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Proton-selective coating enables fast-kinetics high-mass-loading cathodes for sustainable zinc batteries

Author

Listed:
  • Quanquan Guo

    (Technische Universität Dresden
    Max Planck Institute of Microstructure Physics
    Sichuan University)

  • Wei Li

    (Technische Universität Dresden
    Lanzhou University)

  • Xiaodong Li

    (Technische Universität Dresden
    Max Planck Institute of Microstructure Physics)

  • Jiaxu Zhang

    (Technische Universität Dresden)

  • Davood Sabaghi

    (Technische Universität Dresden)

  • Jianjun Zhang

    (Technische Universität Dresden)

  • Bowen Zhang

    (Fraunhofer Institute for Ceramic Technologies and System (IKTS))

  • Dongqi Li

    (Technische Universität Dresden)

  • Jingwei Du

    (Technische Universität Dresden)

  • Xingyuan Chu

    (Technische Universität Dresden)

  • Sein Chung

    (Pohang University of Science and Technology)

  • Kilwon Cho

    (Pohang University of Science and Technology)

  • Nguyen Ngan Nguyen

    (Technische Universität Dresden
    Max Planck Institute of Microstructure Physics)

  • Zhongquan Liao

    (Fraunhofer Institute for Ceramic Technologies and System (IKTS))

  • Zhen Zhang

    (University of Science and Technology of China)

  • Xinxing Zhang

    (Sichuan University)

  • Grégory F. Schneider

    (Leiden University)

  • Thomas Heine

    (Technische Universität Dresden
    Leipzig Research Branch
    Yonsei University)

  • Minghao Yu

    (Technische Universität Dresden)

  • Xinliang Feng

    (Technische Universität Dresden
    Max Planck Institute of Microstructure Physics)

Abstract

The pressing demand for sustainable energy storage solutions has spurred the burgeoning development of aqueous zinc batteries. However, kinetics-sluggish Zn2+ as the dominant charge carriers in cathodes leads to suboptimal charge-storage capacity and durability of aqueous zinc batteries. Here, we discover that an ultrathin two-dimensional polyimine membrane, featured by dual ion-transport nanochannels and rich proton-conduction groups, facilitates rapid and selective proton passing. Subsequently, a distinctive electrochemistry transition shifting from sluggish Zn2+-dominated to fast-kinetics H+-dominated Faradic reactions is achieved for high-mass-loading cathodes by using the polyimine membrane as an interfacial coating. Notably, the NaV3O8·1.5H2O cathode (10 mg cm−2) with this interfacial coating exhibits an ultrahigh areal capacity of 4.5 mAh cm−2 and a state-of-the-art energy density of 33.8 Wh m−2, along with apparently enhanced cycling stability. Additionally, we showcase the applicability of the interfacial proton-selective coating to different cathodes and aqueous electrolytes, validating its universality for developing reliable aqueous batteries.

Suggested Citation

  • Quanquan Guo & Wei Li & Xiaodong Li & Jiaxu Zhang & Davood Sabaghi & Jianjun Zhang & Bowen Zhang & Dongqi Li & Jingwei Du & Xingyuan Chu & Sein Chung & Kilwon Cho & Nguyen Ngan Nguyen & Zhongquan Liao, 2024. "Proton-selective coating enables fast-kinetics high-mass-loading cathodes for sustainable zinc batteries," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46464-9
    DOI: 10.1038/s41467-024-46464-9
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