Synthesis, FTIR, and mechanical as well as radiation shielding characteristics in Nd2O3-doped bismuth lithium borate glasses

“…The decrease in elastic moduli in glass is due to the alteration in the atomic structure of the glass matrix due to the presence of Dy 3+ ions, which alter the atom's arrangement, leading to weaker interatomic bonds and reduced material strength. The higher concentration of Dy 2 O 3 also increases the number of oxygen vacancies, producing more NBOs which makes more and more ions being open up in the glass network [36,37].…”

Elucidating the impact of Dy₂O₃ substitution on structure, optical, photoluminescence and mechanical properties of borosilicate glass

“…The decrease in elastic moduli in glass is due to the alteration in the atomic structure of the glass matrix due to the presence of Dy 3+ ions, which alter the atom's arrangement, leading to weaker interatomic bonds and reduced material strength. The higher concentration of Dy 2 O 3 also increases the number of oxygen vacancies, producing more NBOs which makes more and more ions being open up in the glass network [36,37].…”

Elucidating the impact of Dy₂O₃ substitution on structure, optical, photoluminescence and mechanical properties of borosilicate glass

“…Glasses doped with rare earth elements have gained significant attention in recent years, owing to their unique optical and electronic properties, and their potential applications in diverse fields such as photonics, optoelectronics, and sensors [1,2,3,4,5]. Thulium (Tm), a rare earth element, has emerged as a promising dopant for glasses, thanks to its characteristic luminescence properties, which make it suitable for a variety of laser and amplifier applications [6,7].…”

Thermal Stability of ZnO/Tm₂O₃ Substitution on Tellurite-Zinc-Bismuth-Sodium (TZBN) Glasses

Synthesis and experimental characterization on fast neutron and gamma-ray attenuation properties of high-dense and transparent Cadmium oxide (CdO) glasses for shielding purposes