The radioluminescence and photoluminescence behaviour of lithium alumino borate glasses doped with Tb2O3 and Gd2O3 for green luminescence applications

Abstract In this study, we developed the luminescence properties of Tb3+and Gd3+ dual doped 25Li2O–5Al2O3-YGd2O3-(70-Y-Z)B2O3-ZTb2O3 glasses were prepared by a conventional melt-quenching method. As the concentrations of Gd3+ increase, both the radioluminescence and photoluminescence results increase, and then 2.5% Gd3+doped glass sample under excitation wavelength with 222, 275, 377 nm providing the strong green emission intensity (at 543 nm) due to the optimum concentration happens. Analysis of the Tb LIII-edge XANES spectra data of LABT series glasses have confirmed the presence of Tb3+. The PL band with the highest intensity of Tb³⁺ ion in this glass is 4.0 mol% as it results from a maximum of both emission and excitation intensity. The experimental decay times calculated from the decay profiles have been observed to be declining gradually from 2.682 to 2.450 ms with the increase in Tb3+ ion concentration. The energy transfer in the borate glass from Gd3+ to Tb3+ is carried out by non-radiative processes with an efficiency close to 59.20%. The synthesized glass exhibit a high potential candidate for green luminescence applications.