Research Interest

The OMIL develops next-generation electronic devices through the molecular design and synthesis and engineering of optoelectronic materials, operating a tightly integrated closed loop that links design, synthesis, characterization, and device integration. We deploy newly synthesized materials in transistors, displays, and solar cells, combining structural, morphological, and spectroscopic analyses to elucidate materials–device performance correlations and derive design principles applicable across semiconductor, energy, and display technologies. Most recently, we are establishing materials and process platforms for stretchable electronics, expanding toward wearable device applications.

Notice

[공고] 

대학원생, 학부연구생 상시 모집

분야: 유기·광전자재료 합성, 소자 제작, 분석 (트랜지스터, 디스플레이, 태양전지, 신축성 디바이스)

지원: 등록금 + 생활비, 국내외 학회/세미나 참가 지원

문의: minjun.kim@kyonggi.ac.kr

News

[논문]   2026. 02.25. 우리 연구실 논문이 Adv. Energy Mater. 에 게재 확정되었습니다.

본 연구는 한국화학연구원 송창은 박사님, 광운대 손성윤 교수님, 경기대 정경준 교수님 연구팀과의 공동연구를 통해 수행되었습니다.

Chanhyeok Kim,‡ Seung Un Ryu,‡ Du Hyeon Ryu,‡ Hangyeol Kim, Jeongsu Kim, Dohyun Kim, Junwoo Lee, Kyeong-Jun Jeong,* Chang Eun Song,* Sung Yun Son,* and Minjun Kim* "Rational Backbone Planarization for Doping-Resilient Polymeric Hole Transport Materials toward Stable and Scalable Perovskite Solar Cells" Adv. Energy Mater. 2026 (accepted)

[논문]   2025. 05.10. 우리 연구실 논문이 Adv. Energy Mater. 에 게재 확정되었습니다.

본 연구는 포항공과대학교 박태호 교수님 연구팀과 공동연구를 통해 수행되었습니다.

Yelim Choi,† Dohyun Kim,† Seung Un Ryu, Hangyeol Kim, Sungryong Kim, Minjun Kim,* and Taiho Park* “Stability of Organic Photovoltaics: From Root Causes to Advanced Analytical Techniques” Adv. Energy Mater. 2026, 16(3), 2501340. (Review Paper)