Enhancement of photoluminescence properties of Y0.95(P0.6V0.4)O4:Eu0.05 phosphors by doping Al3+ ions

Abstract

This paper reports an approach for improving the photoluminescence characteristics of red-emitting Y0.95(P0.6V0.4)O4:Eu0.05 phosphors, with the incorporation of Al3+ ions, using a chemical co-precipitation process. In this paper, structural, scanning electron microscopic (SEM), photoluminescence properties, infrared spectroscopy, and CIE of the Y0.95−x(P0.6V0.4)AlxO4:Eu0.05 (x = 0.0, 0.005, 0.01, 0.015, 0.02, 0.025, 0.03, 0.035) phosphors are reported. The doping of a small amount of Al3+ ions to Y0.95−x(P0.6V0.4)AlxO4:Eu0.05 phosphors significantly enhanced the emission intensity up to x = 0.025%. The most dominant red emission intensity peak of Eu3+ for 5D0 → 7F2 transition of the Y0.975(P0.6V0.4)Al0.025O4:Eu0.05 phosphor is located at 622 nm, which is stronger than that of the free Al3+ Y0.95(P0.6V0.4)O4:Eu0.05 phosphor. The result shows that this phosphor has a certain amount of the application prospect of the white LED.