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, the challenge is to develop active, selective, inexpensive, and recyclable catalysts. Thus, the aim of the PhD is to synthesize bimetallic nanoparticles, test them, for the first time, for the reductive
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will be to study the non-thermal plasma hydrogenation reaction of CO2, with a particular focus on understanding the reaction mechanisms at the plasma-catalyst interface, using in-situ infrared
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the BioFlexPV project, we will use a photoacid generator (PAG) acting as a catalyst to trigger the sol-gel process. In this project, we will design thin films using an integrated approach combining sol
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electrocatalysts. On the one hand, molecular catalysts (homogeneous or supported) have achieved very high selectivity at low overpotential, but have been mostly limited to the 2-electron generation of CO from CO2
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converting CO2 into valuable chemical like methanol. However, the available catalysts are often unselective and many products are obtained at the same time, significantly hindering industrial applicability One