ACTA

Micro and Nanocrystalline LuPO₄(Ln³⁺: Nd, Pr) - Morphology, Luminescence and Inter-ionic Interplays

O. Bezkrovna^{a, b}, P. Zdeb^a, O. Bezkrovnyi^a, R. Lisiecki^a, P.J. Dereń^a
^aInstitute of Low Temperature and Structure Research, Polish Academy of Sciences, Okólna 2, 50-422 Wrocław, Poland
^bInstitute for Single Crystals, NAS of Ukraine, Nauky Ave. 60, 61001, Kharkiv, Ukraine

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The effect of dopants (Nd³⁺, Pr³⁺) introduced into micro and nanocrystals of LuPO₄ on their structural, morphological, and luminescent properties has been examined. The tetragonal structure of the synthesized phosphates was confirmed by means of an X-ray diffraction study. Transmission electron microscopy of LuPO₄ samples doped with 0-2% Pr³⁺ and 0-3% Nd³⁺ obtained by the microwave hydrothermal method showed the formation of the nanocrystalline samples with a size of 40-90 nm. Spectroscopic study of Lu_1-x-yPr_xNd_yPO₄ micro and nanocrystals showed that effective energy transfer occurs between the selected optically active ions. Due to significant ion-ion interactions in the co-doped orthophosphates, the contribution of nonradiative processes to the relaxation of the luminescent levels of praseodymium and neodymium effectively increases. The energy transfer in the micro and nanocrystals Lu_1-x-yPr_xNd_yPO₄ from Pr³⁺ ions to Nd³⁺ ions results in the efficient near-infrared emission in the region of the spectrum between 1064 and 1350 nm, whereas for Lu_1-x-yPr_xNd_yPO₄ nanocrystals doped with Pr³⁺ and Nd³⁺ ions, a particularly intense Nd³⁺ luminescence appears at 1064 nm. There is a significant impact of concentration of the Pr³⁺ and Nd³⁺ ions on near-infrared luminescence intensity of the studied Lu_1-x-yPr_xNd_yPO₄ phosphates. The relaxation dynamic of the neodymium metastable excited state is substantially sensitive to a variety of praseodymium admixtures, and inversely, the experimental lifetime of ¹D₂ Pr³⁺ emission level gradually decreases with increasing Nd³⁺ concentration.

DOI:10.12693/APhysPolA.144.263
topics: lutetium phosphate, microcrystals, nanocrystals, luminescent properties