Synthesis, crystal structure, NMR data and thermogravimetrical properties of novel zirconium fluoride LiK10Zr6F35·2H2O |
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Authors: | Kseniya A. Gayvoronskaya Nina A. Didenko Arseny B. Slobodyuk Andrey V. Gerasimenko Valeriy Ya. Kavun |
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Affiliation: | Institute of Chemistry, Far Eastern Branch, Russian Academy of Sciences, 159, Prosp. 100-letya Vladivostoka, Vladivostok 690022, Russia |
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Abstract: | The synthesis and study (single crystal X-ray diffraction, thermogravimetry, IR- and NMR-spectroscopy) of a novel fluorozirconate LiK10Zr6F35·2H2O was performed. The structure of the compound is built from infinite chains ∞[Zr6F35]11−, in which Zr-polyhedra are linked to each other through common edges and vertices. The chains are surrounded by K and Li cations and H2O molecules. The compound dehydration occurs in the temperature range 453–543 K with maximal rate at 528 K. It was established that zirconium polyhedra chain fragments underwent reorientational motion starting to influence 19F NMR spectra at temperatures higher than 270 and 180 K in LiK10Zr6F35·2H2O and LiK10Zr6F35, respectively. Above 450–420 K all fluorine sites in both samples participate in fluorine translational diffusion by at least two diffusion paths. Isotropic 19F NMR chemical shifts from different site types were detected by MAS NMR in the range 125–171 ppm. |
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Keywords: | Fluorozirconate Chain structure Thermogravimetry Ionic mobility Phase transitions 19F and 1H NMR spectra |
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