Abstract
By using hydrothermal synthesis, a novel Yb3+/Ho3+ co-doped GdPO4 nanophosphors were prepared which shows both upconversion (UC) and downconversion (DC) with excellent luminescence properties. DC peaks were observed at ~460, ~550, ~650 and ~750 nm. By excitation at 300 nm, a very faint P-O charge transfer (CT) band of Ho3+ ions, as well as a tiny non-radiative resonance energy transfer was observed. It is discovered that GdPO4: Yb3+/Ho3+, an upconversion (UC) nanophosphor, enables the production and enhancement of luminescence on a vast scale. On strong 980 nm laser illumination, the upconversion emission spectra show a conspicuous expectant peak of the Ho3+ ion at ~550 and ~650 nm. This process yields high-quality nanocrystalline materials with sizes between a few to tens of nm range. Considering the results of the study at 300 nm excitation, GdPO4: Yb3+/Ho3+ produced a high quantum yield value. The findings are useful for creating efficient phosphors and it proves applications of nanophosphor materials covered by this method are numerous.
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