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to cancer, metabolic disorders, and infections. As part of this position, you will have the opportunity to contribute to cutting-edge research aimed at understanding microbiome-driven mechanisms and
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(master’s or equivalent) with excellent grades in the field of data science, material science, mechanical engineering, physics, or similar, with a strong machine learning or simulation background In-depth
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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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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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mentorship in the career development of the student. The program language is English. We offer: a highly international research environment and state-of-the-art technology four years of full funding through
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being carried out in close collaboration with Dr. Alexei Kiselev and his research team at the Karlsruhe Institute of Technology. The Department of Atmospheric Microphysics is looking for a committed
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opportunity to contribute to cutting-edge research aimed at understanding microbiome-driven mechanisms and developing novel strategies for disease prevention and treatment. You will collaborate with renowned
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Description TUD Dresden University of Technology, as a University of Excellence, is one of the leading and most dynamic research institutions in the country. Founded in 1828, today it is a globally
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the hydrogen industry Investigation of reaction mechanisms in the field of the hydrogen economy, particularly with regard to the charging and discharging of hydrogen carriers Cooperation with partners in
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tissue tropism, and mechanisms of immune evasion. Human cytomegalovirus is the leading cause of congenital infection worldwide. The Department is currently accepting applications for a PhD student (f/m/x