Hydrothermal Synthesis of Ultra-high Aspect Ratio β-NaYF Disks via Methyliminodiacetic Acid (MIDA)

Abstract

The hexagonal β-phase of sodium yttrium fluoride (NaYF) is a leading host material for lanthanide upconversion and anti-Stokes fluorescence laser refrigeration based on its low phonon energies and high upconversion efficiency. Recently experiments have been proposed to use this material as an optically-levitated sensor of high-frequency gravitational waves. In order to maximize signal-to-noise in this experiment, the NaYF sensor must have both a two-dimensional, disk-like morphology and also a large mass. Here we report a novel hydrothermal process based on the chelation ligand methylimidodiacetic acid (MIDA) to realize hexagonal β-NaYF prisms with corner-to-corner diameters up to 44 μ m while keeping the height around 1 μ m. The surface quality is comparable to particles synthesized with EDTA based on atomic force microscopy (AFM) measurements. Unlike particles synthesized with EDTA the β-NaYF particles show no lensing based on curvature of the hexagonal basal plane. Single crystal X-ray diffraction data were refined to the P-62c (#190) space group which to the best of our knowledge has not been reported in the literature. One of six 44 μ m β-NaYF disks doped with 10% ytterbium showed laser refrigeration of (-4.9 1.0) K suggesting future applications in both levitated optomechanics and microoptics.

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