Preparation and Long Persistence Red Luminescence of M0.2Ca0.8TiO3∶Pr3+(M=Mg2+,Sr2+,Ba2+,Zn2+)
来源期刊:JOURNAL OF RARE EARTHS2004年第1期
论文作者:张希艳 米小云 姜薇薇 胡景洁 肖志义 程光
Key words:optics; long persistence; red phosphors; M0.2Ca0.8TiO3∶Pr3+; rare earths;
Abstract: M0.2Ca0.8TiO3∶Pr3+(M=Mg2+, Sr2+, Ba2+, Zn2+) long persistence red phosphors were prepared by solid state reaction. The influence of the partially replacing Ca2+ in CaTiO3 with Mg2+, Sr2+, Ba2+, Zn2+ on the excitation spectra, the emission spectra and the long persistence properties were studied. The results suggest that certain quantity of Mg2+, Sr2+, Ba2+, Zn2+ which partially replace Ca2+ can enhance the luminescent intensity and prolong the afterglow persistence of the samples. The intensity of Mg0.2Ca0.8TiO3∶Pr3+ is above all of the samples. Take Mg0.2Ca0.8TiO3∶Pr3+ as the basic sample, the influence of Pr3+ concentrations(C(Pr3+)) on the long afterglow properties were also studied. The results suggest that when the C(Pr3+) is 0.10%(mol fraction) the intensity of the sample is the highest. The excitation spectra of all these samples show broad band spectra ranging from 300~500 nm peaking at about 342 nm. The emission spectra also exhibit a broad band peaking at 613 nm(CaTiO3∶Pr3+ is 612 nm). XRD research indicates that the crystalline phases change due to the replacement of divalent metal ions.The research on the thermoluminescence spectra of Mg0.2Ca0.8TiO3∶Pr3+ indicates that the peak is at 107.35 ℃ and the depth of the trap energy is about 0.852 eV.
张希艳1,米小云1,姜薇薇1,胡景洁1,肖志义1,程光1
(1.School of Materials and Chemical Engineering, Changchun University of Science and Technology, Changchun 130022, China)
Abstract:M0.2Ca0.8TiO3∶Pr3+(M=Mg2+, Sr2+, Ba2+, Zn2+) long persistence red phosphors were prepared by solid state reaction. The influence of the partially replacing Ca2+ in CaTiO3 with Mg2+, Sr2+, Ba2+, Zn2+ on the excitation spectra, the emission spectra and the long persistence properties were studied. The results suggest that certain quantity of Mg2+, Sr2+, Ba2+, Zn2+ which partially replace Ca2+ can enhance the luminescent intensity and prolong the afterglow persistence of the samples. The intensity of Mg0.2Ca0.8TiO3∶Pr3+ is above all of the samples. Take Mg0.2Ca0.8TiO3∶Pr3+ as the basic sample, the influence of Pr3+ concentrations(C(Pr3+)) on the long afterglow properties were also studied. The results suggest that when the C(Pr3+) is 0.10%(mol fraction) the intensity of the sample is the highest. The excitation spectra of all these samples show broad band spectra ranging from 300~500 nm peaking at about 342 nm. The emission spectra also exhibit a broad band peaking at 613 nm(CaTiO3∶Pr3+ is 612 nm). XRD research indicates that the crystalline phases change due to the replacement of divalent metal ions.The research on the thermoluminescence spectra of Mg0.2Ca0.8TiO3∶Pr3+ indicates that the peak is at 107.35 ℃ and the depth of the trap energy is about 0.852 eV.
Key words:optics; long persistence; red phosphors; M0.2Ca0.8TiO3∶Pr3+; rare earths;
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