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. - Chemical modification of natural macromolecules (click chemistry, grafting of photosensitive groups) - polymers shaping : pastes, sprays, and nanofibers (electrospinning) - Characterization
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, and mechanics. It studies the three main classes of materials: metals, ceramics, polymers, and their composites: integrating bulk, surface, and interface characteristics for applications in health
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polymer blending and colloidal lithography. Low-cost fabrication processes will be developed and optimized, and their performance will be analyzed using optical spectroscopy. Results will then be compared
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Transition-metal catalyzed cross-coupling reactions have transformed carbon-carbon bond formation in complex organic molecules, revolutionizing fields like pharmaceutical and agrochemical industries, polymers
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will rely on advanced rheophysical, microscopy, and microfluidic techniques, as well as on the use of natural polymers derived from biomass (pectin, cellulose, hemicellulose), whose properties will be
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, carbon-based films, PEDOT-type conducting polymer). Classical chemical, structural and morphological characterisation. Task II: Characterisation of ion transfer at the electrode/electrolyte interface using