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metasurfaces to boost the sensitivity of plasmonic biosensors. Introduction Current workhorse techniques to detect and study single biomolecules rely on fluorescence microscopy. Recent advances in Zijlstra’s
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: collaborate with the group of Dr Arnold Boersma at the Bijvoet Centre to develop novel sensors for measuring macromolecular crowding in C. elegans; use advanced fluorescence microscopy techniques, complemented
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You will contribute to the research of the Molecular Photonics group by conducting optical time-resolved spectroscopy (UV-Vis, IR, fluorescence) on samples of functional organic molecules in solutions
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, and the permeability will be characterized using fluorescent microscopy, combined with optical characterization of the cells like for the first-generation model. This will provide a range of vsaculature
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experiments with visualization of embryonic development using fluorescence microscopy to pinpoint in which embryonic stage the different species become temperature sensitive. Carrying out this extensive trait
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. Perform protein interaction studies to unravel mechanisms by which viruses induce morphological changes in host cells. Use sequence specific fluorescent labeling to follow virus infection in a time resolved
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, optical tweezers and fluorescence microscopy. We address the different questions with an interdisciplinary team where people with backgrounds in various disciplines of the sciences, including physics