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publications, participating in conferences). Required skills: • Solid knowledge of heterogeneous catalysis, including the synthesis, physicochemical characterisation and catalytic evaluation of composite
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(DLS) and laser diffraction granulometry, alongside the surface properties of the particles — notably their electrokinetic charge, hydrophobic/hydrophilic balance, and surface chemical composition (FTIR
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modelling, both assisted by AI. The PhD candidate will have access to state-of-the-art research facilities and computational resources. He will be offered the opportunity to participate in in international
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. The main objective of the PhD project is to study the impact of auroral particle precipitation on Jupiter's atmospheric composition. The work will involve modeling the abundances of key chemical species in
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candidate will undertake the following activities: - Synthesis and characterization of catalysts: Develop hybrid materials (metals, oxides, or composites) optimized for the selective formation of aldehydes
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interior and surface (imaging, observations, analyses and modelling in the fields of geophysics, geochemistry and digital science) to environmental and palaeoenvironmental themes, employing experimental
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of both the filament and the substrate, pressure, gas phase precursor composition) with the film chemical structure and the resulting optical properties will be carried out. The DC candidate will be trained