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. The Materials for eXtremes (M4X) research group (https://more.bham.ac.uk/M4X/ ) investigates new alloys for extreme environments from fusion & fission reactors, to aerospace gas turbines and concentrated solar
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a range of characterization techniques, including X-ray diffraction, electron microscopy, X-ray photoelectron spectroscopy, as well as various electrochemical measurements, with opportunities
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metasurface pixels are patches filled with 2D arrays of scatterers (‘meta-atoms’) precisely tailored for diffractive outcoupling and wavefront shaping at the same time. Each metasurface pixel receives light
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Application deadline: 31/03/2026 Research theme: Nuclear Materials Hoe to apply: https://uom.link/pgr-apply-2425 UK only This 4-year PhD project is fully funded by the Nuclear Decommissioning
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fabrication. Receive individual trainings in state-of-the-art methodology, comprising pulsed laser deposition (PLD), atomic force microscopy (AFM), advanced X-ray diffraction (XRD), and transport measurements
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), small-angle scattering (LOKI) and diffraction (DREAM). The PhD student will be employed at DTU but will research the learning of students from both DTU and UCPH. Likewise, the PhD student will be working
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changes of photoreceptor proteins using time-resolved diffraction methods. A concrete goal will be to structurally characterize the structural effects of charge transfer (for example in cryptochrome and
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guest exchange (J. Am. Chem. Soc. 2025, 147, 17201 https://doi.org/10.1021/jacs.5c02868 ). It is the aim of this project to use this novel methodology to investigate a range of single crystal-to-single
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films, and nanostructures, such as scanning tunneling microscopy (STM), photoelectron spectroscopy (XPS), electron diffraction methods (LEED, RHEED), optical vibrational spectroscopies (IRRAS, DRIFTS
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Institute of Low Temperature and Structure Research Polish Academy of Sciences | Poland | about 1 month ago
durability under reaction conditions. To elucidate structure–activity relationships, the obtained materials will be in-depth characterized using advanced techniques, including powder X-ray diffraction