• Cu Vanadium Bronze
• Glass
• Glass Ceramic
• Tellurium Vanadate
• Titanium Oxide

Among all possible matrices, glass and glass-ceramics have been extensively studied for battery applications—including cathodes, anodes, and electrolytes—due to their simple manufacturing processes and intrinsic properties. The use of these materials could enable significant advancements in Solid-State Batteries (SSBs).
Many transition metal oxide (TMO) glasses exhibit remarkable properties, making them highly relevant for both scientific and technological applications. Among these, the V₂O₅–TeO₂ glass system stands out due to its unique characteristics. This thesis aims to prepare and characterize tellurium vanadate glass and glass-ceramics, doped with copper and titanium oxides. TMOs play a crucial role on the glass and glass-ceramics properties.
Ternary and quaternary glasses belong to CuO–V₂O₅–TeO₂–TiO₂ system were synthesized and characterized to evaluate how different TMO concentrations affect their thermal, electrical, and microstructural properties.

Among all possible matrices, glass and glass-ceramics have been extensively studied for battery applications—including cathodes, anodes, and electrolytes—due to their simple manufacturing processes and intrinsic properties. The use of these materials could enable significant advancements in Solid-State Batteries (SSBs). Many transition metal oxide (TMO) glasses exhibit remarkable properties, making them highly relevant for both scientific and technological applications. Among these, the V₂O₅–TeO₂ glass system stands out due to its unique characteristics. This thesis aims to prepare and characterize tellurium vanadate glass and glass-ceramics, doped with copper and titanium oxides. TMOs play a crucial role on the glass and glass-ceramics properties. Ternary and quaternary glasses belong to CuO–V₂O₅–TeO₂–TiO₂ system were synthesized and characterized to evaluate how different TMO concentrations affect their thermal, electrical, and microstructural properties.