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Understanding and applying coulombic efficiency in lithium metal batteries

Author

Listed:
  • Jie Xiao

    (Pacific Northwest National Laboratory
    University of Washington)

  • Qiuyan Li

    (Pacific Northwest National Laboratory)

  • Yujing Bi

    (Pacific Northwest National Laboratory)

  • Mei Cai

    (General Motors R&D Center)

  • Bruce Dunn

    (University of California)

  • Tobias Glossmann

    (Mercedes-Benz Research and Development North America)

  • Jun Liu

    (Pacific Northwest National Laboratory
    University of Washington)

  • Tetsuya Osaka

    (Waseda University)

  • Ryuta Sugiura

    (Toyota Motor North America)

  • Bingbin Wu

    (Pacific Northwest National Laboratory)

  • Jihui Yang

    (University of Washington)

  • Ji-Guang Zhang

    (Pacific Northwest National Laboratory)

  • M. Stanley Whittingham

    (Binghamton University)

Abstract

Coulombic efficiency (CE) has been widely used in battery research as a quantifiable indicator for the reversibility of batteries. While CE helps to predict the lifespan of a lithium-ion battery, the prediction is not necessarily accurate in a rechargeable lithium metal battery. Here, we discuss the fundamental definition of CE and unravel its true meaning in lithium-ion batteries and a few representative configurations of lithium metal batteries. Through examining the similarities and differences of CE in lithium-ion batteries and lithium metal batteries, we establish a CE measuring protocol with the aim of developing high-energy long-lasting practical lithium metal batteries. The understanding of CE and the CE protocol are broadly applicable in other rechargeable metal batteries including Zn, Mg and Na batteries.

Suggested Citation

  • Jie Xiao & Qiuyan Li & Yujing Bi & Mei Cai & Bruce Dunn & Tobias Glossmann & Jun Liu & Tetsuya Osaka & Ryuta Sugiura & Bingbin Wu & Jihui Yang & Ji-Guang Zhang & M. Stanley Whittingham, 2020. "Understanding and applying coulombic efficiency in lithium metal batteries," Nature Energy, Nature, vol. 5(8), pages 561-568, August.
    • Handle: RePEc:nat:natene:v:5:y:2020:i:8:d:10.1038_s41560-020-0648-z
    DOI: 10.1038/s41560-020-0648-z
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    Citations

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    Cited by:

    1. Li, Junyi & Jiang, Jinxia & Zhou, Yiguang & Chen, Mo & Xiao, Shuhao & Niu, Xiaobin & Wu, Rui & Yu, Le & Blackwood, Daniel John & Chen, Jun Song, 2023. "Nickel single-atom catalysts on porous carbon nanosheets for high-performance lithium-selenium batteries," Energy, Elsevier, vol. 285(C).
    2. Pietro Iurilli & Luigi Luppi & Claudio Brivio, 2022. "Non-Invasive Detection of Lithium-Metal Battery Degradation," Energies, MDPI, vol. 15(19), pages 1-14, September.
    3. Salimeh Gohari & Vaclav Knap & Mohammad Reza Yaftian, 2021. "Investigation on Cycling and Calendar Aging Processes of 3.4 Ah Lithium-Sulfur Pouch Cells," Sustainability, MDPI, vol. 13(16), pages 1-14, August.
    4. Lai, Xin & Zhou, Long & Zhu, Zhiwei & Zheng, Yuejiu & Sun, Tao & Shen, Kai, 2023. "Experimental investigation on the characteristics of coulombic efficiency of lithium-ion batteries considering different influencing factors," Energy, Elsevier, vol. 274(C).
    5. Jelena Popovic, 2021. "The importance of electrode interfaces and interphases for rechargeable metal batteries," Nature Communications, Nature, vol. 12(1), pages 1-5, December.
    6. Bin Zhao & Qi Wang & Boheng Yuan & Yafei Lu & Xiaogang Han, 2021. "An All-Solid-State Lithium Metal Battery Based on Electrodes-Compatible Plastic Crystal Electrolyte," Energies, MDPI, vol. 14(21), pages 1-9, October.
    7. Ziteng Liang & Yuxuan Xiang & Kangjun Wang & Jianping Zhu & Yanting Jin & Hongchun Wang & Bizhu Zheng & Zirong Chen & Mingming Tao & Xiangsi Liu & Yuqi Wu & Riqiang Fu & Chunsheng Wang & Martin Winter, 2023. "Understanding the failure process of sulfide-based all-solid-state lithium batteries via operando nuclear magnetic resonance spectroscopy," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    8. Seongjae Ko & Xiao Han & Tatau Shimada & Norio Takenaka & Yuki Yamada & Atsuo Yamada, 2023. "Electrolyte design for lithium-ion batteries with a cobalt-free cathode and silicon oxide anode," Nature Sustainability, Nature, vol. 6(12), pages 1705-1714, December.

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