摘要
利用共敏化(Co-sensitized)来获得全色太阳光谱吸收可以有效的提高光电流和光电转换效率。介绍了几种获得全色光谱的方法:染料共敏化、中继染料、光敏剂与量子点共敏化(QDSCs电池)、串联式电池;以及它们的影响因素、制备工艺、提高光电效率的策略和最新研究进展。
A panchromatic solar spectral absorption is enhanced photocurrent densities and light-to-electrical energy able to be obtained by co-sensitizing,which can substantially conversion efficiencies. Various co-sensitization approaches of obtaining a panchromatic solar spectral were introduced, such as DSSCs co-sensitization, relay dyes, quantum dot solar cells (QDSCs) and parallel tandem DSSCs. In addition, the influencing factors, preparation process, a strategy to enhance light-to- electrical conversion e? ciencies and new trend were introduced.
出处
《化工新型材料》
CAS
CSCD
北大核心
2013年第10期24-27,共4页
New Chemical Materials
关键词
共敏化
太阳能电池
全色光谱响应
co-sensitization, dye-sensitized solar cell, panchromatic response