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에너지화학공학과 / Energy and Chemical Engineering
오승모 Seung-mo Oh
에너지화학공학과 / Energy and Chemical Engineering
+82-52-217-2607
seungoh@unist.ac.kr
Bldg. 104 Rm. 401-7
Curriculum Vitae
• 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)
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
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.
오늘날 전기화학현상의 이해를 통해 새로운 물질과 디바이스가 개발되고 있고, 배터리는 휴대폰, 노트북, 전기자동차의 전원 또는 신재생 에너지발전의 저장 장치로 활용되고 있다. 본 연구실에서는 1) 전기화학 에너지 변환/저장장치에 내재되어있는 전기화학적 기본 현상을 이해하고, 2) 현상 규명을 위한 실험 기법을 개발하고, 3) 장치의 수명과 안전성을 좌우하는 열화 원인 규명을 통해, 4) 기존 장치의 성능 향상 뿐 아니라 새로운 물질, 제조공정, 디바이스 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
• 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
• “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
국가과학기술표준분류
- ED. 전기/전자
- ED09. 전지
- ED0999. 달리 분류되지 않는 전지
