Defects and persistent luminescence in Eu-doped SrAl2O4
Abstract
We investigate native point defects and rare-earth (co)dopants in SrAl2O4 using hybrid density-functional defect calculations. Europium (Eu) and dysprosium (Dy) are found to be mixed valence and energetically most favorable at the Sr lattice sites. However, unlike Eu where both Eu2+ and Eu3+ can be realized in synthesis, Dy is stable predominantly as Dy3+, and the divalent Dy2+ may only be photogenerated under irradiation. On the basis of an analysis of Eu-related band-defect (including charge-transfer) and interconfigurational 5d-4f optical transitions, we assign the characteristic broad blue (445 nm) and green (520 nm) emission bands in Eu2+-doped SrAl2O4 to the 4f65d1 → 4f7 transition in Eu2+ incorporated at the Sr1 and Sr2 sites, respectively. Strontium interstitials (not oxygen vacancies, in contrast to what is commonly believed) and Dy Sr can act as efficient electron traps for room-temperature persistent luminescence. This work calls for a re-assessment of certain assumptions regarding specific carrier trapping centers made in all mechanisms previously proposed for the persistent luminescence in Eu- and (Eu,Dy)-doped SrAl2O4. It also serves as a methodological template for the understanding and design of rare-earth doped phosphors.
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