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topic of solubility of (C-O-H-N-S-Cl-F) volatile elements in silicate magma in the exotic Pressure-Temperature-Composition parameter space covered by exoplanetary systems. A priority is given to
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associated composites, for applications in the fields of energy and the environment (CO2 capture, capture of volatile organic compounds (VOCs), detection, catalysis (H2 production, etc.), heat exchange
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scale, will be characterized in terms of their structural properties and chemical composition. This research is part of the international project (ANR-DFG) “OPTIMIC” involving French partners Dr. Dorian
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, the postdoctoral researcher will be responsible for contributing to the development of advanced methodologies for predicting crystal structures (CSP) based solely on their chemical composition and atomistic modeling
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, pressure, composition, atmosphere) influencing these mechanisms. 2. Characterization and Analysis Characterize the compounds formed at different stages of the process using advanced techniques: - XRD (X-ray
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The expert will participate in the necessary methodological developments and analyses of airborne data recorded by the IAGOS research infrastructure (https://www.iagos.org ) and from other networks, to provide
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magnetospheric physics, focusing on Mercury's ion dynamics. Its primary goal is to enhance our understanding of the role the planetary ions play within this environment by examining their composition, life cycle
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(OH)6 by varying the composition of crystallographic sites A (K, Bi), B (Fe, Al), and X (As, S, P). These model phases will be synthesized hydrothermally. After characterization, the sorption/desorption
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complete pollen analysis on target sites • Reconstruct the history of plant composition and abundance. The candidate will produce maps of regional landscape openness and types of forest cover over the last