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analytical tools such as small-angle X-ray scattering (SAXS) and fluorescence cross-correlation spectroscopy (FCCS). Our goal is to bring quantitative insights into how soft-matter systems self-assemble and
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. Empa is a research institution of the ETH Domain. Per- and polyfluoroalkyl substances (PFASs) are a complex class of thousands of chemicals. They are of increasing concern due to their persistence
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implant technology by designing, fabricating, and testing biomimetic, compliant metastructures made of hydrogel-ceramic nanocomposites capable of mechano-directed bone formation and designed to closely
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that enables real-world testing of technologies and behavioral assumptions. The candidate will be expected to translate research ideas into practical approaches to address these challenges, working closely with
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. This project will center on high-entropy oxides, a promising class of catalysts, to help transform CO2 into valuable hydrocarbons. The work is part of a broader initiative aimed at advancing materials
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the implementation of mechanical testing combined with a variety of sensors to follow changes in the structures. You will use a range of surface analytical techniques to characterize the detected changes. You will
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have a flair for communicating with industrial and other partners. Our offer A project duration of 3 years is envisaged to carry out the above research tasks in the form of a PhD thesis. The project is
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. We are looking for a highly motivated energetic team player who is curiosity driven and has excellent communication skills in English. Our offer Join our world-class team to explore atomic-scale