多硫化物
电催化剂
锂(药物)
硫黄
钽
材料科学
自放电
锂硫电池
化学工程
催化作用
化学
无机化学
电极
冶金
电化学
物理化学
电解质
有机化学
医学
工程类
内分泌学
作者
Zhen Zhang,Dan Luo,Gaoran Li,Rui Gao,Matthew Li,Shuang Li,Lei Zhao,Haozhen Dou,Guobin Wen,Serubbabel Sy,Yongfeng Hu,Jingde Li,Aiping Yu,Zhongwei Chen
出处
期刊:Matter
[Elsevier BV]
日期:2020-06-30
卷期号:3 (3): 920-934
被引量:143
标识
DOI:10.1016/j.matt.2020.06.002
摘要
Summary
Polysulfide retention and catalysis are currently among the most important factors toward solving much of the technical challenges of lithium-sulfur (Li-S) batteries. Taking advantage of the electronic structure specific to tantalum, we explore the application of amorphous tantalum oxide with oxygen vacancies embedded inside a microporous carbon matrix as an electrocatalyst for the Li-S system. Through a pore-constriction mechanism, the dimensions of tantalum oxide are controlled to be nanosized with abundant polysulfide-retaining and catalytically active sites. High cycle and rate performances were achieved at practically relevant sulfur loadings and electrolyte content. We believe our identification of tantalum as a new catalyst material for Li-S batteries will incite more investigation into the specific selection of transition metals based on their electronic structures. Meanwhile, the "ship in a bottle" strategy will enlighten the structure design for energy conversion and storage systems.
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