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in solution for up to hours. Now, we leverage the unique abilities of nanopore trapping to detect proteins and their conformations, dynamics, interactions, catalytic mechanisms etc. in real-time
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for improving implant longevity and patient outcomes. In this project, high-resolution spectroscopic imaging will be employed to map chemical changes and structural degradation in the PE material, while
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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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would be beneficial. A proactive, independent, and structured working style, combined with the ability to work effectively in interdisciplinary teams. Curiosity and strong motivation to acquire new skills
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offer a positive research environment in a large, dynamic team at a globally leading academic institution. In our group, you will benefit from frequent interactions with leading researchers from across a
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Interact with national and international teams of mathematicians and computer scientists PhD applicants must possess a Master's degree in mathematics, theoretical physics, or computer science. Candidates
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plus but not required Interest in biophysics, developmental biology, or cell signaling (no prior experience required) Independent, proactive, and structured work style Master’s students interested in
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of cardiac tissue is rapidly progressing field, continually striving to create functional tissue models that closely replicate the structure and organisation of natural cardiac tissues. Bioprinting, in
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established research group at the University of Zürich, focusing on the structural effects of posttranslational modifications within intrinsically disordered proteins. Our work combines biomolecular NMR with
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team from various backgrounds with a large knowledge base. We conduct research on Li-Ion batteries ranging from material development, structural analysis with x-ray techniques, to digital modeling and