Contribution of some transition metal oxides to crystallization and electro-thermal properties of glass-ceramics

Lithium di-silicate (LS₂) glass-ceramics modified with copper oxide using the formula: 34.83Li₂O–xCuO–(65.17-x)SiO₂ (where; x = 1, 2, 4 and 6 mol%) were prepared by melt-quenching followed by controlling heat-treatment. 6 mol% of MnO or Fe₂O₃ transition metal oxides was added instead of SiO₂ in the high CuO-content composition. The effect of the transition cations on phase formation, microstructure, density, thermal expansion, and electrical conductivity was investigated as a function of the controlled crystallization. Results show that up to 4 mol%, Cu⁺² was hosted in stable Li₂Si₂O₅ structure. This enhanced the crystal formation, including Li₂Si₂O₅ and its solid solution (ss), Li₂SiO₃, Li₂Cu₅(Si₂O₇)₂, CuMn₆SiO₁₂, LiFeSi₂O₆ (ss), and the orthosilicate Li₂FeSiO₄ (ss). The prepared materials had different density values ranged from 2.35 to 2.79 g/cm³ for glass and varied from 2.43 to 3.15 g/cm³ for glass–ceramics, whereas the α-values of glass-ceramics ranged in the 95–165 × 10^?7/°C. The progress of electrical properties in glass-ceramics, as a function of composition, was studied. It was markedly improved by adding different transition cations especially, Fe⁺³. The study reveals that the incorporation of transition metal ions in LS₂ composition has a positive effect on the physical-chemical properties of the prepared glass-ceramics. Therefore, it constitutes to prepare future glass-ceramic applications as hermetic seals of metals as well solid electrolyte materials.