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reasonable conversion at equilibrium. However, at low temperatures, the reaction kinetics are very slow and the actual conversion using the conventional industrial iron-based catalyst is well below
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identified as a possible means of producing “green” hydrogen on demand (reforming or catalytic dehydrogenation). One of the solutions proposed in the project is to directly heat the catalyst by combining
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of an atomic force microscope (AFM) as a model Brownian object in diverse chemically reactive environments, with or without a catalyst. Then, advection-diffusion coupling [1,2] observed in near-surface flows
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use the scientific platforms of the Grenoble Institute of Molecular Chemistry. https://dcm.univ-grenoble-alpes.fr/ Project Description: The project aims to develop efficient and selective catalysts
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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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ultimate objective, we aim at investigate the catalytic properties of these supported catalysts in the context of water electrolysis occurring in an alkaline environment. The researcher (M/F), recruited
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the acidity of the aggregates of HFIP molecules created by hydrogen bonds to form a supramolecular catalyst for non-reactive substrates. The student will develop new transformations to create C-C and C
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reactors for the oxidation of biomass. This post-doctorate research will also enable the scaling-up of catalyst synthesis. The candidate will work in Poitiers, at the Institut de Chimie des Milieux et
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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