Abstract

This paper reported a SnO2/N-doped graphene nanocomposite (SnO2/N-Gr) electrode which was prepared by a laser in-situ synthesis method. When demonstrated as anodes for lithium storage, the SnO2/N-Gr electrode showed improved lithium storage capacities and rate performance. In details, a reversible capacity of 830mAhg−1 was obtained after 300 cycles at a current density of 300mAg−1, and when the current density increased up to 3Ag−1, the SnO2/N-Gr electrode revealed a high reversible capacity of 600mAhg−1. It was proven that the excellent electrochemical performance mainly related to a hybrid lithium storage mechanism which combined with alloying and insertion reactions. By introducing huge numbers of micropores and defects on graphene sheets, N-doping increased the number of hosts for lithium insertion and enhanced the Li+ diffusion rate in graphene sheets, so both of lithium storage capacities and rate performance were effectively improved. The SnO2/N-Gr electrode had a short preparing procedure and good electrochemical performance, which hold potential for development of next generation lithium ion batteries with high specific capacities and good rate performance.

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