최용찬
Choi, Yong ChanDivision of Energy & Environmental Technology
학력
- 2007 ~ 2011전북대학교 박사
- 2004 ~ 2006전북대학교 석사
- 1998 ~ 2004전북대학교 학사
경력
- 2012 ~ 2015한국화학연구원 / 박사후연수자
- 2011 ~ 2012전북대학교 물리학과 부상돈 교수님 실험실 / 박사후연수자
- 2011 ~ 2012전북대학교 / 박사후연구원
- 2009 ~ 2011전북대학교 자연과학대학 물리학과 / 조교
- 2009 ~ 2009전북대학교 자연과학대학 과학기술학부 / 조교
수상실적
- 2018 IAAM Scietist Metal / International Association of Advanced Materials
- 2015 논문부문 KRICT 창의상(개인) / 한국화학연구원
- 2014 채영복 우수논문상 / 한국화학연구원
- 2013 BEST POSTER NOMINEE / Materials Research Society
- 2011 우수포스터상 / 유전체물성연구소
연구실 소개
- Next-Generation Solar Energy Harvesting Laboratory
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We focus on the fabrication and design of heavy pnictogen inorganic light absorbers for use in solar energy harvesting (SEH) devices, such as solar cells and photoelectrochemical cells. To achieve this goal, we develop simple solution-phase methods for the synthesis of Sb/Bi-based inorganic materials and optimize them for application in SEH devices.
Related Keyword
- "Blue photoluminescence from active carboxyl adatoms on nanoporous anodic alumina films", Cho, Sam Yeon. (2025-01). Blue photoluminescence from active carboxyl adatoms on nanoporous anodic alumina films. Scientific Reports, 15(1), 2794. doi: 10.1038/s41598-025-87342-8
- "Influence of atmospheric conditions on the formation and structural properties of two-dimensional SbSI films", Choi, Yong Chan. (2024-02). Influence of atmospheric conditions on the formation and structural properties of two-dimensional SbSI films. Materials Letters, 357. doi: 10.1016/j.matlet.2023.135682
- "A Top-Down Strategy for Reforming the Characteristics of NiO Hole Transport Layer in Inverted Perovskite Solar Cells", Ko, Seonkyung. (2023-06). A Top-Down Strategy for Reforming the Characteristics of NiO Hole Transport Layer in Inverted Perovskite Solar Cells. Solar RRL, 7(11). doi: 10.1002/solr.202300049
- "Heavy pnictogen chalcohalides for efficient, stable, and environmentally friendly solar cell applications", Choi, Yong Chan. (2023-04). Heavy pnictogen chalcohalides for efficient, stable, and environmentally friendly solar cell applications. Nanotechnology, 34(14). doi: 10.1088/1361-6528/acb05d
- "Compositional Engineering of Antimony Chalcoiodides via a Two-Step Solution Process for Solar Cell Applications", Jung, Kang-Won. (2022-05). Compositional Engineering of Antimony Chalcoiodides via a Two-Step Solution Process for Solar Cell Applications. ACS Applied Energy Materials, 5(5), 5348–5355. doi: 10.1021/acsaem.1c02676
- "Developments on Hybrid Solar Cells Based on Solution-Processed Sb-based Light Absorbers", Choi, Yong Chan. (2017-12-01). Developments on Hybrid Solar Cells Based on Solution-Processed Sb-based Light Absorbers. DGIST Global Innovation Festival 2017 DGIF 2017.
- "Synthesis of Copper Antimony Sulfide Nanocrystals based on Cu2S Nanoparticles Capped with Sb2S3 Ligand for Solar Cell Applications", Sanchez, Omar Ramirez. (2017-11-22). Synthesis of Copper Antimony Sulfide Nanocrystals based on Cu2S Nanoparticles Capped with Sb2S3 Ligand for Solar Cell Applications. The 4th International Conference on Advanced Electromaterials.
- "Controlled Cu2SnS3 CTS Thin Film Growth by Centrifugal Colloidal Casting for CTS Solar Cell Applications", Lee, Yang Soo. (2017-11-22). Controlled Cu2SnS3 CTS Thin Film Growth by Centrifugal Colloidal Casting for CTS Solar Cell Applications. The 4th International Conference on Advanced Electromaterials.
- "Recent Developments on Inorganic-Organic Hybrid Solar Cells Sensitized with Solution-Processed Sb-Based Chalcogenides", Choi, Yong Chan. (2017-10-25). Recent Developments on Inorganic-Organic Hybrid Solar Cells Sensitized with Solution-Processed Sb-Based Chalcogenides. BITs 7th ANNUAL WORLD CONGRESS OF NANO SCIENCE TECHNOLOGY-2017 NANO ST-2017.
연구 뉴스
- 납이 없는 친환경 태양광 소재 조성 기술 개발 2021-11-23
연구분야
12대 국가전략기술 분야