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Field
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microscopy of materials and nanostructures for electronics. This capability at Argonne’s Center for Nanoscale Materials enables imaging of electrically driven dynamics with simultaneous nanometer-scale spatial
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concept through prototype and validation Additional responsibilities for higher level position include: Investigate and evaluate applicability of scientific theories and engineering principles in
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perform advanced synchrotron experiments to probe structural, chemical, and dynamic evolution of defects in thin films and heterostructures. Utilize techniques such as Bragg coherent diffraction imaging
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techniques, including atomic imaging of surfaces and bulk, nano-probe diffraction (4D-STEM), high-energy-resolution, and valence-level energy-loss spectroscopy, cryogenic microscopy, Lorentz microscopy and
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using scanning electron microscopes (SEM) and related techniques such as electron backscatter diffraction (EBSD), transmission Kikuchi diffraction (TKD), and electron channeling contrast imaging
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laser/X-ray spectroscopy. Novel methods for characterizing, accessing, and manipulating amorphous materials and biological materials. Coherent diffraction imaging and its applications in free electron
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has over a decade worth of images and videos of the night skies above the UK which contain meteors as well as other atmospheric phenomena that are yet to be fully explored [2]. Of particular interest
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Chromatograph, Elemental Analyzer, Spectrophotometer, X-ray Diffraction Unit and any other shared teaching/research equipment. Train and oversee student use as needed. Repair and replace parts as needed. Maintain
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light microscopy imaging methodologies, including confocal, and light-sheet microscopy, hydrogel-tissue engineering, data analysis, and project management. 1-2 years of experience post-PhD is preferred
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characterization of C and SiC fibers - Training on bench use (in particular heating techniques by Joule effect, laser diffraction, infrared imaging, pyrometry, preparation of micrometric samples, ...) - Technical