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Rational design of mechanically robust Ni-rich cathode materials via concentration gradient strategy

Author

Listed:
  • Tongchao Liu

    (Argonne National Laboratory)

  • Lei Yu

    (Argonne National Laboratory)

  • Jun Lu

    (Argonne National Laboratory)

  • Tao Zhou

    (Argonne National Laboratory)

  • Xiaojing Huang

    (Brookhaven National Laboratory)

  • Zhonghou Cai

    (Argonne National Laboratory)

  • Alvin Dai

    (Argonne National Laboratory)

  • Jihyeon Gim

    (Argonne National Laboratory)

  • Yang Ren

    (Argonne National Laboratory)

  • Xianghui Xiao

    (Brookhaven National Laboratory)

  • Martin V. Holt

    (Argonne National Laboratory)

  • Yong S. Chu

    (Brookhaven National Laboratory)

  • Ilke Arslan

    (Argonne National Laboratory)

  • Jianguo Wen

    (Argonne National Laboratory)

  • Khalil Amine

    (Argonne National Laboratory
    Stanford University)

Abstract

Mechanical integrity issues such as particle cracking are considered one of the leading causes of structural deterioration and limited long-term cycle stability for Ni-rich cathode materials of Li-ion batteries. Indeed, the detrimental effects generated from the crack formation are not yet entirely addressed. Here, applying physicochemical and electrochemical ex situ and in situ characterizations, the effect of Co and Mn on the mechanical properties of the Ni-rich material are thoroughly investigated. As a result, we successfully mitigate the particle cracking issue in Ni-rich cathodes via rational concentration gradient design without sacrificing the electrode capacity. Our result reveals that the Co-enriched surface design in Ni-rich particles benefits from its low stiffness, which can effectively suppress the formation of particle cracking. Meanwhile, the Mn-enriched core limits internal expansion and improve structural integrity. The concentration gradient design also promotes morphological stability and cycling performances in Li metal coin cell configuration.

Suggested Citation

  • Tongchao Liu & Lei Yu & Jun Lu & Tao Zhou & Xiaojing Huang & Zhonghou Cai & Alvin Dai & Jihyeon Gim & Yang Ren & Xianghui Xiao & Martin V. Holt & Yong S. Chu & Ilke Arslan & Jianguo Wen & Khalil Amine, 2021. "Rational design of mechanically robust Ni-rich cathode materials via concentration gradient strategy," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26290-z
    DOI: 10.1038/s41467-021-26290-z
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    References listed on IDEAS

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    1. Isaac Martens & Nikita Vostrov & Marta Mirolo & Steven J. Leake & Edoardo Zatterin & Xiaobo Zhu & Lianzhou Wang & Jakub Drnec & Marie-Ingrid Richard & Tobias U. Schulli, 2023. "Defects and nanostrain gradients control phase transition mechanisms in single crystal high-voltage lithium spinel," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    2. Xing Ou & Tongchao Liu & Wentao Zhong & Xinming Fan & Xueyi Guo & Xiaojing Huang & Liang Cao & Junhua Hu & Bao Zhang & Yong S. Chu & Guorong Hu & Zhang Lin & Mouad Dahbi & Jones Alami & Khalil Amine &, 2022. "Enabling high energy lithium metal batteries via single-crystal Ni-rich cathode material co-doping strategy," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    3. Ziyao Gao & Chenglong Zhao & Kai Zhou & Junru Wu & Yao Tian & Xianming Deng & Lihan Zhang & Kui Lin & Feiyu Kang & Lele Peng & Marnix Wagemaker & Baohua Li, 2024. "Kirkendall effect-induced uniform stress distribution stabilizes nickel-rich layered oxide cathodes," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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