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: The high costs of noble metal-based electro-catalysts, such as platinum and iridium, pose a challenge for the large-scale deployment of proton exchange membrane (PEM) electrolyzers (PEM technology) for
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Institut des sciences chimiques de Rennes UMR 6226, Université de Rennes 1 | Rennes, Bretagne | France | about 2 months ago
Feluy (https://feluy.totalenergies.be/node/110 ). The project is industrially-driven; it focuses on the development of new catalytic strategies for “dual site catalyst technology”, that is a system made
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development of these solutions, particularly catalyst degradation. We propose to develop a comprehensive model coupling all the phenomena required to simulate catalyst degradation during cycling at potentials
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at IFP Energies Nouvelles (Lyon, France) in Autumn 2024, under the supervision of Pascal Raybaud, for a duration of 12+6 months. Title: Computational screening of heterogeneous catalysts for the syngas
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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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. With this project we propose to design and investigate polyrylene-based antennae capable to perform singlet fission, and couple them to polypyridyl ruthenium catalysts, to tackle these challenges in
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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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selective catalysts for electro-driven hydrogenation reactions of unsaturated C-O bonds using molecular complexes and integrating the latter into functional electrodes. These reactions offer a pathway to
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Laboratoire de Génie Chimique - CNRS - Toulouse INP - UPS | Toulouse, Midi Pyrenees | France | about 1 month ago
, scalable and efficient route to epoxidize olefins using water as the oxygen source, bio-inspired catalysts and ionic liquids as conducting solvents under sono-electrochemistry. The direct transfer