论文信息 - γ-Li4−3xAlxGeO4 solid electrolytes: phase equilibria, conductivity and glass-transition-like behaviour

γ-Li4−3xAlxGeO4 solid electrolytes: phase equilibria, conductivity and glass-transition-like behaviour

The phase diagram Li4GeO4–LiAlGeO4 has been shown to contain a short range of Li4GeO4 solid solutions, a range of γ solid solutions, Li4 – 3xAlxGeO4[where (0.04–0.13)<x<0.30] and a line phase, α, with x= 0.375. The γ solid solutions are stable up to melting at 1140–1160°C and the α phase is stable between 1080 and 1160°C only. X-Ray powder data are given for α and γ solid solutions.The γ solid solutions exhibit a remarkable temperature-independent conductivity of Li+ ions above ca. 700 °C which is particularly noticeable at low values of x. With decreasing temperature, Li+ ion motion is increasingly thermally activated, with an activation energy of 0.45–0.60 eV at temperatures below 300°C. The highest room-temperature conductivity was ca. 2 × 10–5Ω–1 cm–1 in freshly quenched γ samples of x= 0.10, but the conductivity gradually decreased with time owing to ageing. There is evidence from differential scanning calorimetry (DSC) studies of a sluggish order–disorder transition at 200–250°C involving the Li+ ion site occupancies, which has many of the characteristics of a glass transition. An additional second-order transition occurs at 480–500°C which is attributed to a change from disordered to liquid-like properties of the mobile Li+ ions.

A. West | Chnoong-Kheng Lee

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