MgO-template-assisted synthesis of worm-like carbon@MoS2 composite for lithium ion battery anodes

Abstract

In this study, a facile MgO template-assisted route has been proposed for the preparation of carbon@MoS2 composites via a one-step hydrothermal method followed by a thermal annealing process. By using sucrose as a carbon source and commercial MgO powder as a structure-directing agent, a three-dimensional sphere-like carbon@MoS2 nanoarchitecture was assembled by one-dimensional worm-like nanorods which were composed of few-layered MoS2 nanosheets and amorphous carbon matrix. The influence of different amount of MgO template on the morphology, structure, and lithium storage performance of the carbon@MoS2 composites is systematically investigated. The carbon@MoS2-2 composite synthesized with a Mo precursor: MgO molar ratio of 1:1 exhibits much higher reversible capacity (905.3mAhg−1 after 100 cycles at a current density of 100mAg−1) and better high-rate capability (503.4mAhg−1 at 5000mAg−1) than those of bare MoS2 and template-free carbon@MoS2-0 composite. Impressively, superior cycling stability is achieved for the carbon@MoS2-2 composite with a capacity retention of 93.4% even after 400 charge/discharge cycles at 5000mAg−1. The excellent electrochemical performance for carbon@MoS2-2 composite can be ascribed to its unique hierarchical nanoarchitecture and synergetic effect between MoS2 nanosheets and amorphous carbon.