Influence of microemulsion conditions on the VUV-excited luminescence and microstructures of Y3Al5O12: Eu3+ phosphors
Journal
Materials Chemistry and Physics
Journal Volume
124
Journal Issue
1
Pages
632-638
Date Issued
2010
Author(s)
Abstract
The effects of preparation conditions on the microstructures and luminescence properties of microemulsion derived YAG: Eu3+ phosphors are investigated in this study. Both the emission spectra and EXAFS results reveal that the local environment of Eu3+ ions becomes more symmetric with increasing calcination temperatures. The symmetric environment of Eu 3+ ions in the host results in increased emission intensity of the 5D0 ¡÷ 7F1 transition. The particle sizes of YAG: Eu3+ phosphors markedly reduce with decreased water content in the microemulsion system. The powders with reduced particle size exhibit strong luminescence intensity because of reduction in the non-radiative probability. For preparing bright YAG: Eu3+ phosphors via the microemulsion route, the water-to-oil volume ratio and calcination conditions need to be well controlled. ? 2010 Elsevier B.V. All rights reserved.
Subjects
Garnet
Microemulsion
Nanoparticles
Phosphors
Synthesis
SDGs
Type
journal article