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Postdoctoral researcher (M/F), synthesis of crystal phase heterostructures by Molecular Beam Epitaxy
optimize the growth of GaAs nanowires integrating crystal-phase heterostructures by molecular beam epitaxy (MBE). Contribute to scientific writing, presentation of results, and promotion of the project's
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the experimental development of an approach to the 3D characterization of organic crystals. The approach is based on thermo-microscopy, combined with multidirectional observation, allowing for in situ, 3D
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crystal structures and compositions of new (meta)stable open-structured silicides under HP-HT conditions as well as their P-T stability or synthesis domains. - Main task 1: the candidate will be one of tha
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determine the crystal structures and compositions of new (meta)stable open-structured silicides under HP-HT conditions as well as their P-T stability or synthesis domains. - Main task 1: the candidate will be
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matter" to biological systems. Topics thus range from complex systems to living tissues, from liquid crystals to foams, including polymers and granular systems. These physical studies lie at the interface
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, and their kinetics. The mechanisms involved are complex and are directly impacted by the choice of starting material (impurities, microstructure, crystal orientation, etc.) as well as by the strain rate
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to the thickness and respective orientations (twist angle) of the different layers. Two sources of starting material are considered, exfoliated sample from commercial bulk crystals and few layer obtained directly
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to light and temperature) and be proficient in all purification tools used in organic chemistry (distillation, crystallization, separation). Experience with near-field analysis techniques would also be
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) using Raman spectroelectrochemistry and an electrochemical quartz crystal microbalance (EQCM). • The nature of the formed films, as well as the impact of microstructural heterogeneities