고성능 유기 반도체 소재와 2차원 소재를 합성/개질하고 박막화 공정을 개발하며 방사광 가속기로 박막 구조를 심층 분석합니다. 제조된 유기 반도체, 전도체, 절연체 박막을 이용해 차세대 유연 전자 소자와 에너지 소자를 개발합니다. 소재와 소자의 구조-성능 관계를 실험적으로 규명하며 범함수 이론계산을 통해 이론적으로 뒷받침합니다. 상기 연구 수행을 통해 미래 분자기반 나노소재 및 소자의 원천 기술을 확보하며, 관련 학문 및 산업 분야를 선도할 인재를 양성합니다.
We synthesize organic semiconductor materials and 2D nanomaterials, devise novel thin-film deposition methods, and perform synchrotron-based experiments for structural analysis. Next-generation soft electronic and energy-harvesting devices based on the synthesized organic functional nanomaterials are also developed. Our study aims to identify fundamental physicochemical phenomena on the basis of the distinct properties of these materials and understand the relationship between molecular structure and material properties. We perform our best to broaden the scientific horizon and develop advanced industrial technologies in the fields of organic electronics and energy engineering.
Organic Semiconductor Synthesis
Prof. Zhenan Bao (Stanford University, USA)
Prof. Guillermo C. Bazan (UC Santa Barbara, USA)
Prof. Wei You (UNC Chapel Hill, USA)
Prof. Luping Yu
Prof. Jian Pei
Prof. Shinsuke Inagi (Institute of Science Tokyo, Japan)
Organic Transistor
Prof. Henning Sirringhaus (University of Cambridge, UK)
Prof. Vitaly Podzorov (Rutgers University, USA)
Prof. Takao Someya (University of Tokyo, Japan)
Organic ECT and Neuromorphic Device
Prof. Alberto Salleo (Standford University, USA)
Prof. Alexander Giovannitti (Chalmers University of Technology, Sweden)
Organic Thermoelectrics
Prof. Micael Shaybic
Prof. Xugang Guo (SUSTech, China)
Synchrotron
Prof. Harald Ade (NC State University, USA)
Prof. Lynn Loo (Princeton University, USA)
Printing
Prof. Se Hyun Kim (Konkuk University, South Korea)