Light has played a critical role throughout history as a medium for conveying information. In particular, producing light and controlling it has been a central interest in modern information technology. An exciton, a bound state of an electron and a hole, can be formed in semiconductors and leads to efficient light emission or absorption. Thus, properly understanding and controlling excitons is a crucial aspect of creating high-performance optoelectronic devices that leads to efficient control of light. In our lab, we utilize the cutting-edge nanotechnology to fabricate high-performance nanoscale electronic and optoelectronic devices that open the door to the NEXT generation of information technology, which will revolutionize our lives in the near future. Our projects span a broad range from fundamental physics to applied science of nanoelectronics and excitonic devices. We use light as a mean to understand the physics of different materials, enabling us to design novel devices with high performance and advanced optical properties.
하이 임팩트 태그
연구 키워드
대학원 지원 일정·절차는 소속 대학·대학원 및 학과(전공)마다 다릅니다. 해당 학교의 대학원 모집 공지와 지원 안내를 먼저 확인해 주세요. 연구실별로 필요 서류, 면접·과제 제출, 합격 후 입학 절차 등은 교수님 또는 연구실 안내에 따릅니다.
2026 venue에 대한 데이터가 없습니다
2026 Chemical Engineering Journal
2026 Nature
