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nano-computed tomography, and scanning electron microscopy design and implement deep learning models to enhance resolution of large field-of-view imaging techniques integrate imaging data across
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i) hearing and ii) vision and explore the potential of optogenetics for iii) gastric pacemaking and iv) brain-computer interfaces. These four teams are supported by the platforms for 1) opsin
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biophysical techniques (e.g. atomic force microscopy) • Specialist knowledge: basic knowledge of (food) chemistry, analytics, biophysics and/or microscopy • Very good written and spoken English We offer you
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single filaments and single droplets to composite networks using techniques such as optical tweezers, fluorescence microscopy and atomic force microscopy. The concrete activities during the project will
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laser diffractometry and fluorescence microscopy • Investigate bacteria on a single-cell level using microfluidics and flow-cytometry • Quantify the production of amino acids and metabolic fluxes via mass
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laser diffractometry and fluorescence microscopy • Investigate bacteria on a single-cell level using microfluidics and flow-cytometry • Quantify the production of amino acids and metabolic fluxes via mass
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quantitative image analysis, numerical modeling, and explainable AI (XAI) with state-of-the-art biophysical methods. Using techniques such as traction force microscopy, microfluidics, 3D bioprinting, and
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certificate or equivalent for animal handling • Familiarity with neuroimmunology models (e.g., EAE) • Histological techniques and imaging (e.g., immunohistochemistry, confocal microscopy) • Isolation of single
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for this purpose, in particular electron microscopy, fluorescence reflectance imaging, scanning laser ophthalmoscopy, fluorescence angiography, and electroretinography. REQUIREMENTS: Completed scientific university
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) transmission electron microscopy (TEM/STEM), nanoindentation, and complementary microstructural and mechanical analysis methods Comparative evaluation of innovative materials with reference materials Literature