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the conventional manufacturing process of advanced aerospace materials but also the state-of-the-art materials investigation such as scanning electron microscope (SEM), X-ray diffraction (XRD), electron backscatter
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scattering experiments with free electron lasers offer a new route to the structure determination of biomolecules. Due to the super-low signal-to-noise-ratio, computing the structure from such data is
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up and diversify synthetic routes to make broad libraries of natural compounds. Synthesized molecules will be identified and characterize by NMR, MS and single crystal X-ray diffraction (SC-XRD) – all
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ThermoFisher Helios 660 Nanolab dual-beam system, and various other capabilities. The NCMN manages a wide range of facilities, including x-ray diffraction and electron microscopy. Mechanical testing systems
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possess translational symmetry, the role of structure and symmetry in glasses is not established. This research programme involves the development of new x-ray and electron diffraction-based methods
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Peterson). This project combines both theory and experiment. "Geometric-flow across diffraction patterns in 4D scanning transmission electron microscopy” (with Dr Scott Findlay and Dr Timothy Peterson
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Dr Alireza Sadri) "Geometric-flow across diffraction patterns in 4D scanning transmission electron microscopy" (with Dr Timothy Petersen and Prof Michael Morgan) "Prospects for atomic-resolution
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solutions for pressing societal challenges (e.g. communication, artificial intelligence, climate protection, health, etc.) through modern electronic & photonic technologies. The work covers the entire