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Self-repairing interphase reconstructed in each cycle for highly reversible aqueous zinc batteries

Author

Listed:
  • Wenyao Zhang

    (University of Alberta
    Nanjing University of Science and Technology)

  • Muyao Dong

    (Beijing University of Chemical Technology)

  • Keren Jiang

    (University of Alberta)

  • Diling Yang

    (University of Alberta)

  • Xuehai Tan

    (University of Alberta)

  • Shengli Zhai

    (University of Alberta)

  • Renfei Feng

    (Canadian Light Source)

  • Ning Chen

    (Canadian Light Source)

  • Graham King

    (Canadian Light Source)

  • Hao Zhang

    (University of Alberta)

  • Hongbo Zeng

    (University of Alberta)

  • Hui Li

    (Beijing University of Chemical Technology)

  • Markus Antonietti

    (Max Planck Institute for Colloids and Interfaces)

  • Zhi Li

    (University of Alberta)

Abstract

Aqueous zinc (Zn) chemistry features intrinsic safety, but suffers from severe irreversibility, as exemplified by low Coulombic efficiency, sustained water consumption and dendrite growth, which hampers practical applications of rechargeable Zn batteries. Herein, we report a highly reversible aqueous Zn battery in which the graphitic carbon nitride quantum dots additive serves as fast colloid ion carriers and assists the construction of a dynamic & self-repairing protective interphase. This real-time assembled interphase enables an ion-sieving effect and is found actively regenerate in each battery cycle, in effect endowing the system with single Zn2+ conduction and constant conformal integrality, executing timely adaption of Zn deposition, thus retaining sustainable long-term protective effect. In consequence, dendrite-free Zn plating/stripping at ~99.6% Coulombic efficiency for 200 cycles, steady charge-discharge for 1200 h, and impressive cyclability (61.2% retention for 500 cycles in a Zn | |MnO2 full battery, 73.2% retention for 500 cycles in a Zn | |V2O5 full battery and 93.5% retention for 3000 cycles in a Zn | |VOPO4 full battery) are achieved, which defines a general pathway to challenge Lithium in all low-cost, large-scale applications.

Suggested Citation

  • Wenyao Zhang & Muyao Dong & Keren Jiang & Diling Yang & Xuehai Tan & Shengli Zhai & Renfei Feng & Ning Chen & Graham King & Hao Zhang & Hongbo Zeng & Hui Li & Markus Antonietti & Zhi Li, 2022. "Self-repairing interphase reconstructed in each cycle for highly reversible aqueous zinc batteries," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32955-0
    DOI: 10.1038/s41467-022-32955-0
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    References listed on IDEAS

    as
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    1. Zhiquan Wei & Zhaodong Huang & Guojin Liang & Yiqiao Wang & Shixun Wang & Yihan Yang & Tao Hu & Chunyi Zhi, 2024. "Starch-mediated colloidal chemistry for highly reversible zinc-based polyiodide redox flow batteries," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    2. Yunxiang Zhao & Shan Guo & Manjing Chen & Bingan Lu & Xiaotan Zhang & Shuquan Liang & Jiang Zhou, 2023. "Tailoring grain boundary stability of zinc-titanium alloy for long-lasting aqueous zinc batteries," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    3. 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.

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