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Improved reverse bias stability in p–i–n perovskite solar cells with optimized hole transport materials and less reactive electrodes

Author

Listed:
  • Fangyuan Jiang

    (University of Washington)

  • Yangwei Shi

    (University of Washington
    University of Washington)

  • Tanka R. Rana

    (University of Washington)

  • Daniel Morales

    (University of Colorado Boulder)

  • Isaac E. Gould

    (University of Colorado Boulder)

  • Declan P. McCarthy

    (University of Colorado Boulder)

  • Joel A. Smith

    (University of Oxford)

  • M. Greyson Christoforo

    (University of Oxford)

  • Muammer Y. Yaman

    (University of Washington)

  • Faiz Mandani

    (Rice University)

  • Tanguy Terlier

    (Rice University)

  • Hannah Contreras

    (University of Washington)

  • Stephen Barlow

    (University of Colorado Boulder)

  • Aditya D. Mohite

    (Rice University)

  • Henry J. Snaith

    (University of Oxford)

  • Seth R. Marder

    (University of Colorado Boulder
    University of Colorado Boulder
    University of Colorado Boulder)

  • J. Devin MacKenzie

    (University of Washington
    University of Washington)

  • Michael D. McGehee

    (University of Colorado Boulder
    University of Colorado Boulder
    University of Colorado Boulder)

  • David S. Ginger

    (University of Washington)

Abstract

As perovskite photovoltaics stride towards commercialization, reverse bias degradation in shaded cells that must current match illuminated cells is a serious challenge. Previous research has emphasized the role of iodide and silver oxidation, and the role of hole tunnelling from the electron-transport layer into the perovskite to enable the flow of current under reverse bias in causing degradation. Here we show that device architecture engineering has a significant impact on the reverse bias behaviour of perovskite solar cells. By implementing both a ~35-nm-thick conjugated polymer hole transport layer and a more electrochemically stable back electrode, we demonstrate average breakdown voltages exceeding −15 V, comparable to those of silicon cells. Our strategy for increasing the breakdown voltage reduces the number of bypass diodes needed to protect a solar module that is partially shaded, which has been proven to be an effective strategy for silicon solar panels.

Suggested Citation

  • Fangyuan Jiang & Yangwei Shi & Tanka R. Rana & Daniel Morales & Isaac E. Gould & Declan P. McCarthy & Joel A. Smith & M. Greyson Christoforo & Muammer Y. Yaman & Faiz Mandani & Tanguy Terlier & Hannah, 2024. "Improved reverse bias stability in p–i–n perovskite solar cells with optimized hole transport materials and less reactive electrodes," Nature Energy, Nature, vol. 9(10), pages 1275-1284, October.
    • Handle: RePEc:nat:natene:v:9:y:2024:i:10:d:10.1038_s41560-024-01600-z
    DOI: 10.1038/s41560-024-01600-z
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