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understand the assembly mechanisms. The catalytic properties of these composites will then be investigated. Ultimately, if these materials demonstrate high performance in terms of yield, selectivity and
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and draping singularities resulting from the manufacturing process on the thermomechanical damage and permeability of thermoplastic composites used for liquid hydrogen storage. With the energy
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blades with ceramic matrix composites (CMCs), which combine lightness, thermomechanical strength, and damage tolerance depending on the choice of the various constituents that compose them. Replacing
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hybrid systems combining DES and conventional extractants with a view to achieving synergies in terms of efficiency. • Optimize operating conditions (ultrasound, microwave activation) to improve
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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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(zeolite structure, texture, composition) that optimize the properties of the photocatalysts and to demonstrate their efficiency in solar-to-hydrogen conversion. Main missions • Design the setup
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properties, its direct use in high-performance applications remains limited. FLIGHT addresses this gap by developing eco-friendly processes to transform lignin into composites, membranes, and insulation panels
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for manufacturing chiral metal nanoclusters of different sizes, metal compositions and degrees of chirality (intrinsic and induced). The main objective is to use the nanoclusters designed both as multiphoton imaging
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composition of lipids and proteins. Importantly, lipids and proteins are not static, they diffuse due to thermal agitation and can be actively reorganized by cellular processes. This dynamic heterogeneity
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work is part of a study of different strategies for manufacturing chiral metal nanoclusters of different sizes, metal compositions and degrees of chirality (intrinsic and induced). The main objective