摘要
Zn2Si O4︰Tb^3+, Zn2 Si O4︰Ce^3+, Zn2 Si O4︰Tb^3+, Ce^3+ phosphors were prepared by solidstate reaction at 1 150 ℃ for 2h under a weak reducing atmosphere. Moreover, the XRD patterns and photoluminescence spectra were recorded and the effects of Tb3+ and Ce3+ concentration on the luminescent properties of as-synthesized phosphors were investigated. The emission spectra under ultraviolet light(333 nm) radiation showed a dominant peak at 542 nm attributed to the 5D4→7F5 transition of Tb^3+, which was enhanced significantly(about 45 times) by the co-doping of Ce^3+, indicating that there occurred an efficient energy transfer from Ce^3+ to Tb^3+. According to the Dexter's energy transfer formula of multipolar interaction, it was demonstrated that the energy transfer between Ce3+ and Tb3+ was due to the electric dipolar-dipolar interaction of the resonance transfer.
Zn2Si O4︰Tb^3+, Zn2 Si O4︰Ce^3+, Zn2 Si O4︰Tb^3+, Ce^3+ phosphors were prepared by solidstate reaction at 1 150 ℃ for 2h under a weak reducing atmosphere. Moreover, the XRD patterns and photoluminescence spectra were recorded and the effects of Tb3+ and Ce3+ concentration on the luminescent properties of as-synthesized phosphors were investigated. The emission spectra under ultraviolet light(333 nm) radiation showed a dominant peak at 542 nm attributed to the 5D4→7F5 transition of Tb^3+, which was enhanced significantly(about 45 times) by the co-doping of Ce^3+, indicating that there occurred an efficient energy transfer from Ce^3+ to Tb^3+. According to the Dexter's energy transfer formula of multipolar interaction, it was demonstrated that the energy transfer between Ce3+ and Tb3+ was due to the electric dipolar-dipolar interaction of the resonance transfer.
基金
Funded by the National Natural Science Foundation of China(No.21171152)
the Natural Science Foundation of Hubei Province of China(No.2013CFB036)
the Science and Technology Project of Hubei Provincial Department of Education(No.B20083202)