The optical properties of one mono-substituted polyacetylene and two di-substituted polyacetylenes have been investigated. Each of the substituted polyacetylenes bears a carbazole unit in the side chain. In spite of t...The optical properties of one mono-substituted polyacetylene and two di-substituted polyacetylenes have been investigated. Each of the substituted polyacetylenes bears a carbazole unit in the side chain. In spite of the differences in their molecular structures, the dilute solutions(about 1×10-6 M) of these substituted polyacetylenes exhibit the same absorptions and deep-blue emissions(about 360 nm). Interestingly, the absorption and emission spectra of these substituted polyacetylenes are similar to those of the small molecule carbazole. As the concentration of the substituted polyacetylenes increases to about 1×10-6 M, we have detected intense blue emissions at about 475 nm. Our results indicate that the absorption, the deep-blue emission(about 360 nm) and the intense blue emission(about 475 nm) originate from the carbazole chromophores in the side chain.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
基金The Project Sponsored by the Scientific Research Foundation for the Returned Overseas Chinese Scholars ,State Education Ministry ,2005Natural Science Foundation of Guangdong Province(5300568)+1 种基金Key Scienceand Technology Research Foundation of State Education Ministry (206110)National Natural ScienceFoundation of China(10674091)
文摘The optical properties of one mono-substituted polyacetylene and two di-substituted polyacetylenes have been investigated. Each of the substituted polyacetylenes bears a carbazole unit in the side chain. In spite of the differences in their molecular structures, the dilute solutions(about 1×10-6 M) of these substituted polyacetylenes exhibit the same absorptions and deep-blue emissions(about 360 nm). Interestingly, the absorption and emission spectra of these substituted polyacetylenes are similar to those of the small molecule carbazole. As the concentration of the substituted polyacetylenes increases to about 1×10-6 M, we have detected intense blue emissions at about 475 nm. Our results indicate that the absorption, the deep-blue emission(about 360 nm) and the intense blue emission(about 475 nm) originate from the carbazole chromophores in the side chain.
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.
