用于钠离子电池的附着在多孔互连碳骨架上的超细硫化钴

Ultrafine CoS Attached to Porous Interconnected Carbon Skeleton for Sodium-Ion Batteries.

作者信息

Liu Yangyang, Jiang Wanli, Liu Min, Zhang Liang, Qiang Chenchen, Fang Zhen

机构信息

College of Chemistry and Materials Science, Key Laboratory of Electrochemical Clean Energy of Anhui Higher Education Institutes , Anhui Normal University , Wuhu 241000 , P. R. China.

Key Laboratory of Functional Molecular Solids, Ministry of Education , Anhui Normal University , Wuhu 241000 , P. R. China.

出版信息

Langmuir. 2019 Dec 17;35(50):16487-16495. doi: 10.1021/acs.langmuir.9b03051. Epub 2019 Dec 5.

DOI:10.1021/acs.langmuir.9b03051

PMID:31769983

Abstract

Carbon-based materials are effective carriers of metal sulfides because of their good volume stability and chemical stability, which can reduce volume expansion of materials and can also inhibit the interfacial reaction. In this study, CoS incorporated into three-dimensional porous biomass carbon skeleton were synthesized by a template method. The three-dimensional porous carbon with large surface area is favorable for the electrolyte infiltration. The uniform distribution of CoS nanoparticles results in a high reversible electrochemical reaction. The well-designed CoS/three-dimensional porous carbon structure exhibits outstanding performance when used as an anode for sodium-ion batteries (SIBs). The results show that the transition mental sulfide/three-dimensional porous carbon structure has broad application prospects in SIBs.

摘要

碳基材料因其良好的体积稳定性和化学稳定性，是金属硫化物的有效载体，能够减少材料的体积膨胀，还能抑制界面反应。在本研究中，通过模板法合成了掺入三维多孔生物质碳骨架中的硫化钴。具有大表面积的三维多孔碳有利于电解质渗透。硫化钴纳米颗粒的均匀分布导致高可逆电化学反应。精心设计的硫化钴/三维多孔碳结构用作钠离子电池（SIB）的阳极时表现出优异的性能。结果表明，过渡金属硫化物/三维多孔碳结构在钠离子电池中具有广阔的应用前景。

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Ultrafine CoS Attached to Porous Interconnected Carbon Skeleton for Sodium-Ion Batteries.用于钠离子电池的附着在多孔互连碳骨架上的超细硫化钴

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用于钠离子电池的附着在多孔互连碳骨架上的超细硫化钴

Ultrafine CoS Attached to Porous Interconnected Carbon Skeleton for Sodium-Ion Batteries.

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