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Geometry design of tethered small-molecule acceptor enables highly stable and efficient polymer solar cells

Author

Listed:
  • Yang Bai

    (Beijing University of Chemical Technology)

  • Ze Zhang

    (Beijing University of Chemical Technology)

  • Qiuju Zhou

    (Xinyang Normal University)

  • Hua Geng

    (Capital Normal University)

  • Qi Chen

    (Beijing University of Chemical Technology)

  • Seoyoung Kim

    (Ulsan National Institute of Science and Technology (UNIST))

  • Rui Zhang

    (Linköping University)

  • Cen Zhang

    (Beijing University of Chemical Technology)

  • Bowen Chang

    (Beijing University of Chemical Technology)

  • Shangyu Li

    (Beijing University of Chemical Technology)

  • Hongyuan Fu

    (Beijing University of Chemical Technology)

  • Lingwei Xue

    (Beijing University of Chemical Technology)

  • Haiqiao Wang

    (Beijing University of Chemical Technology)

  • Wenbin Li

    (Zhengzhou University)

  • Weihua Chen

    (Zhengzhou University)

  • Mengyuan Gao

    (Tianjin University)

  • Long Ye

    (Tianjin University)

  • Yuanyuan Zhou

    (Hong Kong Baptist University, Hong Kong, China, Smart Society Lab, Hong Kong Baptist University)

  • Yanni Ouyang

    (Hong Kong Baptist University, Hong Kong, China, Smart Society Lab, Hong Kong Baptist University)

  • Chunfeng Zhang

    (Nanjing University)

  • Feng Gao

    (Linköping University)

  • Changduk Yang

    (Ulsan National Institute of Science and Technology (UNIST))

  • Yongfang Li

    (Institute of Chemistry, Chinese Academy of Sciences)

  • Zhi-Guo Zhang

    (Beijing University of Chemical Technology)

Abstract

With the power conversion efficiency of binary polymer solar cells dramatically improved, the thermal stability of the small-molecule acceptors raised the main concerns on the device operating stability. Here, to address this issue, thiophene-dicarboxylate spacer tethered small-molecule acceptors are designed, and their molecular geometries are further regulated via the thiophene-core isomerism engineering, affording dimeric TDY-α with a 2, 5-substitution and TDY-β with 3, 4-substitution on the core. It shows that TDY-α processes a higher glass transition temperature, better crystallinity relative to its individual small-molecule acceptor segment and isomeric counterpart of TDY-β, and a more stable morphology with the polymer donor. As a result, the TDY-α based device delivers a higher device efficiency of 18.1%, and most important, achieves an extrapolated lifetime of about 35000 hours that retaining 80% of their initial efficiency. Our result suggests that with proper geometry design, the tethered small-molecule acceptors can achieve both high device efficiency and operating stability.

Suggested Citation

  • Yang Bai & Ze Zhang & Qiuju Zhou & Hua Geng & Qi Chen & Seoyoung Kim & Rui Zhang & Cen Zhang & Bowen Chang & Shangyu Li & Hongyuan Fu & Lingwei Xue & Haiqiao Wang & Wenbin Li & Weihua Chen & Mengyuan , 2023. "Geometry design of tethered small-molecule acceptor enables highly stable and efficient polymer solar cells," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38673-5
    DOI: 10.1038/s41467-023-38673-5
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