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physical modelling to better understand the physical and chemical phenomena underlying plasmonic activity, with the goal of developing high-performance materials. In this context, the PhD student will be
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PhD position: Nanoengineering refractory compositionally complex alloys for extreme conditions (M/F)
funded 3-year PhD will be carried out at the Laboratoire des Sciences des Procédés et des Matériaux (LSPM/CNRS, France), in collaboration with the Department of Materials Science and Engineering at
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28 Mar 2026 Job Information Organisation/Company CNRS Department Matériaux Ingénierie et Science Research Field Engineering Physics » Acoustics Engineering » Materials engineering Researcher Profile
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this PhD research. Enzymes are highly efficient eco-friendly catalysts but often need immobilization on solid supports for practical use. Among the wide variety of materials available for enzyme
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of experienced researchers from CNRS, UL, Arts et métiers, IMT and CEA, as well as several PhD students and post-doctoral researchers, working on high-throughput material characterization and micromechanical
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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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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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doctoral research, supported by rigorous scientific supervision. The team hosting the PhD candidate is internationally recognized for its expertise in materials science and process engineering, particularly
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) and for variable compositions ranging from the most polymerised to the most depolymerised in order to determine the most suitable matrix formulation for immobilising selenium. Next, we will test