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part of a large international research center in collaboration with Denmark Technical University and University of Copenhagen and bridges our activities in the fields of nanocelluloses, proteins and
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Materials Science, Physics, Chemistry, Electrical Engineering or similar Motivation and drive to conduct independent, interdisciplinary research Experience in thin-film technologies, PVD methods, material
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Master’s degree in Chemistry, Physics, Biophysics, Materials Science, or a related field. Strong interest or background in soft matter, self-assembly, or nanoparticle systems (e.g., lipid- or polymer-based
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applications. The goal of the PhD project is to investigate how natural polymers (e.g. polysaccharides and proteins) can be combined with active natural molecules in compartmentalized responsive hydrogels
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conversion. Our research is at the interface between fundamental quantum physics, thermodynamics, nanotechnology, and nanofabrication. Project background This project aims to harness the remarkable properties
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. Empa is a research institution of the ETH Domain. Empa's Laboratory of Biomimetic Membranes and Textiles is a pioneer in physics-based modeling at multiple scales. We bridge the virtual to the real world
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-ceramic composites in close collaboration with a PhD student at the Biomaterials Engineering Group at ETHZ and the identification of process-structure-property relationships enabling the efficient design
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opportunities for the PhD candidate. Your profile We are looking for suitable candidates with a master level degree in material science, chemical engineering, physical chemistry or related fields with excellent
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nanoscience, with a strong interest in surface and spin physics. Your tasks You will play a key role in conducting systematic research on the quantum coherent manipulation of spins on surfaces. Particular