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Postdoctoral position (M/F) on impedance and dielectric study of solid/solid interfaces in batteries
out BDS tests at electrode level and EIS experiments at cell level and test the overall dielectric/impedance properties at different temperatures. Lithium-ion batteries (LIB) are the primary energy
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visit the website: https://www.is2m.uha.fr/ . The thesis will be attached to the doctoral school of physics and physical chemistry (ED182), which is co-accredited between Unistra and UHA. The doctoral
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to CERN, or the other way around. Supervision of PhD and Master students could be arranged. LAPP is a laboratory of the Institute of Nuclear Physics and Particle Physics (IN2P3), an institute
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. Interaction with the OSI team is encouraged (e.g., collaboration with C. de Marez, a SWOT expert). The primary goal is to refine our understanding of high-frequency dynamics in a region characterized by highly
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development of the LOTUSIM-Energy simulator and its associated autonomy components. Their main responsibilities will be: - Developing and integrating multi-physics simulation models for maritime, aerial, and
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of the project MESSENGER: « Can rock-powered Microbial EcoSyStEms provide valuable iNsiGhts into early life and its emERgence? » funded by the PEPR ORIGINS (https://pepr-origins.fr/en/ ) and integration
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bone regeneration and the treatment of brain tumors Where to apply Website https://emploi.cnrs.fr/Offres/Doctorant/UMR7342-CECBAR-007/Default.aspx Requirements Research FieldEngineeringEducation LevelPhD
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optical to ultra-high-energy photons) or multi-messenger (gaamma-ray and neutrino) are possible with Gammapy. The main objective of this position is to set up the Gammapy ability to jointly analyse VHE
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at CNRS in the Institute of Chemistry of Media and Materials of Poitiers (IC2MP - UMR CNRS 7285 - https://ic2mp.labo.univ-poitiers.fr/ ) in the Catalysis and Non-conventional media team, under
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of materials. The main activities will include: – adapting the generative LegoXtal code to the design of MOF coordination polymers and porous materials by assembling elementary molecular bricks in the generation