反式钙钛矿太阳能电池光活性层/电子传输层异质结界面工程的研究进展OA
Research progress on interface engineering of photoactive layer/electron transport layer heterojunction in inverted perovskite solar cells
总结了近期反式钙钛矿太阳能电池器件中应用于光活性层/电子传输层异质结界面的典型工程,并对其进行了侧重于光电转换效率提升和稳定性提升的分类.针对光电转换效率提升,分析了双模式钝化和跨界面超快载流子传输两种最前沿策略;针对稳定性提升,讨论了界面机械力学稳定性、高温稳定性和反向电压稳定性.
Typical interface engineering recently applied to the photoactive layer/electron transport layer heterojunction in inverted perovskite solar cell devices is summarized,and it is classified into focus on photoelectric conversion efficiency improvement and stability improvement.For photoelectric conversion efficiency improvement,two cutting-edge strategies including the dual-mode passivation and ultrafast interfacial charge carrier transport are analyzed.For stability improvement,the three new research directions of interface mechanical stability,stability under high temperature,and reverse voltage are discussed.
宋京华
中石化(北京)化工研究院有限公司,北京 100013
信息技术与安全科学
反式钙钛矿太阳能电池光活性层/电子传输层异质结界面工程
inverted perovskite solar cellphotoactive layer/electron transport layer heterojunctioninterface engineering
《石油化工》 2026 (1)
130-137,8
中石化(北京)化工研究院有限公司院控项目(BHYZL2025060401).
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