由支撑在氮掺杂碳多面体上的超薄二硫化钼纳米片构建的分级纳米球用于高效锂和钠存储。

Hierarchical Nanospheres Constructed by Ultrathin MoS Nanosheets Braced on Nitrogen-Doped Carbon Polyhedra for Efficient Lithium and Sodium Storage.

作者信息

Tu Fengzhang, Han Yu, Du Yichen, Ge Xufang, Weng Wangsuo, Zhou Xiaosi, Bao Jianchun

机构信息

Jiangsu Key Laboratory of New Power Batteries, Jiangsu Collaborative Innovation Center of Biomedical Functional Materials, School of Chemistry and Materials Science , Nanjing Normal University , Nanjing 210023 , China.

Fujian Provincial Key Laboratory of Clean Energy Materials, College of Chemistry and Materials Science , Longyan University , Longyan 364012 , China.

出版信息

ACS Appl Mater Interfaces. 2019 Jan 16;11(2):2112-2119. doi: 10.1021/acsami.8b19662. Epub 2019 Jan 3.

DOI:10.1021/acsami.8b19662

PMID:30576107

Abstract

MoS has attracted a lot of attention for electrochemical energy storage. Herein, we design and fabricate unusual hierarchical composite nanospheres by cultivating a MoS sheet-like nanostructure on nitrogen-doped carbon polyhedra (designated as CP@MoS nanospheres). The nitrogen-doped carbon polyhedra are able to significantly boost the electrical conductivity of the hybrid architecture and largely mitigate the agglomeration of the MoS nanostructure. The sheet-like MoS nanostructure can render a great deal of storage sites toward lithium and sodium. When measured as a negative electrode for Li storage, these CP@MoS nanospheres manifest a large charge capacity of approximately 549 mAh g, a superior cycle life of 900 cycles, and excellent rate property. Furthermore, they also demonstrate improved electrochemical activity for Na ion storage.

摘要

二硫化钼在电化学储能领域备受关注。在此，我们通过在氮掺杂碳多面体上培育二硫化钼片状纳米结构（命名为CP@MoS纳米球），设计并制备了独特的分级复合纳米球。氮掺杂碳多面体能够显著提高混合结构的电导率，并在很大程度上减轻二硫化钼纳米结构的团聚。片状二硫化钼纳米结构可为锂和钠提供大量存储位点。当作为锂存储的负极进行测试时，这些CP@MoS纳米球表现出约549 mAh g的大充电容量、900次循环的优异循环寿命以及出色的倍率性能。此外，它们对钠离子存储也表现出增强的电化学活性。

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由支撑在氮掺杂碳多面体上的超薄二硫化钼纳米片构建的分级纳米球用于高效锂和钠存储。

Hierarchical Nanospheres Constructed by Ultrathin MoS Nanosheets Braced on Nitrogen-Doped Carbon Polyhedra for Efficient Lithium and Sodium Storage.

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