详细信息
Advances in water/alcohol soluble cathode interfacial materials for organic solar cells ( EI收录)
文献类型:期刊文献
英文题名:Advances in water/alcohol soluble cathode interfacial materials for organic solar cells
作者:Lv, Menglan Tian, Jingfu Wang, Zhuo Pan, Fei Zhang, Bin Xie, Yuanpeng Yao, Jia Zhou, Erjun
第一作者:Lv, Menglan
机构:[1] Engineering Research Center for Energy Conversion and Storage Technology of Guizhou, School of Chemistry and Chemical Engineering, Guizhou University, Guiyang, 550025, China; [2] College of Biological and Chemical Engineering, Jiaxing University, Jiaxing, 314001, China; [3] School of Chemical Engineering, Guizhou Institute of Technology, Guiyang, 550025, China
第一机构:Engineering Research Center for Energy Conversion and Storage Technology of Guizhou, School of Chemistry and Chemical Engineering, Guizhou University, Guiyang, 550025, China
通信机构:Engineering Research Center for Energy Conversion and Storage Technology of Guizhou, School of Chemistry and Chemical Engineering, Guizhou University, Guiyang, 550025, China;School of Chemical Engineering, Guizhou Institute of Technology, Guiyang, 550025, China|贵州理工学院化学工程学院;贵州理工学院;
年份:2025
卷号:522
外文期刊名:Chemical Engineering Journal
收录:EI(收录号:20253519054648);Scopus(收录号:2-s2.0-105014011274)
语种:英文
外文关键词:Conversion efficiency - Solar power generation
摘要:Organic solar cells (OSCs) represent a promising advancement in photovoltaic technology, characterized by their low production costs, flexibility, and compatibility with large-scale solution processing. Recent developments have propelled the power conversion efficiency (PCE) of OSCs beyond 20 %. This progress is attributed to significant innovations in the materials used for the active layer, including both donor and acceptor components, as well as advancements in device engineering and the incorporation of interfacial materials. Cathode interfacial materials (CIMs) are particularly crucial for enhancing the photovoltaic performance of OSCs. They facilitate the formation of efficient ohmic contacts between the active layer and the cathode, lower the work function (WF) of the cathode, and optimize charge transport characteristics within the devices. This review meticulously examines the evolution of CIMs, analyzing them through various lenses: material types, molecular structures, processing techniques, and operational mechanisms. Moreover, we explore recent breakthroughs in CIMs tailored for OSC applications, categorizing them based on their functionalities and their impact on improving the efficiency of OSCs. This comprehensive overview aims to provide insights into the critical role of CIMs in the ongoing development of OSC technology, highlighting their potential to drive future advancements in the field. ? 2025
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