Pyrrole‐Based Fully Non‐fused Acceptor for Efficient and Stable Organic Solar Cells

Organic solar cells (OSCs) are still suffering from the low light utilization and unstable under ultraviolet irradiation. To tackle these challenges, we design and synthesize a non‐fused acceptor based on 1‐(2‐butyloctyl)‐1H‐pyrrole as π‐bridge unit, denoted as GS70, which serves as active layer in...

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Published inAngewandte Chemie International Edition Vol. 63; no. 15; pp. e202400565 - n/a
Main Authors Wang, Jianqiu, Wang, Chaoyi, Wang, Yafei, Qiao, Jiawei, Ren, Junzhen, Li, Jiayao, Wang, Wenxuan, Chen, Zhihao, Yu, Yue, Hao, Xiaotao, Zhang, Shaoqing, Hou, Jianhui
Format Journal Article
LanguageEnglish
Published WEINHEIM Wiley 08.04.2024
Wiley Subscription Services, Inc
EditionInternational ed. in English
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Summary:Organic solar cells (OSCs) are still suffering from the low light utilization and unstable under ultraviolet irradiation. To tackle these challenges, we design and synthesize a non‐fused acceptor based on 1‐(2‐butyloctyl)‐1H‐pyrrole as π‐bridge unit, denoted as GS70, which serves as active layer in the front‐cell for constructing tandem OSCs with a parallel configuration. Benefiting from the well‐complementary absorption spectra with the rear‐cell, GS70‐based parallel tandem OSCs exhibit an improved photoelectron response over the range between 600–700 nm, yielding a high short‐circuit current density of 28.4 mA cm−2. The improvement in light utilization translates to a power conversion efficiency of 19.4 %, the highest value among all parallel tandem OSCs. Notably, owing to the intrinsic stability of GS70, the manufactured parallel tandem OSCs retain 84.9 % of their initial PCE after continuous illumination for 1000 hours. Overall, this work offers novel insight into the molecular design of low‐cost and stability non‐fused acceptors, emphasizing the importance of adopting a parallel tandem configuration for achieving efficient light harvesting and improved photostability in OSCs. A fully non‐fused acceptor, GS70, is synthesized by incorporating 1‐(2‐butyloctyl)‐1H‐pyrrole as a π‐bridge, aiming to reduce material costs and enhance stability. The obtained active layers exhibit favorable morphology and effectively suppress charge recombination. Encouragingly, this design leads to the realization of high‐efficiency and stable single‐junction and parallel tandem OSCs.
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ISSN:1433-7851
1521-3773
DOI:10.1002/anie.202400565