Abstract:
La2?2xBi2xO3 (x=0?0.04) nanocrystalline powders are synthesized by one?pot single step solution combustion method. 4 atom% Bi doped La2O3 reveals the presence of both Bi3+ and metallic Bi. Temperature programmed reduction (TPR) of La2O3 and La2?2xBi2xO3 (x=0.005?0.04) indicates that the oxygen storage capacity changes with the dopant (Bi) concentration. La2?2xBi2xO3 (x=0.04) has less hygroscopic behavior compared to La2O3 and shown enhanced stability in an open atmosphere. The direct band gap of La2O3 and La(OH)3 decreases significantly after Bi doping. Further, PL studies of Bi doped compounds show a blue emission at 458?nm due to 3P1 ? 1S0 transition of the Bi3+ ion substituted in La2O3. Emission intensity is maximum with 0.5 atom percent Bi doping, which decreases gradually with increasing Bi3+ ion concentration. Bi doping also modifies the catalytic activity of La2O3, resulting in higher CO oxidation activity than unsubstituted La2O3.