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Highlights This position, funded by the Gordon and Betty Moore Foundation, is focusing on developing and utilizing the attosecond electron imaging facility for imaging the electron motion in the real time. The
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synthesis of metal-organic frameworks (MOFs), 4) knowledge of MOF material characterisation techniques, including at least powder diffraction (PXRD), spectroscopic techniques (FT-IR, NMR, UV-vis), sorption
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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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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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of employment experience with expertise in coherent X-ray scattering and imaging. Expertise in surface X-ray scattering is required. Understanding coherent diffractive imaging and ptychography is strongly
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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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synergy with another postdoc working on the same project, whose focus is on the development, demonstration and application of the functionalized quartz resonators integrated into a sensor prototype. If
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diffraction characterization and related structural characterization techniques. Strong teamwork skills with a demonstrated history of effectively collaborating with team members and internal and external
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diffraction, cryo-EM, and a wide range of other biophysical techniques. The group is located in close proximity to the MAX-IV and ESS facilities in Lund which accommodates state-of-the-art facilities
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mar345 Image Plate detector. An Osmic VariMax optics system and the Proteros Free Mounting System can be used to control the humidity and to optimize diffraction characteristics, including resolution