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of today’s most challenging materials — in particular, advanced battery materials and solid–liquid interfaces. By combining state-of-the-art instruments such as electron microscopy and atom probe
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the highly collaborative and supportive Laboratory of Organic Electronics (https://www.liu.se/loe ). Your work will primarily be under the guidance of Dr. Jennifer Gerasimov, with additional guidance by Prof
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spectroscopy, X-ray diffraction/scattering, (Ambient Pressure) X-ray photoelectron spectroscopy, (cryo) electron microscopy/tomography) project will resolve molecular- to meso-scale processes affecting mineral
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these analysis methods to highly informative multimodal microscopy data and develop techniques to integrate correlated structural and molecular analysis into the natural 3D tissue space. This integration will
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, sealed ampoules) at high temperatures Structural and compositional characterization using X-ray diffraction (single crystal and powder incl. Rietveld) and scanning electron microscopy with EDX Initial
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for heterogeneous catalysis of gas and vapor phase reactants. Finally, you will have access to world-class characterization through collaboration with the electron microscopy center at Stockholm University. Your
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with characterization techniques (such as optical & scanning electron microscopy, image analysis, microhardness measurement etc.) Some of the experiments are expected to be conducted in close
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: The position demands a technical background in and skills related to: Detailed characterization of materials (morphology and microstructure by optical & scanning electron microscopy, image analysis