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of the enzymes immobilized at the electrochemical interface during catalysis, which is predicted by modeling. Therefore, it appears essential to obtain information with high spatio-temporal resolution
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chemistry (specializing in molecular chemistry) and/or a chemical engineering degree. The candidate should be motivated by organic synthesis methodology and homogeneous catalysis, and be able to use
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catalysts on electrodes, allowing for the benefits of homogeneous and heterogeneous catalysis to be combined. Methods and Materials: Inorganic synthesis, electrochemical characterization, catalytic reaction
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new class of optical probes for use in applications of catalysis and molecular recognition. Quantum confinement and plasmonic amplification in these luminescent objects allow one to simultaneously
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will be conducted at the CNRS within the Institute of Chemistry of Media and Materials of Poitiers (IC2MP - UMR CNRS 7285), in the "Catalysis and non-conventional media" team, under the responsability