D. Millers scite author profile

Ever since the discovery of SrAl2O4:Eu,Dy persistent afterglow material, that can intensively glow up to 20 h, the mechanism of long-lasting luminescence has been a popular area of research. The research is focused on discovering the mechanism of persistent luminescence in order to prolong the duration and intensity of afterglow in a controlled way. Although most researchers agree on the general things, there are still many unclarities and ambiguities to discuss upon. This review paper briefly sketches in the highlights of past research on the luminescence mechanism in SrAl2O4:Eu,Dy, mainly focusing on the research conducted in the past decade dedicated to clearing these ambiguities. This paper provides an overview of the latest persistent luminescence mechanisms offered by researchers.

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Europium doped zirconia luminescence

Šmits

et al. 2010

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Up-conversion luminescence dependence on structure in zirconia nanocrystals

et al. 2013

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Doped zirconia phase and luminescence dependence on the nature of charge compensation

Šmits

Olsteins

Zolotarjovs

et al. 2017

Sci Rep

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Zirconia is a relatively new material with many promising practical applications in medical imaging, biolabeling, sensors, and other fields. In this study we have investigated lanthanide and niobium doped zirconia by luminescence and XRD methods. It was proven that charge compensation in different zirconia phases determines the incorporation of intrinsic defects and activators. Thus, the structure of zirconia does not affect the Er luminescence directly; however, it strongly affects the defect distribution around lanthanide ions and the way in which activator ions are incorporated in the lattice. Our results demonstrate the correlation between the crystalline phase of zirconia and charge compensation, as well as the contribution of different nanocrystal grain sizes. In addition, our experimental results verify the theoretical studies of metastable (tetragonal, cubic) phase stabilization determined using only oxygen vacancies. Moreover, it was found that adding niobium drastically increases activator luminescence intensity, which makes Ln3+ doped zirconia even more attractive for various practical applications. Although this study was based on the luminescence of the Er ion, the phase stabilization, charge compensation, and luminescence properties described in our results are expected to be similar for other lanthanide elements. Our results suggest that the luminescence intensity of other oxide matrices where lanthanides incorporate in place of tetravalent cations could be increased by addition of Nb ions.

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D. Millers

Intrinsic defect related luminescence in ZrO2

Recent progress in understanding the persistent luminescence in SrAl₂O₄:Eu,Dy

Europium doped zirconia luminescence

Up-conversion luminescence dependence on structure in zirconia nanocrystals

Doped zirconia phase and luminescence dependence on the nature of charge compensation

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D. Millers

Intrinsic defect related luminescence in ZrO2

Recent progress in understanding the persistent luminescence in SrAl2O4:Eu,Dy

Europium doped zirconia luminescence

Up-conversion luminescence dependence on structure in zirconia nanocrystals

Doped zirconia phase and luminescence dependence on the nature of charge compensation

Contact Info

Product

Resources

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Recent progress in understanding the persistent luminescence in SrAl₂O₄:Eu,Dy