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The Leibniz Institute for Solid State and Materials Research Dresden e. V. (IFW Dresden) conducts modern materials research on a scientific basis for the development of new and sustainable materials
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Networks project. Planned research will investigate the characterization and recovery of bionanoparticles for vaccine delivery and gene therapy. Overall, 14 Doctoral Candidates will be trained at seven
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. The department focuses on the production, analysis, and simulation of functionally optimized structures from the nanometer to the micrometer scale in electrochemically active materials, as well as the development
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PhD position - Stress-testing future climate-resilient city and neighbourhood concepts (Test4Stress)
. Jana Sillmann, who is co-leading the Research Unit for Sustainability and Climate Risks (FNK). This Research Unit is devoted to inter- and transdisciplinary research and education on human-induced
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, carbohydrate-active enzymes, polymer chemistry, spectroscopic methods, material science, 3D-printing, statistical physics and molecular dynamic simulations, formulation technologies. Excellent communication
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Energy Physics (salary scale TV-L E13 50%). The PhD work will be carried out in the research group of Prof. Hans Jockers. Candidates who are interested in performing research in Mathematical Physics and
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mechanisms occurring in these materials and their synthesis over all relevant length scales (e.g., cutting-edge ab initio methods, atomistic simulation methods, multi-scale modelling, machine learning) High
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Topic: Development of techniques for the physically correct handling of particle fragmentation in numerical DEM simulations of granular material. Motivation/Aim: During the past decade, Discrete Element
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for improved understanding of structural and kinetic processes in electrolytes; and machine learning concepts for improved analysis of experimental and simulated data. Material Synthesis Within this research
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institution. At the Faculty of Chemistry and Food Chemistry, the Chair of Molecular Functional Materials offers within the Collaborative Research Center 1415 (CRC 1415, Chemistry of Synthetic Two-Dimensional