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Manipulating electron redistribution to achieve electronic pyroelectricity in molecular [FeCo] crystals

Author

Listed:
  • Pritam Sadhukhan

    (Kyushu University)

  • Shu-Qi Wu

    (Kyushu University)

  • Jeremy Ian Long

    (Kyushu University)

  • Takumi Nakanishi

    (Kyushu University)

  • Shinji Kanegawa

    (Kyushu University)

  • Kaige Gao

    (Yangzhou University)

  • Kaoru Yamamoto

    (Okayama University of Science)

  • Hajime Okajima

    (Aoyama Gakuin University)

  • Akira Sakamoto

    (Aoyama Gakuin University)

  • Michael L. Baker

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

  • Thomas Kroll

    (Stanford University)

  • Dimosthenis Sokaras

    (Stanford University)

  • Atsushi Okazawa

    (Nihon University School of Medicine, 30-1 Oyaguchi Kamimachi, Itabashi-ku)

  • Norimichi Kojima

    (The University of Tokyo, 3-8-1 Komaba, Meguro-ku)

  • Yoshihito Shiota

    (Kyushu University)

  • Kazunari Yoshizawa

    (Kyushu University)

  • Osamu Sato

    (Kyushu University)

Abstract

Pyroelectricity plays a crucial role in modern sensors and energy conversion devices. However, obtaining materials with large and nearly constant pyroelectric coefficients over a wide temperature range for practical uses remains a formidable challenge. Attempting to discover a solution to this obstacle, we combined molecular design of labile electronic structure with the crystal engineering of the molecular orientation in lattice. This combination results in electronic pyroelectricity of purely molecular origin. Here, we report a polar crystal of an [FeCo] dinuclear complex exhibiting a peculiar pyroelectric behavior (a substantial sharp pyroelectric current peak and an unusual continuous pyroelectric current at higher temperatures) which is caused by a combination of Fe spin crossover (SCO) and electron transfer between the high-spin Fe ion and redox-active ligand, namely valence tautomerism (VT). As a result, temperature dependence of the pyroelectric behavior reported here is opposite from conventional ferroelectrics and originates from a transition between three distinct electronic structures. The obtained pyroelectric coefficient is comparable to that of polyvinylidene difluoride at room temperature.

Suggested Citation

  • 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.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25041-4
    DOI: 10.1038/s41467-021-25041-4
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    Cited by:

    1. 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.

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