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to develop a new generation of fluorescence microscopy methods aimed at overcoming current limitations in acquisition time for single-molecule imaging. The project explores original strategies for temporal
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, with a strong interest or expertise in photophysics -knowledge of fluorescence microscopy -experience in single-molecule imaging, including data acquisition and analysis -familiarity with biological
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cooperation partners in their research projects with state-of-the-art light and electron microscopes (https://www.leibniz-fmp.de/cellular-imaging ). We work with proteins, cell cultures, and model organisms
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, plus 9 buildings closed days for all full time staff. Use our total rewards calculator: https://www.hw.ac.uk/about/work/total-rewards-calculator.htm to see the value of benefits provided by Heriot-Watt
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? Horizon 2020 Is the Job related to staff position within a Research Infrastructure? No Offer Description The Nanobio team develops innovative fluorescence microscopy techniques designed to push the limits
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the field. The paradigm shift and the advances in fundamental knowledge about dynamin oligomerization in health and disease are expected to contribute significantly to our overall understanding
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, and analysis of multicolor images. - Advanced optical microscopy (nanoscopy) - Image acquisition and analysis - Microfluidics - Fluorescent labeling protocol - Multimodal characterization
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-learning–based segmentation, classification and tracking for microbes and microgels in phase-contrast and fluorescence images Optimise these models and pipelines for real-time performance and integrate them
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) to analyze error sources (e.g. incomplete coupling, deprotection efficiency, sequence-dependent effects). Perform test to evaluate synthesis quality (e.g. fluorescence-based hybridization assays, library
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Dalhousie University | Halifax Mid Harbour Nova Scotia Provincial Government, Nova Scotia | Canada | 2 days ago
research experience Demonstrated expertise in studying membrane proteins using modern molecular, cellular, and genetic approaches, such as gene editing, fluorescence imaging, protein biochemistry, and