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Description The International Max Planck Research School for Chemistry and Physics of Quantum Materials is a joint PhD program between the Max Planck Institute for Chemical Physics of Solids in
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(ZMO). As a part of Freie Universität Berlin’s Department ofHistory and Cultural Studies, our offices are situated on its campus in Berlin Dahlem. Programme The BGSMCS supports doctoral candidates who
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structured PhD program with a comprehensive range of continuing education and networking opportunities - more information about the PhD program at the HZDR can be found here Salary and social benefits in
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offering PhD positions for students with a background in data science, computer science, computational science, or a domain science with a strong focus on computational science and an interest in training
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, URSOILL, WATERGRID, SCALARE) or nationally funded projects. He/she will receive high quality supervision from the chair’s senior academic staff and might be involved in teaching at under/postgraduate level
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labs) Intensive scientific supervision and interdisciplinary collaboration within the project consortium Opportunity to pursue a PhD in cooperation with a German university A structured PhD program with
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funding phase at the Martin Luther University Halle-Wittenberg will start with a highly interdisciplinary and ambitious research program in November 2025. We invite applications for 8 PhD positions for 3
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international partners within the DFG priority program SPP 2389 “Emergent functions of bacterial multicellularity ” • Participation in the excellent graduate education programs at Osnabrück University (ZePrOS
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available in the further tabs (e.g. “Application requirements”). Programme Description Applicants holding a PhD or who are eligible to be a junior professor in the historical humanities are invited to apply
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Several PhD positions (f/m/d) in International Research Training Group (iRTG) limits2vision Full PhD
topics that focus on the interplay between genetics, metabolism, and information processing. Specifically, the projects in the limits2vision programme aim to systematically unravel the mechanisms