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Postdoctoral Researcher / Postdoc (d/f/m) Cardiology Specialty Cardiology Apply now Work time full-time Start date 01.10.2025 Employment period limited Application deadline 02.09.2025 Deployment
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The position is limited to two years, with the option of becoming permanent. Team AG Metzger Application Period September 15, 2025 Employment volume Full Time The number of hours per week is 39. Job Description
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of stochastic fluctuations in electrokinetic flows. This is of interest in so-called lab-on-chip devices, where laboratory functions should be integrated and automized on small chips. A possible way of
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current and future patients treatment informed by the latest scientific findings. Research area: The Research Group Oncoimmunology belongs to the Department of General and Visceral Surgery and is led by PD
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-economic and labor market dynamics. Modeling, understanding and forecasting migration flows, including dynamics by age and gender, by level of education, and for high-skilled migration, as
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stability predict the probability of a neuron to be active?” for a 3-year fixed-term period (in accordance with the availability of funds and individual requirements) in full time with a salary of TV-L E13
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concepts and compositions for high-performance electrolytes for emergent electrochemical device technologies such as redox flow batteries. Next generation energy storage and chemical transformation devices
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Max Planck Institute for Dynamics and Self-Organization, Göttingen | Gottingen, Niedersachsen | Germany | 2 months ago
Understanding the individual and relative motion of particles is fundamental to understanding transport processes in complex flows. Large-scale transport in atmospheric flows is well understood and measured by
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alters immune responses against vaccines using next-generation human tissue and organoid models. Current vaccines against infectious diseases and cancer benefit only a subset of patients, partly due to our
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framework for transitional events Assessing available numerical dynamo simulations for Earth-likeness Reconstructing the large-scale core dynamics during excursions Investigating the obtained core flow