Photoluminescence of Vanadate Garnet Ca2NaMg(2-x)V3O12:xEu3+ Phosphors Synthesized by Solution Combustion Method.

Abstract

In this study, a series of nano-sized Ca2NaMg(2-x)V3O12:xEu3+ (0.06 < or = x < or = 0.18) red phosphors is synthesized by solution combustion method. The microstructure and photoluminescence properties of the Ca2NaMg(2-x)V3O12:xEu3+ phosphors are studied in accordance with the Eu3+ content. Annealed Ca2NaMg(2-x)V3O12:xEu3+ phosphors form a single phase with the cubic garnet structure and Ia3d space group. The emission from (VO4)3- in the Ca2NaMg(2-x)V3O12:xEu3+ phosphors is almost completely quenched due to the efficient energy transfer from the (VO4)3- to the Eu3+ ions. The emission intensity increases sharply with the increased Eu3+ content, reaching a maximum value at x = 0.15, and then decreases with further Eu3+ content. Ca2NaMg1.85V3O12:0.15Eu3+ shows great potential as a red phosphor for white light-emitting diodes.