广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2012年
24期
38-39
,共2页
咔唑%窄带隙%共轭聚合物%太阳能电池材料
咔唑%窄帶隙%共軛聚閤物%太暘能電池材料
잡서%착대극%공액취합물%태양능전지재료
carbazole%narrow band gap%conjugated polymers%photovoltaic solar cells
基于咔唑基窄带隙共轭聚合物的太阳能电池材料的研究取得突破性的进展,成为当前聚合物光伏器件研究的热点课题之一。概述了咔唑基窄带隙共轭聚合物作为电子给体材料的研究进展及存在的问题,提出了光谱响应更宽、光电转换效率更高的咔唑基共轭聚合物研究的发展前景。
基于咔唑基窄帶隙共軛聚閤物的太暘能電池材料的研究取得突破性的進展,成為噹前聚閤物光伏器件研究的熱點課題之一。概述瞭咔唑基窄帶隙共軛聚閤物作為電子給體材料的研究進展及存在的問題,提齣瞭光譜響應更寬、光電轉換效率更高的咔唑基共軛聚閤物研究的髮展前景。
기우잡서기착대극공액취합물적태양능전지재료적연구취득돌파성적진전,성위당전취합물광복기건연구적열점과제지일。개술료잡서기착대극공액취합물작위전자급체재료적연구진전급존재적문제,제출료광보향응경관、광전전환효솔경고적잡서기공액취합물연구적발전전경。
The study of the narrow band-gap conjugated polymer base on carbazolyl materials for application in solar cells gained breakthrough progress,and became one of hotspot issue of the polymer photovoltaic device research at present.The research progress and its main existing problems of the narrow band-gap conjugated polymers base on carbazolyl as electron donor materials were summarized,the study development prospects of the conjugated polymers based on carbazole with broader spectral response and higher incident photon-to-current conversion efficiency were proposed.
