Faculty Research Profile
Seungho Cho
학력
· 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
주요 경력
· 2021~present: Associate Professor, Department of Materials Science and Engineering, Ulsan National Institute of Science and Technology (UNIST), Republic of Korea
· 2017~2021: Assistant Professor, Department of Materials Science and Engineering, UNIST, Republic of Korea
· 2014~2017: Postdoctoral Research Associate, Department of Materials Science and Metallurgy, University of Cambridge, United Kingdom
수상/학회/외부활동
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
2010 Excellent Graduate Scholarship, BK21 Program for Advanced Education of Chemical Engineers
2006 Graduated from POSTECH Summa Cum Laude (the highest GPA graduate in Department of Chemical Engineering, POSTECH 2006)
2004~2006 Top GPA scholarship, Department of Chemical Engin
금속산화물 디자인 연구실
Metal Oxide DEsign Laboratory (MODEL)
저희 연구실 ‘Metal Oxide DEsign Laboratory (MODEL)’은 금속산화물 및 금속수산화물 합성을 디자인하여 디자인된 소재를 여러 기술 분야에 응용하는 연구를 수행하고 있습니다. 우리가 살고 있는 지구에서 대부분의 소재들은 산화제 중의 하나인 산소에 항상 노출 되어 있습니다. 따라서 이미 산화가 되어 있는 금속산화물은 높은 화학적 및 열적 안정성을 가집니다. 이러한 높은 안정성은 여러 기술 분야에서 가장 중요한 요구 사항 중 하나입니다. 또한 금속원소 종류에 따라 다양한 산화물을 형성할 수 있으며, 산화물의 성장을 제어하여 특성을 조절할 수 있습니다. 본 연구실의 연구 최종 목표는 미래 기술들의 핵심 요소들로 활용될 수 있는 기존에 존재하지 않았던 금속산화물 및 관련 소재들을 설계하고 직접 합성하는 것입니다. 현재 연구실의 주요 응용 분야는 합성된 소재를 촉매로 이용하여 친환경 연료나 고부가가치 물질들의 생산입니다.
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 oxides and related materials such as metal hydroxides in various technological fields by studying in depth crystal growth.
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 oxides and related materials such as metal hydroxides in various technological fields by studying in depth crystal growth.
연구분야
금속(수)산화물, 합성, 결정 성장, 촉매 반응 / Metal (hydr)oxides, syntheses, crystal growth, catalysis
Metal (hydr)oxides, syntheses, crystal growth, catalysis
연구 희망분야
전기촉매, 광촉매, 열촉매, 수소 생성, 연료 생산, 탄소 중립 / Electrocatalysts, photocatalysts, thermocatalysts, hydrogen generation, fuel production, carbon neutrality
Electrocatalysts, photocatalysts, thermocatalysts, hydrogen generation, fuel production, carbon neutrality
연구주제
금속산화물, 금속수산화물, 합성, 결정성장, 성장기작, 합성 전구체, 촉매 반응, 탄소 중립, 그린 에너지
Metal oxides, metal hydroxides, synthesis, crystal growth, growth mechanisms, precursor, catalysis, carbon neutrality, green energy
Metal oxides, metal hydroxides, synthesis, crystal growth, growth mechanisms, precursor, catalysis, carbon neutrality, green energy
국가연구개발사업 기술 분류체계
국가과학기술표준분류
EB. 재료 > EB02. 세라믹재료 > EB0211. 나노세라믹 복합재료기술
논문
· Angewandte Chemie International Edition / Energy-efficient dual formate electrosynthesis via coupled formaldehyde oxidation and CO2 reduction at ultra-low cell voltage / Hyoseok Kim and Seungho Cho* et al. / 2025
· ACS Nano / Unveiling trade-off and synergy in simultaneous removal of NOx, CO, and NH3 on mixed metal oxide nanostructure catalysts / Wonsik Jang and Seungho Cho* et al. / 2025
· Journal of the American Chemical Society / Homogeneously mixed Cu-Co bimetallic catalyst derived from hydroxy double salt for industrial-level high-rate nitrate-to-ammonia electrosynthesis / Wonsik Jang and Seungho Cho* et al. / 2024
특허
· Scalable production of composites of two-dimensional materials by microfluidization, Seungho Cho, Kwangjin An, Hong-Dae Kim, Jongkyoung Kim, Myeung-Jin Lee, and Jihun Kim, 2024
· Controlling metal cation distribution in layered double hydroxides for enhancing catalysis, Seungho Cho, Ji-Wook Jang, Jongkyoung Kim, and Je Min Yu, 2023