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Long-lived photoinduced polar states in metal halide perovskites

Author

Listed:
  • Yixuan Dou

    (Virginia Tech)

  • Xiaoming Wang

    (University of Toledo)

  • Nicholas W. G. Smith

    (Virginia Tech)

  • Piush Behera

    (University of California)

  • Rathsara Herath Mudiyanselage

    (Virginia Tech)

  • Burak Guzelturk

    (Argonne National Laboratory)

  • Donald A. Walko

    (Argonne National Laboratory)

  • Yannick Pleimling

    (Virginia Tech)

  • Sunhao Liu

    (Virginia Tech)

  • Nicholas Nici

    (Virginia Tech)

  • Carla Slebodnick

    (Virginia Tech)

  • Bogdan Dryzhakov

    (University of Tennessee)

  • Bin Hu

    (University of Tennessee)

  • Archana Raja

    (Lawrence Berkeley National Laboratory
    University of California Berkeley)

  • Ramamoorthy Ramesh

    (University of California
    University of California
    Lawrence Berkeley National Laboratory
    Rice University)

  • Giti A. Khodaparast

    (Virginia Tech)

  • Yanfa Yan

    (University of Toledo)

  • Lina Quan

    (Virginia Tech
    Virginia Tech)

Abstract

Ferroic polarization in hybrid perovskites is crucial for enhancing photovoltaic performance and developing potential electronic applications. Controlling ferroic polarization with an optical field enables probing of ferroic polarization without the unwanted interface ionic effects caused by electronic contacts. This study employs ultrafast near-infrared photoexcitation to control dynamic structural transitions in soft single crystalline hybrid Cu (II) halide perovskites, achieving a long-lived polar state (beyond 104 s) at room temperature. We probe reversible long-lived polar domains under near-infrared photoexcitation using in-situ second harmonic generation microscopy. Theoretical calculation informs the polar lattice microstrain likely induced by anisotropic structure deformation in octahedral copper halide under near-infrared photoexcitation. The reversible slow structure deformation is further confirmed by in-situ photo-induced X-ray diffraction measurement. This work provides a material platform for understanding, controlling, and probing polarization under photoexcitation. Our methodology enables the identification of previously undiscovered polar phases in ferroelectric halide perovskites.

Suggested Citation

  • Yixuan Dou & Xiaoming Wang & Nicholas W. G. Smith & Piush Behera & Rathsara Herath Mudiyanselage & Burak Guzelturk & Donald A. Walko & Yannick Pleimling & Sunhao Liu & Nicholas Nici & Carla Slebodnick, 2025. "Long-lived photoinduced polar states in metal halide perovskites," Nature Communications, Nature, vol. 16(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60007-w
    DOI: 10.1038/s41467-025-60007-w
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