Stable Lithium-Sulfur Batteries Ensured by GeS 2 and α-S 8 Lattice Matching During the Charge Process.

The charge process of lithium-sulfur batteries (LSBs) is a process in which molecular polarity decreases and the volume shrinks gradually, which is the process most likely to cause lithium polysulfides (LiPSs) loss and interfacial collapse. In this work, GeS 2 is utilized, whose (111) lattice plane exactly matches with the (113) lattice of α-S 8 , to solve these problems. GeS 2 can regulate the interconversion-deposition behavior of S-species during the charge process. Soluble LiPSs can be spontaneously adsorbed on the GeS 2 surface, then obtain electrons and eventually convert to α-S 8 molecules. More importantly, the α-S 8 molecules will crystallize uniformly along the (111) lattice plane of GeS 2 to maintain a stable cathode-electrolyte interface. Therefore, outstanding charge/discharge LSBs are successfully accomplished.