材料科学
电解质
电化学
表征(材料科学)
金属
法拉第效率
微观结构
化学工程
电极
阳极
同步加速器
合金
分析化学(期刊)
纳米技术
冶金
物理化学
光学
化学
工程类
物理
色谱法
作者
Keegan R. Adair,Mohammad Norouzi Banis,Yang Zhao,Toby Bond,Ruying Li,Xueliang Sun
标识
DOI:10.1002/adma.202002550
摘要
The Li metal anode has been long sought-after for application in Li metal batteries due to its high specific capacity (3860 mAh g-1 ) and low electrochemical potential (-3.04 V vs the standard hydrogen electrode). Nevertheless, the behavior of Li metal in different environments has been scarcely reported. Herein, the temperature-dependent behavior of Li metal anodes in carbonate electrolyte from the micro- to macroscales are explored with advanced synchrotron-based characterization techniques such as X-ray computed tomography and energy-dependent X-ray fluorescence mapping. The importance of testing methodology is exemplified, and the electrochemical behavior and failure modes of Li anodes cycled at different temperatures are discussed. Moreover, the origin of cycling performance at different temperatures is identified through analysis of Coulombic efficiencies, surface morphology, and the chemical composition of the solid electrolyte interphase in quasi-3D space with energy-dependent X-ray fluorescence mappings coupled with micro-X-ray absorption near edge structure. This work provides new characterization methods for Li metal anodes and serves as an important basis toward the understanding of their electrochemical behavior in carbonate electrolytes at different temperatures.
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