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Profile: Excellent master’s degree in Process Engineering, Chemical Engineering, Mechanical Engineering or a similar discipline Strong interest in pursuing research on electrochemical systems Experience in
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processing and interpretation of observational data practical fluid mechanics experience in the lab or in the field international research experience academic publication record willingness to learn German For
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are characterized by different biological source mechanisms than marine systems. The project will improve our understanding of the interactions between the biosphere and the atmosphere. In the long term, it
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of Parasitism”, which includes a variety of theoretical, simulation, and experimental projects from different disciplines. The key goals of the project are to elucidate physical mechanisms that govern trypanosome
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for an enthusiastic, highly motivated PhD student who wants to contribute to cutting-edge research with a focus on lung organoid models to understand core mechanisms of lung alveolar development and disease
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starting in 2025 within the TUM School of Life Sciences. The group is committed to uncovering mechanisms by which crop plants can increase the uptake of micronutrients from the soil and transfer them
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and research What you bring to the table Completed studies in process engineering, environmental process engineering, energy technology, chemical engineering, mechanical engineering or a comparable
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and (ii) improving understanding of the switching mechanisms at the molecular level. This opens up unique opportunities in a highly interdisciplinary research environment. The central task of the PhD
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and with external academic partners #scientific publication and presentation Your profile #a Masters degree in oceanography, fluid mechanics, data science, or related disciplines #a strong academic
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of superconducting qubits to quantify performance and identify limiting physical mechanisms Perform quantum device calibrations, benchmarking, and run quantum algorithms Presenting and publishing the research