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stacking, both high performance and (very) high density can be achieved by this concept. The mission will be to explore, understand and develop the fundamental physics of device operation. This will require
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grand-canonical DFT, treating the electrochemical potential explicitly and the solvent implicitly. A part of the mechanistic study, related to the adsorption/desorption of reactants and products, will be
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to quantum physics. This project is part of an interdisciplinary research program. The successful candidate will join a collaborative team where bioinformaticians and experimentalists work closely together
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reports and articles -- Giving seminars and presentations The work will be carried out within the SARA team of LAAS-CNRS in Toulouse. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UPR8001
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and Physical chemistry (ED182) of the Université de Strasbourg. He or she will work in the BIODYN team (“Biophysics and Dynamics of Organic Nanostructures”: a research team led by J. Léonard and S
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, representation, democracy", or "International, Europe(s), transnational". He or she will also be part of the École doctorale des sciences juridiques, politiques et de gestion (SJPG-74). The future PhD student will
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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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energy security are driving an urgent transition away from fossil fuels. Yet, many industrial and transport applications still rely on combustion due to their need for high energy densities and
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, transportation, and energy. Our work generally focuses on behavior modeling, instrumentation, and the study of the durability of the structures or products in question. A significant part of our research focuses
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, we will make full use of X‐ray Absorption Spectroscopy (XAS), including X‐ray Magnetic Circular Dichroism (XMCD) - an inherently element- and orbital-selective technique - alongside X‐ray diffraction