Ректорат УДУНТ
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Item Structural, Thermal, and Radiation Shielding Properties of Antimony-Doped Zinc Borate Glasses(Nature Research, UK, 2025) Hordieiev, Yurii S.; Zaichuk, Aleksandr V.ENG: Antimony zinc borate glasses with compositions (45–m)ZnO–(55–n)B2O3–(m + n)Sb2O3 (0 ≤ m, n ≤ 15 mol%) were synthesized via the melt-quenching technique to investigate the impact of Sb2O3 substitution on structural, thermal, and radiation shielding properties. X-ray diffraction confirmed the amorphous nature of the synthesized glass samples. Fourier-transform infrared spectroscopy revealed significant structural rearrangements, including an increase in non-bridging oxygen content with rising Sb2O3 concentrations, as evidenced by the shifting and intensification of characteristic absorption bands. Differential thermal analysis demonstrated that the glass transition temperature decreased from 580 °C to 490 °C with increasing Sb2O3, while the thermal stability parameter (ΔT) improved from 144 °C to 256 °C, particularly when B2O3 was replaced. Density increased from 3.121 g/cm3 to 3.836 g/cm3, and molar volume expanded from 24.01 cm3/mol to 31.16 cm3/mol. Radiation shielding performance was significantly enhanced: at 10 MeV, the linear attenuation coefficient increased from 0.0768 cm−1 to 0.1142 cm−1 (~ 49%) when replacing B2O3 and to 0.0983 cm−1 (~ 28%) when replacing ZnO. The half-value layer decreased from 9.02 cm to 6.07 cm at 15 mol% Sb2O3, confirming improved photon attenuation. Overall, this work offers valuable insights into the interplay between composition, structure, and functional properties in Sb2O3-doped zinc borate glasses.