| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1487330 | Materials Research Bulletin | 2015 | 8 Pages |
•ZnTa2O6:Pr3+ was co-doped with Li+, Na+, K+ or Cs+ ions.•Phase pure samples were synthesised.•Enhancement of the persistent emission was achieved by co-doping.•Corresponding electron trapping centres were quantified by a TL reader.
Enhancement of the persistent emission was achieved by co-doping ZnTa2O6:Pr3+ with Li+, Na+, K+ or Cs+ ions. Phase pure samples were synthesised and it was confirmed by the X-ray diffraction pattern which matches that of the standard data. Incorporation of the co-dopant ions introduced strain into the phosphor, which increased with an increase in the ionic radius of the co-dopant ion. The scanning electron microscope image shows that the particles were agglomerated, and the surface images obtained using the Time of flight secondary ion mass spectroscopy showed that the dopant and the co-dopant ions in the phosphor were homogeneously distributed. The persistent emission was enhanced by the co-dopant ions as shown by the lifetime values calculated from the phosphorescence decay curves, and the corresponding electron trapping centres were quantified by thermoluminescence reader.
Graphical abstractThe incorporation of the alkali metals (Li, Na, K and Cs) as co-dopants in ZnTa2O6:Pr3+ phosphor improved the lifetime of the persistent emission by increasing the quantity of the electron trapping centres.Figure optionsDownload full-size imageDownload as PowerPoint slide
