Amide-Based Cathode Interfacial Layer with Dual-Modification Mechanisms Enables Stable Organic Solar Cells with High Efficiency Achieving 20%

Wang, Xuewen; Liang, Qi; Zhang, Andong; Wei, Nan; Jiang, Huanxiang; Cheng, Yetai; Fang, Haisheng; Li, Suying; Lu, Hao; Li, Weiwei; Bo, Zhishan

doi:10.1021/jacs.4c15071

articleJournal of the American Chemical SocietyMar 4, 2025Closed access

Amide-Based Cathode Interfacial Layer with Dual-Modification Mechanisms Enables Stable Organic Solar Cells with High Efficiency Achieving 20%

XWXuewen Wang QLQi Liang AZAndong Zhang NWNan Wei HJHuanxiang Jiang

Qingdao University · Beijing Normal University · +4 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

The cathode interfacial layers (CILs) play a critical role in the performance and long-term stability of the organic solar cells (OSCs). While amine-based CILs have been successful in reducing the work function of metal electrodes, they can also promote the decomposition of acceptor materials, compromising the stability of OSCs. To address this challenge and further improve device performance, we have innovatively designed and synthesized amide-functionalized perylene diimide (PDI)-Leu-am as a dopant-free CIL molecule. Notably, PDI-Leu-am effectively mitigates acceptor decomposition, significantly improving the photostability and thermal stability of OSCs. Moreover, it demonstrates dual-modification…

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63

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Percentile: 100%
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Topics & keywords

Topics

Keywords

Organic solar cell
Cathode
Work function
Chemistry
Active layer
Diimide
Acceptor
Electrode

UN Sustainable Development Goals

Affordable and clean energy

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