Structures and conductivities of stable and metastable Li5GaS4 solid electrolytes

Understanding the differences in the structures and defects in the stable crystalline phase and metastable phase is important for increasing the ionic conductivities of a solid electrolyte. The metastable phase often has higher conductivity than the stable phase. In this study, metastable lithium thiogallate, Li5GaS4, was synthesized via mechanochemistry and stable Li5GaS4 was obtained by heating the metastable phase. The metastable Li5GaS4 sample was found to have an antifluorite-type crystal structure with cationic disorder, while the stable phase was found to have a monoclinic crystal structure, similar to that of another solid electrolyte, Li5AlS4. In both the structures, the Ga3+ cations were surrounded by four S2- anions in tetrahedral coordination. The conductivity of the metastable phase was determined to be 2.1 x 10(-5) S cm(-1) at 25 degrees C, which is 1000 times greater than that of the monoclinic phase. The high conductivity of the metastable phase was achieved owing to cation disorder in the crystal structure.

Automated summary

Understanding the differences in crystal structures and conductivities between stable and metastable phases of Li5GaS4 is crucial for improving solid electrolytes. The study found that the metastable phase of Li5GaS4 exhibited higher conductivity due to cationic disorder in its crystal structure.