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Optical, structural, and gamma shielding characteristics of bismuth-doped lithium borosilicate glass composite

Asmaa Helmy, E. Salama, M. A. Azooz, F.H. ElBatal, M. A. Ouis, E. El-Shereafy

2025Scientific Reports12 citationsDOIOpen Access PDF

Abstract

This study investigates the optical, structural, and gamma radiation shielding properties of bismuth-doped lithium borosilicate glass composites. Glasses containing 0-20 mol% Bi₂O₃ were synthesized and analyzed using XRD, FTIR, density measurements, and UV-Vis spectroscopy. All samples exhibited an amorphous structure. The density increased markedly from 2.31 g/cm³ (0 mol% Bi₂O₃) to 4.59 g/cm³ (20 mol% Bi₂O₃), accompanied by a molar volume expansion from 27.33 to 31.02 cm³/mol. Optical studies revealed a progressive reduction in the band gap energy from 3.44 eV to 2.39 eV, while the Urbach energy increased from 0.216 eV to 0.488 eV, indicating enhanced structural disorder with Bi₂O₃ incorporation. Gamma attenuation analysis showed a significant improvement in shielding efficiency: at 0.662 MeV, the mass attenuation coefficient reached 9.83 × 10⁻² cm²/g with an effective atomic number up to 22.24, compared to only 7.76 × 10⁻² cm²/g for Portland concrete. Moreover, the half-value layer decreased with Bi₂O₃ loading, confirming improved attenuation performance. These results highlight that bismuth-doped lithium borosilicate glasses are promising lead-free materials for medical and nuclear radiation shielding applications.

Topics & Concepts

Borosilicate glassMaterials scienceElectromagnetic shieldingMass attenuation coefficientAttenuation coefficientAttenuationAmorphous solidLithium (medication)Effective atomic numberComposite materialMolar volumeBand gapComposite numberAmorphous metalRadiationGamma rayRadiation shieldingAnalytical Chemistry (journal)Atomic numberRadiochemistryLithium borateRadiation Shielding Materials AnalysisGlass properties and applicationsGraphite, nuclear technology, radiation studies