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Photocatalytic doping of organic semiconductors

Author

Listed:
  • Wenlong Jin

    (Linköping University)

  • Chi-Yuan Yang

    (Linköping University
    n-Ink AB)

  • Riccardo Pau

    (University of Groningen
    Università degli Studi di Cagliari)

  • Qingqing Wang

    (Linköping University
    n-Ink AB)

  • Eelco K. Tekelenburg

    (University of Groningen)

  • Han-Yan Wu

    (Linköping University)

  • Ziang Wu

    (Korea University)

  • Sang Young Jeong

    (Korea University)

  • Federico Pitzalis

    (Università degli Studi di Cagliari)

  • Tiefeng Liu

    (Linköping University
    Linköping University)

  • Qiao He

    (Imperial College London)

  • Qifan Li

    (Linköping University)

  • Jun-Da Huang

    (Linköping University)

  • Renee Kroon

    (Linköping University)

  • Martin Heeney

    (Imperial College London)

  • Han Young Woo

    (Korea University)

  • Andrea Mura

    (Università degli Studi di Cagliari)

  • Alessandro Motta

    (Università di Roma “La Sapienza” and INSTM, UdR Roma)

  • Antonio Facchetti

    (Georgia Institute of Technology)

  • Mats Fahlman

    (Linköping University)

  • Maria Antonietta Loi

    (University of Groningen)

  • Simone Fabiano

    (Linköping University
    n-Ink AB
    Linköping University)

Abstract

Chemical doping is an important approach to manipulating charge-carrier concentration and transport in organic semiconductors (OSCs)1–3 and ultimately enhances device performance4–7. However, conventional doping strategies often rely on the use of highly reactive (strong) dopants8–10, which are consumed during the doping process. Achieving efficient doping with weak and/or widely accessible dopants under mild conditions remains a considerable challenge. Here, we report a previously undescribed concept for the photocatalytic doping of OSCs that uses air as a weak oxidant (p-dopant) and operates at room temperature. This is a general approach that can be applied to various OSCs and photocatalysts, yielding electrical conductivities that exceed 3,000 S cm–1. We also demonstrate the successful photocatalytic reduction (n-doping) and simultaneous p-doping and n-doping of OSCs in which the organic salt used to maintain charge neutrality is the only chemical consumed. Our photocatalytic doping method offers great potential for advancing OSC doping and developing next-generation organic electronic devices.

Suggested Citation

  • Wenlong Jin & Chi-Yuan Yang & Riccardo Pau & Qingqing Wang & Eelco K. Tekelenburg & Han-Yan Wu & Ziang Wu & Sang Young Jeong & Federico Pitzalis & Tiefeng Liu & Qiao He & Qifan Li & Jun-Da Huang & Ren, 2024. "Photocatalytic doping of organic semiconductors," Nature, Nature, vol. 630(8015), pages 96-101, June.
    • Handle: RePEc:nat:nature:v:630:y:2024:i:8015:d:10.1038_s41586-024-07400-5
    DOI: 10.1038/s41586-024-07400-5
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    Cited by:

    1. Chaoyi Yan & Lanyi Xiang & Yu Xiao & Xuefeng Zhang & Ziling Jiang & Boya Zhang & Chenyang Li & Siyu Di & Fengjiao Zhang, 2024. "Lateral intercalation-assisted ionic transport towards high-performance organic electrochemical transistor," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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