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Tuning polymer-backbone coplanarity and conformational order to achieve high-performance printed all-polymer solar cells.


ABSTRACT: All-polymer solar cells (all-PSCs) offer improved morphological and mechanical stability compared with those containing small-molecule-acceptors (SMAs). They can be processed with a broader range of conditions, making them desirable for printing techniques. In this study, we report a high-performance polymer acceptor design based on bithiazole linker (PY-BTz) that are on par with SMAs. We demonstrate that bithiazole induces a more coplanar and ordered conformation compared to bithiophene due to the synergistic effect of non-covalent backbone planarization and reduced steric encumbrances. As a result, PY-BTz shows a significantly higher efficiency of 16.4% in comparison to the polymer acceptors based on commonly used thiophene-based linkers (i.e., PY-2T, 9.8%). Detailed analyses reveal that this improvement is associated with enhanced conjugation along the backbone and closer interchain π-stacking, resulting in higher charge mobilities, suppressed charge recombination, and reduced energetic disorder. Remarkably, an efficiency of 14.7% is realized for all-PSCs that are solution-sheared in ambient conditions, which is among the highest for devices prepared under conditions relevant to scalable printing techniques. This work uncovers a strategy for promoting backbone conjugation and planarization in emerging polymer acceptors that can lead to superior all-PSCs.

SUBMITTER: Wu Y 

PROVIDER: S-EPMC10924936 | biostudies-literature | 2024 Mar

REPOSITORIES: biostudies-literature

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Tuning polymer-backbone coplanarity and conformational order to achieve high-performance printed all-polymer solar cells.

Wu Yilei Y   Yuan Yue Y   Sorbelli Diego D   Cheng Christina C   Michalek Lukas L   Cheng Hao-Wen HW   Jindal Vishal V   Zhang Song S   LeCroy Garrett G   Gomez Enrique D ED   Milner Scott T ST   Salleo Alberto A   Galli Giulia G   Asbury John B JB   Toney Michael F MF   Bao Zhenan Z  

Nature communications 20240309 1


All-polymer solar cells (all-PSCs) offer improved morphological and mechanical stability compared with those containing small-molecule-acceptors (SMAs). They can be processed with a broader range of conditions, making them desirable for printing techniques. In this study, we report a high-performance polymer acceptor design based on bithiazole linker (PY-BTz) that are on par with SMAs. We demonstrate that bithiazole induces a more coplanar and ordered conformation compared to bithiophene due to  ...[more]

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