Amorphous Transition Metal Sulfides Anchored on Amorphous Carbon-Coated Multiwalled Carbon Nanotubes for Enhanced Lithium-Ion Storage.

Cobalt sulfide and molybdenum sulfide, with high theoretical capacities, have been considered as one of most promising anode materials for lithium-ion batteries (LIBs). However, the poor cyclability and low rate performances originating from the large volume expansion and poor electrical conductivity extremely inhibit their practical application. Here, the electrochemical performances are effectively improved by growing amorphous cobalt sulfide and molybdenum sulfide onto amorphous carbon-coated multiwalled carbon nanotubes (CNTs@C@CoS and CNTs@C@MoS ). The CNTs@C@CoS presents a high reversible specific capacity of 1252 mAh g at 0.2 Ag , excellent rate performance of 672 mAh g (5 Ag ), and enhanced cycle life of 598 mAh g after 500 cycles at 2 Ag . For CNTs@C@MoS , it exhibits a specific capacity of 1395 mAh g , superior rate performance of 727 mAh g at 5 Ag , and long cycle stability (796 mAh g after 500 cycles at 2 Ag ). The enhanced electrochemical properties of the electrodes are probably ascribed to their amorphous nature, the combination of CNTs@C that adhered and hindered the agglomeration of CoS and MoS as well as the enhanced electronic conductivity.