Eu-activated CaMoO_(4)phosphors were co-precipitated in an aqueous solution,and NH_(3)·H_(2)O,NH_(4)HCO_(3)and(NH_(2))_(2)CO as pre-cipitating aid agents were compared based on the morphology and particle size distribution of the phosphor samples.Sm3+as sensitizer ion was investigated on the luminescence of CaMoO_(4):Eu,and it could strengthen the 406 nm absorption of this phosphor.At last,the scheelite CaMoO_(4):Eu and wolframite ZnMoO_(4):Eu were selected to compare their host absorption.The result showed that the scheelite molybdate host exhibited stronger UV absorption than wolframite one.
ZHAO ChunleiHU YunshengZHUANG WeidongHUANG XiaoweiHE Tao
The new phosphor calcium magnesium chlorosilicate, codoped with Eu^2+ and Dy^3+, was synthesized with the help of the high temperature solid state reaction in reducing atmosphere. The excitation and emission spectra were very similar to that of Ca8Mg(SiO4)4Cl2 :Eu^2+, and the Dy^3+ concentration influenced the emission intensity of this phosphor. The intensity of Eu^2+ and Dy^3+ codoped CMSC was stronger than that of Eu^2+ singly doped CMSC. The emission spectrum of the Dy^3+ ion overlapped the absorption band of the Eu^2+ ion, indicating that an energy transfer from Dy^3+ to Eu^2+ took place in CMSC:Eu^2+, Dy^3+ phosphor. The mechanism of the energy transfer from Dy^3+ tO Eu^2+, in this phosphor, might be resonant energy transfer.
The Y-Eu oxalate precursor was prepared with a homogeneous precipitation method. And the additives, Na2CO3, S, NaCl or their combination, were introduced into the precursor to prepare Y2O3 :Eu^3+ red phosphors at 1000 1300 ℃ for 2 h. The effect of molten salts on particle size and luminescent intensity was studied. The experimental results showed that the complex molten salt (Na:CO3 + S + NaCl) was conductive to enhance the luminescent intensity of Y2O3 :Eu^3+. The emission intensity of the phosphor prepared with these additives at 1300 ℃ was about 45% higher than that of the one prepared without molten salt, and about 11% higher than that of the corresponding commercial phosphor. Meanwhile, the particle size of Y2O3 :Eu^3+ phosphor was controlled effectively with the molten salt.
Y2O3:Eu red phosphor for FED application was prepared by high temperature solid-state reaction. The In2O3 coating by precipitation method to the phosphor was applied and the analyses of XRD, Zeta potential, SEM, EDS and low voltage cathodoluminescence (CL) were conducted for investigating the coating effect. The results showed that In2O3 coating promoted the low voltage CL of the phosphor efficiently. The promotion was possibly due to the enhancement of the surface conductivity of the phosphor grains.
<正>Rare-earth ions have been regarded as a plentiful luminescence resource as they possess a great deal of ene...
Yunsheng Hu, Weidong Zhuang, Hongqi Ye(National Engineering Research Center for Rare Earth Materials, General Research Institute for NonferrousMetals, and Grirem Advanced Materials Co. Ltd., Beijing 100088, China
