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are minimally invasive, orally delivered medical devices that traverse the gastrointestinal tract, using electronic, mechanical, or smart material elements for diagnosis, therapy, surgery, or sampling
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of nanoparticles represents a versatile and scalable route towards the creation of new functional materials with well-defined structures on the nanoscale. Depending on their shape, surface chemistry, and
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understanding of the mechanisms that support their development in humans is therefore of major therapeutic interest. The aim of the thesis project is to decipher the cellular and molecular mechanisms supporting
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of the mechanism of the electro-conversion of isopropanol to acetone and, subsequently, to propose alternative catalysts (other than Pt-Ru) with improved stability. The computations will primarily be conducted using
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Chemistry and Microbiology Cluster (CME Cluster), whose research focuses on understanding the mechanisms (physico-chemical and (micro)biological) at different scales (from the molecule to the ecosystem
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will be performed at the Charles Gerhardt Institute of Montpellier (France) in the Macromolecular and Material Chemistry Department under the supervision of Dr. Camille Bakkali-Hassani Covalent Adaptable