摘要
Europium(Ⅲ)-doped YFis prepared by a hydrothermal process at 200℃.X-ray diffraction(XRD) pattern identifies the formation of YFphase without detectable impurity.Environment scanning electron microscopy(ESEM) image shows the even size distribution of the samples with cubic morphology.The excitation and emission spectra of the rare earth ions doped YFare investigated by fluorescence spectrophotometer.The excitation spectrum for 591 nm emission has several excitation bands at 320, 365,386,397 and 467 nm,and the main peak value was 397 nm.Typical Euemission peaks at 591 nm(~5D→~7F) and 612 nm (~5D→~7F) are observed when excited by 397 nm,and the strongest emission is 591 nm,demonstrating that the rare earth ions occupy the centrosymmetrical sites in YF.
Europium(Ⅲ)-doped YF_(3) is prepared by a hydrothermal process at 200℃.X-ray diffraction(XRD) pattern identifies the formation of YF_(3) phase without detectable impurity.Environment scanning electron microscopy(ESEM) image shows the even size distribution of the samples with cubic morphology.The excitation and emission spectra of the rare earth ions doped YF_(3) are investigated by fluorescence spectrophotometer.The excitation spectrum for 591 nm emission has several excitation bands at 320, 365,386,397 and 467 nm,and the main peak value was 397 nm.Typical Eu^(3+) emission peaks at 591 nm (^(5)D_(0)→^(7)F_(1)) and 612 nm (^(5)D_(0)→^(7)F_(2)) are observed when excited by 397 nm,and the strongest emission is 591 nm,demonstrating that the rare earth ions occupy the centrosymmetrical sites in YF_(3).
基金
supported by the National Natural Science Foundation of China(No.50702057)
the Natural Science Foundation of Zhanjiang Normal University(No.L0604)
