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layers, thorough FLA processing, and extensive materials characteri-zation using XRD, electron microscopies, TOF-SIMS, electrochemical methods, etc. Modeling and simulations should help us to explain
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young researchers from around the world? Do you bring a precise, well-structured, and forward-thinking approach to your work, while enjoying the challenge of learning and mastering new tasks? Are you
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employees make essential contributions to the well-being of society for a future worth living. Empa is a research institution of the ETH Domain. In the Laboratory of Advanced Fibers, we are a
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their subsequent simultaneous analysis. This project aims at overcoming these challenges to reliably measure atmospheric levels of PFASs and model their respective emission strengths in Switzerland
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basic and clinical scientists to advance our understanding of health and disease and to develop pioneering therapies benefiting the lives of patients in areas of unmet need. With more than 70 research
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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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-dimensional quantum materials and develop advanced sensing methods for future quantum technologies. You will be embedded in a vibrant, international research group with strong expertise in quantum sensing and
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understanding of district heating and cooling, renewable energy integration, multi-energy systems, and energy conversion and storage technologies. You have strong skills in programming, modelling, and data
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, interactions, catalytic mechanisms etc. in real-time. Building on our published and unpublished work, the successful candidate will advance nanopore trapping in new directions using solid-state and biological
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temperatures (down to 100 mK). Using Nitrogen Vacancy (NV) and Silicon Vacancy (SiV) centers in diamond, the project aims to probe magnetic properties of low-dimensional quantum materials and develop advanced