▎ 摘　　要

A novel negative material consisting of graphene nanotubes and ultrathin MoS2 is synthesized by a simple onestep hydrothermal method assisted with Sodium chloride. The MoS2/Graphene electrodes deliver a specific capacity of 1350 mAh g(-1) under 0.1 A g(-1) and high rate capability (retaining 85.5% capacity from 0.1 A g(-1) to 0.8 A g(-1)). A high remarkable capacity of 820 mAh g(-1) can still be recovered at 0.5 A g(-1) after 500 cycles, and the average coulombic efficiency was as high as 99.98% during the additional 500 cycles. The excellent Li-ion storage performance of MoS2/Graphene nanotubes may be attributed to the ultra-thin MoS2 flakes and curled graphene nanotubes. This structural feature has a strong adsorption capacity for lithium ions, which can provide a broad space for ion storage. A large number of active sites dispersed in the layered molybdenum disulfide promote the kinetics of the electrochemical reaction, empowering the ultra-thin layered molybdenum disulfide to get a higher theoretical capacity. In addition, the existence of the tubular structure alleviates volume expansion and provides a way for the rapid movement of electrons and diffusion of Li+ during repeated cycles.