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contemporary concerns, the development of eco-friendly transformations especially based catalysis with non-noble metal is a timely topic. Recently, our research group, “Synthesis of fluorinated molecules” in
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, including 180 permanent staff (researchers, professors, engineers, technicians, and administrative personnel) and around 180 non-permanent staff (PhD students, postdocs, and fixed-term contracts). Each year
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PostDocs, and several Ph.D. students. More in general, research at LAAS-CNRS spans robotics, optimization, control, telecommunications, and nano-systems. The robotics department at LAAS-CNRS counts more than
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advances is a very important element in this large-scale project. Website for additional job details https://emploi.cnrs.fr/Offres/CDD/UPR5301-ISACAL-137/Default.aspx Work Location(s) Number of offers
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Centre de Mise en Forme des Matériaux (CEMEF) | Sophia Antipolis, Provence Alpes Cote d Azur | France | about 2 months ago
-controlled on the level of the structural element. The objective of this PhD project is the fabrication of magnetic, bio-based, porous particles with tailored magnetic and mechanical properties. Magnetic iron
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supervision of Antoine Guichet, as part of the Polarity and Morphogenesis team, headed by Antoine Guichet at the Institut Jacques Monod. Microtubules are a central component of the cytoskeleton and play a key
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-chelating properties and their ability to be specifically transported by bacteria, siderophores hold strong biotechnological potential, particularly in biomedicine. The project aims to produce, through
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communications. The team specializes in multi-sensor methods, tensor decompositions and component analysis for the joint processing of multimodal data, notably in the context of invasive (intracardiac electrograms
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department at IETR in inkjet-printed OTFT fabrication and is part of the ANR-funded SMOOTH (Stable Metal-free Organic transistOrs Thanks to Homojunction) project, which will start in February 2025 and run
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critical roles in extracellular matrix assembly and growth factor activation (1). It is involved in several physiological processes such as development, growth and skin wound healing. The dysregulation