材料科学
合理设计
催化作用
硫黄
异质结
锂(药物)
锂硫电池
纳米技术
无机化学
化学
电极
电化学
光电子学
有机化学
冶金
物理化学
内分泌学
医学
作者
Bin Zhang,Jiping Ma,Manman Cui,Yang Zhao,Shizhong Wei
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2023-05-26
卷期号:16 (11): 3992-3992
被引量:8
摘要
Lithium-sulfur batteries are anticipated to be the next generation of energy storage devices because of their high theoretical specific capacity. However, the polysulfide shuttle effect of lithium-sulfur batteries restricts their commercial application. The fundamental reason for this is the sluggish reaction kinetics between polysulfide and lithium sulfide, which causes soluble polysulfide to dissolve into the electrolyte, leading to a shuttle effect and a difficult conversion reaction. Catalytic conversion is considered to be a promising strategy to alleviate the shuttle effect. In this paper, a CoS2-CoSe2 heterostructure with high conductivity and catalytic performance was prepared by in situ sulfurization of CoSe2 nanoribbon. By optimizing the coordination environment and electronic structure of Co, a highly efficient CoS2-CoSe2 catalyst was obtained, to promote the conversion of lithium polysulfides to lithium sulfide. By using the modified separator with CoS2-CoSe2 and graphene, the battery exhibited excellent rate and cycle performance. The capacity remained at 721 mAh g−1 after 350 cycles, at a current density of 0.5 C. This work provides an effective strategy to enhance the catalytic performance of two-dimensional transition-metal selenides by heterostructure engineering.
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