Thermally Stable Polymer-Rich Solid Electrolyte Interphase for Safe Lithium Metal Pouch Cells

Shi Jie Yang; Nan Yao; Feng Ni Jiang; Jin Xie; Shu Yu Sun; Xiang Chen; Hong Yuan; Xin Bing Cheng; Jia Qi Huang; Qiang Zhang

doi:10.1002/anie.202214545

Thermally Stable Polymer-Rich Solid Electrolyte Interphase for Safe Lithium Metal Pouch Cells

Shi Jie Yang, Nan Yao, Feng Ni Jiang, Jin Xie, Shu Yu Sun, Xiang Chen, Hong Yuan, Xin Bing Cheng^*, 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

90 引用（Scopus）

摘要

Serious safety risks caused by the high reactivity of lithium metal against electrolytes severely hamper the practicability of lithium metal batteries. By introducing unique polymerization site and more fluoride substitution, we built an in situ formed polymer-rich solid electrolyte interphase upon lithium anode to improve battery safety. The fluorine-rich and hydrogen-free polymer exhibits high thermal stability, which effectively reduces the continuous exothermic reaction between electrolyte and anode/cathode. As a result, the critical temperature for thermal safety of 1.0 Ah lithium-LiNi_0.5Co_0.2Mn_0.3O₂ pouch cell can be increased from 143.2 °C to 174.2 °C. The more dangerous “ignition” point of lithium metal batteries, the starting temperature of battery thermal runaway, has been dramatically raised from 240.0 °C to 338.0 °C. This work affords novel strategies upon electrolyte design, aiming to pave the way for high-energy-density and thermally safe lithium metal batteries.

源语言	英语
文章编号	e202214545
期刊	Angewandte Chemie - International Edition
卷	61
期	51
DOI	https://doi.org/10.1002/anie.202214545
出版状态	已出版 - 19 12月 2022

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Yang, S. J., Yao, N., Jiang, F. N., Xie, J., Sun, S. Y., Chen, X., Yuan, H., Cheng, X. B., Huang, J. Q., & Zhang, Q. (2022). Thermally Stable Polymer-Rich Solid Electrolyte Interphase for Safe Lithium Metal Pouch Cells. Angewandte Chemie - International Edition, 61(51), 文章 e202214545. https://doi.org/10.1002/anie.202214545

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title = "Thermally Stable Polymer-Rich Solid Electrolyte Interphase for Safe Lithium Metal Pouch Cells",

abstract = "Serious safety risks caused by the high reactivity of lithium metal against electrolytes severely hamper the practicability of lithium metal batteries. By introducing unique polymerization site and more fluoride substitution, we built an in situ formed polymer-rich solid electrolyte interphase upon lithium anode to improve battery safety. The fluorine-rich and hydrogen-free polymer exhibits high thermal stability, which effectively reduces the continuous exothermic reaction between electrolyte and anode/cathode. As a result, the critical temperature for thermal safety of 1.0 Ah lithium-LiNi0.5Co0.2Mn0.3O2 pouch cell can be increased from 143.2 °C to 174.2 °C. The more dangerous “ignition” point of lithium metal batteries, the starting temperature of battery thermal runaway, has been dramatically raised from 240.0 °C to 338.0 °C. This work affords novel strategies upon electrolyte design, aiming to pave the way for high-energy-density and thermally safe lithium metal batteries.",

keywords = "Electrolyte, Lithium Metal Anode, Pouch Cell, Safety, Thermal Runaway",

author = "Yang, {Shi Jie} and Nan Yao and Jiang, {Feng Ni} and Jin Xie and Sun, {Shu Yu} and Xiang Chen and Hong Yuan and Cheng, {Xin Bing} and Huang, {Jia Qi} and Qiang Zhang",

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doi = "10.1002/anie.202214545",

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T1 - Thermally Stable Polymer-Rich Solid Electrolyte Interphase for Safe Lithium Metal Pouch Cells

AU - Yang, Shi Jie

AU - Yao, Nan

AU - Jiang, Feng Ni

AU - Xie, Jin

AU - Sun, Shu Yu

AU - Chen, Xiang

AU - Yuan, Hong

AU - Cheng, Xin Bing

AU - Huang, Jia Qi

AU - Zhang, Qiang

PY - 2022/12/19

Y1 - 2022/12/19

N2 - Serious safety risks caused by the high reactivity of lithium metal against electrolytes severely hamper the practicability of lithium metal batteries. By introducing unique polymerization site and more fluoride substitution, we built an in situ formed polymer-rich solid electrolyte interphase upon lithium anode to improve battery safety. The fluorine-rich and hydrogen-free polymer exhibits high thermal stability, which effectively reduces the continuous exothermic reaction between electrolyte and anode/cathode. As a result, the critical temperature for thermal safety of 1.0 Ah lithium-LiNi0.5Co0.2Mn0.3O2 pouch cell can be increased from 143.2 °C to 174.2 °C. The more dangerous “ignition” point of lithium metal batteries, the starting temperature of battery thermal runaway, has been dramatically raised from 240.0 °C to 338.0 °C. This work affords novel strategies upon electrolyte design, aiming to pave the way for high-energy-density and thermally safe lithium metal batteries.

AB - Serious safety risks caused by the high reactivity of lithium metal against electrolytes severely hamper the practicability of lithium metal batteries. By introducing unique polymerization site and more fluoride substitution, we built an in situ formed polymer-rich solid electrolyte interphase upon lithium anode to improve battery safety. The fluorine-rich and hydrogen-free polymer exhibits high thermal stability, which effectively reduces the continuous exothermic reaction between electrolyte and anode/cathode. As a result, the critical temperature for thermal safety of 1.0 Ah lithium-LiNi0.5Co0.2Mn0.3O2 pouch cell can be increased from 143.2 °C to 174.2 °C. The more dangerous “ignition” point of lithium metal batteries, the starting temperature of battery thermal runaway, has been dramatically raised from 240.0 °C to 338.0 °C. This work affords novel strategies upon electrolyte design, aiming to pave the way for high-energy-density and thermally safe lithium metal batteries.

KW - Electrolyte

KW - Lithium Metal Anode

KW - Pouch Cell

KW - Safety

KW - Thermal Runaway

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JO - Angewandte Chemie - International Edition

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IS - 51

M1 - e202214545

ER -

Thermally Stable Polymer-Rich Solid Electrolyte Interphase for Safe Lithium Metal Pouch Cells

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