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of X-ray methods Knowledge of X-ray optics Knowledge of synchrotron science Knowledge of catalysis and energy storage Experience with programming languages (ideally Python), SPS controls system Fluent in
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analytical procedures and data processing methods to determine key performance indicators Use state of the art techniques for the characterization of solids before and after catalytic reactions Evaluate your
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Your Job: You will develop instrumental analytical and theoretical methods to determine the origin of hydrogen and, in particular hydrogen carriers (including methanol, LOHC systems, formic acid) by
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population centers. As a PhD student, you will: Operate and characterize state-of-the-art mass spectrometers (PTR and NH4+-CIMS; VOCUS) to measure urban VOCs and their oxidation products Participate in
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in pursuing research in electrochemistry Previous experience with fuel cells, electrolyzers or redox flow batteries is a plus High motivation for pursuing a PhD within 3 years Excellent organizational
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-based metadata platform that you will help develop. In collaboration with stakeholders from energy research, you will develop methods to increase data and software interoperability, enabling the automated
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at https://www.fz-juelich.de/en/careers/phd Further information on doctoral degrees at Forschungszentrum Jülich (including its various branch offices) is available at https://www.fz-juelich.de/en/careers/phd
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Your Job: The main objective of this PhD project is to achieve a better understanding of the efficient propulsion of trypanosomes through complex crowded environments, mimicking biological tissues
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Profile: University degree (M.Sc., diploma or equivalent) in materials science, engineering sciences, or physics Experience in at least one of the methods of X-ray imaging, transmission electron microscopy
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of various electrochemical (EIS, LSV, CV, galvanostatic cycling, plating-stripping experiments), spectroscopic (NMR, FT IR, Raman, UV-VIS, XPS) and safety-related methods You investigate the interfaces between