NaGd(MoO₄)₂ nanocrystals with diverse morphologies: controlled synthesis, growth mechanism, photoluminescence and thermometric properties

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Pure tetragonal phase, uniform and well-crystallized sodium gadolinium molybdate (NaGd(MoO₄)₂) nanocrystals with diverse morphologies, e.g. nanocylinders, nanocubes and square nanoplates have been selectively synthesized via oleic acid-mediated hydrothermal method. The phase, structure, morphology and composition of the as-synthesized products are studied. Contents of both sodium molybdate and oleic acid of the precursor solutions are found to affect the morphologies of the products significantly and oleic acid plays a key role in the morphology-controlled synthesis of NaGd(MoO₄)₂ nanocrystals with diverse morphologies. Growth mechanism of NaGd(MoO₄)₂ nanocrystals is proposed based on time-dependent morphology evolution and X-ray diffraction analysis. Morphology-dependent down-shifting photoluminescence properties of NaGd(MoO₄)₂: Eu³⁺ nanocrystals and upconversion photoluminescence properties of NaGd(MoO₄)₂: Yb³⁺/Er³⁺ and Yb³⁺/Tm³⁺ nanoplates are investigated in detail. Charge transfer band in the down-shifting excitation spectra shows a slight blue-shift and the luminescence intensities and lifetimes of Eu³⁺ are decreased gradually with the morphology of the nanocrystals varying from nanocubes to thin square nanoplates. Upconversion energy transfer mechanisms of NaGd(MoO₄)₂: Yb³⁺/Er³⁺, Yb³⁺/Tm³⁺ nanoplates are proposed based on the energy level scheme and power dependence of upconversion emissions. Thermometric properties of NaGd(MoO₄)₂: Yb³⁺/Er³⁺ nanoplates are investigated and the maximum sensitivity is determined to be 0.01333 K⁻¹ at 285 K.