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instrumentation - experience with Monte-Carlo ray-tracing programmes (e.g. McStas, Vitess) - background knowledge with imaging and diffraction techniques will be beneficial - background knowledge in materials
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Structural characterizations: X-ray and electron diffraction, electron microscopy, atomic force microscopy Study of electronic and magnetic properties: SQUID magnetometry, X-ray and angle-resolved
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temperature. This will be achieved using a variety of solid-state, high-pressure and solvothermal synthesis techniques, and the resultant products will be characterized through X-ray and neutron diffraction as
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(no hydrophilic grouping), these molecules form stable two-dimensional monolayers at the water-air interface (Langmuir films). We have shown, by small-angle x-ray surface diffraction measurements (GISAXS), that all
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diffraction study. This research will utilize advanced measurement facilities such as the X-ray free-electron laser facility SACLA, the large-scale synchrotron radiation facility SPring-8, NanoTerrace, and
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conducting synchrotron-based X-ray diffraction and spectroscopy experiments at national user facilities; analyzing experimental data, preparing scientific manuscripts, and presenting research findings
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conducting synchrotron-based X-ray diffraction and spectroscopy experiments at national user facilities; analyzing experimental data, preparing scientific manuscripts, and presenting research findings
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synchrotron techniques such as X-ray photoelectron, absorption and fluorescence spectroscopies, and X-ray diffraction will be used for real-time analysis. Measurements will be conducted in controlled
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Ugarte. Requirements: - Solid knowledge of nanoparticle synthesis through different chemical routes. - Proven experience in classical laboratory characterization techniques, including: • X-ray diffraction
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methods, including transmission electron microscopy (TEM), scanning electron microscopy (SEM), atomic force microscopy (AFM), Raman spectroscopy, and X-ray diffraction (XRD), is essential for study of