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funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description This project is part of an ANR (ANR-25-CE07-4308) The project aims to develop a
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part of a European project gathering chemical companies and academic labs, regular working meetings, either remotely or in person, will take place to ensure the smooth progress of the research project
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approach that includes cross-section calculations, the development of Monte Carlo codes, and the advancement of the NanOx model for biological dose prediction. As part of a collaboration with the University
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identify the morphogenetic processes underlying skeletal muscle growth and regeneration. Oversee and conducting innovative pipelines. As part of this research project, you will be required to: - Develop and
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ACCESS project and take part in an innovative collaborative program dedicated to the design and development of active Thin-Film Electrode Arrays (TFEAs) for cochlear implants. The main objective of WP1 is
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, chemistry, physiology and computer science. As part of Bordeaux Neurocampus, IINS is one of the major players in the neuroscience community in Aquitaine. Where to apply Website https://emploi.cnrs.fr/Candidat
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project, which aims to elucidate the mechanisms of cooperation between individuals in the context of collective navigation in complex flows. The project includes a theoretical part on “active matter
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postdoctoral researcher will be employed by the CNRS and will be part of the Laboratory of Cellular and Plant Physiology (UMR 5168 - CNRS -CEA - Univ. Grenoble Alpes - INRAe) in Grenoble (France). The team's
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Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The candidate will work as part of the EURAD2 European project
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PhD on 2D quantum photonics : towards neuromorphic applications with 2D ferroelectrics materials M/F
nanophotonics with 2D materials. We offer a unique opportunity to explore emerging phenomena such as sliding ferroelectricity, ultra-low-threshold nonlinear photonics, and exciton engineering. The project is part