A 3D MoS(2)/Graphene Microsphere Coated Separator for Excellent Performance Li-S Batteries

Lithium-sulfur (Li-S) batteries are the most prospective energy storage devices. Nevertheless, the poor conductivity of sulfur and the shuttling phenomenon of polysulfides hinder its application. In this paper, flower-like MoS(2)/graphene nanocomposite is prepared and deposited on a multi-functional separator to enhance the electrochemical behavior of Li-S batteries. The results demonstrated that the MoS(2)/graphene-coated separator is contributing to inhibit the shuttling phenomenon of polysulfides and improve the integrity of sulfur electrode. The initial discharge capacity of the battery using MoS(2)/graphene-coated separator at 0.2 C was up to 1516 mAh g(−1). After 100 cycles, a reversible capacity of 880 mAh g(−1) and a coulombic efficiency of 98.7% were obtained. The improved electrochemical behavior can be due to the nanostructure and Mo-S bond of the MoS(2)/graphene composite, which can combine physical shielding and chemisorption to prohibit the shuttle effect of polysulfides. The results prove that the MoS(2)/graphene-coated separator has the potential for feasible application in Li-S batteries to enhance their electrochemical performance.