– 박사: 서울대학교 재료공학 (2018)
– 석사: 서울대학교 재료공학 (2014)
– 학사: 서울대학교 재료공학 (2012)
주요 경력
– 2025.02~현재 서울대학교 첨단융합학부 (조교수)
– 2021.06~2025.01 울산과학기술원 (UNIST) 에너지화학공학과 (조교수)
– 2018.09~2021.05 삼성전자종합기술원 (SAIT) (Staff Researcher)
– 2017.10~2018.02 로렌스 버클리 국립 연구소 (LBNL) (방문 연구원)
주요 수상 및 영예
– 2024 포스코 사이언스 펠로우십 펠로우 선정 (포스코 청암재단)
– 2018 한국 방사광이용자협회 신진학술상
– 2017 공학페스티벌 캡스톤디자인 국무총리상 (산업통상자원부)
최근 연구 성과
– 전고체전지용 고유연/고이온전도성 무기계 고체전해질 신규 소재 개발
– 이차전지 화재 예방을 위한 계면 설계
– 리튬 및 전이금속 화합물의 나노복합체를 통한 신규 양극 소재 개발
– 전고체전지 비파괴 실시간 분석 기법 개발
– 생분해성 이차전지 개발
– 방사광 기술을 활용한 소재 분석 및 에너지 저장 메커니즘 분석
– Nature Energy, Nature Communications, Science Advances, Advanced Materials, Advanced Energy Materials 등 관련 SCI 저널 42편 게재
Education
– Ph.D. Seoul National University, Department of Materials Science and Engineering (2018)
– M.S. Seoul National University, Department of Materials Science and Engineering (2014)
– B.S. Seoul National University, Department of Materials Science and Engineering (2012)
Professional Experience
– Assistant Professor (2025.02 – Current) School of Transdisciplinary Innovations & Department of Materials Science and Engineering (Double Affiliation), Seoul National University (SNU)
– Assistant Professor (2021.06 – 2025.01) School of Energy and Chemical Engineering, Ulsan National Institute of Science and Technology (UNIST)
– Staff Researcher (2018.09 – 2021.05) Next Generation Battery Lab, Samsung Advanced Institute of Technology (SAIT)
– Visiting Scholar (2017.10 – 2018.02) Advanced Light Source (ALS), Lawrence Berkeley National Laboratory (LBNL)
Honors and Awards(Selected)
– 2024 Posco Science Fellowship, Fellow (TJ Park Foundation)
– 2018 New Scientist Awards (Korea Synchrotron Radiation User’s Association)
– 2017 Capstone Design Festival, Prime Minister’s Award (First Prize) (Ministry of Trade, Industry and Energy, MOTIE)
Recent Research Achievements
– Development of new materials for highly flexible/high ionic conductivity inorganic solid electrolytes for all-solid-state batteries
– Interface design for secondary battery fire prevention
– Development of new cathode materials through nanocomposites of lithium and transition metal compounds
– Development of non-destructive real-time analysis techniques for all-solid-state batteries
– Development of biodegradable secondary batteries
– Advanced analysis of materials and energy storage mechanisms using synchrotron radiation technology
– Published 42 papers in related SCI journals including Nature Energy, Nature Communications, Science Advances, Advanced Materials, and Advanced Energy Materials
