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permanent staff members, plus some 15 PhD candidates and 4 post-doc researchers. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR5801-GERVIG1-053/Candidater.aspx Requirements Research
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of neuronal and vascular responses; Contribute to the instrumental optimization of the imaging system (detector configuration, illumination control, multi-camera synchronization); Analyze and interpret
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energy system and its environment (port) with scenarios. • Development of an optimal design method applied to the energy system simulation model. • Multi-criteria evaluation of the proposed energy systems
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IATE partners. Supervise the collection and processing of samples (fish feces, exposed microplastics). Develop and optimize enzymatic and chemical cleaning protocols for samples. Perform advanced polymer
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Interatomic Potentials) code for ternary compounds with variable composition with crystal structure optimization algorithms (evolutionary, random, etc.); - Application of the CSP DFT/MLIP methodology to various
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coordination complexes. Preparation and optimization of new molecular or hybrid materials. Structural and physico-chemical characterization (e.g., NMR, UV-Vis, IR, Raman, diffraction, electrochemistry, magnetic
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, the research involves participation in the design of quantum devices with our collaborators within the QLSI2 european consortium, optimization of spin readout at large scale, development of automatic control
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phenomena at stake and the accurate prediction of such complex multi-phase, multi-physics system is then necessary to optimize the system parameters entirely. The first step consists in designing and
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European ENERGETIC project, dedicated to developing the next generation of Battery Management Systems (BMS) to optimize the use of Li-ion batteries in both first life (mobility) and second life (stationary
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includes both theoretical and experimental components. This fundamental research aims to open new perspectives on various topics: optimizing the stability of micro-mechanical systems, controlling the energy