| 二次电池中金属锂负极沉脱机理研究进展 |
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| 引用本文: | 张睿,沈馨,袁洪,程新兵,黄佳琦,张强.二次电池中金属锂负极沉脱机理研究进展[J].化工学报,2021,72(12):6144-6160. |
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| 作者姓名: | 张睿 沈馨 袁洪 程新兵 黄佳琦 张强 |
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| 作者单位: | 1.北京理工大学前沿交叉科学研究院,北京 100081;2.清华大学化学工程系,绿色反应工程与工艺北京市重点实验室,北京 100084 |
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| 基金项目: | 国家自然科学基金项目(2210090168);中国博士后科学基金项目(BX20200047);清华大学国强研究院(2020GQG1006) |
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| 摘 要: | 金属锂负极是下一代高比能二次电池备受关注的负极材料,以金属锂为负极的锂金属电池具备极高的理论能量密度,但其仍存在充放电循环效率低、电池寿命短等问题。要实现高能量密度高安全性的锂金属电池的合理设计和优化,需要对金属锂负极中锂金属沉积脱出过程的离子输运、电子输运、界面反应等机制机理有清晰的认识。本文针对金属锂负极中存在的枝晶生长、死锂形成、固体电解质界面膜作用等机理问题,综述了研究者们在其沉脱机理的模型与理论计算、实验研究等方面做出的诸多研究进展,为锂金属电池的合理设计提供了更全面的机理认识。
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| 关 键 词: | 电化学 枝晶生长 相场理论 锂金属电池 金属锂负极 |
| 收稿时间: | 2021-08-26 |
Recent progress on lithium plating/stripping mechanisms in lithium metal batteries |
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| Rui ZHANG,Xin SHEN,Hong YUAN,Xinbing CHENG,Jiaqi HUANG,Qiang ZHANG.Recent progress on lithium plating/stripping mechanisms in lithium metal batteries[J].Journal of Chemical Industry and Engineering(China),2021,72(12):6144-6160. |
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| Authors: | Rui ZHANG Xin SHEN Hong YUAN Xinbing CHENG Jiaqi HUANG Qiang ZHANG |
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| Affiliation: | 1.Advanced Research Institute of Multidisciplinary Science, Beijing Institute of Technology, Beijing 100081, China;2.Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology, Department of Chemical Engineering, Tsinghua University, Beijing 100084, China |
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| Abstract: | Lithium metal is one of the most promising materials for the next generation secondary batteries. Lithium metal batteries possess an extremely high theoretical energy density, but still face many challenges, such as low Coulombic efficiency and short battery lifespan. In order to realize the reasonable design and optimization of lithium metal battery with high energy density and high safety, it is necessary to have a clear understanding on the mechanisms of ion transport, electron transport, interface reaction and so on. Recently, aiming at the mechanism of dendrite growth, dead lithium formation and solid electrolyte interphase in lithium metal anode, researchers have made many progress in the mechanism research with theoretical calculations and experiments, providing a more comprehensive mechanism understanding for the rational design of lithium metal battery. |
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| Keywords: | electrochemistry dendrite growth phase field theory lithium metal batteries lithium metal anodes |
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