이주혁
Lee, Ju-HyuckDepartment of Energy Science and Engineering
학력
- 2013 ~ 2016성균관대학교 박사
- 2011 ~ 2013성균관대학교 석사
- 2004 ~ 2011성균관대학교 학사
경력
- 2017 ~ 2018UC Berkeley / 연구원
- 2016 ~ 2017Lawrence Berkeley / 연구원
수상실적
- 2016 우수상 / 성균관대학교(자연과학캠퍼스)
- 2016 휴먼테크 논문대상 동상 / 삼성전자(주)
- 2014 Best Poster Award / The 1st international conference on Nanoenergy and Nanosystems
- 2014 Best Poster Award / 한국반도체학술대회
- 2013 BEST Poster Award / 한국전기전자재료학회
연구실 소개
- Energy Conversion Materials Engineering Laboratory
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We do research on Energy Harvesting. We exploit the biocompatible piezoelectric and triboelectric nanomaterials and devices for the future biomedical applications.
Research Interest 1) Synthesis of Nano Piezoelectric and Triboelectric materials2) Design and Development of high performance Piezoelectric and Triboelectric Energy Generator3) Development of Self-Powered Electronics using Energy Generators4) Development of Biomimetic Biomolecule based Energy Materials and Devices5) Development of Novel Applications using Energy Materials
- "Tunable Phase-Engineered Polyhydroxybutyrate Fibrous Mat: An Energy Autonomous, Temperature-Responsive Platform for Wearable Application", Advanced Fiber Materials, v.7, no.5, pp.1446 - 1461
- "Polyelectrolytes as a Stable and Tunable Platform for Triboelectric Nanogenerators", Advanced Materials, v.37, no.41
- "Direct current generation in triboelectric nanogenerators through ionic dynamics and electrode polarization effects", Nature Communications, v.16, no.1
- "Self-powered directional dust removal via wind-driven phase-controlled TENG for solar panel maintenance", Lee, Cheoljae. (2025-09). Self-powered directional dust removal via wind-driven phase-controlled TENG for solar panel maintenance. Nano Energy, 142(Part B). doi: 10.1016/j.nanoen.2025.111262
- "Transfer of laser induced graphene onto the surface of cotton fabric: An efficient electrode for triboelectric nanogenerator", Kamilya, Tapas. (2025-08). Transfer of laser induced graphene onto the surface of cotton fabric: An efficient electrode for triboelectric nanogenerator. Chemical Engineering Journal, 517. doi: 10.1016/j.cej.2025.164270
연구 뉴스
- Sustainable Green Energy Innovation! Development of new technology for energy device that heals itself from damage incurred while generating electricity 2024-08-22
- 지속 가능한 친환경 에너지 혁신! 전기를 생산하면서 발생한 상처를 스스로 치유하는 에너지 소자 신기술 개발 2024-07-25
- DGIST identifies the principle behind “soft mechanoluminescent complex” that emits light without being powered by batteries 2024-05-18
- 배터리 없이도 빛나는 ‘소프트 미케노발광 복합체’원인 규명 2024-05-13
- DGIST increases the efficiency of eco-friendly solar cells by converting wind energy into high-voltage electricity 2024-03-06
연구분야
미래유망 신기술(6T)
국가과학기술표준분류
12대 국가전략기술 분야