fnctId=thesis,fnctNo=31
Stable Colored Photovoltaics with Thiol?Ene Crosslinked InP/ZnSexS1-x/ZnS Quantum Dot-Polymer Downshifting Layers
- 작성자
- 심지현
- 저자
- Keon Woo Kim, Jaehwan Ko, Jeonghoon Lee, Dongju Jung, Jae Seung Lee, Jaehyun Kim, Yeong Uk Kim, Dong Rip Kim, Chi Hwan Lee, Dahin Kim, Dennis T. Lee, Heesun Yang, Kyu Hyun, Wan Ki Bae, Hyung-Jun Song, Byeong Guk Jeong
- 발행사항
- 발행일
- 2025-07
- 저널명
- Small Struct
- 국문초록
- 영문초록
- Building integrated photovoltaics (BIPVs) combine building materials and PV cells to support net zero energy buildings and maintain aesthetics. Quantum dot-luminescent downshifting (QD-LDS) technology can improve BIPV performance by converting barely harvested ultraviolet light into wavelengths that correspond to the high-efficiency range of the device, using environmentally benign materials such as indium phosphide (InP) QDs. Despite their potential, InP QDs face photochemical instability against outdoor environments. To address this issue, an approach is demonstrated to formulate polymer composites with InP QDs using thiol?ene bonds, forming a crosslinked network with a transparent acrylate resin. The polymer composite shields the QDs from environmental factors, enhancing stability without deteriorating transmittance. The formulation of QD-polymer composite enables to integrate the QD-LDS layer into various dimensions with high degree of freedom for efficient and pleasant applying BIPV. Colored PV utilizing QD-LDS layer demonstrates potential for developing highly efficient and stable BIPV modules, paving the way for innovative and sustainable energy solutions.
- 일반텍스트
- 첨부파일