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and Raman spectroscopy as well as X-ray diffraction. Study their adsorptive response towards dissolved methane in water, with and without competing species, to establish sensitivity, response rate and
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batteries. We will have a focus on in situ studies of the materials during charge/discharge, for instance followed using Raman spectroscopy and X-ray scattering. The position is part of an industrial
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Engineering of Additive Manufactured Metals – MicroAM”. An aim of the project, central to this position, is to develop a state-of-the-art laboratory 3D X-ray micro-beam diffraction (Lab-3DµXRD) technique and to
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analysis with X-ray and entron diffraction. Property characterisation using a physical property measurement system (PPMS) and a SQUID magnetometer (MPMS). Ab-initio DFT calculations for property predication
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. Evaluate optical performance metrics such as absorption and diffraction across a large design and material space. Curate and format large datasets of simulated nanostructures and their optical properties in
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performance metrics such as absorption and diffraction across a large design and material space. Curate and format large datasets of simulated nanostructures and their optical properties in close collaboration
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have the opportunity to use advanced material characterization techniques (e.g., SEM, TEM, XRD, X-ray CT, rheology, and multiscale mechanical testing) to characterize the consequences of the activation
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expression and purification of recombinant proteins, as well as biochemical and biophysical assay development. Experience in structural biology (especially x-ray crystallography) would be an advantage. Most
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., Zarebidaki, H., Lohani, S., Kirby, B. T., Soykal, O., Soltani, M., Ghadimi, A. H., Englund, D. R. & Heuck, M. Photonic crystal cavity IQ modulators in thin-film lithium niobate for coherent communications
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Engineering of Additive Manufactured Metals—MicroAM’. The MicroAM project aims to develop (i) a laboratory-based X-ray microscope capable of mapping local residual stresses, (ii) a multi-scale AM process