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Solid Electrolyte Membranes Based on Li2O–Al2O3–GeO2–SiO2–P2O5 Glasses for All-Solid State Batteries

С. В. Першина, T. A. Kuznetsova, Э. Г. Вовкотруб, S. Belyakov, Е. С. Кузнецова

2022Membranes18 citationsDOIOpen Access PDF

Abstract

Rechargeable Li-metal/Li-ion all-solid-state batteries due to their high safety levels and high energy densities are in great demand for different applications ranging from portable electronic devices to energy storage systems, especially for the production of electric vehicles. The Li1.5Al0.5Ge1.5(PO4)3 (LAGP) solid electrolyte remains highly attractive because of its high ionic conductivity at room temperature, and thermal stability and chemical compatibility with electrode materials. The possibility of LAGP production by the glass-ceramic method makes it possible to achieve higher total lithium-ion conductivity and a compact microstructure of the electrolyte membrane compared to the ceramic one. Therefore, the crystallization kinetics investigations of the initial glass are of great practical importance. The present study is devoted to the parent glasses for the production of Li1.5+xAl0.5Ge1.5SixP3−xO12 glass-ceramics. The glass transition temperature Tg is determined by DSC and dilatometry. It is found that Tg decreases from 523.4 (x = 0) to 460 °C (x = 0.5). The thermal stability of glasses increases from 111.1 (x = 0) to 188.9 °C (x = 0.3). The crystallization activation energy of Si-doped glasses calculated by the Kissinger model is lower compared to that of Si-free glasses, so glass-ceramics can be produced at lower temperatures. The conductivity of the glasses increases with the growth of x content.

Topics & Concepts

Materials scienceElectrolyteCrystallizationGlass transitionIonic conductivityCeramicThermal stabilityChemical engineeringFast ion conductorMicrostructureConductivityActivation energyGlass-ceramicLithium (medication)Electrical resistivity and conductivityMineralogyElectrodeComposite materialPhysical chemistryChemistryPolymerEndocrinologyElectrical engineeringEngineeringMedicineAdvanced Battery Materials and TechnologiesGlass properties and applicationsAdvancements in Battery Materials