Electron-deficient fused dithieno-benzothiadiazole-bridged polymer acceptors for high-efficiency all-polymer solar cells with low energy loss

IF 31.6 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Science and Engineering: R: Reports Pub Date : 2024-12-16 DOI:10.1016/j.mser.2024.100916

Hai-Rui Bai , Heng Zhang , Huifeng Meng , Yinfeng Li , Xiaopeng Xu , Ming-Qiao Liu , Yuting Chen , Ze-Fan Yao , Hong-Fu Zhi , Asif Mahmood , Yan Wang , Jia-Hao Ye , Mengyun Jiang , Qiaoshi An , Han Young Woo , Hongbin Wu , Qiang Peng , Jin-Liang Wang

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引用次数: 0

Abstract

A pair of A₁-A₂-type polymer acceptors (PY-DTBT and PY-DT-BT) including acceptor backbones (A₁) with fused- or unfused-electron-deficient linkers dithieno-benzothiadiazole (DTBT) or DT-BT (A₂), and corresponding comparative polymer acceptor PY-IT are synthesized for all-PSCs, respectively. PY-DTBT and PY-DT-BT neat film exhibit slightly blue-shifted absorption but higher absorption coefficients, and slightly down-shifted energy levels compared to PY-IT. Moreover, PY-DTBT exhibits a more rigid backbone with tighter interchain packing compared to PY-IT and PY-DT-BT, thus achieving better electron-transport in neat films. The PM6/PY-DTBT films possess well-distributed fibril network morphology with suitable phase segregation and better face-on crystallization, which can promote charge generation and extraction, and better-balanced charge mobilities in corresponding all-PSCs. Consequently, the PM6/PY-DTBT LBL-processed all-PSCs produce a top-ranked PCE of 17.58 % with a small energy loss (E_loss) of 0.51 eV, which is obviously higher than that of PM6/PY-IT (16.84 %) and PM6/PY-DT-BT (13.24 %). Furthermore, the all-PSCs based on PM6/(PY-DTBT_90 %:PY-IT_10 %) achieved a champion PCE of 18.5 % with remarkable FF, which is the one of highest reported value for the electron-deficient linker-based PSMAs in all-PSCs. This work demonstrates that employing DTBT as electron-deficient fused-ring linkage paves the way to achieve excellent polymer acceptors for further improving the efficiency of all-PSCs with small E_loss simultaneously.

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来源期刊

Materials Science and Engineering: R: Reports 工程技术-材料科学：综合

CiteScore

60.50

自引率

0.30%

发文量

审稿时长

34 days

期刊介绍： Materials Science & Engineering R: Reports is a journal that covers a wide range of topics in the field of materials science and engineering. It publishes both experimental and theoretical research papers, providing background information and critical assessments on various topics. The journal aims to publish high-quality and novel research papers and reviews. The subject areas covered by the journal include Materials Science (General), Electronic Materials, Optical Materials, and Magnetic Materials. In addition to regular issues, the journal also publishes special issues on key themes in the field of materials science, including Energy Materials, Materials for Health, Materials Discovery, Innovation for High Value Manufacturing, and Sustainable Materials development.