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锂离子电池中 SiO2 的嵌锂反应:原位透射电子显微镜实验与理论研究。

Lithiation of SiO2 in Li-ion batteries: in situ transmission electron microscopy experiments and theoretical studies.

机构信息

Institute of Microstructure and Property of Advanced Materials, Beijing University of Technology , Beijing 100124, People's Republic of China.

出版信息

Nano Lett. 2014 Dec 10;14(12):7161-70. doi: 10.1021/nl503776u. Epub 2014 Nov 7.

Abstract

Surface passivation has become a routine strategy of design to mitigate the chemomechanical degradation of high-capacity electrodes by regulating the electrochemical process of lithiation and managing the associated deformation dynamics. Oxides are the prevalent materials used for surface coating. Lithiation of SiO2 leads to drastic changes in its electro-chemo-mechanical properties from an electronic insulator and a brittle material in its pure form to a conductor and a material sustainable of large deformation in the lithiated form. We synthesized SiO2-coated SiC nanowires that allow us to focus on the lithiation behavior of the sub-10 nm SiO2 thin coating. We systematically investigate the structural evolution, the electronic conduction and ionic transport properties, and the deformation pattern of lithiated SiO2 through coordinated in situ transmission electron microcopy experiments, first-principles computation, and continuum theories. We observe the stress-mediated reaction that induces inhomogeneous growth of SiO2. The results provide fundamental perspectives on the chemomechanical behaviors of oxides used in the surface coating of Li-ion technologies.

摘要

表面钝化已成为一种常规的设计策略,通过调节锂化的电化学过程和管理相关的变形动力学来减轻高容量电极的化学机械降解。氧化物是用于表面涂层的常见材料。SiO2 的锂化导致其电-化学-机械性能发生剧烈变化,从纯态的电子绝缘体和脆性材料转变为导电体和可承受大变形的材料。我们合成了 SiO2 包覆的 SiC 纳米线,使我们能够专注于亚 10nm SiO2 薄膜涂层的锂化行为。我们通过协调原位透射电子显微镜实验、第一性原理计算和连续体理论,系统地研究了锂化 SiO2 的结构演变、电子传导和离子输运特性以及变形模式。我们观察到了由应力介导的反应,该反应导致了 SiO2 的不均匀生长。研究结果为锂离子技术中用于表面涂层的氧化物的化学机械行为提供了基本的视角。

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