신소재공학부
나노반도체응용연구실
연구실 소개
나노반도체응용연구실은 나노 소재 (Quantum Dots, Nanowires, TMDCs 등)의 합성 및 나노 소재를 이용한 다양한 전자 소자 (QLEDs, Memristors, Transistors 등) 응용 및 원리에 대한 연구를 수행하며, 추가적으로 직물 응용을 통한 전자시스템 등 다양한 시스템 실증 연구를 수행한다.
주요 연구내용
- 나노 소재 합성 및 물성 제어 연구 (Quantum Dots, Nanowires, TMDCs)
- 나노 소재 기반의 고성능 소자 공정 및 동작 특성 연구 (QLEDs, QDSC, Piezo/Triboelectric NGs, Memristors, Sensors)
- 인공지능형 뉴로모픽 전자 소자 및 시스템 연구
- 텍스타일 기반의 스마트 웨어러블 전자 시스템 연구
연구 관련 사진
대표 연구업적
주요논문
- Sanghyo Lee et al., “Truly form-factor-free industrially scalable system integration for electronic textile architectures with multifunctional fiber devices”, Science Advances, 9, eadf4049 (2023)
- Sanghyo Lee et al., “Optoelectronic System and Device Integration for Quantum-Dot Light-Emitting Diode White Lighting with Computational Design Framework”, Nature Communications, 13, 4189 (2022)
- Sanghyo Lee et al., “Smart textile lighting/display system with multifunctional fibre devices for large scale smart home and IoT applications”, Nature Communications 13, 814 (2022)
- Sanghyo Lee et al., “Engineering Core Size of InP Quantum Dot with incipient ZnS for Blue Emission”, Advanced Optical Materials, 10, 2102372 (2022)
- Sanghyo Lee et al., “Color Controllable Smart White Lighting based on Various Device Architectures of Electrically-Driven Quantum-Dot Light-Emitting Diodes”, Journal of Materials Chemistry C, 10, 10728 (2022)
- Hanleem Lee and Sanghyo Lee* et al., “Air stable eco-friendly quantum dots with light-mediated photoinitiator for inkjet printed flexible light emitting diode” Journal of Materials Chemistry C, 10, 10708 (2022)
- Shijie Zhan and Sanghyo Lee* et al., “Inkjet-printed Multi-color Arrays based on Eco-friendly Quantum dot Light Emitting Diodes with tailored Hole Transport Layer” Journal of the Society of Information and Display, 30, 748 (2022)
- Sungwon Jung and Sanghyo Lee* et al., “Spectral functions of CVD grown MoS2 monolayers after chemical transfer onto Au surface” Applied Surface Science, 532, 147390 (2020)
- Sanghyo Lee et al., “Sustainable Hybrid Energy Harvester based on High Air Stable Triboelectric Generator and Quantum Dot Solar Cells” Journal of Material Chemistry A, 6, 12440 (2018)
- Sanghyo Lee et al., Triboelectric energy harvester based on wearable textile platforms employing various surface morphologies Nano Energy, 12, 410 (2015)