The Effect of Phosphoric Acid on the Preparation of High-Performance LiInCl Solid-State Electrolytes by Water-Mediated Synthesis.

The halide solid-state electrolyte LiInCl (LIC) is an excellent solid-state electrolyte for lithium-ion batteries. In this study, phosphoric acid (HPO) solution was added during the preparation of LiInCl to obtain LIC samples with high ionic conductivity, and the effect of different concentrations of HPO on increasing the ionic conductivity of LIC was investigated. The results showed that the LIC prepared in 1% HPO had the least impurities and the highest ionic conductivity of 1.15 × 10 S/cm, and the all-solid-state LiCoO-LIC/LIC-1%HPO/LiPSCl/In/Li batteries assembled with this sample could be stably cycled for 14 cycles at 30 °C, presenting a high initial charge capacity of 128 mAh/g at 0.05 C. The Li-In/LPSC/LIC-1% HPO/LPSC/Li-In symmetric cell can be stably cycled at current densities of 0.05 mA/cm, 0.1 mA/cm, and 0.3 mA/cm. Further studies showed that LIC samples prepared in HPO contained small amounts of LiIn(PO). The structure of LiIn(PO) is a continuous skeleton containing a large number of vacancies for Li transport, thus improving the ionic conductivity of LIC.