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학과소개
학과소개 학과소개 동영상 교수소개 발전방향 학생지원 오시는길
교과과정
교육목표 교과연계도 교과과정
학사정보
학사일정 입학안내
대학원
대학원소개 교육과정 공지사항
정보광장
공지사항 학과 규정 자유게시판 취업정보 학과뉴스
About FEC
(Dep. of Future Energy Convergence)
교수소개
교수소개
 미래에너지융합학과 미래에너지융합학과 학과소개 교수소개
교수소개 돌아가기
이름
 최민기
전공
 수소에너지, 연료전지/수전해전지 전공
TEL
 02-970-9796
E-mail
 mgchoi@seoultech.ac.kr
연구실
 상상관 816호
학력
- 2015. 3 ~ 2021. 3, Ph.D. Mechanical Engineering, Sungkyunkwan University, Korea
- 2008. 3 ~ 2015. 2, B.S. Mechanical Engineering, Sungkyunkwan University, Korea
주요 경력
- 2021. 3 ~ 2022. 6, Post-doctoral Researcher, Mechanical Engineering, Sungkyunkwan University, Korea
연구 분야
수소에너지, 연료전지/수전해전지
주요논문 및 저서
◾ M. Choi, W. Lee, “Tuning the oxygen vacancy concentration in a heterostructured electrode for high chemical and electrochemical stabilities” Chem. Eng. J., 431, 3, 13435, (2022) (IF=16.744, JCR<5%).
◾ M. Choi, J. Paik, D. Woo, D. Kim, J. Lee, S. J. Kim, J. Lee, W. Lee, “Exceptionally high performance of protonic ceramic fuel cells with stoichiometric electrolytes”. Energy Environ. Sci., 14, 12, 6476-6483, (2021) (IF=39.714, JCR<1%).
◾ M. Choi, I. A. M. Ibrahim, J. Y. Koo, S. J. Kim, J.-W. Son, K. Kim, J. W. Han*, W. Lee*, “Engineering of the charged defects at the perovskite oxide surfaces for exceptionally stable solid oxide fuel cell electrodes”, ACS Appl. Mater. Interfaces 12, 21494-21504 (2020) (IF=10.383, JCR <20%).
◾ M. Choi†, J. Lee†, W. Lee, “Nano-film coated cathode functional layer towards the high performance solid oxide fuel cells”, J. Mater. Chem. A 6, 11811-11818 (2018) (IF=14.511, JCR<10%).
◾ M. Choi†, S. Hwang†, D. Byun*, W. Lee*, “Enhanced charge transfer with Ag grids at the electrolyte/electrode interfaces of solid oxide fuel cells”, J. Mater. Chem. A 4, 4420-4424 (2016) (IF=14.511, JCR<10%). (Featured as back cover)
저널 논문
◾ M. Choi, W. Lee, “Tuning the oxygen vacancy concentration in a heterostructured electrode for high chemical and electrochemical stabilities” Chem. Eng. J., 431, 3, 13435, (2022)
◾ M. Choi, J. Paik, D. Woo, D. Kim, J. Lee, S. J. Kim, J. Lee, W. Lee, “Exceptionally high performance of protonic ceramic fuel cells with stoichiometric electrolytes”. Energy Environ. Sci., 14, 12, 6476-6483, (2021)
◾ S. J. Kim, J. Baek, M. Choi, J. Lee, W. Lee, “Controlling oxygen defect chemistry at electrolyte surface of intermediate temperature solid oxide fuel cells”. J. Power Sources, 509, 230351, (2021)
◾ S. Hwang†, J. Lee†, G. Kang, M. Choi, S. J. Kim, W. Lee*, D. Byun*, “A hydrogel-assisted GDC chemical diffusion barrier for durable solid oxide fuel cells”. J. Mater. Chem. A, 9, 11683-11690 (2021)
◾ M. Choi†, S. Hwang†, J. Lee, G. Kang, S. J. Kim, B. Seong, H. Lee, W. Lee*, D. Byun*, “Precursor based thin film structure with hydrogel-mediated infiltration for durable SOFCs”. Sci. Rep. 11, 1-8 (2021)
◾ M. Choi†, J. Lee†, W. Lee, “Encapsulated metal catalysts for solid oxide fuel cell cathodes” Int. J. Precis. Eng. Manuf.-Green Tech. 8, 1529-1535 (2021)
◾ M. Choi, S. J. Kim, W. Lee, “Effects of water atmosphere on chemical degradation of PrBa0.5Sr0.5Co1.5Fe0.5O5 electrodes”. Ceram. Inter. 47, 7790-7797 (2021)
◾ S. J. Kim†, J. Y. Koo†, T. Mun, M. Choi, W. Lee, “Tailoring defect chemistry at the interface for promoted oxygen reduction reaction kinetics”, J. Mater. Chem. A 8, 23313-23322 (2020)
◾ M. Ahn, S. Hwang, S. Han, M. Choi, D. Byun*, W. Lee*, “Porous and hollow nanofibers for solid oxide fuel cell electrodes”, Korean J. Chem. Eng. 37, 1371-1378 (2020) (IF=3.309).
◾ M. Choi, S. J. Kim, J. Paik, W. Lee, “Enhanced Cr tolerance of perovskite oxide with Gd0.1Ce0.9O2 surface modification”, Korean J. Chem. Eng. 37, 1346-1351 (2020)
◾ J. Y. Koo, T. Mun, J. Lee, M. Choi, S. J. Kim, W. Lee, “Enhancement of oxygen reduction reaction kinetics using infiltrated yttria-stabilized zirconia interlayers at the electrolyte/electrode interfaces of solid oxide fuel cells”, J. Power Sources 472, 228606 (2020)
◾ M. Choi, I. A. M. Ibrahim, J. Y. Koo, S. J. Kim, J.-W. Son, K. Kim, J. W. Han*, W. Lee*, “Engineering of the charged defects at the perovskite oxide surfaces for exceptionally stable solid oxide fuel cell electrodes”, ACS Appl. Mater. Interfaces 12, 21494-21504 (2020)
◾ M. Choi†, S. J. Kim†, J. Lee, W. Lee, “Modifying defect structures at interfaces for high performance solid oxide fuel cells”, J. Eur. Ceram. Soc. 40, 3089-3097 (2020)
◾ J. Lee†, S. Hwang†, M. Ahn†, M. Choi, S. Han, D. Byun*, W. Lee*, “Enhanced interface reactivity by nanowrinkled functional layer for intermediate-temperature solid oxide fuel cells”, J. Mater. Chem. A 7, 21120-21127 (2019) (Featured as back cover)
◾ M. Choi†, S. Hwang†, S. J. Kim, J. Lee, D. Byun*, W. Lee*, “Rational design of a metallic functional layer for high-performance solid oxide fuel cells”, ACS Appl. Energy Mater. 2, 4059-4068. (2019) (Featured as supplementary cover)
◾ M. Choi, J. Lee, W. Lee, “Fluid mechanical approaches for rational design of infiltrated electrodes of solid oxide fuel cells”, Int. J. Precis. Eng. Manuf.- Green Tech. 6, 53-61 (2019) (Selected as Best Paper) (Highlighted in IJPEM Newsletter)
◾ M. Choi†, J. Lee†, W. Lee, “Nano-film coated cathode functional layer towards the high performance solid oxide fuel cells”, J. Mater. Chem. A 6, 11811-11818 (2018)
◾ J. Y. Koo†, H. Kwon†, M. Ahn, M. Choi, J.-W. Son, J. W. Han*, W. Lee*, “Suppression of cation segregation in (La,Sr)CoO3-δ by elastic energy minimization”, ACS Appl. Mater. Interfaces 10, 8057-8065 (2018)
◾ M. Choi, J. Y. Koo, M. Ahn, W. Lee, “Effects of grain boundaries at the electrolyte/cathode interfaces on oxygen reduction reaction kinetics of solid oxide fuel cells”, Bull. Korean Chem. Soc.38, 423-428 (2017) (Featured as Top 20 Most Read Paper)
◾ J. Y. Koo, S. Hwang, M. Ahn, M. Choi, D. Byun*, W. Lee*, “Controlling the diameter of electrospun yttria-stabilized zirconia nanofibers”, J. Am. Ceram. Soc. 99, 3146-3150 (2016)
◾ M. Choi†, S. Hwang†, D. Byun*, W. Lee*, “Enhanced charge transfer with Ag grids at the electrolyte/electrode interfaces of solid oxide fuel cells”, J. Mater. Chem. A 4, 4420-4424 (2016) (Featured as back cover)
◾ M. Choi, S Hwang, D. Byun, W. Lee*, “Enhanced electrochemical reactivity at electrolyte/electrode interfaces of solid oxide fuel cells with Ag grids”, J. Kor. Ceram. Soc., 5, 356-360 (2015)
◾ Bayesian-optimization-assisted efficient operation for direct ammonia solid oxide fuel cells, Journal of Power Sources, vol.619 No.2024 pp.235194~, 2024최민기
◾ Heterostructured electrodes for Cr-tolerant solid oxide fuel cells, Journal of Materials Chemistry A, 2024최민기
◾ Effects of water on the degradations in the Ni-YSZ anode of the direct ammonia solid oxide fuel cells, Chemical Engineering Journal, vol.497 No.2024 pp.154764~, 2024최민기
◾ Interface Engineering to Operate Reversible Protonic Ceramic Electrochemical Cells Below 500 °C, Advanced Energy Materials, No.202400124 , 2024최민기
◾ Engineering the heterogeneous catalyst of protonic ceramic electrochemical cells for CO2/H2O co-electrolysis, JOURNAL OF MATERIALS CHEMISTRY A, vol.12 No.12 pp.6955~6967, 2024최민기
◾ Direct methane protonic ceramic fuel cells with self-assembled Ni-Rh bimetallic catalyst, Nature Communications, vol.14 No.1 pp.7485~7493, 2023최민기
◾ Advances and challenges in developing protonic ceramic cells, Materials Today Energy, vol.36 No.101365 pp.1~19, 2023최민기
◾ 프로톤 전도성 페로브스카이트 산화물 기반 전기화학전지 개발, Ceramist, vol.26 No.1 pp.47~63, 2023최민기
◾ Infiltrated Nanofiber-Based Nanostructured Electrodes for Solid Oxide Fuel Cells, INTERNATIONAL JOURNAL OF ENERGY RESEARCH, vol.2023, 2023최민기
◾ Precursor-driven facile densification of Gd0.1Ce0.9O2-delta interlayer for high-performance solid oxide fuel cells, INTERNATIONAL JOURNAL OF ENERGY RESEARCH, vol.46 No.12 pp.17511~17520, 2022최민기
학술대회
◾ 최민기, 전해질 화학적 안정화를 통한 고성능 프로톤 전도성 연료전지, 전해질 화학적 안정화를 통한 고성능 프로톤 전도성 연료전지, ICC jeju, 2023최민기
◾ 백재완, 김진우, 이현호, 김광재, 은소정, 이채원, 이민기, 최민기, 고효율 직접 암모니아 고체 산화물 연료전지를 위한 베이지안 체적화 기반 연료 주입 제어, 추계 한국세라믹학회, 코엑스, 2023최민기
◾ 최민기, 직접 메탄 운전 양성자전도성 연료전지를 위한 불균일촉매 표면 엔지니어링, 직접 메탄 운전 양성자전도성 연료전지를 위한 불균일촉매 표면 엔지니어링, ICC jeju, 2023최민기
◾ 최민기, CO2 메탄화를 위한 불균일 촉매의 표면 염기도 엔지니어링, CO2 메탄화를 위한 불균일 촉매의 표면 염기도 엔지니어링, ICC jeju, 2023최민기
◾ 최민기, Protonic ceramic fuel cell with stoichiometric electrolyte, 2022년도 한국전기화학회 추계총회 및 학술발표회 프로그램, 부산 BEXCO, 2022최민기
◾ 김서주, 최민기, 이원영, 나노섬유의 물성 제어를 통한 고성능 고체산화물 연료전지 개발, 2022 한국세라믹학회 추계 학술대회, 서울 코엑스, 2022최민기
특허
1. Wonyoung Lee, Mingi Choi, Jaedeok Paik, “Fabrication process of fuel cell”. No.10-2345976, 2021. 12. 28
연구프로젝트
1. “Development of low-temperature operating proton conducting electrolysis cell for highly performing CO2conversion and CH4 production”, Sejong Science Fellowship, National Research Foundation of Korea (MAR2021–FEB2026)
2. “Development of highly durable protonic ceramic fuel cell with defect engineering”, Research grant for PhD students, National Research Foundation of Korea (SEP 2019 – AUG 2020)
기타(학회활동 등)
1. Best thesis award, Korean Society for Mechanical Engineers, Jeju, Korea, 2021.
2. Best paper award (Poster), School of Mechanical Engineering conference, Sungkyunkwan University, Korea, 2019.
3. Best paper award, Korean Society for Mechanical Engineers, Jeju, Korea, 2018.
4. Best paper award (Oral), School of Mechanical Engineering conference, Sungkyunkwan University, Korea, 2018.
5. Best paper award (Oral), School of Mechanical Engineering conference, Sungkyunkwan University, Korea, 2017.
6. Scholarship for combined master and Ph.D. course, Sungkyunkwan University, Korea, 2015.
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