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of a range of polyols derived from waste cooking oils. - Synthesis of polyurethanes from selected polyols. - Characterisation of the structures and properties of the obtained polyols and polymers (NMR
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(flash, HPLC), distillation, etc.) - Perform routine characterization of prepared products (NMR, mass spectrometry, etc.) - Participate in progress meetings and report writing - Take part in collective
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of the nuclear fuel cycle • Knowledge of uranium and fluorine chemistry • Ability to use multiple material characterization techniques (XRD, NMR, EPR, IR and Raman spectroscopies…) • Intellectual rigor and
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of oxygenated organic compounds in an H cell, with analysis of the reaction products by HPLC, NMR, MS, etc. - Bibliographic review and technology watch on the subject; - Development of nickel-based nanomaterials
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synthesis (main task) - Characterization of the synthesized complexes by NMR, UV-visible, IR, XRD, EPR and any appropriate analytical mean (main task) - Study of the reactivity of synthesized complexes
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polymerization and electropolymerization. The structures will be confirmed, for example, by 1H and 13C NMR titration, FTIR, mass spectrometry, UV-vis and fluorescence spectroscopy, electrochemistry, size exclusion
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facilities also include: two photoreactors with lamps of varying intensity and spectra (6 W white LEDs, Kessil lamps at 390 nm, 440 nm, and 467 nm at 45 W), a 400 MHz multi-nuclear NMR spectrometer, an X-ray
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experience in synthetic chemistry, particularly organic synthesis (ligand synthesis) and coordination chemistry • Molecular characterization techniques (NMR, MS, IR, UV/Vis, etc.) • Working under inert
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an asset. - Knowledge: The successful candidate must be able to independently characterize their intermediate and final compounds (structural characterization by NMR, IR, and Mass spectrometry in particular