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80%, Zurich, fixed-term The Laboratory of Molecular Medicine, led by Prof. Yohei Yamauchi, is developing the ViViD-AFM V2.0—a next-generation nano-imaging system. This project focuses
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of machine learning, AI, and cancer genomics. Our lab develops novel machine learning methods to understand biological systems and cancer, with a strong focus on genomics and translational impact. We work in
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together to develop solutions for the global challenges of today and tomorrow.
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biocompatible nature, polysaccharides offer exciting opportunities for the development of next-generation functional materials. This PhD project combines materials science and microbiology to explore how
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100%, Zurich, fixed-term The Planetary Geochemistry group (Prof. Maria Schönbächler) investigates the pathways that led to the formation and evolution of planets in our solar system. The group is
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, and remodel mechanical signals, and how these processes govern fundamental biological functions such as homeostasis, growth, differentiation, migration, development, and apoptosis. Despite major
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printing, and related techniques), and to develop systematic parameter studies that enable robust and repeatable sensing layers. Job description Systematic investigation of deposition process parameters and
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-fabrication workflows. Specifically, the work will develop within those research streams: developing tools and workflows to efficiently assess discarded materials creating a digital inventory of reclaimed
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that promotes independent thinking and an environment that inspires excellence. Located in the heart of Europe, yet forging connections all over the world, we work together to develop solutions
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, biocompatibility or the ability to reach deep brain areas. To solve this problem, we developed Ultra-Flexible Tentacle Electrodes (UFTEs), consisting of fibers one order of magnitude smaller than hair (2.4 um x 7 um