摘要
A series of Eu^2+,Tb^3+-codoped Sr3 Y(PO4)3(SYP) green phosphors were synthesized by hightemperature solid-state reaction. Several techniques, such as X-ray diffraction, UV-vis spectrum,and photoluminescence spectrum, were used to investigate the obtained phosphors. The present study investigates in detail photoluminescence excitation and emission properties, energy transfer between the two dopants, and effects of doping ions on optical band gap. SYP:0.05 Eu2+ phosphor shows an intense and broad excitation band ranging from 220 to 400 nm and exhibits a bright green emission band with CIE chromaticity coordinates(0.189, 0.359) under 350 nm excitation. Green emission of SYP:0.03 Tb3+ is intensified by codoping with Eu^2+, and energy transfer mechanism between them is demonstrated to be a dipole-dipole interaction. Upon 350 nm excitation, SYP:Eu^2+,Tb^3+ phosphors exhibits two dominating bands peaking at 466 and 545 nm, which are assigned to 4 f^65 d^1→4 f^7 transition of Eu^2+ ions and ~5 D4→~7 F5 transition of Tb^3+ ions, respectively. Optimal doping concentrations of Eu^2+ and Tb^3+ in the SYP host are 5 mol% and 15 mol%, respectively. Results indicate that SYP:Eu^2+,Tb^3+ phosphors are potentially used as green-emitting phosphors for white light-emitting diodes.
A series of Eu^2+,Tb^3+-codoped Sr3 Y(PO4)3(SYP) green phosphors were synthesized by hightemperature solid-state reaction. Several techniques, such as X-ray diffraction, UV-vis spectrum,and photoluminescence spectrum, were used to investigate the obtained phosphors. The present study investigates in detail photoluminescence excitation and emission properties, energy transfer between the two dopants, and effects of doping ions on optical band gap. SYP:0.05 Eu2+ phosphor shows an intense and broad excitation band ranging from 220 to 400 nm and exhibits a bright green emission band with CIE chromaticity coordinates(0.189, 0.359) under 350 nm excitation. Green emission of SYP:0.03 Tb3+ is intensified by codoping with Eu^2+, and energy transfer mechanism between them is demonstrated to be a dipole-dipole interaction. Upon 350 nm excitation, SYP:Eu^2+,Tb^3+ phosphors exhibits two dominating bands peaking at 466 and 545 nm, which are assigned to 4 f^65 d^1→4 f^7 transition of Eu^2+ ions and ~5 D4→~7 F5 transition of Tb^3+ ions, respectively. Optimal doping concentrations of Eu^2+ and Tb^3+ in the SYP host are 5 mol% and 15 mol%, respectively. Results indicate that SYP:Eu^2+,Tb^3+ phosphors are potentially used as green-emitting phosphors for white light-emitting diodes.
基金
Project supported by the National Natural Science Foundation of China(61664002)
the Natural Science Foundation of Guangxi Province(2016GXNSFDA380036)
