Electrochemical Phase Evolution of Metal-Based Pre-Catalysts for High-Rate Polysulfide Conversion

被引：0

作者：

Zhao, Meng ^{[1
,2
]}

Peng, Hong-Jie ^{[3
,4
]}

Li, Bo-Quan ^{[1
,2
,4
]}

Chen, Xiao ^{[3
]}

Xie, Jin ^{[3
]}

Liu, Xinyan ^{[3
,4
]}

Zhang, Qiang ^{[3
]}

Huang, Jia-Qi ^{[1
,2
]}

机构：

[1] School of Materials Science & Engineering, Beijing Institute of Technology, Beijing,100081, China

[2] Advanced Research Institute of Multidisciplinary Science, Beijing Institute of Technology, Beijing,100081, China

[3] Department of Chemical Engineering, Tsinghua University, Beijing,100084, China

[4] Department of Chemical Engineering, Stanford University, Stanford,CA,94305, United States

来源：

Advanced Materials | 2020年 / 59卷 / 23期

基金：

中国国家自然科学基金;

关键词：

Catalysis - Electrolysis - Electrolytes - Lithium batteries - Lithium compounds - Lithium sulfur batteries - Polysulfides - Precious metals - Reaction kinetics;

D O I：

10.1002/ANGE.202003136

中图分类号：

学科分类号：

摘要：

In situ evolution of electrocatalysts is of paramount importance in defining catalytic reactions. Catalysts for aprotic electrochemistry such as lithium–sulfur (Li-S) batteries are the cornerstone to enhance intrinsically sluggish reaction kinetics but the true active phases are often controversial. Herein, we reveal the electrochemical phase evolution of metal-based precatalysts (Co4N) in working Li-S batteries that renders highly active electrocatalysts (CoSx). Electrochemical cycling induces the transformation from single-crystalline Co4N to polycrystalline CoSx that are rich in active sites. This transformation propels all-phase polysulfide-involving reactions. Consequently, Co4N enables stable operation of high-rate (10 C, 16.7 mAcm-2) and electrolyte-starved (4.7 µLmg-1s Li-S batteries. The general concept of electrochemically induced sulfurization is verified by thermodynamic energetics for most of low-valence metal compounds. © 2020 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

引用

页码：9096 / 9102

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