Luminescence properties and cathodoluminescence degradation of Bi doped SrO powder

Abstract: Bi3+ doped strontium oxide (SrO:Bi) phosphor powders were synthesized by the solgel combustion method using metal nitrates as precursors and citric acid as fuel. The optimum Bi3+ doping concentration was found to be 0.2 mol. %, and the optimum annealing temperature was found to be 1100 °C (2 h). The x-ray diffraction patterns corresponded with the known face-centered-cubic structure of SrO. Williamson–Hall plots showed that the crystallite size was in the range of ∼180 nm. Diffuse reflectance measurements of t… Show more

“…Additionally, it is also found to be stable under back-filled O2 environments, which could further enhance the stability and lifetime of the cathode material. [33] The research of PrxSr1-xO nanoparticles has shown that these materials have good photocatalytic activity, which is due to the presence of Pr ions in the SrO lattice. These ions can act as active centers for photocatalytic reactions, and their concentration can be controlled by varying the x value in the PrxSr1-xO formula.…”

First‐Principles Calculations to Investigate Electronic, Elastic, Magnetic, and Optical Properties for B1, B2, and B3 Phase for Sr_0.875Mn_0.125O with and Without Relaxation Structure

“…Additionally, it is also found to be stable under back-filled O2 environments, which could further enhance the stability and lifetime of the cathode material. [33] The research of PrxSr1-xO nanoparticles has shown that these materials have good photocatalytic activity, which is due to the presence of Pr ions in the SrO lattice. These ions can act as active centers for photocatalytic reactions, and their concentration can be controlled by varying the x value in the PrxSr1-xO formula.…”

First‐Principles Calculations to Investigate Electronic, Elastic, Magnetic, and Optical Properties for B1, B2, and B3 Phase for Sr_0.875Mn_0.125O with and Without Relaxation Structure

Luminescence Properties of Bi3+-doped Sr3B2O6

Electronic structure and luminescence studies of Bi doped MgO nanophosphors