The Boundary of Lithium Plating in Graphite Electrode for Safe Lithium-Ion Batteries

Wenlong Cai; Chong Yan; Yu Xing Yao; Lei Xu; Xiao Ru Chen; Jia Qi Huang; Qiang Zhang

doi:10.1002/anie.202102593

The Boundary of Lithium Plating in Graphite Electrode for Safe Lithium-Ion Batteries

Wenlong Cai, Chong Yan, Yu Xing Yao, Lei Xu, Xiao Ru Chen, Jia Qi Huang, Qiang Zhang^*

^*此作品的通讯作者

前沿交叉科学研究院

科研成果: 期刊稿件 › 文章 › 同行评审

171 引用（Scopus）

摘要

Uncontrolled Li plating in graphite electrodes endangers battery life and safety, driving tremendous efforts aiming to eliminate Li plating. Herein we systematically investigate the boundary of Li plating in graphite electrode for safe lithium-ion batteries. The cell exhibits superior safety performance than that with Li dendrites by defining the endurable amount of uniform Li plating in graphite anode. The presence of “dead Li” can be eliminated owing to the uniform distribution of Li plating, and the average Coulombic efficiency for deposited Li during reversible plating/stripping process is decoupled as high as about 99.5 %. Attributing to the limited Li plating with superior Coulombic efficiency, the LiNi_0.5Mn_0.3Co_0.2O₂ | graphite cell achieves a high capacity retention of 80.2 % over 500 cycles. This work sheds a different light on further improving the fast-charging capability, low-temperature performance, and energy density of practical lithium-ion batteries.

源语言	英语
页（从-至）	13007-13012
页数	6
期刊	Angewandte Chemie - International Edition
卷	60
期	23
DOI	https://doi.org/10.1002/anie.202102593
出版状态	已出版 - 1 6月 2021

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Cai, W., Yan, C., Yao, Y. X., Xu, L., Chen, X. R., Huang, J. Q., & Zhang, Q. (2021). The Boundary of Lithium Plating in Graphite Electrode for Safe Lithium-Ion Batteries. Angewandte Chemie - International Edition, 60(23), 13007-13012. https://doi.org/10.1002/anie.202102593

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title = "The Boundary of Lithium Plating in Graphite Electrode for Safe Lithium-Ion Batteries",

abstract = "Uncontrolled Li plating in graphite electrodes endangers battery life and safety, driving tremendous efforts aiming to eliminate Li plating. Herein we systematically investigate the boundary of Li plating in graphite electrode for safe lithium-ion batteries. The cell exhibits superior safety performance than that with Li dendrites by defining the endurable amount of uniform Li plating in graphite anode. The presence of “dead Li” can be eliminated owing to the uniform distribution of Li plating, and the average Coulombic efficiency for deposited Li during reversible plating/stripping process is decoupled as high as about 99.5 %. Attributing to the limited Li plating with superior Coulombic efficiency, the LiNi0.5Mn0.3Co0.2O2 | graphite cell achieves a high capacity retention of 80.2 % over 500 cycles. This work sheds a different light on further improving the fast-charging capability, low-temperature performance, and energy density of practical lithium-ion batteries.",

keywords = "battery safety performance, high Coulombic efficiency, lithium plating, lithium-ion batteries, uniform distribution",

author = "Wenlong Cai and Chong Yan and Yao, {Yu Xing} and Lei Xu and Chen, {Xiao Ru} and Huang, {Jia Qi} and Qiang Zhang",

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AU - Cai, Wenlong

AU - Yan, Chong

AU - Yao, Yu Xing

AU - Xu, Lei

AU - Chen, Xiao Ru

AU - Huang, Jia Qi

AU - Zhang, Qiang

PY - 2021/6/1

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N2 - Uncontrolled Li plating in graphite electrodes endangers battery life and safety, driving tremendous efforts aiming to eliminate Li plating. Herein we systematically investigate the boundary of Li plating in graphite electrode for safe lithium-ion batteries. The cell exhibits superior safety performance than that with Li dendrites by defining the endurable amount of uniform Li plating in graphite anode. The presence of “dead Li” can be eliminated owing to the uniform distribution of Li plating, and the average Coulombic efficiency for deposited Li during reversible plating/stripping process is decoupled as high as about 99.5 %. Attributing to the limited Li plating with superior Coulombic efficiency, the LiNi0.5Mn0.3Co0.2O2 | graphite cell achieves a high capacity retention of 80.2 % over 500 cycles. This work sheds a different light on further improving the fast-charging capability, low-temperature performance, and energy density of practical lithium-ion batteries.

AB - Uncontrolled Li plating in graphite electrodes endangers battery life and safety, driving tremendous efforts aiming to eliminate Li plating. Herein we systematically investigate the boundary of Li plating in graphite electrode for safe lithium-ion batteries. The cell exhibits superior safety performance than that with Li dendrites by defining the endurable amount of uniform Li plating in graphite anode. The presence of “dead Li” can be eliminated owing to the uniform distribution of Li plating, and the average Coulombic efficiency for deposited Li during reversible plating/stripping process is decoupled as high as about 99.5 %. Attributing to the limited Li plating with superior Coulombic efficiency, the LiNi0.5Mn0.3Co0.2O2 | graphite cell achieves a high capacity retention of 80.2 % over 500 cycles. This work sheds a different light on further improving the fast-charging capability, low-temperature performance, and energy density of practical lithium-ion batteries.

KW - battery safety performance

KW - high Coulombic efficiency

KW - lithium plating

KW - lithium-ion batteries

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The Boundary of Lithium Plating in Graphite Electrode for Safe Lithium-Ion Batteries

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