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A thermotropic liquid crystal enables efficient and stable perovskite solar modules

Author

Listed:
  • Yi Yang

    (Northwestern University)

  • Cheng Liu

    (Northwestern University)

  • Yong Ding

    (EPFL
    North China Electric Power University)

  • Bin Ding

    (EPFL)

  • Jian Xu

    (University of Toronto)

  • Ao Liu

    (Northwestern University)

  • Jiaqi Yu

    (Northwestern University)

  • Luke Grater

    (University of Toronto)

  • Huihui Zhu

    (Northwestern University)

  • Shreyash Sudhakar Hadke

    (Northwestern University)

  • Vinod K. Sangwan

    (Northwestern University)

  • Abdulaziz S. R. Bati

    (Northwestern University)

  • Xiaobing Hu

    (Northwestern University)

  • Jiantao Li

    (Argonne National Laboratory)

  • So Min Park

    (Northwestern University)

  • Mark C. Hersam

    (Northwestern University
    Northwestern University
    Northwestern University)

  • Bin Chen

    (Northwestern University)

  • Mohammad Khaja Nazeeruddin

    (EPFL)

  • Mercouri G. Kanatzidis

    (Northwestern University)

  • Edward H. Sargent

    (Northwestern University
    University of Toronto
    Northwestern University)

Abstract

Perovskite solar cells have seen impressive progress in performance and stability, yet maintaining efficiency while scaling area remains a challenge. Here we find that additives commonly used to passivate large-area perovskite films often co-precipitate during perovskite crystallization and aggregate at interfaces, contributing to defects and to spatial inhomogeneity. We develop design criteria for additives to prevent their evaporative precipitation and enable uniform passivation of defects. We explored liquid crystals with melting point below the perovskite processing temperature, functionalization for defect passivation and hydrophobicity to improve device stability. We find that thermotropic liquid crystals such as 3,4,5-trifluoro-4′-(trans-4-propylcyclohexyl)biphenyl enable large-area perovskite films that are uniform, low in defects and stable against environmental stress factors. We demonstrate modules with a certified stabilized efficiency of 21.1% at an aperture area of 31 cm2 and enhanced stability under damp-heat conditions (ISOS-D-3, 85% relative humidity, 85 °C) with T86 (the duration for the efficiency to decay to 86% of the initial value) of 1,200 h, and reverse bias with (ISOS-V-1, negative maximum-power-point voltage) and without bypass diodes.

Suggested Citation

  • Yi Yang & Cheng Liu & Yong Ding & Bin Ding & Jian Xu & Ao Liu & Jiaqi Yu & Luke Grater & Huihui Zhu & Shreyash Sudhakar Hadke & Vinod K. Sangwan & Abdulaziz S. R. Bati & Xiaobing Hu & Jiantao Li & So , 2024. "A thermotropic liquid crystal enables efficient and stable perovskite solar modules," Nature Energy, Nature, vol. 9(3), pages 316-323, March.
  • Handle: RePEc:nat:natene:v:9:y:2024:i:3:d:10.1038_s41560-023-01444-z
    DOI: 10.1038/s41560-023-01444-z
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