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on simulating nanoalloy structures to create a database for materials characterization. The main tasks include running molecular dynamics and Monte Carlo simulations to model nanoalloys under various
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quantify the evolution of the thermal structure of the Aquitaine Basin's crust and mantle using the geological record. Geophysical data, the subsidence history of sedimentary basins, and thermal-mechanical
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Aiguier campus in the 9th arrondissement of Marseille. The LCB is composed of 100 staff members divided into 13 teams. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR7283-DELLER-106
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Christian RICOLLEAU, from the 'Advanced Electron Microscopy and Nano-Structures' team at the MPQ laboratory (https://mpq.u-paris.fr/means/ ), in close collaboration with Marc RESPAUD, from the "Surfaces
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for homogeneous photocatalysis. Physico-chemical characterization Structural, optical, and electronic analysis of materials (spectroscopies, microscopies, electrochemistry, etc.) to establish structure–property
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implement machine learning models dedicated to the prediction, interpretation, and quantitative analysis of Raman vibrational spectra, establishing explicit links between structure, local chemical environment
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activities between IETR and the French space agency CNES (https://cnes.fr ). This interdisciplinary project will be carried out at IETR – UMR CNRS 6164 (http://www.ietr.fr ) and it will strongly involve two
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. Using all-atom molecular dynamics simulations and enhanced sampling techniques, the project will investigate how S-glutathionylation modulates nucleosome structure and dynamics, alone and in combination
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screening. - Put the pipeline into production and test it on research topics from the laboratory and a collaborating team. The research will be conducted at the Molecular Microbiology and Structural
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photophysics under conditions simulating those of the interstellar medium. Structural characterization, electronic absorption, electronic fluorescence, and recurrent fluorescence are studied through in situ