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thesis supervisors (C. Clavaguéra, thesis director, and C. Humbert, co-thesis director). The chemical and physical processes that occur on metallic and semiconductor nanoparticles can be exploited for a
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building blocks. In the consortium SIGSYNCELL, we want to develop synthetic cells as systems having the key characteristics function of living systems: their capacity to interact with their environment. In a
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electrocatalytic Cu-based nanoparticles for the conversion of spillover CO molecules from the first layer into C2+ products. Moreover the use of conductive metal-organic porous layer functionalized with CO2
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of polymers and self-assembled systems with applications in materials science and life sciences (energy, cosmetics, environment, biomedical, food processing, …). It is the largest research center in this field