Society of Korea, Korea Association of Teacher of English, Korea Association of Foreign Language Education (KAFLE)

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Books • 김정연 (편저)/ 인문사회과학과 융합. 서울. 이숲출판 / 2019

Communication 커뮤니케이션

미디어와 문화, 효과적인 커뮤니케이션, 커뮤니케이션 특강과 관련한 과목을 담당하고 있다. 이 강좌

김진영

_Jin Young Kim

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 401-7 Tel : +82-52-217-2010 E-mail : jyk@unist.ac.kr

들을 통해 학생들은 미디어를 포함한 다양한 커뮤니케이션에 대한 이해와 효과적인 커뮤니케이션 에 관해 배우고 익히게 된다.

Major research field Communication theory, social media, intrapersonal communication (self, personality, creativity, etc.)

Curriculum Vitae

Research Keywords and Topics • Intrapersonal Communication 자아 커뮤니케이션

• Communication Education 커뮤니케이션 교육

• Perceptional Typology 인지유형연구

Research Publications (selected) • Journal of Engineering Education / A longitudinal study of the relation between creative potential and academic achievement at an engineering university in Korea / Kim, JinYoung / 2020-10 • Behavior & Information Technology / Exploring typology of social media quitters and associations among self-esteem, personality, and motivation/Kim, Jin-Young / 2020-08 • Internet Research / Study of social media users’ perceptional typologies and relationships to self-Identity and personality/Kim, Jin-Young / 2018-10 • Journal of Digital Convergence / A study on issues and tasks of humanity and social science in a Fourth industrial revolution era/ Kim, Jin-Young, Heo, WanGyu / 2018-11 • Educational Technology & Society / A Study of Perceptional Typologies on Computer Based Assessment (CBA) : Instructor and Student Perspectives / Kim, Jin-Young / 2015 • International Journal of Applied Engineering Research / The Effect of a Convergence Creativity Program and Influences of Students’ Motivation, Creative Self-efficacy, Satisfaction on Creativity / Kim, Jin-Young; Kim, Taehee / 2015-12 • Maritime Economics & Logistics / Port user typology and representation of port choice behavior : A q methodology study / Kim, Jin-Young / 2014-06 • Computers & Education / A Study on Learners’ Perceptional Typology and Relationships among the Learners’ Type, Characteristics, and Academic Achievement in a Blended e- Education / Kim, Jin-Young / 2012-09

Books • Kim, J. (2015). Intrapersonal Communication, Seoul : Communication Books • Kim, J. et al. (2013). Understanding Visual Media Education, Seoul : Communication Books • Kim, Y., Kim, J., Choi, S., & Sim, O. (2010). NIE (Newspaper In Education) for Elementary School. Seoul : HanKukMunHwaSa

· 2021 - Present : Professor, UNIST · 2013 - 2020 : Associate Professor · 2012 - 2014 : The chief, Center for Healthcare and Student Counseling · 2010 - 2012 : The chief, Center for UNIST Media & PR · 2009 - 2012 : Assistant Professor, UNIST · 2003 - 2009 : Professor, YoungSan University · 1991 - 1998 : Announcer, Ulsan MBC

Academic Credential · 2002 : Ph. D Communication, The University of Southern Mississippi · 1998 : M.A. Donga University · 1991 : B.A. Pusan National University

Awards/Honors/Memberships · 2017 : Best Paper Award, ICCT · 2011, 2015 : Best Teaching Award, UNIST · 2010 : The 29th Minister Award from Ministry of Education, Science and Technology · 2009 : The 7th Academic Award from Korea Region Communication Research Association (KRCRA) · 2007 : The 5th Academic Award from Korea Region Communication Research Association (KRCRA) · Member of Korean Society for Journalism and Communication Studies · Editing Director, Journal of Speech, Media and Communication Research, KSMCA

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School of Liberal Arts

I teach communication courses including Effective Communication, Media and Culture, and Special issues course. Effective Communication course will improve the students’ ability to communicate effectively, which is essential for success in both the professional and academic worlds. Also, Media and Culture provides an introduction to mass communication and understanding of media as cultural industries that seek to influence our behavior and affect our values.

Science and Technology Studies 과학기술학연구

김효민

_ Hyomin Kim

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.114 Rm. 401-9 Tel : +82-52-217-2018 E-mail : khyomin17@unist.ac.kr http://khyomin.17.unist.ac.kr

Science & Technology Studies (STS) is a dynamic interdisciplinary field. STS scholars pay attention not only to how different fields, such as law, politics, and everyday life, become intertwined with science and technology but also how such ‘difference’ between fields have become accepted as our common worldview. The STS field becomes relevant when thinking about debates upon science/technology-related issues such as energy transition, the role experts, medicine, surveillance, and gender. STS researchers attempt to provide a systematic explanation of the ways we construct, maintain, understand, and re-construct the modernity. 과학기술학(STS)은 융합학문으로서, 과학, 기술, 사회의 관계를 연구하며, 동시에 이른바 전문적 영 역 간의 경계가 어떻게 근대 문명의 기본 조건으로서 형성되어 왔는지를 탐구합니다. 마땅히 과학기 술 전문가의 영역이라 믿어졌던 과학기술 관련 이슈들이 정당 정치와 생활정치의 영역의 문제가 되 면서 빚어지는 새로운 갈등을 이해하는 데 유용합니다.

Curriculum Vitae · 2018 - Present : Associate Professor, UNIST · 2012 - 2018 : Assistant Professor, UNIST · 2011 - 2012 : Visiting Scholar, University of California, Irvine · 2011 : Visiting Assistant Professor, KAIST Graduate School of Science and Technology Policy

Academic Credential · 2011 : Ph.D. Sociology of Science and Technology, University of Illinois at Urbana-Champaign · 2002 : B.S. Biological Sciences, KAIST

Awards/Honors/Memberships · Korea Association of Science and Technology Studies · Members of Advisory Council on the 3rd Basic Plan for Fostering and Supporting Women in Science and Technology (2013-2018)

342

Research Keywords and Topics • Public Understanding of Science 대중의 과학 이해

• Engineering Identities 공학자 정체성

• Public Engagement with Science and Technology 대중의 과학기술 참여

Research Publications (selected) • Woochang Lee and Hyomin Kim*, “The Politics and Sub-Politics of Mad Cow Disease in South Korea” East Asian Science, Technology and Society: An International Journal (forthcoming) • Hyomin Kim*, Seung Hee Cho, and Sungsoo Song, “Wind, Power, and the Situatedness of Community Engagement” Public Understanding of Science, 28, 1 (2019) • Hyomin Kim, Youngju Cho, Sungeun Kim, and Hye-Suk Kim, “Women and Men in Computer Science: Geeky Proclivities, College Rank, and Gender in Korea” East Asian Science, Technology and Society: An International Journal, 12, 1 (2017) • Hyomin Kim, “Reconstructing the Public in Old and New Governance: A Korean Case of Nuclear Energy Policy” Public Understanding of science, 23, 268 (2014)

Philosophy of Science 과학철학

My research areas are philosophy of science, ethics, and philosophy of religion.

Major research field

_Seungbae Park

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 406-9 Tel : +82-52-217-2011 E-mail : nature@unist.ac.kr http://philpeople.org/profiles/seungbae -park

Philosophy of Science, Ethics, Philosophy of Religion

Research Keywords and Topics • Philosophy of Science, Ethics, Philosophy of Religion

Research Publications (selected) • STUDIES IN HISTORY AND PHILOSOPHY OF SCIENCE / Extensional Scientific Realism vs. Intensional Scientific Realism / Park, Seungbae / 2016-10 • SOCIAL EPISTEMOLOGY / The Disastrous Implications of the ‘English’ View of Rationality in a Social World / Park, Seungbae / 2019-03 • INQUIRY-AN INTERDISCIPLINARY JOURNAL OF PHILOSOPHY / Can Mathematical Objects Be Causally Efficacious? / Park, Seungbae / 2019-03

Curriculum Vitae · 2012 - 2015 : Director, Education Center for the Gifted, UNIST · 2018 - Present : Professor, UNIST · 2012 - 2018 : Associate Professor, UNIST · 2009 - 2012 : Assistant Professor, UNIST

Academic Credential · 2001 : Ph.D. Department of Philosophy, University of Arizona · 1993 : B.A. Department of English, Chonbuk National University

Awards/Honors/Memberships · 2015 : LG Yeonam Overseas Research Professor · 2013 : Outstanding Teaching Award, UNIST · 2012 : Top 100 Educators, International Biographical Centre · 2010 : Best Teaching Award, UNIST · 2009 : Best Teaching Award, UNIST · 1993 : Chonbuk National University scholarship to study in the US · 1993 : Rotary Ambassadorial Scholarship to Study in the US · 1990 : The First Place in KATUSA English Speech Contest · 1987 : The First Place in the entrance of College of Humanities, Chonbuk National University · Member, Korean Association for Philosophy

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School of Liberal Arts

제 연구분야는 과학철학, 윤리학, 종교철학입니다.

박승배

Visual Arts & Creative Practice 시각예술 & 창의적 실행

백경미

_Kyong Mi Paek

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg.114 Rm. 406-10 Tel : +82-52-217-2015 E-mail : kpaek@unist.ac.kr

My research interests include critical cultural inquiries of practitioners in art and education, sociocultural aspects of art learning, inquiry-based learning, interdisciplinary learning. My research comprises three interrelated study areas: Contemporary art as a potential site for facilitating scientific creativity; Learning art in the context of public education; and Re-establishing ecological linkages through art. 저는 예술 및 교육실행자의 비판적 문화 탐구, 예술 학습의 사회 문화적인 측면, 탐구 기반 학습, 학제 간 학습 등에 관심을 가지고 과학적 창의성 증진에 기여할 수 있는 현대미술의 가능성, 공교육의 맥 락에서 예술 학습, 예술을 통한 생태적 연결에 대해 연구하고 있습니다.

Major research field Contemporary art as a potential site for facilitating scientific creativity; Learning art in the context of public education

Desired field of research Researches exploring the relationship among art, environment, community

Curriculum Vitae · 2020 - Present : Professor, UNIST · 2014 - 2020 : Associate Professor, UNIST · 2009 - 2013 : Assistant Professor, UNIST · 2008 : Master of Teaching Artist (MTA), Seoul Foundation for Arts and Culture · 2008 - 2009 : Postdoctoral Researcher, Ewha Womans University

Academic Credential · 2007 : Ed.D. Art and Art Education, Columbia University, New York · 1998 : MFA. Interior Design, Hong-Ik University, Seoul · 1994 : BFA. Hong-Ik University, Seoul

Awards/Honors/Memberships · Editorial board member, The Korean Journal of Arts Education · Editorial Board member, Journal of Research in Art and Education · Member of International Society for Education through Art, UK · Member of Kappa Delta Pi, USA · Member of National Art Education Association, USA

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Research Keywords and Topics • sociocultural aspects of art learning • inquiry-based learning • interdisciplinary learning • critical cultural inquiries of practitioners in art and education

Research Publications (selected) • INTERNATIONAL JOURNAL OF ART & DESIGN EDUCATION / Opportunities and Challenges in Collaborative Reform Practice: School-Community Partnerships through Art in Korean Schools / Paek, Kyong-Mi / 2020-08 • INTERNATIONAL JOURNAL OF ART & DESIGN EDUCATION / Communing with Nature: The Collective Journey of Yatoo Artists and Its Pedagogical Potentials / Paek, Kyong-Mi / 2019-02 • INTERNATIONAL JOURNAL OF EDUCATION THROUGH ART / Challenging Journeys: Contemporary Korean Artists and Some Possible Implications for Education through Art / Paek, Kyong-Mi / 2016-09 • BRITISH JOURNAL OF SOCIOLOGY OF EDUCATION / A Critical Cultural Inquiry into Insider Issues in South Korean Art Education /Paek, Kyong-Mi / 2015-08

Books • 현대미술에서의 예술적 성장과 창의적 인재양성 (집문당, 2016)

Critical Inquiry of Science/Technology/Medicine 과학/기술/의학에 대한 비판적 탐구

저의 연구관심은 우리 자신에 대한 지식생산이 우리가 사는 세계를 어떻게 구성해 내는 가의 문제에

성민규

_Minkyu Sung

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 406-12 Tel : +82-52-217-2025 E-mail : minkyusung@unist.ac.kr

천착해 있습니다. 이런 지식생산과 세계인식의 중요한 방식으로서 커뮤니케이션과 미디어의 작동 에 초점을 두고 있습니다. 인권과 인간가치, 디지털 미디어와 감시, 사이버네틱스, 인공지능과 자동 화, 바이오의료 기술, 과학전문성과 정책, 트라우마와 정신의학 담론이 연구의 주된 주제이자 사례 들이라 할 수 있습니다.

Major research field Critical Theory, Rhetoric of Science/Technology/Medicine

Desired field of research Humanistic Understanding of Artificial Intelligence, Rhetorics of Affect and Neuroscience, Digital Data and Surveillance in Smart Cities

Research Keywords and Topics • human rights and human values, digital media and surveillance, cybernetics, artificial intelligence and automation, biomedical technologies, scientific expertise and policy discourse, and trauma and psychiatric discourse 인권과 인간가치, 디지털 미디어와 감시, 사이버네틱스, 인공지능과 자동화, 바이오의료 기술의 레 토릭, 과학전문성과 정책, 트라우마와 정신의학 담론

Research Publications (selected) • SURVEILLANCE & SOCIETY, The Triad of Colonialism, Anti-Communism, and NeoLiberalism: Decolonizing Surveillance Studies in South Korea / Sung, MinKyu / 2019-12 • CRITICAL ASIAN STUDIES Balloon warriors for North Korean human rights activism: a critique of North Korean defector-activists’ post-humanitarianism / Sung, MinKyu / 2019-07 • Media and Society (언론과 사회) / The Depressed Self in Bare Thinking: A Rhetoric-of-Medicine Critique of Han Byeong-cheol’s Leistungsgesellschaft (Achievement-driven Society) (벌거벗은 사 유에 놓인 우울한 자아: 한병철의 성과사회에 대한 과학-의학의 수사학적 비판) / Sung, MinKyu / 2017-07

Curriculum Vitae · 2016 - Present : Associate Professor, School of Liberal Arts (인문학부), UNIST · 2018 : Visiting Scholar, Department of Communication Studies, University of Iowa · 2011 - 2016 : Assistant Professor, Division of General Studies, UNIST · 2010 - 2011 : Researcher, Research Institute of Image and Contents, Dongguk University, Seoul · 2004 - 2010 : Graduate Instructor, Department of Communication Studies, University of Iowa

Academic Credential · PhD in Communication Studies from the Department of Communication Studies, The University of Iowa · BA in Korean Literature from Kyung Hee University, Seoul

Awards/Honors/Memberships · 2019 : The Best Poster Paper Award of the Activism, Communication, and Social Justice Interest Group, the 69th International Communication Association annual conference · 2013 : New Scholar’s Best Paper of the Year Award (우당신진언론학자상), Korea Association of Journalism and Communication Studies (한국언론학회)

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School of Liberal Arts

I am interested in how our inquiry of humans play a role in shaping the world we belong to. For this, my research looks at sites of communication and media in which human values are negotiated and contested. Examples of my study include human rights and human values, digital media and surveillance, cybernetics, artificial intelligence and automation, biomedical technologies, scientific expertise and policy discourse, and trauma and psychiatric discourse.

Russian Literature 러시아 문학

윤새라

_Saera Yoon

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 401-5 Tel : +82-52-217-2012 E-mail : sayoon@unist.ac.kr

As a scholar and teacher, I work on the nineteenth-century Russian literature. In my early research I studied Ukrainian-born Russian writer Gogol from the perspective of nationalism. Since my translation of _Anna Karenina_ came out in 2011, most of my research has focused on Tolstoy and Dostoevsky, which resulted in a monograph _Dostoevsky and Tolstoy_, a comparative study of their major novels. I plan to cast a new light on diverse aspects of Tolstoy as a writer and humanist. 19세기 러시아 문학을 공부하는 윤새라입니다. 우크라이나에서 태어나 러시아 작가가 된 고골의 소 설을 민족주의 관점에서 연구했고 톨스토이의 [안나 카레니나](2011)를 번역한 후 톨스토이와 도스 토옙스키 연구를 병행해왔습니다. 그 결과 [도스토옙스키와 톨스토이: 장편소설 속 만남과 헤어 짐](2019)을 출간했습니다. 앞으로도 톨스토이의 소설만이 아니라 삶과 사회활동 등 다양한 면모를 새롭게 재해석해보고자 합니다.

Major research field Curriculum Vitae · 2019 - Present : professor, UNIST · 2013 - 2019 : Associate professor, UNIST · 2009 - 2012 : Assistant professor, UNIST · 2008 - 2009 : 학술연구교수, 대전대학교 · 2007 - 2008 : Postdoctor, 고려대학교

19세기 러시아 문학, 톨스토이와 도스토옙스키

Desired field of research 톨스토이와 동물, 포스트모더니즘 시대의 러시아 역사소설

Research Keywords and Topics • nineteenth-century Russian literature, Tolstoy, Dostoevsky, animals in Russian literature 19세기 러시아 문학, 톨스토이, 도스토옙스키, 동물과 러시아 문학

Academic Credential

Research Publications (selected)

· Ph.D. Indiana University Bloomington · M.A. 고려대학교 노문학 석사 · B.A. 고려대학교 노어노문학과 학사

• SLAVONIC AND EAST EUROPEAN REVIEW / Smerdiakov and Fathers in The Brothers Karamazov / Yoon, Saera / 2019-04 • RUSSIAN LITERATURE / Revitalization or Deception: Anna Karenina’s Central Characters in Europe / Yoon, Saera / 2016-10

Awards/Honors/Memberships · 2014 : Best Teaching Award (UNIST) · 2006, 2014 : 우수연구논문상 (한국연구재단)

Books • 도스토옙스키와 톨스토이: 장편소설 속 만남과 헤어짐 (한양대학교 출판부, 2019)

· 노어노문학회, 한국러시아문학회, 한국슬라브학회

Translations • 사람은 무엇으로 사는가 (열린책들, 2014) • 안나 카레니나 (펭귄클래식, 2011)

346

Sociology of Science and Technology 과학기술사회학

윤정로

_Jeong-Ro Yoon

Curriculum Vitae

Research Publications (selected) • 2016, 『사회 속의 과학기술』, 세창 • 2000, 『과학기술과 한국사회: 구조와 일상의 과학사회학』, 문학과지성사 • 2014 공저, 『과학적 사유와 인간 이해: 시대와 새로운 과학』, 민음사 • 2012, 대표저자, 『생명과학기술의 이해, 그리고 인간의 삶』, 궁미디어 (충남대학교 출판문화연구원 • 2001, 대표저자, 『생명의 위기: 21세기 생명윤리의 쟁점』, 푸른나무 • 2001, 공저, 『일본의 도시사회』, 서울대학교 출판부 • 2000, 대표저자, 『과학기술 정책수단의 사회제도화 과정: 새로운 연구문화의 지향』, 과학기술정책 연구원

• 1999, 공편저, 『모성의 담론과 현실: 어머니의 성∙ 삶∙정체성』, 나남 • 2003, 공역, 『유비쿼터스: 공유와 감시의 두 얼굴』, 21세기북스

· 2019 : Visiting Chair Professor, UNIST · 2019 : Professor Emerita, KAIST · 2015 - 2017 : Dean, College of Humanities, Social Sciences, and Convergence Sciences, KAIST · 1991 - 2019 : Assistance, Associate, and Professor, KAIST · 2018 - 2020 : Co-Chair, National Committee for Industry-University Collaboration · 2013 - 2014 : President, Korean Sociological Association

Academic Credential · 1989 : Ph.D (sociology), Harvard University · 1984 : A.M.(sociology), Harvard University · 1977 : B.A. (sociology), Seoul National University

Awards/Honors/Memberships · 1995 : Excellent Teaching Award (제1회 우수강의상), KAIST · 1997 : Excellent Teaching Award, KAIST · 1998 : Grand Award for Excellent Teaching (제1회 우수강의대상), KAIST · 2008 : Order of Service Merit. Red Stripes (홍조근정훈장)

School of Liberal Arts

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School of Liberal Arts

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 405 Tel : +82-52-217-2030 E-mail : jeongro@unist.ac.kr

Piano Performance 피아노 연주

이인경

_Inkyoung Lee

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : BAB. 401-3 Tel : +82-52-217-2020 Fax : +82-52-217-2089 E-mail : inkyounglee@unist.ac.kr http://piano.unist.ac.kr

As a performer, I have concertized actively in Korea and Europe, while continually trying to develop my repertoire. My recital programs included Chopin’s four Ballades, Brahms Paganini Variations Book I & II, Schubert’s last three sonatas. I am also interested in performing various chamber music performances. Currently, I am working on the repertoire of the 19th-century music and Schubert’s piano music. 저는 피아노 연주자로서 국내외에서 독주, 실내악, 협연 등 다양한 연주 활동을 하고 있습니다. 현재 19세기 피아노 음악 및 슈베르트의 피아노 음악을 집중적으로 연구하고 있습니다.

Curriculum Vitae · 2017 - Present : Associate Professor, UNIST · 2019 - 2020 : Visiting Scholar, University of Michigan, USA · 2012 - 2017 : Assistant Professor, UNIST · 2011 - 2012 : Lecturer, University of Ulsan

Academic Credential · 2005 : D. M. A. University of Michigan, Piano Performance · 2000 : M. M. University of Michigan, Piano Performance · 1997 : B. A. Seoul National University, Instrumental Performance(Piano)

Awards/Honors/Memberships · Vice-Chair of Performance Division, The Pianissimo Music Arts Society of Pianists · Member of Ulsan Piano Academy · Best Teaching Award, UNIST, 2013 · University of Michigan Graduate Fellowship, 2000-2003 · University of Michigan Graduate Merit Awards, 1998-2000 · Teacher’s Certificate, Seoul National University, 1997

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Major research field Solo Piano Performance, Chamber Performance, Music Education, Piano Pedagogy, Humanities and Arts 피아노 독주, 실내악 연주, 음악 교육, 피아노 교수법, 인문예술 전반

Research Keywords and Topics • Solo piano performance : Piano Literature in Romantic Period/ Schubert Piano Music 피아노 독주 : 낭만 시대의 피아노 음악/ 슈베르트 피아노 음악

• Chamber music performance : New repertoire for piano ensembles 실내악 연주 : 새로운 레퍼토리 연구 및 연주

• Research on pedagogy for piano students of all levels 모든 수준의 학생을 위한 효과적인 피아노 교수법 및 자료 연구

List of Performance (selected) • ‘Music Keeps Going’ Online Concert Series, Piano Quintet, Lotte Concert Hall, Seoul, Korea, Mar. 2021 • Piano Solo Recital, Sejong Chamber Hall, Seoul, Korea, Jan. 2021 • Piano Solo Recital, Kumho Art Hall Yonsei, Seoul, Korea, Oct. 2020 • Guest Recital, Britton Recital Hall, Ann Arbor, MI, USA, Feb. 2020 • Mendelsshon Piano Concerto No. 1, Sala Patria Hall, Brasov, Romania, 2018 • Piano Solo Recital, Kumho Art Hall, Seoul Korea, Nov. 2018 • ‘Christmas Concert’, Piano Duo, Yonsei Kumho Arts Hall, Seoul, Korea, Dec. 2017 • Mozart Piano Concerto No. 21, Musikverein, Vienna, Austria, Nov. 2017 • Piano Solo Recital, Sejong Chamber Hall, Seoul, Korea, Apr. 2017 • ‘Arensky’s Ensemble’ : Piano Duo, Sejong Chamber Hall, Seoul, Korea, Sep. 2016 • Chopin Piano Concerto No. 2, Smetana Hall, Prague, Czech Republic, Aug. 2016 • Special Concert ‘Piano Symphony of Korean Composers’ by The Pianissimo: Piano Duo, IBK Chamber Hall, Seoul Arts Center, Seoul, Korea, Nov. 2015 • Piano Solo Recital, Recital Hall, Seoul Arts Center, Seoul, Korea, Jun. 2015 • Piano Solo Recital, Kumho Art Hall, Seoul, Korea, Oct. 2014 • Children’s Day Concert : Sextet, IBK Chamber Hall, Seoul Arts Center, Seoul, Korea, May 2014 • Piano Solo Recital, Kumho Art Hall, Seoul, Korea, Jul. 2013

Exploring New Meanings in Cultural Patterns 문화적 의미를 찾는 반복의 마디

이재연

_Jae Yon Lee

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 401-2 Tel : +82-52-217-2028 E-mail : jlee2791@unist.ac.kr

저는 울산과기원 인문학부 한국문학 부교수입니다. 20세기 한국 소설과 비평, 식민지 시기 잡지, 문 학사회학 및 디지털 인문학에 관심이 있습니다. 현재 “반복의 마디 : 1920년대 한국 잡지를 통한 작 가 형성” 이라는 책을 영어로 쓰고 있습니다. 제 논문은 Journal of Korean Studies 와 같은 외국 학술

Curriculum Vitae

지와 A Companion to World Literature (Wiley-Blackwell)와 같은 외국 편서, 그리고 [상허학회], [역사

· 2013 - Present : 조교수-부교수, 인문학 부, UNIST · 2019 - 2020 : Visiting Professor, University of Chicago · 2012 : 강사, 미주리주 워싱턴대학교 (Washington Univ. in St. Louis)

학보], [개념과 소통] 같은 국내 한국문학, 역사학, 개념사 학술지에 소개되었습니다. 최근에는 문학 내 정량 분석 방식에 획을 그은 프랑코 모레티의 [그래프, 지도, 나무]를 번역, 문학동네에서 출간하였 습니다.

Major research field 20th-century Korean fiction and criticism, Korea’s colonial periodicals, literary sociology, and digital humanities 20세기 한국문학, 매체론, 문학 사회학, 디지털 인문학

Academic Credential · 2012 : University of Chicago, Ph. D. · 2003 : Harvard University, M.A. · 2001 : 연세대학교 국제학대학원, M.A. · 1998 : 연세대학교 국어국문학과, B.S.

Articles • Text-Mining of Munhwa(Culture) (2019) • Before and after the Age of Literary Coteries (2017) • 디지털 시대의 인문학에서 디지털 인문학 시대로 (2018) • 프랑코 모레티의 세계문학론 비판 (2017) • 생활과 태도 (2016) • 키워드와 네트워크 (2016) • 작가, 매체, 네트워크 (2014)

School of Liberal Arts

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School of Liberal Arts

Jae-Yon Lee is currently an Associate Professor of Korean Literature in the School of Liberal Arts at Ulsan National Institute of Science and Technology, Korea. His research interests include 20th-century Korean fiction and criticism, Korea’s colonial periodicals, literary sociology, and digital literary studies. Currently, he is working on the book manuscript, “Networking a Series : Formation of Periodical Authorship in 1920s Korea.” It examines the social shaping of authorship in Korean magazines, looking at a series as a latent form that bridges multiple layers of repetitions, each with its own length and rhythm, across the body of texts and writers. His works have been published in Journal of Korean Studies, Acta Koreana, Sungkyun Journal of East Asian Studies, and in A Companion to World Literature (Wiley-Blackwell). Recently he translated Franco Moretti’s Graphs, Maps, Trees into Korean (2020).

Violin Performance 바이올린 연주

이종은

_JongEun Lee, D.M.A.

School of Libral Arts Ulsan National Institute of Science and Technology (UNIST) Office : BAB. 401-11 Major : Violin Performance 전공분야 : 바이올린 연주 Tel : +82-52-217-2024 E-mail : jongeunlee@unist.ac.kr http:// jongeunlee.unist.ac.kr

Major research field Performer: Soloist, Chamber Musician 연주: 독주자, 실내악 연주자

Educator: Teaching string instruments for Science and Engineering Majors 교육: 이공계 전공 학생들에 대한 현악 교육

Curriculum Vitae · 2012 - 2008 : Doctor of Musical Arts, Stony Brook University, NY, U.S.A. · 2008 - 2006 : Artist Diploma, Yale University, CT, U.S.A. · 2007 - 2005 : Künstlerische Ausbildung, Hochschule für Musik und Theater Hannover, Hannover, Germany · 2007 - 2004 : Master of Music, Sibelius Academy, Helsinki, Finland · 2003 - 2002 : (Master of Music), The Juilliard School, NY, U.S.A. (completed half, relocated to Finland) · 2002 - 1998 : Bachelor of Music, The Juilliard School, NY, U.S.A.

Awards/Honors/Memberships · UNIST Outstanding e-Teaching Award · UNIST Best Teaching Award (2013) · Laureate of the 7th Pablo de Sarasate International Violin Competition · Laureate of the New Jersey Symphony’s Young Artist Competition · Winner of the New Juilliard Ensemble’s Concerto Competition · Winner of the Lincoln Center’s Chamber Music Society’s Young Artist Competition · Recipient of the New Jersey’s Governor’s Award in Art · Recipient of the Irving Ruckens Scholarship Award, Edourd Dethier Scholarship, C.V. Starr Scholarship, Irwin & Sonia Wysocki Block Scholarship, Fima Fidelman Scholarship, Charles & Molly Berns Scholarship Award, Juilliard Alumni Scholarship, E.H. Ludlam Scholarship, Jean Doyle Loomis Scholarship, Samuel Simon Scholarship Award, Samsung Scholarship Award

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Called “a rare violinist with remarkable musicianship and impeccable technique” (The Strad), JongEun Lee began her violin studies at the age of 6 in Stanford, California. Soon after returning to her native country, Korea, she won top prizes in leading national competitions, including the Korean Daily News Competition, Sun-Wha School of Arts' Competition, and the Cho-Sun Daily News Competition. Other recognitions and prizes include “laureate” of the International Pablo de Sarasate Competition, New Juilliard Ensemble’s Concerto Competition, Lincoln Center’s Chamber Music Society’s Young Artist Competition, New Jersey Symphony Orchestra’s Young Artist Competition, and the New Jersey Governor's Award in the Arts. Concerto appearances include orchestras and ensembles of Europe, United States, and Korea such as the Nürnberger Symphoniker, Budapest Symphony Orchestra MAV, Istanbul State Symphony Orchestra, Kharkiv Philharmonic Orchestra, Orchestra Sinfonica di Roma, Vogtland Philharmonic Orchestra, Aspen Young Artist Orchestra, International Sejong Soloists, New Jersey Symphony Orchestra, New Juilliard Ensemble, Seoul Pops Orchestra, and Ulsan Philharmonic Orchestra to name a few. Ms.Lee has performed recitals in major venues, including Carnegie Hall and Lincoln Center for the Performing Arts in the United States, Musikverein in Austria, and other numerous European venues in Austria, Czech Republic, Finland, Germany, and Slovakia, and in major halls in Korea, such as the Seoul Arts Center. An active performer of contemporary music, Ms. Lee has premiered works by composers including Jeff Fairbanks, Tuomas Nikkanen, Andrea Daly, Julie Mandel, and George Cork Maul. Ms. Lee released her first recording for SONY Classical in 2014 featuring works by Tchaikovsky, Saint-Saens, and Sarasate and her second in 2016 of the complete Mozart Violin Concertos under the same label.

U.S. History, Cold War History, Transnational History 미국사, 냉전사, 트랜스내셔널 역사, 세계사

이주영

_Jooyoung Lee

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 401-2 Tel : +82-52-217-2036 E-mail : shallibrown@unist.ac.kr

학자와 교육자로서 각 국가들의 정책들뿐만 아니라 그러한 정책들이 형성된 정치, 경제, 사회, 문화 적 맥락들을 고찰함으로써 어떻게 다양한 국가들이 서로 관계를 가져왔는지를 이해하고자 합니다. 특히 세계에서 미국의 정책들이 해외에서 어떻게 작동했는지를 추적하여 세계 속에서의 미국의 역 할을 살펴보고 있습니다. Diplomatic History, Interventions 와 같은 해외 학술지 및 역사학보, 서양사 론, 미국사 연구, 역사 비평 등의 국내 학술지에 논문을 출판했습니다. 최근에는 디지털 역사에 대한 관심도 가지기 시작했습니다.

Curriculum Vitae · 2016 - Present : Assistant Professor, UNIST · 2014 - 2016 : Research Professor, Gangneung-Wonju National University · 2012 - 2013 : Post-doctoral Research Fellow, Korean Studies Institute, University of Southern California

Academic Credential

Major research field U.S. democracy promotion, human rights politics in the United States, impact of global human rights politics on the Cold War 미국 민주주의 전파, 미국의 인권정치, 글로벌 인권정치와 냉전

Desired field of research Technology and science, capitalism, digital history 과학기술, 자본주의, 디지털 히스토리

Research Keywords and Topics • U.S. democracy promotion 미국 민주주의 전파

• Human Rights Politics 인권정치

• Cold War and decolonization

· 2012 : Ph.D. History, Brown University · 2004 : M.A. History, Brown University · 1999 : B.A. Western History, Seoul National University

Awards/Honors/Memberships · Editorial Board Member of the Korean Society for Western History · Editorial Board member, Korean Society of American History · Board member, Korean Association for Cold War Studies · Board member, Journal of British and America Studies · Member of the Society for Historians of American Foreign Relations

냉전과 탈식민화

Research Publications (selected) • “Struggling with ‘Modernity’ : Korean Elites’ Critical Perception of Western Ideas under Japanese Colonial Rule,” Interventions (September 2020) • “Global Human Rights Politics and A Crack in the Cold War : Role of Transnational Human Rights Activism,” Western History Review 135 (December 2017) • “Rise of Human Rights Politics in the 1970s United States,” Korean Journal of American History 46 (November 2017) • “Forming a Democratic Society : South Korean Responses to U.S. Democracy Promotion, 1953-1960,” Diplomatic History 39:5 (November 2015)

School of Liberal Arts

351

School of Liberal Arts

Both as a scholar and a teacher, I seek to understand how different nations have related to one another not only by considering their policies per se, but also by investigating how these policies have been shaped by each nation’s political, economic, social and cultural contexts. In particular, I try to better contextualize the U.S. role in the world by tracing specific operations of American policies abroad. I published articles in Diplomatic History, Interventions, Korean Historical Review, Western History Review and Korean Journal of American History. I am recently began to develop an interest in digital history.

Metaphysics 형이상학 연구

이희열

_Huiyuhl Yi

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 406-8 Tel : +82-52-217-2021 E-mail : huiyuhl@unist.ac.kr

I am specialized in metaphysical problems concerning personal identity. I am also interested in the issues interconnected between metaphysics and ethics such as the evil of death and freedom and moral responsibility. 본인은 개인동일성에 관한 형이상학적 문제들을 전문적으로 연구하고 있습니다. 또한 죽음의 해로 움, 자유와 도덕적 책임의 문제 등과 같이 형이상학과 윤리학의 중첩된 영역에 속한 문제들에 학문 적 관심을 가지고 있습니다.

Major research field Curriculum Vitae

Personal identity, death, free will

· 2015 - Present : Associate Professor, UNIST · 2010 - 2015 : Assistant Professor, UNIST · 2014 : Visiting Scholar, Rutgers University · 2001 - 2004 : Full-time Instructor, Korea Air Force Academy

• My research is centered on the following topics : 1. The debates between psychological approach versus biological approach regarding our persistence conditions

Academic Credential

3. Why is death bad?

· 2010 : Ph.D. Philosophy, University of California, Santa Barbara · 2007 : M.A. Philosophy, University of California, Santa Barbara · 2001 : M.A. Philosophy, Yonsei University · 1999 : B.A. Philosophy, Yonsei University

Research Topics

(우리의 존속조건에 관한 심리학적 접근과 생물학적 접근에 관한 논의들)

2. The question of what we are : are we essentially human persons or human animals? (우리의 본성에 관한 물음 : 우리는 본질적으로 인격체인가 동물인가) (죽음은 왜 나쁜가)

4. How can we explain our asymmetrical attitudes toward early birth and late death? (삶과 죽음의 시점에 관한 비대칭적 태도 연구)

5. Does moral responsibility requires freedom to do otherwise? (도덕적 책임과 행위의 자유 사이의 함축관계)

6. Is free will compatible with determinism? (자유의지와 결정론)

Awards/Honors/Memberships

Research Publications (selected)

· 2016 : National Research Foundation of Korea Grant for Mid-Career Researchers (“Life, Well-being, and Death”) · 2015 : National Research Foundation of Korea Grant for Young Researchers (“Freedom, Determinism, and Ethics”) · 2015 : National Research Foundation of Korea Grant for Outstanding Paper (“Fischer on the Fragilist Account of Alternative Possibilities”) · 2014 : National Research Foundation of Korea Grant for Young Researchers (“Personal Identity, Moral Responsibility, and Biomedical Ethics”) · 2014 : Outstanding e-Education Award (UNIST) · 2013 : National Research Foundation of Korea Grant for Young Researchers (“Philosophical Studies of Personal Identity and Death”) · 2012 : National Research Foundation of Korea Grant for Outstanding Paper (“Non-branching Clause”)

• HUMAN AFFAIRS-POSTDISCIPLINARY HUMANITIES & SOCIAL SCIENCES QUARTERLY / Building Narrative Identity : Episodic Value and Its Identity-forming Structure Within Personal and Social Contexts / Yi, Huiyuhl / 2020-04 • PHILOSOPHIA / The Symmetry Argument Against the Deprivation Account / Yi, Huiyuhl / 2016-09 • DIALOGUE-CANADIAN PHILOSOPHICAL REVIEW / Fischer on the Fragilist Account of Alternative Possibilities / Yi, Huiyuhl / 2013-12 • PHILOSOPHIA / Brueckner and Fischer on the Evil of Death / Yi, Huiyuhl / 2012-06 • METAPHYSICA / Non-branching Clause / Yi, Huiyuhl / 2010-10

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Language policy, language variation, language ideology 언어정책, 언어변이, 언어이데올로기

최진숙

_Jinsook Choi

School of Liberal Arts Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 114 Rm. 506-11 Tel : +82-52-217-4856 E-mail : jschoi@@unist.ac.kr http://jinsookchoi.unist.ac.kr

전 지구화된 사회 (과테말라 및 한국 사회)에서의 언어 사용 및 언어이데올로기에 대한 민족지적 연 구를 해왔다. 최근 언어 경관 등 다언어사용과 언어이데올로기, 언어경관에 대한 연구는 물론, 미디 어 재현 및 기업문화에 대한 연구를 수행 중이다.

Major research field Language policy, Language ideology, Language variation, Corporate Culture, Media representation, Joking 언어정책, 언어이데올로기, 언어 변이, 기업문화, 미디어 재현, 농담

Research Keywords and Topics • Language variation and Intercultural communication 언어변이 및 상호문화적 소통

• Corporate culture of start-up companies 스타트업 기업문화

• Joking and Media representation in Korea 한국사회의 농담과 미디어 재현

Research Publications (selected) • 2020 “No English, Korean only” : Local students’ resistance to English as a lingua franca at an “English only” university in Korea” Language and Intercultural Communication • 2019 Choi, J*, Tatar, B & Kim, J “Bilingual signs at an ‘English only’ Korean university : Place-making and ‘global’ space in higher education. International Journal of Bilingual Education and Bilingualism.1-14 • 2018 “A Linguistic Anthropological Study of the Typification of Middle-Aged Men in Korea : An Examination of Ajae Joke Data” Korean Anthropology Review • 2017 “Woori-ga Namiga”(We are brothers) : Othering Kyoungsang-do Regionality through In tertextual Construction” Korean Cultural Anthropology • 2016 “Speaking English naturally” : the language ideologies of English as an official languageat a Korean university. Journal of Multilingual and Multicultural Development, 1-11. • 2014 “Code-switching in an institutional setting : Negotiating social roles in bilingual encounters in Guatemala” Círculo de Lingüística Aplicada a la Comunicación 60, 3661.

Liberal Arts lecture contents • 2020 STAR-MOOC contents (with Prof. Tatar) : ‘Cultural differences and Social inequalities’ • 2019 Class 101 Libre Contents : ‘All that (not) funny jokes’

Curriculum Vitae · Present : Professor, UNIST · Present : Editor-in-Chief of Korean Cultural Anthropology · 2019 - 2020 : Director, Language Education Center, UNIST · 2018 : Visiting Scholar, Department of Linguistics, UCSB, USA. · 2016 - 2017 : Director, Leadership Center, UNIST · 2016 - 2017 : Director, Center for Creative Education and Research, UNIST · 2015 - 2016 : Chair, Research Committee in Korean Cultural Anthropology Association · 2014 : Editorial Manager of Asian Journal of Latin American Studies · 2009 : HK Research Professor, SNUILAS, Seoul National University · 2006 - 2008 : Researcher, Seoul National University · 2003 - 2004 : Post-doc, SCALE-uP Discourse Lab, George Washington University

Academic Credential · 2003 : Ph. D. in Anthropology SUNY at Albany · 1995 : M. A. in Anthropology Seoul National University · 1991 : B.A. in Anthropology Seoul National University

Awards/Honors/Memberships · 2018 : National Teacher’s Day Award · 2015 : Best E-education Award · Member of Korean Cultural Anthropology · Member of Korean Society of Sociolinguistics · Member, American Anthropological Association (AAA)

School of Liberal Arts

353

School of Liberal Arts

My research involves ethnographic study of language use and language ideologies in the globalized, multicultural societies such as Guatemala and Korea. My recent study deals with spaces of language use in multilingual environment and the ways in which intercultural communication occurs in cultural contact areas in Korean society. In addition, In addition, I have recently been engaged in two areas of inquiry. One line of inquiry involves the media representations of gender and regional identity in Korea; the other is a study on the corporate culture of startup companies.

unISt Central reSearCh faCIlItIeS 연구지원본부

07 UNIST Central Research Facilities 연구지원본부

Biomolecular Mass Spectrometery Resource 생체고분자질량분석실

서정곤

_JEONG-KON SEO

UNIST Central Research Facilities Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 201-7 Lab : Bldg.108. Rm. B103 Tel : +82-52-217-2630 E-mail : jkseo6998@unist.ac.kr

BMSR is a resource of MS technologies for biomolecule analysis in UCRF. Recently Mass spectrometry-based proteomics has become an invaluable tool in modern biological research. BMSR use state of art, high resolution mass spectrometry in combination with liquid chromatography (LC-MS/MS) to analyze complex biological samples in depth. We are focused on protein identification, quantitative proteomics and analysis of PTM(post translational modification) using multiple fragmentation techniques such as CID, ETD, and HCD. We also collaborate with research groups covering a wide variety of topics all with the aim to elucidate mechanisms underlying biological processes in health and disease. 최근 질량분석기 기반의 단백체연구는 현 대 생물학연구에서 필수적인 연구기법으로 활용되고 있다. 생체고분자 질량분석실은 액체크로마토그래피와 연동된 질량분석기

Curriculum Vitae

를 이용하여 생명체 유래 샘플의 단백질 프

· 2018 - Present : Associate Professor, UNIST Central Research Facilities, UNIST · 2012 - 2018 : Assistant Professor, UNIST Central Research Facilities, UNIST · 2010 - 2012 : Research Professor, BioSignal Network Lab. School of Nano-Bioscience and Chemical Engineering, UNIST · 2009 - 2010 : Research Professor, Lab. Signal Transduction, POSTECH BIOTECH CENTER, Pohang, Korea

로파일링, 대사체 동정, 생체고분자 구조분석 및 정량분석 연구 등을 하며 다양한 연구그룹과 공동연

Academic Credential · 1993 - 1997 : Ph.D., Department of Life Science, Pohang University of Science and Technology, Pohang, Korea · 1987 - 1989 : M.S., Department of Biological Science and Engineering, Korea Advanced Institute of Science and Technology, Seoul, Korea · 1982 - 1986 : B.S., Department of Biology, Kyung Hee University, Seoul, Korea

Awards/Honors/Memberships · Member of The Korean Human Proteome Organization · Member of Korean Society for Biochemistry and Molecular Biology

구를 통하여 생체고분자의 새로운 기능을 연구한다.

Major research field

Proteomics, Peptidomics, Metabolomics 단백체학, 펩티드체학, 대사체학

Desired field of research Discovery of novel bioactive peptides, Discovery of novel drug-binding proteins by shotgun purification, Discovery of disease-related biomarkers. 생체활성 펩티드 발굴 및 기능 연구, 약물 작용 단백질 발굴 및 기전 연구, 질환 관련 바이오마커 발굴 및 활용 연구

Research Topics • Discovery of novel bioactive peptides 생체활성 펩티드 발굴 및 기능 연구

• Discovery of novel drug-binding proteins by shotgun purification 약물 작용 단백질 발굴 및 기전 연구

• Discovery of disease-related biomarkers 질환 관련 바이오마커 발굴 및 활용 연구

Research Publications (selected) • Nature Communication / Analysing the mechanism of mitochondrial oxidation-induced cell death using a multifunctional iridium(III) photosensitizer / Lee, C., Nam J.S., Lee C.G., Rhee, H.W., Seo, J.K*., Kwon, T.H.* / 2021-01 • Journal of the American Chemical Society / Architecture Mapping of the Inner Mitochondrial Membrane Proteome by Chemical Tools in Live Cells. / Lee, S. Y., Kang, M. G., Shin, S., Kwak, C., Kwon, T., Seo, J. K. *, Kim, J. S. *, Rhee, H. W. * / 2017-03 • ACS Central Science / Proximity-Directed Labeling Reveals a New Rapamycin-Induced Heterodimer of FKBP25 and FRB in Live Cells. / Lee, S. Y., Lee, H., Lee, H. K., Lee, S. W., Ha, S. C., Kwon, T., Seo, J. K.*, Lee, C.*, and Rhee, H. W.* / 2016-08

Patents (selected) • [국내] Peptide inhibiting infection of human immunodeficiency virus type 1 and the use thereof. / Lee, M.K., Seo, J.K., Kim, K.L., Kim, H.K., Cho, J.H. / 2004 • [국내] Intracellular calcium ion increasing peptide in human T cells. / Bae, Y.S., Seo, J.K., Ryu, S.H., and Suh, P.G. / 2001

356

Synchrotron Radiation Research Laboratory 방사광활용실

신태주

_Tae Joo Shin

UNIST Central Research Facilities Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 301-3 Tel : +82-52-217-4178 E-mail : tjshin@unist.ac.kr https://sites.google.com/site/taejooshin 2020/

과학기술 분야 연구가 점점 다양화, 복잡화, 대형화 됨에 따라 융복합된 첨단연구가 가 능한 대형공동연구시설 활용 의 필요성이 절실히 요구되 어, 대형공동연구시설인 포항

Curriculum Vitae

방사광가속기연구소에

· 2015 - Present : Associate Professor, UNIST · 2005 - 2015 : Senior Scientist, Pohang Accelerator Laboratory (PAL) · 2002 - 2005 : Research Associate, Brookhaven National Laboratory, USA · 2002 : Post-doctoral Researcher, POSTECH

UNIST-PAL 빔라인을 건설하고 2015년부터 방사광활용연구실을 운영하고 있다. 기초과학을 선도 하는 다양한 첨단 기초연구는 물론이고, 실생활에 직접적으로 적용될 수 있는 반도체, 기능성 고분자 물질, 차세대 에너지원, 에너지 저장물질, 신약물질, 디스플레이 물질 등에 대한 구조-물성 상관관계 연구를 수행하고 있다.

Major research field XAFS, SAXS, XRD, GIXS, NEXAFS techniques: Semiconductor, OTFTs, OPVs, perovskites, battery, solar cell, display, QD, polymers, biomaterials, and etc.

Desired field of research 차세대 반도체, 디스플레이, 에너지 변환 및 에너지 저장 물질 합성 및 인공지능활용 구조분석

Research Keywords and Topics • Synchrotron Radiation Applications (XAFS, SAXS, XRD, GIXS) for Structure-Property Relationship • Semiconducting Materials, Organic & Polymeric Materials • Energy Storage & Energy Conversion Materials

Research Publications (selected) • Nature Energy / Stabilization of formamidinium lead triiodide -phase with isopropylammonium chloride for perovskite solar cells / Byung-wook Park, Hyoung Woo Kwon, Yonghui Lee, Do Yoon Lee, Min Gyu Kim, Geonhwa Kim, Ki Jeong Kim, Young Ki Kim, Jino Im, Tae Joo Shin*, Sang Il Seok* / 2021-04 • Adv. Funct. Mater. / Design of a Janus-Faced Electrode for Highly Stretchable ZincSilver Rechargeable Batteries / Woo-Jin Song, Chihyun Hwang, Sangyeop Lee, Minsik Kong, Jonghak Kim, Hyung Keun Park, Hye Bin Son, Gyeongbae Park, Sunghwan Cho, Jun Hyuk Song, Hyoung Seop Kim, Unyong Jeong, Tae Joo Shin*, Hyun-Kon Song*, Soojin Park* / 2020-10 • Adv. Energy Mater. / Efficient Nanostructured TiO2/SnS Heterojunction Solar Cells / Hyun‐Sung Yun, Byung‐wook Park, Yong Chan Choi, Jino Im, Tae Joo Shin*, Sang Il Seok* / 2019-09

Academic Credential · 1998 - 2002 : Ph.D., Chemistry, POSTECH · 1996 - 1998 : M.S., Chemistry, POSTECH · 1989 - 1996 : B.S. Chemistry, Yonsei University

Awards/Honors/Memberships · 2018 SRPS Co-Chairs (http://www. 2018srps-gisas.org/srps2018) · 2018 GISAS Co-Chairs (http://www. 2018srps-gisas.org/gisas2018) · 2018 - Present : Frontiers in Energy Research (Solar Energy) Review Editor · 2014 - Present : Board member of Korea Synchrotron Radiation User Association (KOSUA) · 2005 - 2015 : Award for outstanding achievement (8 Times, Pohang Accelerator Laboratory) · 2002 : Best Doctoral Dissertation Award of The Polymer Society of Korea · 2002 : Best Doctoral Dissertation Award of POSTECH

Patents (selected) • Control Method of Birefringence Measurement Apparatus / M. Ree, T.J. Shin, and S. Yoon, and Y.K. Chun / Korean Patent No. 0231105 (1999) • Birefringence Measurement Apparatus / M. Ree, T.J. Shin, and S. Yoon, and Y.K. Chun / Korean Patent No. 0231106 (1999)

UNIST Central Research Facilities

357

UNIST Central Research Facilities

By the necessities of convergence of big research facilities, the Synchrotron Radiation Application Laboratory (SRAL) has been started at PLS 6D UNIST-PAL Beamline of Pohang Accelerator Laboratory since Feb. 2015. The SRAL explores various scientific and industrial fields of physics, chemistry, material science, earth science, and life science using high flux synchrotron radiation X-ray source. We study on the structure-property relationship of semiconductors, organic and inorganic materials, functional polymers, battery materials, solar cell material, drugs, display materials, and etc. in order to understand, design, and improve their properties.

Interface Analysis & Engineering Laboratory 계면 분석 및 응용 연구실

정후영

_Hu Young Jeong

UNIST Central Research Facilities Ulsan National Institute of Science and Technology (UNIST) Office : Bldg. 102 Rm. 201-9 Tel : +82-52-217-2333 E-mail : hulex@unist.ac.kr http://sites.google.com/view/siae-lab

Interface analysis and engineering is vital for unveiling the original mechanism of fundamental phenomena found at two different material interfaces and developing future emerging performance which is not reported yet. Transmission electron microscopy (TEM) is one of the powerful analysis techniques to investigate the crystal structure and chemical states of nanoscale materials such as 1 dimensional nanowires, 2D thin layers, and 3D bulk materials. Our group is performing active researches about revealing fundamental nature of various surface and interface of nanomaterials using a spherical aberration corrected TEM combined with a focused ion beam (FIB). 물질의 계면 분석 및 이를 통한 응용은 다양한 물질의 계면에서 일어나는 기초 현상들의 원인을 규명하고 미래의 신기능들을 구현하는데 필수적이다. 투과전자현미경은 일차원 나노와이어, 이차원 필름, 삼차원 벌크 등 나노스케일 물질들의 결정구조 및 화학적 결합상태를 밝히는 데 필수적인 분석방법이다. 우리 연 구그룹은 시편제작을 위한 집속이온빔과 구면수차가 보정된 최첨단의 투과전자현미경들을 이용하여 다 양한 나노 물질들의 표면 및 계면에서 발견되는 기초현상들을 관찰하고 응용하는 연구를 수행하고 있다.

Curriculum Vitae · 2016 - Present : Associate Professor, UNIST Central Research Facilities, UNIST · 2012 - 2016 : Assistant Professor, UNIST Central Research Facilities, UNIST · 2011 - 2012 : Research Assistant Professor, UNIST Central Research Facilities, UNIST · 2010 - 2011 : Post-Doctoral Researcher, Applied Science Research Institute, KAIST

Academic Credential · 2006 - 2010 : Ph. D. Materials Science and Engineering, Korea Advanced Institute of Science and Technology (KAIST) · 2004 - 2006 : M. S. Materials Science and Engineering, Korea Advanced Institute of Science and Technology (KAIST)

Awards/Honors/Memberships · 2018 : UNIST Outstanding Faculty Awards (Research category) · 2017 : The 7 KINC Fusion Research Award by KAIST Institute for NanoCentury, Daejeon, Korea · 2011 : Best Poster Award (Silver Prize, KRW 100,000) : IUMAS-V & ALC’11 (5th Congress of the International Union of Microbeam Analysis Societies, Seoul, Korea

Desired field of research

Major research field Interface analysis, Cross-sectional TEM, In situ heating TEM, Resistive switching memory, 2D TMD

Ferroelectric memory devices, In situ biasing TEM, New emerging semiconductors

Research Keywords and Topics • In situ heating & biasing TEM experiment using specialized holder - Revealing the resistive switching mechanism of 2D thin films-based ReRAM - Study on the origin of ferroelectric properties in FeRAM • Interface analysis between 2D materials and metals using Focused Ion Beam (FIB) and Cs-corrected (S)TEM technique • Phase transformation and defects induced by light-materials interactions • Structural and chemical analysis of various nano-catalysts for future energy application

Research Publications (selected) • Im et al., Nano Energy 84, 105889 / 2021 • Kwon et al., Nano Lett. 20, 8353-8359 / 2020 • Lee et al., Nano Lett. 20, 559-566 / 2020 • Zhang et al., Nat. Commun. 11, 4622 / 2020 • Li et al., Angew. Chem. 132, 23886-23891 / 2020 • Yang et al., Nat. Mater. 18, 1309-1314 / 2019 • Li et al., Nat. Commun. 10, 2623 / 2019 • Ahmad et al., Nano Energy 56, 581-587 / 2019 • Mahmood et al., Adv. Mater. 30, 1805606 / 2018 • Kim et al., ACS Nano 12, 7335-7342 / 2018 • Li et al., Energy Environ. Sci. 11, 2263-2269 / 2018 • Mahmood et al., Nano Energy 44, 304-310 / 2018 • Mahmood et al., Nat. Nanotech. 12, 441-447 / 2017 • Choi et al., Nat. Commun. 7, 13562 / 2016 • Kim et al., Adv. Funct. Mater. 26, 7406 / 2016

Patents (selected) • 준안정상을 갖는 양자점 및 그 제조방법 / 이건재, 전덕영, 정후영, 임태홍, 이철희 / 출원번호 102018-0162132

• 빛 에너지를 이용한 양자점 합성방법 및 이에 의하여 제조된 양자점 / 전덕영, 이건재, 정후영, 이철 희, 임태홍, 최진영, 김미나 / 출원번호 10-2018-0078228

• 이원소성 화합물의 상분리 현상을 이용한 실리신 제조방법, 이에 의하여 제조된 실리신 / 최성율, 이 건재, 최인성, 정후영 / 등록번호 10-1685149 / 2016-12

358

Index

A to Z Listing of Family Names

362

Index

Ahn, Sangjoon Amblard, Francois An, Kwangjin Au, Tsz-Chiu

Department of Nuclear Engineering Department of Physics School of Energy and Chemical Engineering Department of Computer Science and Engineering

129

Bae, Hantaek Bae, Joonbum Bae, Sung Chul Baek, Jong-Beom Baek, Seungryul Baek, Woongki Baig, Chunggi Bang, In Cheol Bhak, Jong Hwa Bien, Franklin Byun, Gang Il

Department of Mathematical Sciences Department of Mechanical Engineering Department of Biomedical Engineering School of Energy and Chemical Engineering Graduate School of Artificial Intelligence Graduate School of Artificial Intelligence School of Energy and Chemical Engineering Department of Nuclear Engineering Department of Biomedical Engineering Department of Electrical Engineering Department of Electrical Engineering

166

Cha, Chaenyung Cha, Dong Hyun Chae, Han Gi Chae, Young Chan Cho, Gi-Hyoug Cho, HyungJoon Cho, Jaeheung Cho, Jaehyun Cho, Jaephil Cho, Jaeweon Cho, Kyoung Hwa Cho, Seung Woo Cho, Seungho Cho, Yoon-Kyoung Choe, Wonyoung Choi, Eunmi Choi, Jang Hyun Choi, Jin Hyuk Choi, Jinseok Choi, Jinsook Choi, Kyoung-Jin Choi, Kyudong Choi, Moon Kee Choi, Nam-Soon Choi, Sung-Deuk Choi, Young Rok

Department of Materials Science and Engineering Department of Urban and Environmental Engineering Department of Materials Science and Engineering Department of Biological Sciences Department of Urban and Environmental Engineering Department of Biomedical Engineering Department of Chemistry Department of Mathematical Sciences School of Energy and Chemical Engineering Department of Urban and Environmental Engineering Department of Urban and Environmental Engineering Department of Biomedical Engineering Department of Materials Science and Engineering Department of Biomedical Engineering Department of Chemistry Department of Electrical Engineering Department of Biological Sciences Department of Mathematical Sciences Department of Electrical Engineering School of Liberal Arts Department of Materials Science and Engineering Department of Mathematical Sciences Department of Materials Science and Engineering School of Energy and Chemical Engineering Department of Urban and Environmental Engineering Graduate School of Technology & Innovation Management

082

139 105 301

027 226 099 271 272 100 128 224 287 286

059 083 266 057 235 195 171 120 058 056 233 080 234 197 297 267 173 298 353 084 172 085 121 060 317

Choi, Young-ri Choi, Yunseok Chung, Dongil Chung, Hayoung Chung, Il-sug Chung, Jibum Chung, Keunsuk Chung, Kunook Chung, Moses Comuzzi, Marco

Department of Computer Science and Engineering School of Energy and Chemical Engineering Department of Biomedical Engineering Department of Mechanical Engineering Department of Electrical Engineering Department of Urban and Environmental Engineering School of Business Administration Department of Physics Department of Physics Department of Industrial Engineering

311

Ding, Feng

Department of Materials Science and Engineering

063

Fynan, Douglas A.

Department of Nuclear Engineering

124

Gartner, Anton Ghim, Cheol-Min Granick, Steve Grzybowski, Bartosz

Department of Biological Sciences Department of Physics Department of Chemistry Department of Chemistry

248

Han, Hope Hyeun Hong, Sungyou Hong, Woonki Hur, Min Sup Hwang, Il Soon

School of Business Administration Department of Chemistry School of Business Administration Department of Physics Department of Nuclear Engineering

333

Im, JungHo Im, Youngbin In, Joonhwan In, Yongkyoon

Department of Urban and Environmental Engineering Department of Computer Science and Engineering Graduate School of Technology & Innovation Management Department of Physics

054

Jang, Bongsoo Jang, Hyun Jin Jang, Jaesung Jang, Ji Wook Jang, Ji-Hyun Jang, Sung yeon Jeon, Jeong hwan Jeon, Myeong Jae Jeon, Yuseok Jeong, Hongsik Jeong, Hoon Eui Jeong, Hu Young Jeong, Joonwoo Jeong, Kyeong Min Jeong, Yun Woo

Department of Mathematical Sciences School of Business Administration Department of Mechanical Engineering School of Energy and Chemical Engineering School of Energy and Chemical Engineering School of Energy and Chemical Engineering Department of Electrical Engineering Department of Computer Science and Engineering Department of Computer Science and Engineering Department of Materials Science and Engineering Department of Mechanical Engineering UNIST Central Research Facilities Department of Physics School of Energy and Chemical Engineering Department of Design

169

122 230 037 295 055 331 157 158 238

146 177 175

198 334 161 134

308 316 156

330 035 117 118 116 294 309 310 079 038 358 159 119 211

363

364

Index

Ji, Wooseok Jin, Hosub Jo, Wook Joo, Jeong Hwan Joo, Jinmyoung Joo, Kyungdon Joo, Sang Hoon Jun, Young Chul Jung, Chang-Yeol Jung, Dooyoung Jung, Im Doo Jung, Jeehoon Jung, Woonggyu

Department of Mechanical Engineering Department of Physics Department of Materials Science and Engineering School of Business Administration Department of Biomedical Engineering Graduate School of Artificial Intelligence Department of Chemistry Department of Materials Science and Engineering Department of Mathematical Sciences Department of Biomedical Engineering Department of Mechanical Engineering Department of Electrical Engineering Department of Biomedical Engineering

039

Kang, Byoung Heon Kang, Hyun-Wook Kang, Joo Hun Kang, Sang Hoon Kang, Sarah Kang, Sebyung Kang, Seok Ju Kee, Jung-Min Ki, Hyungson Kim, BongSoo Kim, Byungmin Kim, Cha Joong Kim, Chae Un Kim, Daejin Kim, Daisik Kim, Dong Sub Kim, Donghyuk Kim, Eunhee Kim, Gi-soo Kim, Gun Kim, Gun-Ho Kim, Guntae Kim, Hak-Sun Kim, Hajin Kim, Hee Reyoung Kim, Hongtae Kim, Hwang Kim, Hyoil Kim, Hyomin Kim, Jae Ick Kim, Jae Joon Kim, Jaeup Kim, Je-Hyung Kim, Jeong Beom Kim, Jeongseob Kim, Jeong-Yeon Kim, Ji Hyun

Department of Biological Sciences Department of Biomedical Engineering Department of Biomedical Engineering Department of Mechanical Engineering Department of Urban and Environmental Engineering Department of Biological Sciences School of Energy and Chemical Engineering Department of Chemistry Department of Mechanical Engineering Department of Chemistry Department of Urban and Environmental Engineering Department of Design Department of Physics School of Business Administration Department of Physics Department of Industrial Engineering School of Energy and Chemical Engineering Department of Biological Sciences Department of Industrial Engineering Department of Urban and Environmental Engineering Department of Mechanical Engineering School of Energy and Chemical Engineering Department of Electrical Engineering Department of Biomedical Engineering Department of Nuclear Engineering Department of Biological Sciences Department of Design Department of Electrical Engineering School of Liberal Arts Department of Biological Sciences Department of Electrical Engineering Department of Physics Department of Physics Department of Biomedical Engineering Department of Urban and Environmental Engineering School of Liberal Arts Department of Nuclear Engineering

251

160 081 332 236 277 196 078 170 231 036 296 232

214 213 017 041 252 087 181 019 182 044 206 145 321 142 240 093 255 242 043 020 092 284 220 126 257 207 285 342 256 282 143 144 219 045 340 125

Kim, Jin Young Kim, Jingook Kim, Jin-Young Kim, Jiyun Kim, Jooha Kim, Ju-Young Kim, Kwang In Kim, KwanMyung Kim, Kyung Rok Kim, Mijung Kim, Min Chung Kim, Miran Kim, Molan Kim, Namhun Kim, Pilwon Kim, Seong-Jin Kim, Sung Youb Kim, Sungil Kim, Sung-Phil Kim, Taesung Kim, Yeolib Kim, Yong Hwan Kim, Young Choon Kim, Youngsik Kim, Yung Sam Kim, Yunho Ko, Hyunhyub Ko, Myunggon Ko, Sungahn Kwak, Ja Hun Kwak, Kyujin Kwak, Sang Kyu Kwak, Youngshin Kweon, Sang Jin Kwon, Cheolhyeon Kwon, Hyug Moo Kwon, Min-Suk Kwon, Oh-Hoon Kwon, Oh-Sang Kwon, Soon-Yong Kwon, Tae-Hyuk Kwon, Taejoon Kwon, Youngkook Kwon, Young-Nam

School of Energy and Chemical Engineering Department of Electrical Engineering School of Liberal Arts Department of Materials Science and Engineering Department of Mechanical Engineering Department of Materials Science and Engineering Graduate School of Artificial Intelligence Department of Design Department of Electrical Engineering Department of Computer Science and Engineering School of Business Administration Department of Computer Science and Engineering School of Business Administration Department of Mechanical Engineering Department of Mathematical Sciences Department of Electrical Engineering Department of Mechanical Engineering Department of Industrial Engineering Department of Biomedical Engineering Department of Mechanical Engineering Graduate School of Technology & Innovation Management School of Energy and Chemical Engineering School of Business Administration School of Energy and Chemical Engineering Department of Chemistry Department of Mathematical Sciences School of Energy and Chemical Engineering Department of Biological Sciences Department of Computer Science and Engineering School of Energy and Chemical Engineering Department of Physics School of Energy and Chemical Engineering Department of Biomedical Engineering Department of Industrial Engineering Department of Mechanical Engineering Department of Biological Sciences Department of Electrical Engineering Department of Chemistry Department of Biomedical Engineering Department of Materials Science and Engineering Department of Chemistry Department of Biomedical Engineering School of Energy and Chemical Engineering Department of Urban and Environmental Engineering

096

Lah, Myoung Soo Lee, Chang Hyeong Lee, Chang Young Lee, Changsoo Lee, Changwook Lee, Deokjung

Department of Chemistry Department of Mathematical Sciences School of Energy and Chemical Engineering Department of Urban and Environmental Engineering Department of Biological Sciences Department of Nuclear Engineering

184

283 341 066 023 065 269 205 280 304 323 303 322 021 164 281 022 241 218 024 314 095 324 094 183 163 088 253 302 090 141 089 215 239 018 254 279 179 216 064 180 217 091 042

168 113 053 264 131

365

366

Index

Lee, Dong Woog Lee, Geunsik Lee, Hui Sung Lee, Hyunwook Lee, In Kyoung Lee, Ja Yil Lee, Jae Hwa Lee, Jae Seon Lee, Jae Sung Lee, Jae-Yon Lee, Jaiyong Lee, Jimin Lee, Jiseok Lee, Jong Eun Lee, Jongeun Lee, Jongwon Lee, Jooyoung Lee, Jun Hee Lee, Jun Youp Lee, Junghye Lee, Kee Yeun Lee, Ki-Suk Lee, Kyuho Lee, Kyungho Lee, Myong-In Lee, Namhoon Lee, Saiah Lee, Semin Lee, Seung Jun Lee, SukBin Lee, Sung Kuk Lee, Yongjae Lee, Young Joo Lee, Zonghoon Lim, Chiehyeon Lim, Chunghun Lim, Hankwon Lim, Sungbin Lim, Sunghoon Lovins, Christopher Lyu, Ilwoo

School of Energy and Chemical Engineering Department of Chemistry Department of Design School of Energy and Chemical Engineering School of Liberal Arts Department of Biological Sciences Department of Mechanical Engineering Department of Mechanical Engineering School of Energy and Chemical Engineering School of Liberal Arts Department of Electrical Engineering Department of Nuclear Engineering School of Energy and Chemical Engineering School of Liberal Arts Department of Electrical Engineering Department of Electrical Engineering School of Liberal Arts School of Energy and Chemical Engineering School of Business Administration Department of Industrial Engineering School of Business Administration Department of Materials Science and Engineering Department of Electrical Engineering Department of Design Department of Urban and Environmental Engineering Graduate School of Artificial Intelligence School of Business Administration Department of Biomedical Engineering Department of Nuclear Engineering Department of Materials Science and Engineering School of Energy and Chemical Engineering Department of Industrial Engineering Department of Urban and Environmental Engineering Department of Materials Science and Engineering Department of Industrial Engineering Department of Biological Sciences School of Energy and Chemical Engineering Graduate School of Artificial Intelligence Department of Industrial Engineering School of Liberal Arts Department of Computer Science and Engineering

108

Min, Duyoung Min, Seung Kyu Mitchell, Robert J. Moon, Hoi Ri Moon, Hyungon Myung, Kyungjae

Department of Chemistry Department of Chemistry Department of Biological Sciences Department of Chemistry Department of Computer Science and Engineering Department of Biomedical Engineering

186

193 210 114 348 263 034 033 110 349 291 133 112 350 293 292 351 111 329 244 327 075 290 209 051 275 328 229 132 076 109 243 052 077 246 265 115 276 245 339 305

187 250 185 306 221

Nam, Dougu Namgung, Seon Noh, Samhyeok

Department of Biological Sciences Department of Physics Graduate School of Artificial Intelligence

258

Oh, Hyondong Oh, Jaeeun Oh, Joo Hwan Oh, Seung Mo Oh, Yoon Seok Oakley, Ian

Department of Mechanical Engineering Department of Urban and Environmental Engineering Department of Mechanical Engineering School of Energy and Chemical Engineering Department of Physics Department of Design

031

Paek, Kyong-Mi Pak, Hyuk Kyu Park, Chan Young Park, Cheol-Min Park, Chol Park, Jung-Hoon Park, Hyeong-Ryeol Park, Hyesung Park, Hyung Wook Park, Jaeyeong Park, Jiyoung Park, Jongnam Park, Kibog Park, Kyoung-Duck Park, Noejung Park, Sang Seo Park, Seungbae Park, Sung Soo Park, Sung-ho Park, Sunghoon Park, Tae-Eun Park, Taejoo Park, Young S. Park, Young-Bin Park, Young-Woo Pyo, Sukhoon

School of Liberal Arts Department of Physics Department of Biological Sciences Department of Chemistry Department of Mathematical Sciences Department of Biomedical Engineering Department of Physics Department of Materials Science and Engineering Department of Mechanical Engineering Department of Nuclear Engineering Department of Biological Sciences Department of Biomedical Engineering Department of Physics Department of Physics Department of Physics Department of Urban and Environmental Engineering School of Liberal Arts Department of Materials Science and Engineering Department of Biological Sciences School of Energy and Chemical Engineering Department of Biomedical Engineering Department of Biological Sciences Department of Chemistry Department of Mechanical Engineering Department of Design Department of Urban and Environmental Engineering

344

Ruoff, Rodney S. Ryu, Dongsu Ryu, Ja-Hyoung Ryu, Jungki

Department of Chemistry Department of Physics Department of Chemistry School of Energy and Chemical Engineering

176

Scharer, Orlando D. Schultz, Thomas Self, James Andrew Seo, Byoung Ki Seo, Dong-Hwa

Department of Biological Sciences Department of Chemistry Department of Design School of Business Administration School of Energy and Chemical Engineering

249

147 270

050 030 107 155 203

152 261 189 165 222 153 068 026 127 260 223 150 149 151 046 343 067 259 098 225 262 188 025 208 061

148 192 097

178 204 325 102

367

Seo, Jeong Kon Seo, Kwanyong Seo, Yongwon Seok, Sang Il Shin, Gwanseob Shin, Heungjoo Shin, Hyeon Suk Shin, Hyung-Joon Shin, Sang-Ook Shin, Se-Un Shin, Tae Joo Sim, Jae-Young Sim, Kyoseung Shin, Myoungsu Sohn, Changhee Son, Hungsun Son, Jae Sung Song, Chang Keun Song, Hyun-Kon Song, Myoung Hoon Suh, Joonki Sun, Hae-Sang Sung, Minkyu

UNIST Central Research Facilities School of Energy and Chemical Engineering Department of Urban and Environmental Engineering School of Energy and Chemical Engineering Department of Biomedical Engineering Department of Mechanical Engineering Department of Chemistry Department of Materials Science and Engineering School of Business Administration Department of Electrical Engineering UNIST Central Research Facilities Graduate School of Artificial Intelligence Department of Chemistry Department of Urban and Environmental Engineering Department of Physics Department of Mechanical Engineering Department of Materials Science and Engineering Department of Urban and Environmental Engineering School of Energy and Chemical Engineering Department of Materials Science and Engineering Department of Materials Science and Engineering Department of Mathematical Sciences School of Liberal Arts

356

Tatar, Bradley Tlusty, Tsvi

School of Liberal Arts Department of Physics

338

Vigneron, Antoine

Department of Computer Science and Engineering

300

Woo, Han-Gyun

Graduate School of Technology & Innovation Management

315

Yang, Changduk Yang, Joon-Mo Yang, Seungjoon Yi, Huiyuhl Yi, Jooyong Yoo, Chun Sang Yoo, Jung Woo Yoon, Eisung Yoon, Jeong-Ro Yoon, Sae-Ra Yoon, Sung Whan Yoon, Tae-sik

School of Energy and Chemical Engineering Department of Biomedical Engineering Department of Electrical Engineering School of Liberal Arts Department of Computer Science and Engineering Department of Mechanical Engineering Department of Materials Science and Engineering Department of Nuclear Engineering School of Liberal Arts School of Liberal Arts Graduate School of Artificial Intelligence Department of Materials Science and Engineering

106

Zhang, Lu Zhao, Bum Suk

School of Business Administration Department of Chemistry

320

368

Index

101 047 103 227 029 190 072 326 288 357 273 191 049 154 028 070 048 104 071 069 167 345

140

228 289 352 307 032 073 130 347 346 274 074

194

가나다 순 ㄱ 생명과학과 도시환경공학과 기계공학과 에너지화학공학과 생명과학과 바이오메디컬공학과 바이오메디컬공학과 생명과학과

251

생명과학과 컴퓨터공학과 에너지화학공학과 물리학과 에너지화학공학과 바이오메디컬공학과 에너지화학공학과 전기전자공학과 산업공학과 신소재공학과 에너지화학공학과 도시환경공학과 바이오메디컬공학과 화학과 기계공학과 바이오메디컬공학과 화학과 생명과학과 화학과

253

그쥐보프스키, 바르토슈 (Bartosz Grzybowski)

화학과

175

기정민 기형선 김건 김건태 김건호 김경록 김관명 김광인 김남훈 김대식 김대진 김동섭 김동혁

화학과 기계공학과 도시환경공학과 에너지화학공학과 기계공학과 전기전자공학과 디자인학과 인공지능대학원 기계공학과 물리학과 경영과학부 산업공학과 에너지화학공학과

181

강병헌 강사라 강상훈 강석주 강세병 강주헌 강현욱 게르트너, 안톤 (Anton Gartner) 고명곤 고성안 고현협 곽규진 곽상규 곽영신 곽자훈 권민석 권상진 권순용 권영국 권영남 권오상 권오훈 권철현 권태준 권태혁 권혁무 그래닉, 스티브 (Steve Granick)

041 017 087 252 213 214 248

302 088 141 089 215 090 279 239 064 091 042 216 179 018 217 180 254 177

019 043 092 020 280 205 269 021 142 321 240 093

김모란 김미란 김미정 김민중 김병민 김봉수 김성엽 김성일 김성진 김성필 김여립 김영삼 김영식 김영춘 김용환 김윤호 김은희 김재업 김재익 김재준 김정범 김정섭 김정연 김제형 김주영 김주하 김지수 김지윤 김지현 김진국 김진영 김진영 김차중 김채운 김철민 김태성 김필원 김하진 김학선 김홍태 김황 김효민 김효일 김희령

경영과학부 컴퓨터공학과 컴퓨터공학과 경영과학부 도시환경공학과 화학과 기계공학과 산업공학과 전기전자공학과 바이오메디컬공학과 기술경영전문대학원 화학과 에너지화학공학과 경영과학부 에너지화학공학과 수리과학과 생명과학과 물리학과 생명과학과 전기전자공학과 바이오메디컬공학과 도시환경공학과 인문학부 물리학과 신소재공학과 기계공학과 산업공학과 신소재공학과 원자력공학과 전기전자공학과 에너지화학공학과 인문학부 디자인학과 물리학과 물리학과 기계공학과 수리과학과 바이오메디컬공학과 전기전자공학과 생명과학과 디자인학과 인문학부 전기전자공학과 원자력공학과

322 303 304 323 044 182 022 241 281 218 314 183 094 324 095 163 255 143 256 282 219 045 340 144 065 023 242 066 125 283 096 341 206 145 146 024 164 220 284 257 207 342 285 126

369

ㄴ

ㅂ

나명수 남궁선 남덕우 노삼혁

화학과 물리학과 생명과학과 인공지능대학원

184 147 258 270

ㄷ 딩, 펑(Feng Ding)

신소재공학과

063

ㄹ 로빈스, 크리스토퍼 (Christopher Lovins)

인문학부

339

루오프, 로드니 (Rodney S. Ruoff)

화학과

176

류동수 류일우 류정기

물리학과 컴퓨터공학과 에너지화학공학과

148 305 097

ㅁ 명경재 문현곤 문회리 미첼, 로버트 (Robert J. Mitchell)

바이오메디컬공학과 컴퓨터공학과 화학과 생명과학과

221

민두영 민승규

화학과 화학과

186

370

물리학과 물리학과 물리학과 도시환경공학과 신소재공학과 생명과학과 에너지화학공학과 인문학부 기계공학과 화학과

Index

208

샤러, 올랜도 (Orlando D. Schärer)

생명과학과

249

서관용 서동화 서병기 서용원 서정곤 서준기 석상일 선해상 성민규 셀프, 제임스 앤드루 (James Andrew Self)

에너지화학공학과 에너지화학공학과 경영과학부 도시환경공학과 연구지원본부 신소재공학과 에너지화학공학과 수리과학과 인문학부 디자인학과

101

손재성 손창희 손흥선

신소재공학과 물리학과 기계공학과

070

127 222 223 224 260 261 165 189 225 262 152 153 026 068 128 226 027 166 344 271 272 099 100 286 287 300

306 185 250

187

ㅂ 박경덕 박기복 박노정 박상서 박성수 박성호 박성훈 박승배 박영빈 박영석

디자인학과 원자력공학과 바이오메디컬공학과 바이오메디컬공학과 바이오메디컬공학과 생명과학과 생명과학과 수리과학과 화학과 바이오메디컬공학과 생명과학과 물리학과 물리학과 기계공학과 신소재공학과 원자력공학과 바이오메디컬공학과 기계공학과 수리과학과 인문학부 인공지능대학원 인공지능대학원 에너지화학공학과 에너지화학공학과 전기전자공학과 전기전자공학과 컴퓨터공학과

박영우 박재영 박정훈 박종남 박종화 박지영 박찬영 박철 박철민 박태은 박태주 박혁규 박형렬 박형욱 박혜성 방인철 배성철 배준범 배한택 백경미 백승렬 백웅기 백종범 백충기 변강일 변영재 비뉴롱, 앙투안 (Antoine Vigneron)

149 150 151 046 067 259 098 343 025 188

ㅅ

102 325 047 356 069 103 167 345 204

154 028

ㅅ

ㅇ

송명훈 송창근 송현곤 슐츠, 토마스 (Thomas Schultz)

신소재공학과 도시환경공학과 에너지화학공학과 화학과

071

신관섭 신명수 신상욱 신세운 신태주 신현석 신형준 신흥주 심교승 심재영

바이오메디컬공학과 도시환경공학과 경영과학부 전기전자공학과 연구지원본부 화학과 신소재공학과 기계공학과 화학과 인공지능대학원

227

048 104 178

049 326 288 357 190 072 029 191 273

ㅇ 안광진 안상준 암블라흐, 프랑수아 (Francois Amblard)

에너지화학공학과 원자력공학과 물리학과

105

양승준 양준모 양창덕 오, 지추(Tsz-Chiu Au) 오승모 오윤석 오재은 오주환 오클리, 이언(Ian Oakley)

전기전자공학과 바이오메디컬공학과 에너지화학공학과 컴퓨터공학과 에너지화학공학과 물리학과 도시환경공학과 기계공학과 디자인학과 기계공학과 기술경영전문대학원 화학과 신소재공학과 기계공학과 인문학부 인공지능대학원 원자력공학과 인문학부 신소재공학과 디자인학과 전기전자공학과 화학과 신소재공학과 경영과학부 인공지능대학원

289

오현동 우한균 유자형 유정우 유춘상 윤새라 윤성환 윤의성 윤정로 윤태식 이경호 이규호 이근식 이기석 이기연 이남훈

129 139

228 106 301 107 155 050 030 203 031 315 192 073 032 346 274 130 347 074 209

이덕중 이동욱 이명인 이사야 이석빈 이성국 이세민 이승준 이영주 이용재 이인경 이자일 이재선 이재성 이재연 이재용 이재화 이정혜 이종원 이종은 이종은 이종훈 이주영 이주용 이준엽 이준희 이지민 이지석 이창수 이창영 이창욱 이창형 이현욱 이희승 이희열 인용균 인준환 임성빈 임성훈 임영빈 임정호 임정훈 임치현 임한권

원자력공학과 에너지화학공학과 도시환경공학과 경영과학부 신소재공학과 에너지화학공학과 바이오메디컬공학과 원자력공학과 도시환경공학과 산업공학과 인문학부 생명과학과 기계공학과 에너지화학공학과 인문학부 전기전자공학과 기계공학과 산업공학과 전기전자공학과 전기전자공학과 인문학부 신소재공학과 인문학부 컴퓨터공학과 경영과학부 에너지화학공학과 원자력공학과 에너지화학공학과 도시환경공학과 에너지화학공학과 생명과학과 수리과학과 에너지화학공학과 디자인학과 인문학부 물리학과 기술경영전문대학원 인공지능대학원 산업공학과 컴퓨터공학과 도시환경공학과 생명과학과 산업공학과 에너지화학공학과

131 108 051 328 076 109 229 132 052 243 348 263 033 110 349 291 034 244 292 293 350 077 351 307 329 111 133 112 053 113 264 168 114 210 352 156 316 276 245 308 054 265 246 115

290 193 075 327 275

371

ㅈ

ㅊ

장, 루(Lu Zhang) 장봉수 장성연 장재성 장지욱 장지현 장현진 전명재 전영철 전유석 전정환 정건욱 정경민 정근석 정동일 정두영 정모세 정연우 정웅규 정일석 정임두 정준우 정지범 정지훈 정창렬 정하영 정홍식 정후영 정훈의 조경화 조기혁 조범석 조승우 조승호 조욱 조윤경 조재원 조재필 조재현 조재흥 조형준 주경돈 주상훈 주정환 주진명 지우석 진호섭

경영과학부 수리과학과 에너지화학공학과 기계공학과 에너지화학공학과 에너지화학공학과 경영과학부 컴퓨터공학과 신소재공학과 컴퓨터공학과 전기전자공학과 물리학과 에너지화학공학과 경영과학부 바이오메디컬공학과 바이오메디컬공학과 물리학과 디자인학과 바이오메디컬공학과 전기전자공학과 기계공학과 물리학과 도시환경공학과 전기전자공학과 수리과학과 기계공학과 신소재공학과 연구지원본부 기계공학과 도시환경공학과 도시환경공학과 화학과 바이오메디컬공학과 신소재공학과 신소재공학과 바이오메디컬공학과 도시환경공학과 에너지화학공학과 수리과학과 화학과 바이오메디컬공학과 인공지능대학원 화학과 경영과학부 바이오메디컬공학과 기계공학과 물리학과

320 169 116 035 117 118 330 309 078 310 294 157 119 331 230 231 158 211

도시환경공학과 신소재공학과 생명과학과 신소재공학과 신소재공학과 수리과학과 에너지화학공학과 신소재공학과 도시환경공학과 기술경영전문대학원 컴퓨터공학과 화학과 에너지화학공학과 전기전자공학과 생명과학과 전기전자공학과 인문학부 수리과학과

059

산업공학과

238

타타르, 브래들리 (Bradley Tatar)

인문학부

338

틀루스티, 츠비 (Tsvi Tlusty)

물리학과

140

차동현 차채녕 채영찬 채한기 최경진 최규동 최남순 최문기 최성득 최영록 최영리 최원영 최윤석 최은미 최장현 최진석 최진숙 최진혁

Index

266 083 084 172 121 085 060 317 311 197 122 297 267 298 353 173

232 295 036 159

ㅋ

055 296 170

코무치, 마르코 (Marco Comuzzi)

037 079 358 038

ㅌ

056 057 194 233 080 081 234 058 120

ㅍ

171

파이난, 더글러스 (Douglas A. Fynan)

원자력공학과

124

235 277

표석훈

도시환경공학과

061

경영과학부 물리학과

333

195

196 332 236 039

ㅎ

160

한희은 허민섭

372

082

161

ㅎ 홍성유 홍운기 황일순

화학과 경영과학부 원자력공학과

198 334 134

373

2021 FACULTY RESEARCH PROFILES Published March 31, 2021 Publisher UNIST Research Promotion Team Address (44919) 50, UNIST-gil, Eonyang-eup, Ulju-gun, Ulsan, Republic of Korea Tel +82-52-217-1175 Homepage https://research.unist.ac.kr/faculty-research-profile/ Design Good Design Institute Tel. +82-51-796-6600

2021 UNIST Faculty Research Profiles Published March 31, 2021 Publisher UNIST Research Promotion Team Address (44919) 50, UNIST-gil, Eonyang-eup, Ulju-gun, Ulsan, Republic of Korea TEL +82-52-217-1175 https://research.unist.ac.kr/faculty-research-profile/