机构地区:[1]School of Materials Science and Engineering, Hefei University of Technology [2]School of Electrical and Electronic Engineering, University of Science and Technology of Anhui [3]National Synchrotron Radiation Laboratory, University of Science and Technology of China
出 处:《Journal of Rare Earths》2017年第2期127-134,共8页稀土学报(英文版)
基 金:Project supported by the National High-Tech R&D Program(863 program)(2013AA03A114);the joint funding of National Natural Science Foundation of China and the Chinese Academy of Sciences(U1332133);the Science and Technology Program of Anhui Province of China(1301022062,1301022067);the Special Fund for Research and Development of the Hefei Institute(IMICZ2015112);the Fund of Beijing National Laboratory for Molecular Sciences(20140143);and the Key Discipline of Information and Communication Engineering of University of Science and Technology of Anhui(AKZDXK2015C02)
摘 要:In order to uncover the real origin of red luminescence from Sr_3Al_2O_6:Eu and the physical mechanisms that were involved in the dynamical process of luminescence, variant amount of Eu and Dy activated Sr_3Al_2O_6 phosphors were synthesized with the solid-state reaction and the combustion-assisted solid-state reaction, respectively, using the fine graphite powder or the mixed H^2+N_2gases as a reducing agent. The phase was examined with XRD analysis and the photoluminescence properties were characterized by a fluorescence spectrometer. Although the phosphors possessed the same Sr_3Al_2O_6 phase, different emission colors(red or green) were obtained, relying on synthesis conditions. The simultaneous existence of Eu^2+ and Eu^3+ was not only observed in the emission and excitation spectra, but also identified with the near edge X-ray absorption fine structure spectroscopy(NEXAFS).The mixed valence(higher than +2 and less than +3) of Eu may be related with the six different sites of Sr, whose effective valence ranged from +1.5058 to +2.2698, in the crystal lattice of Sr_3Al_2O_6 that could accommodate Eu. Moreover, the reduction of Eu^3+ to forming Eu^2+ depended on the amount of Eu^3+ or Dy^3+ doped, due to the different energy barrier in each site of Sr that Eu had to overcome. The residual Eu^3+, similar to the doped Dy^3+, played an important role in supplying the hole for Eu^2+ to form a bound trap(Eu^2+)* after excitation. During electron returning to the 4f^7 ground state of Eu^2+, the red luminescence was radiated. Therefore, the synergetic effects of Eu^2+ and Eu^3+(Dy^3+) produce red luminescence.In order to uncover the real origin of red luminescence from Sr_3Al_2O_6:Eu and the physical mechanisms that were involved in the dynamical process of luminescence, variant amount of Eu and Dy activated Sr_3Al_2O_6 phosphors were synthesized with the solid-state reaction and the combustion-assisted solid-state reaction, respectively, using the fine graphite powder or the mixed H^2+N_2gases as a reducing agent. The phase was examined with XRD analysis and the photoluminescence properties were characterized by a fluorescence spectrometer. Although the phosphors possessed the same Sr_3Al_2O_6 phase, different emission colors(red or green) were obtained, relying on synthesis conditions. The simultaneous existence of Eu^2+ and Eu^3+ was not only observed in the emission and excitation spectra, but also identified with the near edge X-ray absorption fine structure spectroscopy(NEXAFS).The mixed valence(higher than +2 and less than +3) of Eu may be related with the six different sites of Sr, whose effective valence ranged from +1.5058 to +2.2698, in the crystal lattice of Sr_3Al_2O_6 that could accommodate Eu. Moreover, the reduction of Eu^3+ to forming Eu^2+ depended on the amount of Eu^3+ or Dy^3+ doped, due to the different energy barrier in each site of Sr that Eu had to overcome. The residual Eu^3+, similar to the doped Dy^3+, played an important role in supplying the hole for Eu^2+ to form a bound trap(Eu^2+)* after excitation. During electron returning to the 4f^7 ground state of Eu^2+, the red luminescence was radiated. Therefore, the synergetic effects of Eu^2+ and Eu^3+(Dy^3+) produce red luminescence.
关 键 词:luminescence phosphor Sr_3Al_2O_6:Eu bond valence X-ray absorption fine structure spectroscopy(NEXAFS) trap
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