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Vacancies Ph.D. position “Artificial Microswimmers: Unravelling 3D Real-Space Dynamics” Key takeaways We are happy to announce a fully funded Ph.D. position in the cutting-edge field of active
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Electrospinning for production of 3D-structured bipolar membranes for water dissociation applications In water technology, the demand for bipolar membranes is steadily rising. Bipolar membranes
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, biochemistry, molecular biology, and histology. Used techniques will include: cell culture of stem cells, including 3D cultures and 3D culture assays; organoids microRNA analysis single cell analysis including
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, biochemistry, molecular biology, and histology. Used techniques will include: cell culture of stem cells, including 3D cultures and 3D culture assays, organoids; microRNA analysis; single cell analysis including
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also entails developing 3D (bio)printers with the rest of the research team. You will operate various advanced manufacturing machinery, train and support researchers who want to use the facility’s
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the team in hands-on practices such as cell and tissue culture, biochemistry, molecular biology, and histology. Used techniques will include: cell culture of stem cells, including 3D cultures and 3D culture
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combination of ductility, strength, etc. These properties result from the underlying complex polycrystalline microstructure. Simulation of artificially generated, 3D synthetic microstructures supports
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or affinity with embedded software development in C/C++ and Linux experience with 3D printing for manufacturing (e.g. Solidworks) practical, demonstrable skills in using robotics platforms (hardware and
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experience with 3D printing for manufacturing (e.g. Solidworks) practical, demonstrable skills in using robotics platforms (hardware and software) affinity with teaching and technical support, preferably in
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. These properties result from the underlying complex polycrystalline microstructure. Simulation of artificially generated, 3D synthetic microstructures supports the design of novel steel grades. However, generating