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- Biogéosciences, UMR6282 CNRS/Université de Bourgogne
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Field
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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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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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involve rewriting new reconstruction algorithms so that they can be run on heterogeneous platforms, i.e. systems where a traditional processor (CPU) is coupled with an accelerator (e.g. a GPU). The PhD
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of the interconnection (large size, degraded communication, live-machine interface, etc.) of intrinsically complex and heterogeneous systems. To meet these challenges, traditional design methods based on simulation and a
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Mines Paris - PSL, Centre PERSEE | Sophia Antipolis, Provence Alpes Cote d Azur | France | 3 months ago
of local energy production and demand using multiple heterogeneous data sources" Context and background: Short-term energy forecasting for the next minutes to days ahead, is a prerequisite for the economic
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the thermodynamic equilibrium value. The development of new heterogeneous catalysts, with reduced quantities or even without noble metals, which guarantee high activity under mild conditions is therefore necessary
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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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: Noémie Lalaoui and Carole Duboc Project Description: The project aims to develop efficient and selective catalysts for electro-driven hydrogenation reactions of unsaturated C-O bonds using iron-based
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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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(wave propagation in complex fluid and solid media). Thesis context : The design of industrial structures made of heterogeneous materials is based on increasingly powerful numerical tools. However, these