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Formation of hierarchically ordered structures in conductive polymers to enhance the performances of lithium-ion batteries

Author

Listed:
  • Tianyu Zhu

    (Lawrence Berkeley National Laboratory)

  • Hadas Sternlicht

    (National Center for Electron Microscopy, The Molecular Foundry, Lawrence Berkeley National Laboratory
    University of California)

  • Yang Ha

    (Advanced Light Source, Lawrence Berkeley National Laboratory)

  • Chen Fang

    (Lawrence Berkeley National Laboratory)

  • Dongye Liu

    (National Center for Electron Microscopy, The Molecular Foundry, Lawrence Berkeley National Laboratory
    University of California)

  • Benjamin H. Savitzky

    (National Center for Electron Microscopy, The Molecular Foundry, Lawrence Berkeley National Laboratory)

  • Xiao Zhao

    (University of California)

  • Yanying Lu

    (Lawrence Berkeley National Laboratory)

  • Yanbao Fu

    (Lawrence Berkeley National Laboratory)

  • Colin Ophus

    (National Center for Electron Microscopy, The Molecular Foundry, Lawrence Berkeley National Laboratory)

  • Chenhui Zhu

    (Advanced Light Source, Lawrence Berkeley National Laboratory)

  • Wanli Yang

    (Advanced Light Source, Lawrence Berkeley National Laboratory)

  • Andrew M. Minor

    (National Center for Electron Microscopy, The Molecular Foundry, Lawrence Berkeley National Laboratory
    University of California)

  • Gao Liu

    (Lawrence Berkeley National Laboratory)

Abstract

Electrically conductive polymers have found increasing applications in energy conversion and storage devices. In the conventional design of conductive polymers, organic functionalities are introduced via bottom-up synthetic approaches to enhance specific properties by modification of the individual polymers. Unfortunately, the addition of functional groups leads to conflicting effects, limiting their scaled synthesis and broad applications. Here we show a conductive polymer with simple primary building blocks that can be thermally processed to develop hierarchically ordered structures (HOS) with well-defined nanocrystalline morphologies. Our approach to constructing permanent HOS in conductive polymers leads to substantial enhancement of charge transport properties and mechanical robustness, which are critical for practical lithium-ion batteries. Finally, we demonstrate that conductive polymers with HOS enable exceptional cycling performance of full cells with high-loading micron-size SiOx-based anodes, delivering areal capacities of more than 3.0 mAh cm−2 over 300 cycles and average Coulombic efficiency of >99.95%.

Suggested Citation

  • Tianyu Zhu & Hadas Sternlicht & Yang Ha & Chen Fang & Dongye Liu & Benjamin H. Savitzky & Xiao Zhao & Yanying Lu & Yanbao Fu & Colin Ophus & Chenhui Zhu & Wanli Yang & Andrew M. Minor & Gao Liu, 2023. "Formation of hierarchically ordered structures in conductive polymers to enhance the performances of lithium-ion batteries," Nature Energy, Nature, vol. 8(2), pages 129-137, February.
    • Handle: RePEc:nat:natene:v:8:y:2023:i:2:d:10.1038_s41560-022-01176-6
    DOI: 10.1038/s41560-022-01176-6
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    Cited by:

    1. Ai-Min Li & Zeyi Wang & Travis P. Pollard & Weiran Zhang & Sha Tan & Tianyu Li & Chamithri Jayawardana & Sz-Chian Liou & Jiancun Rao & Brett L. Lucht & Enyuan Hu & Xiao-Qing Yang & Oleg Borodin & Chun, 2024. "High voltage electrolytes for lithium-ion batteries with micro-sized silicon anodes," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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