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Field
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, particularly in techniques such as Schlenk line, glove box, powder X-ray diffraction, electron diffraction, electron microscopy, and porosity analysis. The candidate is expected to have a thorough understanding
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-ray synchrotrons and the Linear Coherent Light Source’s X-ray free electron laser to access world-class capabilities for Resonant Inelastic X-ray Scattering (RIXS). A major goal of the eXn group is to
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various methods, including X-ray diffraction, IR spectroscopy, and electron microscopy. He/she may also be required to participate in their electrochemical characterization. He/she will also be expected
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(e.g., coherent diffraction imaging, X-ray reflectivity) or the use of scanning probe and/or optical microscopy Considerable knowledge of interfacial chemistry or materials science; experimental
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on X-ray scattering data (e.g. powder diffraction, pair distribution function (PDF), single-crystal), preferably with experience in situ/operando characterization and large user facilities such as
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-DSC, MS) will be used to understand the mechanisms and selectivity by identifying reaction intermediates. The synthesized materials will be characterized by X-ray diffraction (XRD), FTIR, Raman
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imaging methods complemented by in house X-ray imaging (axia.au.dk). Additionally, X-ray fluorescence, scattering, diffraction-based imaging will be employed. The biological and bioinspired materials group
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imaging methods complemented by in house X-ray imaging (axia.au.dk). Additionally, X-ray fluorescence, scattering, diffraction-based imaging will be employed. The biological and bioinspired materials group
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synthesise novel and technologically relevant nitrogen-based materials. The PDRA will employ the newly-developed single-crystal X-ray diffraction of powder-like samples for the structural characterisation
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growth (PLD, MBE, and CVD methods), crystal, and interface structure determination with x-ray diffraction/scattering/spectroscopy, transport and magnetic property characterization using Quantum Design’s