By heat treating the alkaline earth fluorosilicate glass, transparent glass ceramics containing alkaline earth fluoride nanocrystallites were prepared. The luminescence spectra and phonon sideband associated with the ...By heat treating the alkaline earth fluorosilicate glass, transparent glass ceramics containing alkaline earth fluoride nanocrystallites were prepared. The luminescence spectra and phonon sideband associated with the Eu^3+:^5D2→^7F0 in glass and glass ceramics were investigated to analyze the local environment around Eu^3+. Judd-Ofelt parameters were also calculated from emission spectra, which indicated that the Eu^3+ ions entered the precipitated CaF2, SrF2, and BaF2 nanocrystallites. Heat treating could not pledge Eu^3+ ions to coordinate with F^- in the precipitated MgF2 nanocrystallites, owing to the smaller radius of Mg^2+ than that of Eu^3+.展开更多
基金supported by the Science and Technology Department of Zhejiang Province (2006C14010)the Chinese-French Cooperation Programs (MX 07-01)
文摘By heat treating the alkaline earth fluorosilicate glass, transparent glass ceramics containing alkaline earth fluoride nanocrystallites were prepared. The luminescence spectra and phonon sideband associated with the Eu^3+:^5D2→^7F0 in glass and glass ceramics were investigated to analyze the local environment around Eu^3+. Judd-Ofelt parameters were also calculated from emission spectra, which indicated that the Eu^3+ ions entered the precipitated CaF2, SrF2, and BaF2 nanocrystallites. Heat treating could not pledge Eu^3+ ions to coordinate with F^- in the precipitated MgF2 nanocrystallites, owing to the smaller radius of Mg^2+ than that of Eu^3+.
