Atomistic Assessments of Lithium-Ion Conduction Behavior in Glass-Ceramic Lithium Thiophosphates.
Ji-Su KimWo Dum JungJi-Won SonJong-Ho LeeByung-Kook KimKyung-Yoon ChungHun-Gi JungHyoungchul KimPublished in: ACS applied materials & interfaces (2018)
We determined the interatomic potentials of the Li-[PS43-] building block in (Li2S)0.75(P2S5)0.25 (LPS) and predicted the Li-ion conductivity (σLi) of glass-ceramic LPS from molecular dynamics. The Li-ion conduction characteristics in the crystalline/interfacial/glassy structure were decomposed by considering the structural ordering differences. The superior σLi of the glassy LPS could be attributed to the fact that ∼40% of its structure consists of the short-ranged cubic S-sublattice instead of the hexagonally close-packed γ-phase. This glassy LPS has a σLi of 4.08 × 10-1 mS cm-1, an improvement of ∼100 times relative to that of the γ-phase, which is in agreement with the experiments.