▎ 摘　　要

This paper reports microwave-assisted fast hydrothermal synthesis of In2S3 nanoparticles and unprecedented interconnected nanoflowers on graphene surface. The growth mechanisms for various In2S3-based products are investigated. These obtained In2S3 nanoparticles and nanoflowers are found to be uniformly dispersed on graphene nanosheets, forming sandwiched particle-on-sheet and unprecedented flower-on-sheet nanostructures. When fabricated as anode materials, In2S3-graphene composites show extraordinary large reversible capacities and good cycling performances and high rate capabilities. A reversible initial lithium-extraction capacity of 1249 mA h g (-1) is observed for the novel In2S3-graphene flower-on-sheet nanostructure at 70 mA g (-1), which can be retained at 913, 782, 690 mA h g (-1) at large currents of 700, 1400, 3500 mA g (-1) respectively. In comparison, the In2S3-graphene nanoparticle-on-sheet composite shows slightly lower reversible capacities but more stable cycling performances at both small and high currents mainly due to the presence of more graphene.