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High-energy lithium metal pouch cells with limited anode swelling and long stable cycles

Author

Listed:
  • Chaojiang Niu

    (Pacific Northwest National Laboratory)

  • Hongkyung Lee

    (Pacific Northwest National Laboratory)

  • Shuru Chen

    (Pacific Northwest National Laboratory)

  • Qiuyan Li

    (Pacific Northwest National Laboratory)

  • Jason Du

    (Pacific Northwest National Laboratory)

  • Wu Xu

    (Pacific Northwest National Laboratory)

  • Ji-Guang Zhang

    (Pacific Northwest National Laboratory)

  • M. Stanley Whittingham

    (Binghamton University)

  • Jie Xiao

    (Pacific Northwest National Laboratory
    University of Arkansas)

  • Jun Liu

    (Pacific Northwest National Laboratory)

Abstract

Lithium metal anodes have attracted much attention as candidates for high-energy batteries, but there have been few reports of long cycling behaviour, and the degradation mechanism of realistic high-energy Li metal cells remains unclear. Here, we develop a prototypical 300 Wh kg−1 (1.0 Ah) pouch cell by integrating a Li metal anode, a LiNi0.6Mn0.2Co0.2O2 cathode and a compatible electrolyte. Under small uniform external pressure, the cell undergoes 200 cycles with 86% capacity retention and 83% energy retention. In the initial 50 cycles, flat Li foil converts into large Li particles that are entangled in the solid-electrolyte interphase, which leads to rapid volume expansion of the anode (cell thickening of 48%). As cycling continues, the external pressure helps the Li anode maintain good contact between the Li particles, which ensures a conducting percolation pathway for both ions and electrons, and thus the electrochemical reactions continue to occur. Accordingly, the solid Li particles evolve into a porous structure, which manifests in substantially reduced cell swelling by 19% in the subsequent 150 cycles.

Suggested Citation

  • Chaojiang Niu & Hongkyung Lee & Shuru Chen & Qiuyan Li & Jason Du & Wu Xu & Ji-Guang Zhang & M. Stanley Whittingham & Jie Xiao & Jun Liu, 2019. "High-energy lithium metal pouch cells with limited anode swelling and long stable cycles," Nature Energy, Nature, vol. 4(7), pages 551-559, July.
    • Handle: RePEc:nat:natene:v:4:y:2019:i:7:d:10.1038_s41560-019-0390-6
    DOI: 10.1038/s41560-019-0390-6
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    Cited by:

    1. Tomasz Miazga & Grzegorz Iwański & Marcin Nikoniuk, 2021. "Energy Conversion System and Control of Fuel-Cell and Battery-Based Hybrid Drive for Light Aircraft," Energies, MDPI, vol. 14(4), pages 1-18, February.
    2. Zhi Chang & Huijun Yang & Anqiang Pan & Ping He & Haoshen Zhou, 2022. "An improved 9 micron thick separator for a 350 Wh/kg lithium metal rechargeable pouch cell," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    3. Pietro Iurilli & Luigi Luppi & Claudio Brivio, 2022. "Non-Invasive Detection of Lithium-Metal Battery Degradation," Energies, MDPI, vol. 15(19), pages 1-14, September.
    4. Minsung Baek & Jinyoung Kim & Kwanghoon Jeong & Seonmo Yang & Heejin Kim & Jimin Lee & Minkwan Kim & Ki Jae Kim & Jang Wook Choi, 2023. "Naked metallic skin for homo-epitaxial deposition in lithium metal batteries," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    5. Feifei Wang & Jipeng Zhang & Haotian Lu & Hanbing Zhu & Zihui Chen & Lu Wang & Jinyang Yu & Conghui You & Wenhao Li & Jianwei Song & Zhe Weng & Chunpeng Yang & Quan-Hong Yang, 2023. "Production of gas-releasing electrolyte-replenishing Ah-scale zinc metal pouch cells with aqueous gel electrolyte," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    6. James T. Frith & Matthew J. Lacey & Ulderico Ulissi, 2023. "A non-academic perspective on the future of lithium-based batteries," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    7. Krzysztof Siczek, 2022. "Life-Related Hazards of Materials Applied to Mg–S Batteries," Energies, MDPI, vol. 15(4), pages 1-44, February.
    8. Zhi Chang & Huijun Yang & Xingyu Zhu & Ping He & Haoshen Zhou, 2022. "A stable quasi-solid electrolyte improves the safe operation of highly efficient lithium-metal pouch cells in harsh environments," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    9. Yan Zhao & Tianhong Zhou & Timur Ashirov & Mario El Kazzi & Claudia Cancellieri & Lars P. H. Jeurgens & Jang Wook Choi & Ali Coskun, 2022. "Fluorinated ether electrolyte with controlled solvation structure for high voltage lithium metal batteries," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    10. Hyeokjin Kwon & Hyun-Ji Choi & Jung-kyu Jang & Jinhong Lee & Jinkwan Jung & Wonjun Lee & Youngil Roh & Jaewon Baek & Dong Jae Shin & Ju-Hyuk Lee & Nam-Soon Choi & Ying Shirley Meng & Hee-Tak Kim, 2023. "Weakly coordinated Li ion in single-ion-conductor-based composite enabling low electrolyte content Li-metal batteries," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    11. Junyeob Moon & Dong Ok Kim & Lieven Bekaert & Munsoo Song & Jinkyu Chung & Danwon Lee & Annick Hubin & Jongwoo Lim, 2022. "Non-fluorinated non-solvating cosolvent enabling superior performance of lithium metal negative electrode battery," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    12. Yawei Chen & Menghao Li & Yue Liu & Yulin Jie & Wanxia Li & Fanyang Huang & Xinpeng Li & Zixu He & Xiaodi Ren & Yunhua Chen & Xianhui Meng & Tao Cheng & Meng Gu & Shuhong Jiao & Ruiguo Cao, 2023. "Origin of dendrite-free lithium deposition in concentrated electrolytes," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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