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microscopy, diffraction methods (lab-based and synchrotron), mechanical property assessments, and thermo-physical evaluations. Candidate Requirements Applicants should have or expect to obtain a strong
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collection of process relevant data for scalable and reliable MOF synthesis. The resultant MOFs will be fully characterised using a range of analytical techniques including X-ray diffraction, electron
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characterisation techniques including X-ray and electron diffraction, electron microscopy, IR and UV-vis spectroscopies, and gas sorption. This project combines flow and materials chemistry, characterisation, and
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diffraction, and differential scanning calorimetry Mechanical performance assessment, including small-scale tensile testing and in situ testing at Diamond Light Source The studentship is fully funded for 3.5
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-probe spectroscopy is used to follow electron mobility and recombination dynamics on a picosecond to nanosecond timescale. Unfortunately, due to the diffraction limit, the dynamics on a sample are
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the opportunity to work with data from the European XFEL facility at DESY. Project website: https://www.mpinat.mpg.de/628848/SM-Ultrafast-XRay-Diffraction Your profile Eligible candidates have strong skills in
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includes the detailed elucidation of atomic and electronic structures, and physical properties. The group is in possession of state-of-the-art diffraction instrumentation and single-crystal electron and X
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electron microscopy, transmission electron microscopy, focus ion beam, and X-ray diffraction. In addition, understanding of nanophase sintering of powders, ball milling, and construction of relevant power
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(development) and steady-state characterization by means of, amongst others, X-ray diffraction, UV-Vis spectroscopy, Raman spectroscopy, etc.. Collect and analyse (time-resolved/nonlinear) spectroscopic data
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also be correlated with the crystallography of the microstructure via electron backscatter diffraction (EBSD). We are seeking a motivated researcher with a passion for metallurgy and materials