Publications
First Author Papers
Ultralow Loading of Ru as a Bifunctional Catalyst for the Oxygen Electrode of Solid Oxide Cells [Link]
ACS Catalysis (2023)
SCI, IF: 12.4
H. Li*, H. J. Kim*, TJ. Garcia, G. Park, Y. D. Ding, M. Liu, J. An, M. H. Lee
NEWS ARTICLE
동아 사이언스: "'그린 수소' 만드는 고체산화물수전해 전지, 귀금속 없이 효율 높였다" (https://www.dongascience.com/news.php?idx=61727)
헤럴드경제: "반도체 공정기술로 수소 생산효율 높였다" (https://news.heraldcorp.com/view.php?ud=20230921000756)
전자신문: "한•미 공동연구팀, 반도체 공정으로 고체산화물 수전해 전지 효율향상 기술개발" (https://www.etnews.com/20230921000036)]
Ultralow-Loading Ruthenium Catalysts by Plasma-Enhanced Atomic Layer Deposition for a Solid Oxide Fuel Cell [Link]
Journal of alloys and compounds (2022)
SCI, IF: 6.2
T. Kim*, H. J. Kim*, D. Go, J. W. Shin, B. C. Yang, G. Y. Cho, T. M. Gur, J. An
Ultralow-Loading Ruthenium Catalysts by Plasma-Enhanced Atomic Layer Deposition for a Solid Oxide Fuel Cell [Link]
ACS Catalysis (2021)
SCI, IF: 12.9
S. Kye*, H. J. Kim*, D. Go, B. C. Yang, J. W. Shin, S. Lee, J. An
NEWS ARTICLE
[ "서울과기대 안지환 교수팀, 최신 원자층 공정 활용한 천연가스 연료전지 고성능 촉매 개발 "]
https://www.donga.com/news/Society/article/all/20210315/105881747/1
https://news.joins.com/article/24012138
https://www.dhnews.co.kr/news/articleView.html?idxno=138060 ]
Ru/Samaria-doped ceria gradient cermet anode for direct-methane solid oxide fuel cell [Link]
Applied Surface Science (2021)
SCI, IF: 6.7
H. J. Kim*, M. J. Kil, J. Lee, B. C. Yang, D. Go, Y. Lim, Y. B. Kim, J. An
Ridge-Valley Nanostructured Samaria-Doped Ceria Interlayer for Thermally Stable Cathode Interface in Low-Temperature Solid Oxide Fuel Cell [Link]
Physica status solidi a (2017)
SCI, IF: 2.0
H. J. Kim*, J. Yu, S. Hong, C. H. Park, Y. B. Kim, J. An
Enhancing thermal-stability of metal electrodes with a sputtered gadolinia-doped ceria over-layer for low-temperature solid oxide fuel cells [Link]
Ceramics international (2017)
SCI(top 8.6%), IF: 5.2
S. Oh*, S Hong*, H. J. Kim*, Y. B. Kim, J. An
Co-Author Papers
Simultaneous Performance and Stability Enhancement in Intermediate Temperature Solid Oxide Fuel Cells by Powder-Atomic Layer Deposited LSCF@ZrO2 Cathodes [Link]
Small Methods (2023)
S. E. Jo, S. H. Jeon, H. J. Kim, B. C. Yang, K. Ju, T. M. Gur, W. C. Jung, J. An
Co-sputtered Pt/Ti alloy cathode for low-temperature solid oxide fuel cell [Link]
Journal of Alloys and Compounds (2022)
J. Lee, D. Go, H. J. Kim, B. C. Yang, T. Kim, J. W. Shin, G. Park, J. AnALD CeO2-Coated Pt Anode for Thin-film Solid Oxide Fuel Cells [Link]
International Journal of Hydrogen Energy (2021)
JW Shin, S Oh, S Lee, D Go, J Park, H.J. Kim, BC Yang, GY Cho, J AnDoping-level Control of Atomic Layer Deposited YSZ Surface Layer on Platinum Catalyst [Link]
Ceramics International (2021)
BC Yang, S Kye, D Go, S Oh, H.J. Kim, JW Shin, GY Cho, J An
Atomic layer deposited YSZ overlayer on Ru for direct methane utilization solid oxide fuel cell [Link]
Ceramics International (2020)
D. Go, B. C. Yang, J. W. Shin, H. J. Kim, S. Lee, S. Kye, S. Kim, J. An
Ultrathin Atomic Layer-Deposited CeO2 Overlayer for High-Performance Fuel Cell Electrodes[Link]
ACS applied materials & interfaces (2019)
J. W. Shin, S. Oh, S. Lee, J. G. Yu, J. Park, D. Go, B. C. Yang, H. J. Kim, J. AnAtomic-layer-deposited ZrO2-doped CeO2 thin film for facilitating oxygen reduction reaction in solid oxide fuel cell [Link]
Applied Surface Science (2019)
B. C. Yang, D. Go, S Oh, J. W Shin, H. J. Kim, J. An
Enhanced thermal stability of a gaolidnia-doped ceria capped metal electrode for durable low-temperature solid oxide fuel cells [Link]
Journal of the Electrochemical Society (2017)
S Hong, S. Oh, H. J. Kim, Y. Lim, J. An, Y. B. Kim
Performance Enhancement of SOFC by ALD YSZ Thin Film Anode Interlayer [Link]
Journal of the Microelectronics and Packing Society (2016)
J An, H. J. Kim, J. G. Yu, S. Oh