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Field
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such as X-ray diffraction (XRD) to characterize, at the molecular level, smectite samples from various Swedish mineral deposits. The PhD student will develop, apply, and combine theoretical molecular
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in any of the following methods will be advantageous: Single-crystal crystallography, Powder X-ray diffraction, NMR, UV-vis, IR and Luminescence spectroscopy, electrochemistry. The candidate will hold
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superalloys. This will involve detailed characterisation using scanning and transmission electron microscopy, X-ray diffraction, and mechanical testing. Thermodynamic and kinetic modelling will also be
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microscopy, particle size and surface area analysis, density measurements, and X-ray diffraction. In-situ techniques such as thermogravimetric analysis and dilatometry will be applied, complemented by
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techniques, including X-ray diffraction, XPS, SEM-EDX, and in situ Raman and IR during electrocatalytic experiments. The performance of the selected materials will be investigated in the lab and in a pilot
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in any of the following methods will be advantageous: Single-crystal crystallography, Powder X-ray diffraction, NMR, UV-vis, IR and Luminescence spectroscopy, electrochemistry. The candidate will hold
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synchrotron techniques such as X-ray photoelectron, absorption and fluorescence spectroscopies, and X-ray diffraction will be used for real-time analysis. Measurements will be conducted in controlled
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techniques including Raman spectroscopy, X-ray diffraction (XRD), solid-state ¹³C NMR, leaching and accelerated ageing tests. You may come from a background in chemistry, chemical engineering, or a closely
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for electrocatalysis or lithium insertion. Structural investigation will allow us to determine average crystal structure with use of X-ray diffraction (powder or single crystal), small-angle scattering to determine
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simultaneous wave interactions, including reflections, diffractions, refraction, and turbulence-induced scattering. Such effects not only complicate noise prediction but also disrupt conventional approaches