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Borate–pyran lean electrolyte-based Li-metal batteries with minimal Li corrosion

Author

Listed:
  • Hyeokjin Kwon

    (KAIST)

  • Hongsin Kim

    (LG Energy Solution)

  • Jaemin Hwang

    (KAIST)

  • Wonsik Oh

    (KAIST)

  • Youngil Roh

    (KAIST)

  • Dongseok Shin

    (LG Energy Solution)

  • Hee-Tak Kim

    (KAIST
    KAIST)

Abstract

Engineering liquid electrolytes for lithium (Li)-metal electrodes has been used to control the morphology of deposited Li in Li-metal batteries (LMBs). However, the Li corrosion problem remains unresolved, hindering the design of lean electrolytes for practical LMBs, which require the electrolyte/capacity (E/C) ratio to be 2 g Ah−1 or lower. Here we report a borate–pyran-based electrolyte to address the chronic Li-corrosion problem. We discovered that the borate–pyran electrolyte transforms large LiF crystallites in the solid–electrolyte interphase into fine crystalline or glassy LiF, which enhances the passivity of the Li/electrolyte interface by minimizing the permeation of electrolyte molecules into the solid–electrolyte interphase. LMBs assembled with the borate–pyran electrolyte, a high-nickel layered oxide cathode (3.83 mAh cm−2) and thin lithium (20 μm) delivered a high initial full-cell-level energy density (>400 Wh kg−1) and operated for 400 cycles with 70% capacity retention at an E/C ratio of 1.92 g Ah−1, 350 cycles with 73% capacity retention at 1.24 g Ah−1 and 200 cycles with 85% retention at 0.96 g Ah−1.

Suggested Citation

  • Hyeokjin Kwon & Hongsin Kim & Jaemin Hwang & Wonsik Oh & Youngil Roh & Dongseok Shin & Hee-Tak Kim, 2024. "Borate–pyran lean electrolyte-based Li-metal batteries with minimal Li corrosion," Nature Energy, Nature, vol. 9(1), pages 57-69, January.
    • Handle: RePEc:nat:natene:v:9:y:2024:i:1:d:10.1038_s41560-023-01405-6
    DOI: 10.1038/s41560-023-01405-6
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