Glass Electrolytes with High Ion Conductivity and High Chemical Stability in the System LiI-Li₂O-Li₂S-P₂S₅

OHTOMO Takamasa, HAYASHI Akitoshi, TATSUMISAGO Masahiro, KAWAMOTO Koji

doi:10.5796/electrochemistry.81.428

The Li₂O-Li₂S-P₂S₅ glasses, which were prepared by a reaction of the Li₂S-P₂S₅ glass and Li₂O, hardly generated H₂S gas in air. These glasses showed relatively high ion conductivities about 10⁻⁴ S cm⁻¹ at room temperature. However, these conductivities were lower than those of original sulfide glasses. In this study, an addition of LiI to the Li₂O-Li₂S-P₂S₅ glasses was examined in order to improve ion conductivities. The 30LiI·70(0.07Li₂O·0.68Li₂S·0.25P₂S₅) glass showed high ion conductivity of 1.3 × 10⁻³ S cm⁻¹ at room temperature, and hardly generated H₂S gas in air. On the other hand, the 30LiI·70(0.07Li₂O·0.68Li₂S·0.25P₂S₅) glass was electrochemically stable in the potential range of 0–10 V. Moreover, the all-solid-state C/LiCoO₂ cell using the 30LiI·70(0.07Li₂O·0.68Li₂S·0.25P₂S₅) glass as solid electrolytes worked as lithium secondary batteries at room temperature, and exhibited a good cycle performance. Therefore, the 30LiI·70(0.07Li₂O·0.68Li₂S·0.25P₂S₅) glass was a suitable electrolyte for all-solid-state cells because the glass had high conductivity, wide electrochemical window and high chemical stability to moisture.

Glass Electrolytes with High Ion Conductivity and High Chemical Stability in the System LiI-Li₂O-Li₂S-P₂S₅

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Glass Electrolytes with High Ion Conductivity and High Chemical Stability in the System LiI-Li₂O-Li₂S-P₂S₅

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