A highly intense green-emitting phosphor of Eu2+-doped Sr4Al14O25 (SAE:Eu2+) was synthesized by a solid state reaction. In this study, XRD, PL/PLE, QE, thermal stability and LED package tests are systematically c...A highly intense green-emitting phosphor of Eu2+-doped Sr4Al14O25 (SAE:Eu2+) was synthesized by a solid state reaction. In this study, XRD, PL/PLE, QE, thermal stability and LED package tests are systematically carried out and investigated. The optimized-composition of (Sro 92Eu0.08)4Al14025 exhibited a green emission peak at 497 nm under excitation wavelength of 400 nm, giving the chromaticity coordinates of (0.14, 0.35) with excellent quantum efficiency (98%) compared to those of other green-commodities, such as Ba2SiO4:Eu2+ (90%) and BaMgAl10O17:EU2+, Mn2+ (92%). The results demonstrated that SAE:Eu2+ could be a potential candidate as the NUV-pumping phosphor for applications in light-emitting diodes (LEDs).展开更多
A green-emitting phosphor Ca(Tb1-xLax)4(SiO4)3O (CTLS) was synthesized by a solid state reaction. X-ray diffraction, photoluminescence (PL) spectroscopy, reflectance spectra and chromaticity coordinates were c...A green-emitting phosphor Ca(Tb1-xLax)4(SiO4)3O (CTLS) was synthesized by a solid state reaction. X-ray diffraction, photoluminescence (PL) spectroscopy, reflectance spectra and chromaticity coordinates were carried out in this study. The CaTb4(SiO4)3O host has been known to crystallize in a hexagonal structure with disordering found in the Ca2+ and Tb3+ cation sites. The phosphors exhibited highly green-emitting band centered at 541 nm under ultraviolet excitation, which corresponds to the 5D4→7F5 transition. The optimal doping concentration of Tb3+ was observed to be at 20 mol%, and the PL intensity was found to decline dramatically when the content of Tb3+ exceeds 20m01% due to concentration quenching. Based on the results, we are currently evaluating the potential application of Ca(Tb,La)4(SiO4)30 as a new green-emitting near-UV LED convertible phosphor.展开更多
A new kind of glass-ceramic phosphor, which contains crystalline phases with green emissions, is explored. The glassceramic is prepared through semi-melt-quenching procedure with a nominal composition of (Ca0.99Eu0.0...A new kind of glass-ceramic phosphor, which contains crystalline phases with green emissions, is explored. The glassceramic is prepared through semi-melt-quenching procedure with a nominal composition of (Ca0.99Eu0.01)3Si2O7. The greenemitting crystals are precipitated and identified to be β-Ca2SiO4: Eu2+ which is responsible for 510 nm-peaked much broader band emissions holding at 1550 ℃ for half an hour. In terms of the available light scattering theory, the appearance of opaque is discussed by closely associating with size and morphology of luminous β-Ca2SiO4 crystalline phase in glass.展开更多
文摘A highly intense green-emitting phosphor of Eu2+-doped Sr4Al14O25 (SAE:Eu2+) was synthesized by a solid state reaction. In this study, XRD, PL/PLE, QE, thermal stability and LED package tests are systematically carried out and investigated. The optimized-composition of (Sro 92Eu0.08)4Al14025 exhibited a green emission peak at 497 nm under excitation wavelength of 400 nm, giving the chromaticity coordinates of (0.14, 0.35) with excellent quantum efficiency (98%) compared to those of other green-commodities, such as Ba2SiO4:Eu2+ (90%) and BaMgAl10O17:EU2+, Mn2+ (92%). The results demonstrated that SAE:Eu2+ could be a potential candidate as the NUV-pumping phosphor for applications in light-emitting diodes (LEDs).
文摘A green-emitting phosphor Ca(Tb1-xLax)4(SiO4)3O (CTLS) was synthesized by a solid state reaction. X-ray diffraction, photoluminescence (PL) spectroscopy, reflectance spectra and chromaticity coordinates were carried out in this study. The CaTb4(SiO4)3O host has been known to crystallize in a hexagonal structure with disordering found in the Ca2+ and Tb3+ cation sites. The phosphors exhibited highly green-emitting band centered at 541 nm under ultraviolet excitation, which corresponds to the 5D4→7F5 transition. The optimal doping concentration of Tb3+ was observed to be at 20 mol%, and the PL intensity was found to decline dramatically when the content of Tb3+ exceeds 20m01% due to concentration quenching. Based on the results, we are currently evaluating the potential application of Ca(Tb,La)4(SiO4)30 as a new green-emitting near-UV LED convertible phosphor.
基金supported by the National Natural Science Foundation of China(Nos.50872091 and 21076161)the Key Discipline of Materials Physics and Chemistry of Tianjin(Nos.2006ZD30 and 10SYSYJC28100)
文摘A new kind of glass-ceramic phosphor, which contains crystalline phases with green emissions, is explored. The glassceramic is prepared through semi-melt-quenching procedure with a nominal composition of (Ca0.99Eu0.01)3Si2O7. The greenemitting crystals are precipitated and identified to be β-Ca2SiO4: Eu2+ which is responsible for 510 nm-peaked much broader band emissions holding at 1550 ℃ for half an hour. In terms of the available light scattering theory, the appearance of opaque is discussed by closely associating with size and morphology of luminous β-Ca2SiO4 crystalline phase in glass.
