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TV-L, part-time 65%) in the DFG-funded Integrated Research Training Group (RTG) Beyond Amphiphilicity – RTG 2670: Self-Organization of Soft Matter via Multiple Noncovalent Interactions . The position
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theoretical tools for their description (C). Tasks for project RTG2861-A4 (Principal Investigator: Prof. Dr. Stefan Kaskel, Chair of Inorganic Chemistry I, Research area A): Research topic: Microstructured PCL
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theoretical tools for their description (C). Tasks for project RTG2861-A4 (Principal Investigator: Prof. Dr. Stefan Kaskel, Chair of Inorganic Chemistry I, Research area A): Research topicMicrostructured PCL
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Master's degree in information systems, business informatics, computer science, computer engineering, technology management, or related fields Interest in applying qualitative and/or quantitative research
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Master's degree in information systems, business informatics, computer science, computer engineering, technology management, or related fields Interest in applying qualitative and/or quantitative research
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Master's degree in information systems, business informatics, computer science, computer engineering, technology management, or related fields Interest in applying qualitative and/or quantitative research
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theoretical tools for their description (C). Tasks for project RTG2861-A4 (Principal Investigator: Prof. Dr. Stefan Kaskel, Chair of Inorganic Chemistry I, Research area A): Research topic Microstructured PCL
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Aerospace Centre (DLR), will conduct research on 20 research topics with 25 PhD candidates within the next years. The following main research goals are pursued by this Center: (1) develop a new set of
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to steer neural activity towards therapeutic or enhanced states. Using neurobehavioural data, the system will generate individualised modulation commands, applicable across multiple neuromodulation
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). Tasks for project RTG2861-C2 (Principal Investigator: Dr. Dorothea Golze, Chair of Theoretical Chemistry, Research area C): Research topic: Extension of the GW+C approach to materials In this position