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ABSTRACT
Lanthanide ion (Ln3+) doped Y2O3 materials are used in making display devices. Ln3+ ions can occupy C2 and S6 sites in Y2O3. In many reported papers, Ln3+ ions occupy more C2 site leading to enhanced luminescence intensity of electric dipole transition as compared to that of magnetic dipole transition. In this study, we have prepared Eu3+ ion doped Y2O3 particles dispersed in silica (SiO2) using urea hydrolysis at 165°C. Among the prepared samples lower heated sample show cubic phase Y2O3 wherease 1400oC show α-Y2Si2O7 and all the samples show the luminescence characteristics of Eu3+. In Y2O3:Eu-SiO2, the as-prepared, 500 and 900°C heated samples show the higher luminescence intensity for the electric dipole transition than that of magnetic dipole transition and it is opposite upon annealed at 1400°C. It confirms that Eu3+ ions in as-prepared, 500 and 900°C heated samples occupy C2 site (asymmetric environment), whereas in 1400°C heated sample, they occupy the S6 site (symmetric environment). However, microparticles of the Y2O3:Eu sample annealed at 1400°C show that Eu3+ ions occupy more C2 site as compared to the S6 site. This study suggests that occupancy of C2 and S6 sites in Y2O3 by Eu3+ ions can be varied by surrounding medium as well as heat-treatment temperature.
Acknowledgments
The author thanks Dr. R.S. Ningthoujam, Chemistry Division, BARC Mumbai, for his kind cooperation and suggestions while preparing this manuscript.
Disclosure statement
There is no conflict of interest in this artilcle.
Supplementary material
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