Although lithium-sulfur batteries are one of promising rechargeable energy storage devices, their wide applications are impeded by the lithium polysulfides shuttle effect, low electronic conductivity of the cathode, and sluggish… Click to show full abstract
Although lithium-sulfur batteries are one of promising rechargeable energy storage devices, their wide applications are impeded by the lithium polysulfides shuttle effect, low electronic conductivity of the cathode, and sluggish redox reaction kinetics of lithium polysulfides. In this work, reduced graphene oxide was decorated with CoSe2 hollow nanospheres to form an RGO-CoSe2 composite that was used as a host material to support S in the cathode. The RGO-CoSe2 composite has the following superiorities: (1) enhanced electronic conductivity, (2) accommodation of the volumetric change of cathode materials, (3) effective confinement of numerous lithium polysulfides species due to chemisorption, (4) expedition of the redox kinetics of lithium polysulfides. As expected, the RGO-CoSe2-based cathode exhibited the reversible specific capacity of 1,044.7 mAh/g at 0.2C and 695.7 mAh/g at 2C, together with excellent cycling stability of 0.071% average capacity decay per cycle over 400 cycles at 1C.
               
Click one of the above tabs to view related content.