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such as micro-XRF, synchrotron diffraction, SIMS, and 3D X-ray CT, it will reveal how variations in composition, microstructure, and metal-making processes shape an object's unique metal pedigree
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workflows for the analysis of the local structure in soft functional materials (semi-crystalline and amorphous materials) using electron diffraction and electron energy loss spectroscopy methodologies. You
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(no hydrophilic grouping), these molecules form stable two-dimensional monolayers at the water-air interface (Langmuir films). We have shown, by small-angle x-ray surface diffraction measurements (GISAXS), that all
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metallographic approaches is challenging due to the fine scale of features and limitations of stereology. Similarly, crystallographic methods such including laboratory X-ray diffraction cannot readily distinguish
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of the PhD project is to develop and apply operando methods for studies of zinc-based batteries, mainly rechargeable zinc-air batteries. A combination of diffraction and tomography will be applied, using in
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apply operando methods for studies of zinc-based batteries, mainly rechargeable zinc-air batteries. A combination of diffraction and tomography will be applied, using in-house facilities as
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BET/DFT surface area analysis, DSC, x-ray diffraction, Raman and IR spectroscopy etc. It is also planned to use synchrotron radiation facilities. Qualifications To be admitted for studies at third-cycle
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Completed university studies (Master) in Chemistry or related field Experience in metal-organic syntheses Experience in working with glove boxes and Schlenk methods Experience in X-ray diffraction techniques
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and flow chemistry Use of spectroscopic and spectrometric techniques as well as single crystal X-ray diffraction analysis to study molecular properties and molecular structures in solution and in
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glove boxes and Schlenk methods Experience in X-ray diffraction techniques and other structural characterizations Experience in working with radionuclides, esp. actinides and TRU elements is of advantage