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The nanocrystals have been synthesized using the modified Pechini method. This method should be applicable to any polymer that can be dissolved in a solvent that is compatible with these template membranes. Methods Synthesis of nanocrystals (Er,Yb):Lu2O3 nanocrystals were synthesized using the modified Pechini method, as described in our previous studies [17, 18]. The starting materials were Er2O3 (99.9%; Sigma-Aldrich Corporation, St. Louis, MO, USA), Yb2O3 (99.999%, Sigma-Aldrich Corporation) and Lu2O3

(99.9999%, METALL Rare Earth Limited, Shenzhen, China), and these were mixed to obtain stoichiometric products of 25 at.% Er and 25 at.% Yb:Lu2O3. To synthesize the nanocrystals, rare-earth oxides were first converted to nitrates by dissolving them with HNO3 (65%; Merck AG, Darmstadt, Belnacasan Germany) under stirring and heating. Ethylenediaminetetraacetic acid (EDTA) was then added, taking into account the molar ratio C M = (EDTA / Metal) = 1, and

a solution of metal-EDTA complexes was obtained. Ethylene glycol (EG) was subsequently added to the solution with a molar ratio of C E = (EDTA / EG) = 2, and the precursor resin was formed through the esterification reaction Selumetinib price while the solution was heated to about 363 K. Finally, the viscous gel obtained was calcinated at 1,073 K in air atmosphere to obtain the (Er,Yb):Lu2O3 nanocrystals. The C M ratio, C E ratio, and calcination temperature were already optimized in a previous study. Synthesis of PMMA microcolumns Macroporous silicon template was prepared by electrochemical etching of p-type silicon wafers with a resistivity of 10 to 20 Ω cm in a mixed solution of HF/DMF (1:10; hydrofluoric acid/dimethylformamide)

at room temperature with a current density of 10 mA/cm2[19, 20]. Figure 1d,e shows the macroporous silicon template obtained with a pore diameter of approximately 1 μm and pore depth of 90 μm. Polymer microcolumns using learn more silicon templates were fabricated by vacuum infiltration of 5 to 7wt.% of (Er,Yb):Lu2O3 nanocrystals embedded in 15 wt.% poly(methyl) methacrylate in toluene. The technique was an infiltration by putting a drop of the solution on top of the sample located under vacuum (Figure 1a,b,c). The samples were heated at 383 K for 3 h, Selonsertib cell line followed by immersion into 40-wt.% KOH (2 M) at 40°C in order to remove the silicon template [21]. Figure 1 Schematic diagram of the experimental procedure and photographs of the silicon template. (a, b, c) Schematic diagram of the experimental procedure for obtaining microcolumns using a disordered silicon template. Photographs of the silicon template: (d) general top view and (e) cross section. Characterization techniques X-ray diffraction measurements were performed using a Bruker-AXS D8-Discover (Karlsruhe, Germany) diffractometer with a parallel incident beam (Göbel mirror) and a vertical goniometer, with a 0.02° receiving slit and a scintillation counter as a detector.

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