材料科学
有机太阳能电池
电解质
聚合物
纳米技术
工作(物理)
热稳定性
热的
混合太阳能电池
光电子学
光伏系统
能量转换效率
电导率
混合材料
太阳能
高效能源利用
化学工程
热导率
电荷(物理)
混合动力系统
理论(学习稳定性)
能量转换
电极
作者
Ting Wang,Yizhe Liu,Jifa Wu,Jiashuai Wang,Zhenyan He,Yibo Zhou,Xi Zhang,Wei Wang,Yuang Fu,Xinhui Lu,Xiaobing Peng,Baobing Fan,Fei Huang,Yong Cao
摘要
ABSTRACT Electron transport layers (ETLs) are crucial for reducing the interfacial energy barrier in organic solar cells (OSCs). However, conventional polymer‐based ETLs often suffer from limited conductivity and severe interfacial defects, hindering the improvement in both efficiency and stability. Herein, we develop a hybrid ETL by incorporating a nickel‐based metal‐organic framework (Ni‐MOF) into a polymeric ETL (NDI‐Br). The incorporation of Ni‐MOF introduces abundant Ni centers that coordinate with the bromide anions in NDI‐Br, generating strong interactions that enhance interfacial charge transport and reduce interfacial recombination. OSCs based on the hybrid ETL, NDI‐Br:Ni‐MOF (10:1), exhibit a remarkable efficiency of 20.7%, largely outperforming that (19.1%) of devices based on pristine NDI‐Br. Moreover, the hybrid ETL demonstrates exceptional thickness tolerance (maintaining 17.3% efficiency at 80 nm) and thermal stability with a T 90 lifetime exceeding 1000 h. This work provides a versatile interfacial engineering strategy that can well address the efficiency‐stability trade‐off in OSCs, paving the way for further promoting the practical use of OSCs.
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