Abstract
The red phosphors NaY 1− x Eu x (WO 4) 2 with different concentrations of Eu 3+ were synthesized via the combustion synthesis method. As a comparison, NaEu(WO 4) 2 was prepared by the solid-state reaction method. The phase composition and optical properties of as-synthesized samples were studied by X-ray powder diffraction and photoluminescence spectra. The results show that the red light emission intensity of the combustion synthesized samples under 394 nm excitation increases with increase in Eu 3+ concentrations and calcination temperatures. Without Y ions doping, the emission spectra intensity of the NaEu(WO 4) 2 phosphor prepared by the combustion method fired at 900 °C is higher than that prepared by the solid-state reaction at 1100 °C. NaEu(WO 4) 2 phosphor synthesized by the combustion method at 1100 °C exhibits the strongest red emission under 394 nm excitation and appropriate CIE chromaticity coordinates ( x=0.64, y=0.33) close to the NTSC standard value. Thus, its excellent luminescence properties make it a promising phosphor for near UV InGaN chip-based red-emitting LED application.
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