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Cobalt-free composite-structured cathodes with lithium-stoichiometry control for sustainable lithium-ion batteries

Author

Listed:
  • Ke Chen

    (Brookhaven National Laboratory)

  • Pallab Barai

    (Argonne National Laboratory)

  • Ozgenur Kahvecioglu

    (Argonne National Laboratory)

  • Lijun Wu

    (Brookhaven National Laboratory)

  • Krzysztof Z. Pupek

    (Argonne National Laboratory)

  • Mingyuan Ge

    (Brookhaven National Laboratory)

  • Lu Ma

    (Brookhaven National Laboratory)

  • Steven N. Ehrlich

    (Brookhaven National Laboratory)

  • Hui Zhong

    (Stony Brook University)

  • Yimei Zhu

    (Brookhaven National Laboratory)

  • Venkat Srinivasan

    (Argonne National Laboratory)

  • Jianming Bai

    (Brookhaven National Laboratory)

  • Feng Wang

    (Brookhaven National Laboratory
    Argonne National Laboratory)

Abstract

Lithium-ion batteries play a crucial role in decarbonizing transportation and power grids, but their reliance on high-cost, earth-scarce cobalt in the commonly employed high-energy layered Li(NiMnCo)O2 cathodes raises supply-chain and sustainability concerns. Despite numerous attempts to address this challenge, eliminating Co from Li(NiMnCo)O2 remains elusive, as doing so detrimentally affects its layering and cycling stability. Here, we report on the rational stoichiometry control in synthesizing Li-deficient composite-structured LiNi0.95Mn0.05O2, comprising intergrown layered and rocksalt phases, which outperforms traditional layered counterparts. Through multiscale-correlated experimental characterization and computational modeling on the calcination process, we unveil the role of Li-deficiency in suppressing the rocksalt-to-layered phase transformation and crystal growth, leading to small-sized composites with the desired low anisotropic lattice expansion/contraction during charging and discharging. As a consequence, Li-deficient LiNi0.95Mn0.05O2 delivers 90% first-cycle Coulombic efficiency, 90% capacity retention, and close-to-zero voltage fade for 100 deep cycles, showing its potential as a Co-free cathode for sustainable Li-ion batteries.

Suggested Citation

  • Ke Chen & Pallab Barai & Ozgenur Kahvecioglu & Lijun Wu & Krzysztof Z. Pupek & Mingyuan Ge & Lu Ma & Steven N. Ehrlich & Hui Zhong & Yimei Zhu & Venkat Srinivasan & Jianming Bai & Feng Wang, 2024. "Cobalt-free composite-structured cathodes with lithium-stoichiometry control for sustainable lithium-ion batteries," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-023-44583-3
    DOI: 10.1038/s41467-023-44583-3
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    References listed on IDEAS

    as
    1. H. Hohyun Sun & Un-Hyuck Kim & Jeong-Hyeon Park & Sang-Wook Park & Dong-Hwa Seo & Adam Heller & C. Buddie Mullins & Chong S. Yoon & Yang-Kook Sun, 2021. "Transition metal-doped Ni-rich layered cathode materials for durable Li-ion batteries," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
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