1. Direct in situ measurements of electrical properties of solid–electrolyte interphase on lithium metal anodes
- Author
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Xu, Yaobin, Jia, Hao, Gao, Peiyuan, Galvez-Aranda, Diego E, Beltran, Saul Perez, Cao, Xia, Le, Phung ML, Liu, Jianfang, Engelhard, Mark H, Li, Shuang, Ren, Gang, Seminario, Jorge M, Balbuena, Perla B, Zhang, Ji-Guang, Xu, Wu, and Wang, Chongmin
- Subjects
Engineering ,Materials Engineering ,Electrical and Electronic Engineering ,Environmental Engineering ,Electrical engineering ,Mechanical engineering - Abstract
The solid-electrolyte interphase (SEI) critically governs the performance of rechargeable batteries. An ideal SEI is expected to be electrically insulative to prevent persistently parasitic reactions between the electrode and the electrolyte and ionically conductive to facilitate Faradaic reactions of the electrode. However, the true nature of the electrical properties of the SEI remains hitherto unclear due to the lack of a direct characterization method. Here we use in situ bias transmission electron microscopy to directly measure the electrical properties of SEIs formed on copper and lithium substrates. We reveal that SEIs show a voltage-dependent differential conductance. A higher rate of differential conductance induces a thicker SEI with an intricate topographic feature, leading to an inferior Coulombic efficiency and cycling stability in Li∣∣Cu and Li∣∣LiNi0.8Mn0.1Co0.1O2 cells. Our work provides insight into the targeted design of the SEI with desired characteristics towards better battery performance.
- Published
- 2023