Templating effect travelling on the edge between an ionic liquid and a DES: the case of fluorescent ZnO nanostructures in choline nitrate†

IF 5.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Advances Pub Date : 2025-03-05 DOI:10.1039/D5MA00030K

Lorenzo Gontrani, Lorenzo Casoli, Olga Russina, Elvira Maria Bauer and Marilena Carbone

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Abstract

In this study, the synthesis and characterization of novel fluorescent ZnO nanopowder are reported. The reaction medium used for the oxide precipitation procedure was choline nitrate, a compound that is a liquid molten salt at room temperature. The purity of the obtained ZnO was assessed through infrared spectroscopy studies and X-ray diffraction analyses; its morphology was observed under SEM, indicating the presence of nanometric spherical aggregates of hexagonal nanocrystals (d ≈ 23 nm), and the photoluminescence spectrum yielded a broad band in the yellow region (578 nm). All these properties were compared with those of ZnO nanoparticles synthesised in a nitrate-urea deep eutectic solvent, wherein the nanoparticles adopted bidimensional morphology; the XRD spectrum demonstrated a preferential orientation, and the fluorescence peak moved in the orange wavelength range. Thus, we show that the use of urea changes the system from an ionic liquid to a DES and promotes a switch in the template effect from 0D to 2D.

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