Stabilization of Mixed-Anion (O2−/S2−) Networks in ZnO-Substituted Silicate–Phosphate Oxysulfide Glasses: Linking Cation–Sulfide Bonding to Thermal and Dielectric Properties
Justyna Sułowska, Luka Pavić, Andrzej Kruk

TL;DR
This paper studies how replacing MgO with ZnO in a type of glass improves its thermal stability and electrical properties.
Contribution
The study reveals how ZnO substitution affects the structure and properties of mixed-anion oxysulfide glasses.
Findings
ZnO substitution reduces the configurational heat capacity and shifts crystallization onset temperatures.
ZnO-substituted glasses show higher activation energies and lower AC conductivity.
ZnO increases thermal stability and electrical insulation in the glasses.
Abstract
Mixed-anion silicate–phosphate oxysulfide glasses have attracted increasing interest due to their tunable thermal stability, electrical response, and potential use in functional glass and glass–ceramic materials. In this work, silicate–phosphate oxysulfide glasses in the SiO2-P2O5-K2O-MgO-SO3-ZnO system were examined to determine how partial substitution of MgO with ZnO influenced their thermal and electrical properties under reducing conditions. Melting in a strongly reducing atmosphere predominantly converted sulfur to reduced sulfur species, producing mixed oxygen–sulfur glass networks. Differential scanning calorimetry (DSC) shows that ZnO substitution reduces the configurational heat capacity at the glass transition (ΔCp) by up to ~40%, suppresses crystallization exotherms, and shifts crystallization onset temperatures by more than 100 °C toward higher values, indicating enhanced…
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Taxonomy
TopicsGlass properties and applications · Recycling and utilization of industrial and municipal waste in materials production · Phase-change materials and chalcogenides
