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Regulating interfacial reaction through electrolyte chemistry enables gradient interphase for low-temperature zinc metal batteries

Author

Listed:
  • Wei Wang

    (College of Chemistry, Nankai University)

  • Shan Chen

    (College of Chemistry, Nankai University)

  • Xuelong Liao

    (College of Chemistry, Nankai University)

  • Rong Huang

    (College of Chemistry, Nankai University)

  • Fengmei Wang

    (Fudan University)

  • Jialei Chen

    (College of Chemistry, Nankai University)

  • Yaxin Wang

    (College of Chemistry, Nankai University)

  • Fei Wang

    (Fudan University)

  • Huan Wang

    (College of Chemistry, Nankai University)

Abstract

In situ formation of a stable interphase layer on zinc surface is an effective solution to suppress dendrite growth. However, the fast transport of bivalent Zn-ions within the solid interlayer remains very challenging. Herein, we engineer the SEI components and enable superior kinetics of Zn metal batteries under harsh conditions through regulating the sequence of interfacial chemical reaction. With the differences in chemical reactivity of trimethyl phosphate co-solvent and trifluoromethanesulfonate anions in the Zn2+-solvation shell, Zn3(PO4)2 and ZnF2 are successively generated on Zn metal surface to form a gradient ZnF2–Zn3(PO4)2 interphase. Mechanistic studies reveal the outer ZnF2 facilitates Zn2+ desolvation and inner Zn3(PO4)2 serves as channels for fast Zn2+ transport, contributing to long-term cycling at subzero temperatures. Impressively, the gradient SEI enables a high lifespan over 7000 hours in Zn symmetric cell and a capacity retention of 86.1% after 12000 cycles in Zn–KVOH full cell at –50 °C.

Suggested Citation

  • Wei Wang & Shan Chen & Xuelong Liao & Rong Huang & Fengmei Wang & Jialei Chen & Yaxin Wang & Fei Wang & Huan Wang, 2023. "Regulating interfacial reaction through electrolyte chemistry enables gradient interphase for low-temperature zinc metal batteries," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-41276-9
    DOI: 10.1038/s41467-023-41276-9
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    References listed on IDEAS

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    1. Giorgia Zampardi & Fabio La Mantia, 2022. "Open challenges and good experimental practices in the research field of aqueous Zn-ion batteries," Nature Communications, Nature, vol. 13(1), pages 1-5, December.
    2. Qiu Zhang & Yilin Ma & Yong Lu & Lin Li & Fang Wan & Kai Zhang & Jun Chen, 2020. "Modulating electrolyte structure for ultralow temperature aqueous zinc batteries," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
    3. Emily B. Moore & Valeria Molinero, 2011. "Structural transformation in supercooled water controls the crystallization rate of ice," Nature, Nature, vol. 479(7374), pages 506-508, November.
    4. Masakazu Matsumoto & Shinji Saito & Iwao Ohmine, 2002. "Molecular dynamics simulation of the ice nucleation and growth process leading to water freezing," Nature, Nature, vol. 416(6879), pages 409-413, March.
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    Cited by:

    1. Lingbo Yao & Jiahe Liu & Feifan Zhang & Bo Wen & Xiaowei Chi & Yu Liu, 2024. "Reconstruction of zinc-metal battery solvation structures operating from −50 ~ +100 °C," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    2. Zhiyang Zheng & Xiongwei Zhong & Qi Zhang & Mengtian Zhang & Lixin Dai & Xiao Xiao & Jiahe Xu & Miaolun Jiao & Boran Wang & Hong Li & Yeyang Jia & Rui Mao & Guangmin Zhou, 2024. "An extended substrate screening strategy enabling a low lattice mismatch for highly reversible zinc anodes," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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