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Postdoctoral researcher (M/F), synthesis of crystal phase heterostructures by Molecular Beam Epitaxy
outcomes. Molecular beam epitaxy (MBE) growth of GaAs nanowires on patterned Si/SiO₂ substrates. Structural analysis by electron microscopy (in situ TEM, electron diffraction, zone-axis indexing). Automated
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motivated to acquire new skills. Candidates must be fluent in English and/or French with scientific writing skills. The doctoral contract will take place at the CRISMAT laboratory (https://crismat.cnrs.fr
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(specular reflection). However, faulted zones with high contrasts imply multiple diffraction phenomena. The first objective is therefore to see whether the matrix approach can be successfully applied
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PROJET-PEPR : MOF composites for the overall CO₂ reduction through panchromatic photocatalysis (M/F)
NMR, X-ray diffraction, EDX analysis, nitrogen adsorption isotherms, and ICP analyses available in the laboratory. Photocatalytic experiments under heterogeneous conditions will then be carried out in
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(JCNS-1) Project 3: Combined X-ray and neutron single-crystal high-pressure diffraction in diamond anvil cells (JCNS-2) Project 4: Experimental and numerical investigation of the heat flow generated by
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. Conventional experimental techniques such as dilatometry, optical and electron microscopy, electron backscatter diffraction and x-ray diffraction with Rietveld refinement are available at the lab and can be used
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/ Partnerships Partners of the PEPR DIADEM – CINEMA project funding this PhD: IRCER, Institut P’, ILM https://www.pepr-diadem.fr/projet/cinema-2/ Scientific Field and Context The optimization of growth–property
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part of the Forschungsverbund Berlin (https://www.fv-berlin.de/) and part of the Leibniz Association (https://www.leibniz-gemeinschaft.de ). You can find more details on the institute webpage: https
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Materials, Bioinspired Materials and Sustainable Materials. For more details, please view https://www.ntu.edu.sg/mse/research . This position supports frontier research in the electrocatalysis of hydrogen
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physical and chemical processes by enabling the structuring of materials at the nanoscale, well beyond the classical diffraction limit. These novel functionalities can either enhance inherent surface