# Optimizing gamma radiation shielding of low bismuth borate glass via antimony addition: optical and physical insights

**Authors:** Shaimaa Hafez, W. M. Gomaa, E. Salama

PMC · DOI: 10.1038/s41598-026-37686-6 · Scientific Reports · 2026-02-23

## TL;DR

This study shows that adding antimony oxide to bismuth borate glass improves its gamma radiation shielding and optical properties.

## Contribution

The novel contribution is demonstrating how antimony oxide enhances gamma shielding and optical characteristics in bismuth borate glass.

## Key findings

- Adding 5 mol% Sb₂O₃ improves gamma-ray shielding, especially at low photon energies.
- Sb₂O₃ increases glass density, refractive index, and oxygen packing density while reducing molar volume and optical band gap.
- The modified glass is suitable for transparent shielding in medical and nuclear applications.

## Abstract

This study reports the fabrication and characterization of novel bismuth borate-based glass systems doped with varying concentrations of antimony oxide (Sb₂O₃) for gamma radiation shielding applications. Using the melt-quenching method, the glass systems [0] with x = 0, 1, 3, and 5 mol% were prepared. Density measurements, X-ray diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR), and UV–Vis–NIR spectroscopy were employed to analyze the structural, physical, and optical properties systematically. The results show that increasing Sb₂O₃ content raises the glass density, refractive index, and oxygen packing density, while reducing the molar volume and optical band gap. These changes contribute to forming a more compact glass network. Using Phy-X/PSD software, the radiation shielding coefficients, such as the mass attenuation coefficient (MAC), effective atomic number (Zeff), and half-value layer (HVL), were determined. The sample with 5 mol% Sb₂O₃ demonstrated the best gamma-ray shielding performance, especially at low photon energies, owing to the high atomic number and density of Sb. The findings suggest that Sb₂O₃ functions as an effective dopant to improve the optical nonlinearity and radiation protection capacity of borate-based glasses, making them promising candidates for transparent shielding in medical, nuclear, and industrial environments.

## Full-text entities

- **Genes:** PODXL2 (podocalyxin like 2) [NCBI Gene 50512] {aka EG, PODLX2}
- **Diseases:** toxicity (MESH:D064420), cancer (MESH:D009369)
- **Chemicals:** Bi2O3 (MESH:C033301), Sb2O5 (MESH:C027104), lead (MESH:D007854), oxide (MESH:D010087), borate (MESH:D001881), Na2O (MESH:C096707), BBiNaZnSb-0 (-), Sb2O3 (MESH:C037554), NiO (MESH:C028007), SiO2 (MESH:D012822), Bi (MESH:D001729), Na (MESH:D012964), silver (MESH:D012834), B (MESH:D001895), ZnO (MESH:D015034), Sb (MESH:D000965), water (MESH:D014867), Sb5+ (MESH:D000068879), Dy2O3 (MESH:C030582), B2O3 (MESH:C042168), Xylene (MESH:D014992), Antimony oxide (MESH:C091696), AgNO3 (MESH:D012835), metal (MESH:D008670), gold (MESH:D006046), O (MESH:D010100), Zn (MESH:D015032)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

19 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12932631/full.md

## References

8 references — full list in the complete paper: https://tomesphere.com/paper/PMC12932631/full.md

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Source: https://tomesphere.com/paper/PMC12932631