Abstract
In the study, the effect of boron doping on spectral properties and CTB mechanism was investigated by using Eu3+ doped orthorhombic β-SrTa2O6. A phosphor series of Eu3+ doped SrTa2O6, and Eu3+ and B3+ co-doped SrTa2O6 polycrystals were fabricated by solid-state reaction at 1400 °C for 20 h in an air atmosphere. The X-ray diffractions of the main phase structure for all the ceramics maintained up to 10 mol% Eu3+ concentration, while the increase of XRD intensity for Eu3+ and B3+ co-doped samples was attributed to somewhat improvement of crystallization. SEM morphologies of grains showed that the presence of boron promotes agglomeration and grain growth. The doping of boron up to 20 mol% led to an increase in PL intensity, CTB energy slightly shifted to low energy, and also an increase occurred in the asymmetry ratio of the phosphor. Therefore, the low crystal field symmetry of the Eu3+ sites and some improvement in crystal structure properties for Eu3+, B3+ co-doped samples supported the PL increase. The trend of Judd-Ofelt parameters (Ω 2, Ω 4) is SrTa2O6:xEu3+, 0.1B3+ > SrTa2O6:xEu3+. The high Ω 2 parameter for boron co-doped samples showed a covalent Eu-O bond character with low symmetry of Eu3+ environment, while the high Ω 4 value indicated the reduction in electron density of the ligands. Some increase in the short decays of Eu3+, B3+ co-doped samples is probably due to the surface effect and low crystal field symmetry. The quantum efficiency of 0.05Eu3+, 0.1B3+ co-doped phosphor with the highest PL intensity increased by about 21% compared to that without boron.