Abstract

This paper explores the incorporation of Terbium(III) oxide as a rare earth metal modifier in sodium borate glasses containing PbO/Bi2O3, aiming to enhance the efficiency of optoelectronic devices. The synthesis and characterization of these glasses are detailed, highlighting the unique properties introduced by Terbium(III) oxide. The study investigates the regularities in the characteristics such as physical, XRD, UV, FTIR, and optical properties of 70B2O3–15Na2O – 15PbO – (5-x)Bi2O3 – xTb2O3, where x = 0; 1; 2; 3; 5 mol% prepared glassy samples, considering varying concentrations of bismuth and the modifier (e.g. Tb2O3), and examines their mutual impact on the borate glass matrix involved. It is found that there are sharp peaks on the diffraction pattern, which increase in width and intensity with increasing Terbium concentration from 3 to 5 mol% in the glass matrices, e.g. two-phase structures, amorphous and crystalline, are observed. Moreover, a wide excitation band in the glass matrix is also observed in the region of 200–320 nm. The study delves into the potential applications of these modified glasses in highly efficient optoelectronic devices, contributing valuable insights to the advancement of materials for technological applications.

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