摘要
New phosphors Sr2ZnSi2O7: M (M=Mn2+, Tb3+) were synthesized through solid-state reaction, and their photoluminescent properties under UV and VUV region were investigated. The results showed that Sr2ZnSi2O7:Mn2+ emitted green light with the strongest emission peak centered at 525 nm, and its quenching concentration under 254 and 147 nm excitation occurred at x = 0.08 and 0.06, respectively. Sr2ZnSi2O7: Th3+ emitted green light with the strongest emission peak centered at 541 nm, and its quenching concentration under 254 and 147 nm excitation also appeared at y = 0.25. At 147 nm excitation, the emission intensities of Sr2Zn0.54Si2O7: 0.06Mn2+ and Sr1.75ZnSi2O7: 0.25Tb3+ phosphors were 54% and 36% of that of Zn1.96SiO4:0.04Mn2+, respectively. And their decay times (τ1/e) were about 3.18 ms and 3.9 ms, respectively.
New phosphors Sr2ZnSi2O7: M (M=Mn2+, Tb3+) were synthesized through solid-state reaction, and their photoluminescent properties under UV and VUV region were investigated. The results showed that Sr2ZnSi2O7:Mn2+ emitted green light with the strongest emission peak centered at 525 nm, and its quenching concentration under 254 and 147 nm excitation occurred at x = 0.08 and 0.06, respectively. Sr2ZnSi2O7: Th3+ emitted green light with the strongest emission peak centered at 541 nm, and its quenching concentration under 254 and 147 nm excitation also appeared at y = 0.25. At 147 nm excitation, the emission intensities of Sr2Zn0.54Si2O7: 0.06Mn2+ and Sr1.75ZnSi2O7: 0.25Tb3+ phosphors were 54% and 36% of that of Zn1.96SiO4:0.04Mn2+, respectively. And their decay times (τ1/e) were about 3.18 ms and 3.9 ms, respectively.
基金
Funded by Key Project of Natural Science for Education Department of Sichuan Province(No.14ZA0102)
State Key Laboratory Cultivation Base for Nonmetal Composites and Functional Materials,Southwest University of Science and Technology,Mianyang
