2024 年 92 巻 11 号 p. 117001
For the halide solid electrolyte Li3InCl6, which has both high water resistance and high ionic conductivity, doping with different elements to further increase the conductivity is attracting attention. In this study, we investigated co-doping Li3InCl6 with Nb5+ and Zr4+. A pretrained neural-network potential was used for molecular dynamics simulations, and the results indicated that doping with a high concentration of Zr4+ and low concentration of Nb5+ promotes disorder in the Li+/vacancy arrangement on the diffusion path, even at relatively low temperatures. Bayesian optimization revealed the optimal composition with fewer samples, highlighting its utility for exploring complex compositions and expensive experimental investigations.