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All-temperature barocaloric effects at pressure-induced phase transitions

Author

Listed:
  • Xueting Zhao

    (72 Wenhua Road
    72 Wenhua Road)

  • Zhao Zhang

    (72 Wenhua Road
    72 Wenhua Road)

  • Takanori Hattori

    (Naka)

  • Jiantao Wang

    (72 Wenhua Road
    72 Wenhua Road)

  • Lingli Li

    (72 Wenhua Road)

  • Yating Jia

    (Southern University of Science and Technology)

  • Wanwu Li

    (72 Wenhua Road
    72 Wenhua Road)

  • Jianing Xue

    (72 Wenhua Road
    72 Wenhua Road)

  • Xiaoyan Fan

    (72 Wenhua Road
    72 Wenhua Road)

  • Ruiqi Song

    (72 Wenhua Road
    72 Wenhua Road)

  • Jinlong Zhu

    (Southern University of Science and Technology)

  • Peitao Liu

    (72 Wenhua Road
    72 Wenhua Road)

  • Xing-Qiu Chen

    (72 Wenhua Road
    72 Wenhua Road)

  • Zhidong Zhang

    (72 Wenhua Road)

  • Bing Li

    (72 Wenhua Road
    72 Wenhua Road)

Abstract

Caloric effects, which underpin one solution to solid-state refrigeration technologies, usually occur in the vicinity of solid-state phase transitions with a limited refrigeration temperature span. Here, we introduce and realize an unprecedented concept ‒ all-temperature barocaloric effect, i.e., a remarkable barocaloric effect in KPF6 across an exceptionally wide temperature span, from 77.5 to 300 K and potentially down to 4 K, covering typical room temperature, liquid nitrogen, liquid hydrogen, and liquid helium refrigeration regions. The directly measured barocaloric adiabatic temperature change reaches 12 K at room temperature and 2.5 K at 77.5 K upon the release of a 250 MPa pressure. This effect is attributed to a persistent phase transition to a rhombohedral high-pressure phase, as evidenced by pressure-dependent neutron powder diffraction, Raman scattering analyses, and first-principles calculations. We depict the thermodynamic energy landscape to account for the structural instability. This unique all-temperature barocaloric effect presents a novel approach to highly applicable solid-state refrigeration technology, transcending the conventional multi-stage scenario.

Suggested Citation

  • Xueting Zhao & Zhao Zhang & Takanori Hattori & Jiantao Wang & Lingli Li & Yating Jia & Wanwu Li & Jianing Xue & Xiaoyan Fan & Ruiqi Song & Jinlong Zhu & Peitao Liu & Xing-Qiu Chen & Zhidong Zhang & Bi, 2025. "All-temperature barocaloric effects at pressure-induced phase transitions," Nature Communications, Nature, vol. 16(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63068-z
    DOI: 10.1038/s41467-025-63068-z
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