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100%, starting January 2026 (negotiable) Proteins must fold correctly to function, and this process is tightly regulated by a network of chaperone proteins. At the heart of this network is Hsp90, a
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like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR imaging and spectroscopy
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transfer. We use complementary approaches including cryo-EM, biophysical methods and in vivo functional assays to study the protein machineries involved in this process. Join our young, ambitious, and
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to function, and this process is tightly regulated by a network of chaperone proteins. At the heart of this network is Hsp90, a molecular chaperone essential for the folding and maturation of at least 20% of
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with our team of experienced scientists, postdocs and PhD students, you will develop materials that contribute to the development of the next generation of sustainable biocomposite materials. This project is
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engineering applications. Empa's Centre for X-ray Analytics develops X-ray analytical and imaging methods for understanding materials structure in material, life- and medical sciences. This is a joint PhD
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Participating in developing a novel imaging technique, low-energy electron holography, which will be applied for atomic-resolution imaging of 2D crystals, such as graphene, and nanocrystalline samples such as
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for carefully designed and precisely controlled experiments, high quality temporally and spatially resolved field experiments using particle image velocimetry combined with synchronised measurements
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relevant to cardiac cytoskeleton, cell junctions, and adhesion. Functional assessment of the engineered cardiac tissues will be performed via live calcium imaging to monitor cardiac cell activity
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that drive learning and attention in biological processing systems. Working environment the NCS group, it’s working ethics and spirit is fully described in the group’s “lab manual” (https://ncs