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Selective deposition and stable encapsulation of lithium through heterogeneous seeded growth

Author

Listed:
  • Kai Yan

    (Stanford University)

  • Zhenda Lu

    (Stanford University)

  • Hyun-Wook Lee

    (Stanford University)

  • Feng Xiong

    (Stanford University
    Stanford University)

  • Po-Chun Hsu

    (Stanford University)

  • Yuzhang Li

    (Stanford University)

  • Jie Zhao

    (Stanford University)

  • Steven Chu

    (Stanford University)

  • Yi Cui

    (Stanford University
    Stanford Institute for Materials and Energy Sciences, SLAC National Accelerator Laboratory)

Abstract

Lithium metal is an attractive anode material for rechargeable batteries, owing to its high theoretical specific capacity of 3,860 mAh g−1. Despite extensive research efforts, there are still many fundamental challenges in using lithium metal in lithium-ion batteries. Most notably, critical information such as its nucleation and growth behaviour remains elusive. Here we explore the nucleation pattern of lithium on various metal substrates and unravel a substrate-dependent growth phenomenon that enables selective deposition of lithium metal. With the aid of binary phase diagrams, we find that no nucleation barriers are present for metals exhibiting a definite solubility in lithium, whereas appreciable nucleation barriers exist for metals with negligible solubility. We thereafter design a nanocapsule structure for lithium metal anodes consisting of hollow carbon spheres with nanoparticle seeds inside. During deposition, the lithium metal is found to predominantly grow inside the hollow carbon spheres. Such selective deposition and stable encapsulation of lithium metal eliminate dendrite formation and enable improved cycling, even in corrosive alkyl carbonate electrolytes, with 98% coulombic efficiency for more than 300 cycles.

Suggested Citation

  • Kai Yan & Zhenda Lu & Hyun-Wook Lee & Feng Xiong & Po-Chun Hsu & Yuzhang Li & Jie Zhao & Steven Chu & Yi Cui, 2016. "Selective deposition and stable encapsulation of lithium through heterogeneous seeded growth," Nature Energy, Nature, vol. 1(3), pages 1-8, March.
    • Handle: RePEc:nat:natene:v:1:y:2016:i:3:d:10.1038_nenergy.2016.10
    DOI: 10.1038/nenergy.2016.10
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    Citations

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    Cited by:

    1. Li, Yong & Yang, Jie & Song, Jian, 2017. "Efficient storage mechanisms and heterogeneous structures for building better next-generation lithium rechargeable batteries," Renewable and Sustainable Energy Reviews, Elsevier, vol. 79(C), pages 1503-1512.
    2. Matthew Sadd & Shizhao Xiong & Jacob R. Bowen & Federica Marone & Aleksandar Matic, 2023. "Investigating microstructure evolution of lithium metal during plating and stripping via operando X-ray tomographic microscopy," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    3. Chao Wang & Ming Liu & Michel Thijs & Frans G. B. Ooms & Swapna Ganapathy & Marnix Wagemaker, 2021. "High dielectric barium titanate porous scaffold for efficient Li metal cycling in anode-free cells," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
    4. Solomon T. Oyakhire & Wenbo Zhang & Andrew Shin & Rong Xu & David T. Boyle & Zhiao Yu & Yusheng Ye & Yufei Yang & James A. Raiford & William Huang & Joel R. Schneider & Yi Cui & Stacey F. Bent, 2022. "Electrical resistance of the current collector controls lithium morphology," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    5. Menghao Yang & Yunsheng Liu & Yifei Mo, 2023. "Lithium crystallization at solid interfaces," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    6. Chengbin Jin & Yiyu Huang & Lanhang Li & Guoying Wei & Hongyan Li & Qiyao Shang & Zhijin Ju & Gongxun Lu & Jiale Zheng & Ouwei Sheng & Xinyong Tao, 2023. "A corrosion inhibiting layer to tackle the irreversible lithium loss in lithium metal batteries," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    7. Qinghe Cao & Yong Gao & Jie Pu & Xin Zhao & Yuxuan Wang & Jipeng Chen & Cao Guan, 2023. "Gradient design of imprinted anode for stable Zn-ion batteries," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    8. Zhu, Zongyuan & Xu, Zhen, 2020. "The rational design of biomass-derived carbon materials towards next-generation energy storage: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 134(C).
    9. Siwu Li & Haolin Zhu & Yuan Liu & Zhilong Han & Linfeng Peng & Shuping Li & Chuang Yu & Shijie Cheng & Jia Xie, 2022. "Codoped porous carbon nanofibres as a potassium metal host for nonaqueous K-ion batteries," Nature Communications, Nature, vol. 13(1), pages 1-13, December.

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