Doping concentration of Eu^(3+) as a fluorescence probe for phase transformation of zirconia

Doping concentration of Eu^(3+) as a fluorescence probe for phase transformation of zirconia

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摘要 The Eu^3＋-Y^3＋ double-doped ZrO2 （8YSZ：Eu^3＋） phosphors with different doping concentrations of Eu^3＋ were synthesized by hydrothermal method. The dependences of the intensities of visible emission, decay lifetimes and crystal structures on Eu^3＋ doping concentration were investigated. The optimal doping concentration of Eu^3＋ in 8YSZ：Eu^3＋ nanophosphors was determined. The morphology and crystal structure of the resulting phosphors were characterized by scanning electron microscopy, transmission electron microscopy, X-ray diffraction and Raman spectra. The fluorescence properties of the resulting phosphors were investigated by photoluminescence spectra and decay curve. In this paper, 3 mol.% Eu^3＋ ions in 8YSZ：Eu^3＋ phosphors was the optimal doping concentration. When doping concentration was 3 tool.%, the nanophosphor had a pure tetragonal phase structure, the emission intensity was intense and decay lifetime was long, furthermore this system could be used to indicate the extent of phase transformation of thermal barrier coatings. The Eu^3＋-Y^3＋ double-doped ZrO2 （8YSZ：Eu^3＋） phosphors with different doping concentrations of Eu^3＋ were synthesized by hydrothermal method. The dependences of the intensities of visible emission, decay lifetimes and crystal structures on Eu^3＋ doping concentration were investigated. The optimal doping concentration of Eu^3＋ in 8YSZ：Eu^3＋ nanophosphors was determined. The morphology and crystal structure of the resulting phosphors were characterized by scanning electron microscopy, transmission electron microscopy, X-ray diffraction and Raman spectra. The fluorescence properties of the resulting phosphors were investigated by photoluminescence spectra and decay curve. In this paper, 3 mol.% Eu^3＋ ions in 8YSZ：Eu^3＋ phosphors was the optimal doping concentration. When doping concentration was 3 tool.%, the nanophosphor had a pure tetragonal phase structure, the emission intensity was intense and decay lifetime was long, furthermore this system could be used to indicate the extent of phase transformation of thermal barrier coatings.

作者惠宇赵素梅胥佳颖朱玲周鑫邹兵林王盈曹学强

机构地区 State Key Laboratory of Rare Earth Resource Utilization Graduate School of University of Chinese Academy of Sciences Hunan Provincial Key Laboratory of Material Protection for Electric Power and Transportation

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2015年第7期717-725,共9页 稀土学报（英文版）

基金 Project supported by National Natural Science Foundation of China(21171160,21001017) the Project of Lotus Scholars Program

关键词 optical materials HYDROTHERMAL crystal structure FLUORESCENCE rare earths optical materials hydrothermal crystal structure fluorescence rare earths

分类号 O657.3 [理学—分析化学]

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2015年第7期

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Doping concentration of Eu^(3+) as a fluorescence probe for phase transformation of zirconia

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