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Energy conversion and storage via photoinduced polarization change in non-ferroelectric molecular [CoGa] crystals

Author

Listed:
  • Pritam Sadhukhan

    (Kyushu University)

  • Shu-Qi Wu

    (Kyushu University)

  • Shinji Kanegawa

    (Kyushu University)

  • Sheng-Qun Su

    (Kyushu University)

  • Xiaopeng Zhang

    (Kyushu University)

  • Takumi Nakanishi

    (Kyushu University)

  • Jeremy Ian Long

    (Kyushu University)

  • Kaige Gao

    (Yangzhou University)

  • Rintaro Shimada

    (Aoyama Gakuin University)

  • Hajime Okajima

    (Aoyama Gakuin University)

  • Akira Sakamoto

    (Aoyama Gakuin University)

  • Joy G. Chiappella

    (The University of Manchester
    The University of Manchester at Harwell)

  • Myron S. Huzan

    (The University of Manchester
    The University of Manchester at Harwell)

  • Thomas Kroll

    (Stanford University)

  • Dimosthenis Sokaras

    (Stanford University)

  • Michael L. Baker

    (The University of Manchester
    The University of Manchester at Harwell)

  • Osamu Sato

    (Kyushu University)

Abstract

To alleviate the energy and environmental crisis, in the last decades, energy harvesting by utilizing optical control has emerged as a promising solution. Here we report a polar crystal that exhibits photoenergy conversion and energy storage upon light irradiation. The polar crystal consists of dinuclear [CoGa] molecules, which are oriented in a uniform direction inside the crystal lattice. Irradiation with green light induces a directional intramolecular electron transfer from the ligand to a low-spin CoIII centre, and the resultant light-induced high-spin CoII excited state is trapped at low temperature, realizing energy storage. Additionally, electric current release is observed during relaxation from the trapped light-induced metastable state to the ground state, because the intramolecular electron transfer in the relaxation process is accompanied with macroscopic polarization switching at the single-crystal level. It demonstrates that energy storage and conversion to electrical energy is realized in the [CoGa] crystals, which is different from typical polar pyroelectric compounds that exhibit the conversion of thermal energy into electricity.

Suggested Citation

  • Pritam Sadhukhan & Shu-Qi Wu & Shinji Kanegawa & Sheng-Qun Su & Xiaopeng Zhang & Takumi Nakanishi & Jeremy Ian Long & Kaige Gao & Rintaro Shimada & Hajime Okajima & Akira Sakamoto & Joy G. Chiappella , 2023. "Energy conversion and storage via photoinduced polarization change in non-ferroelectric molecular [CoGa] crystals," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39127-8
    DOI: 10.1038/s41467-023-39127-8
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    References listed on IDEAS

    as
    1. M. Nakamura & S. Horiuchi & F. Kagawa & N. Ogawa & T. Kurumaji & Y. Tokura & M. Kawasaki, 2017. "Shift current photovoltaic effect in a ferroelectric charge-transfer complex," Nature Communications, Nature, vol. 8(1), pages 1-6, December.
    2. Pritam Sadhukhan & Shu-Qi Wu & Jeremy Ian Long & Takumi Nakanishi & Shinji Kanegawa & Kaige Gao & Kaoru Yamamoto & Hajime Okajima & Akira Sakamoto & Michael L. Baker & Thomas Kroll & Dimosthenis Sokar, 2021. "Manipulating electron redistribution to achieve electronic pyroelectricity in molecular [FeCo] crystals," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    Full references (including those not matched with items on IDEAS)

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