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the complex macromolecules is also one of the goals.Controlling their nano structures by adopting state-of-art self-assembly techiques via taking advantage of living polymerization Conjugated polymers
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of living polymerization Conjugated polymers for organic electronics: the key components of electronic devices. New materials will be applied to OTFT, organic memory and solar cell devices. Profile M.Sc
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Biodegradable Polymers for Micro/Nanorobotics The Multiscale Robotics Lab (MSRL) is part of the Institute of Robotics and Intelligent Systems (IRIS) at ETH Zurich, pursuing cutting-edge research in robotics
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European universities, research centers, and companies. The successful candidate will develop novel 3D casting techniques for non-photocurable biodegradable polymers, integrate magnetic structures
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. Empa is a research institution of the ETH Domain. Crosslinked polymers (e.g. thermosets) represent an important class of high-performance materials used in applications like transportation or sustainable
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Microfluidic wet spinning of polymer fibers Characterization of polymer fibers: mechanical and structural properties Disseminating the research through scientific publications, conference posters and
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facilities and equipment. Your profile MSc degree in biomedical engineering, polymer chemistry, materials science or a related field Enthusiastic and curious personality High motivation to work in an
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related field from a top-notch university. Background in polymer chemistry is a plus A Maker, an Engineer, and a Scientist. We are looking for candidates with strong hands-on skills in building complex
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: Process optimization and optimal path planning for polymer extrusion 3D printing. Hierarchical control structures for 3D printing processes studying process control and motion control problems. Integration