Yanping Xie scite author profile

In this study, a facile one-pot process for the synthesis of hierarchical VS2/graphene nanosheets (VS2/GNS) composites based on the coincident interaction of VS2 and reduced graphene oxide (rGO) sheets in the presence of cetyltrimethylammonium bromide is developed for the first time. The nanocomposites possess a hierarchical structure of 50 nm VS2 sheets in thickness homogeneously anchored on graphene. The VS2/GNS nanocomposites exhibit an impressive high-rate capability and good cyclic stability as a cathode material for Li-ion batteries, which retain 89.3% of the initial capacity 180.1 mAh g(-1) after 200 cycles at 0.2 C. Even at 20 C, the composites still deliver a high capacity of 114.2 mAh g(-1) corresponding to 62% of the low-rate capacity. Expanded studies show that VS2/GNS, as an anode material, also has a good reversible performance with 528 mAh g(-1) capacity after 100 cycles at 200 mA g(-1). The excellent electrochemical performance of the composites for reversible Li+ storage should be attributed to the exceptional interaction between VS2 and GNS that enabled fast electron transport between graphene and VS2, facile Li-ion diffusion within the electrode. Moreover, GNS provides a topological and structural template for the nucleation and growth of two-dimensional VS2 nanosheets and acted as buffer matrix to relieve the volume expansion/contraction of VS2 during the electrochemical charge/discharge, facilitating improved cycling stability. The VS2/GNS composites may be promising electrode materials for the next generation of rechargeable lithium ion batteries.

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Identification of cathode stability in Li–CO₂batteries with Cu nanoparticles highly dispersed on N-doped graphene

Zhang

et al. 2018

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Biological cell derived N-doped hollow porous carbon microspheres for lithium–sulfur batteries

et al. 2016

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Yanping Xie

Facile Hydrothermal Synthesis of VS₂/Graphene Nanocomposites with Superior High-Rate Capability as Lithium-Ion Battery Cathodes

Identification of cathode stability in Li–CO₂batteries with Cu nanoparticles highly dispersed on N-doped graphene

Biological cell derived N-doped hollow porous carbon microspheres for lithium–sulfur batteries

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Yanping Xie

Facile Hydrothermal Synthesis of VS2/Graphene Nanocomposites with Superior High-Rate Capability as Lithium-Ion Battery Cathodes

Identification of cathode stability in Li–CO2batteries with Cu nanoparticles highly dispersed on N-doped graphene

Biological cell derived N-doped hollow porous carbon microspheres for lithium–sulfur batteries

Contact Info

Product

Resources

About

Facile Hydrothermal Synthesis of VS₂/Graphene Nanocomposites with Superior High-Rate Capability as Lithium-Ion Battery Cathodes

Identification of cathode stability in Li–CO₂batteries with Cu nanoparticles highly dispersed on N-doped graphene