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. The INSyGHT team is an emerging team within TIMC led by Dr Abdelkader Zebda and composed of three permanent researchers, an emeritus professor and a technician. In addition, the team includes four postdocs and
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%). One major factor in their unemployability is related to their specific difficulties in urban mobility. The SAMAP project, an interdisciplinary project involving two research centers, focuses
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hydrides (MH). Their formation is exothermic, while their decomposition is endothermic. The hydrogenation process causes embrittlement, leading to pulverization of the alloy. When MHs are used in large-scale
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path planning in three-dimensional space is needed to ensure seamless transitions between materials and structural elements. Addressing these challenges is crucial for advancing 3D/4D printing
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metal in the space between the NDs) or networks of 2D metal pads formed on the domains. Our team has good experience in the formation of hybrid nano-objects (organo-metallic) on the surface of water by
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of solubility of (C-O-H-N-S-P) volatile elements in silicate magma in the exotic Pressure-Temperature-Composition parameter space covered by exoplanetary systems. A priority is given to the solubility of H2 in
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being transported in ducts and pipes. There is significant pressure to reduce transport-related emissions, of which friction drag is a major constituent. On the other hand, enhancing the turbulent fluxes
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programme. Transposable elements (TEs) are defined as mobile genomic DNA sequences and are ubiquitous in all living organisms studied to date. These elements can constitute varying proportions
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knowledge of numerical methods - knowledge of free-surface flows, granular flows - proven experience in numerical simulation (finite elements, finite volumes, CFD, LES, etc.) - proficiency in basic scientific
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catalysis, such as enzymes or polyoxometalates (POMs), will be combined with metal–organic frameworks (MOFs) in order to stabilise and heterogenise these species. The syntheses will be carried out in