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(or comparable deep learning models) for image analysis. Demonstrated expertise in digital pathology concepts, including image processing, feature extraction from whole slide images, and working with large-scale
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core part of your project will be interpreting the data and developing scientific hypotheses about the atmospheric processes that control the cycling of selenium and other trace elements. You will work
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world. Also, LIFE is being developed at the time of paradigm changes in the space sector and the global economy – a time when it is possible to do science missions not just in the realms of traditional
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team and has basic experience in hands-on lab work and in data analysis. Prior experience in optical imaging, nanofabrication, data processing is highly valued but not mandatory. We offer We
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involved in this process. Join our young, ambitious, and international research team. The Hospenthal group has access to state-of-the-art light and electron microscopy instrumentation, including FEI
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involved in this process. Join our young, ambitious, and international research team. The Hospenthal group has access to state-of-the-art light and electron microscopy instrumentation, including FEI
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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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specifically to XRD-PDF (pair distribution function). The project is linked to crystalline and amorphous alloys, and in an industrial context to process design by establishing the structure-property relationship
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for its excellence in molecular and cellular analyses of the fundamental processes in living organisms. Candidates pursuing internationally recognized research in molecular or cellular biology, genomics
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of electronic excited states for controlling photochemical processes [3]. This project will build on these developments to capture the switching mechanism of newly-developed proton-driven molecular motors and to