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schools in the world. For more details, please view https://www.ntu.edu.sg/mae/research . To develop novel inertial microfluidics and impedance-based cell sorter. To develop novel label-free CQAs based
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to investigate the uterine endometrium and maternal-fetal interface, with the goal of improving female and fetal health. More information about the lab and their work can be found by visiting https
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Skip to Main Content Press Control+M to start dragging object ptnbsid=wNT6n0GdAlkwasDm3scD8mrpGUY%3d Back Accessibility Enable Screen Reader Mode Keyboard Shortcuts Accessibility Help Job
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both engineering work and patient-facing evaluation. The student will take responsibility for producing the devices used in the study. This will involve additive manufacturing (3D printing) of functional
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Posting Details Student Title Classification Information Quick Link https://chapman.peopleadmin.com/postings/39032 Job Number SE175424 Position Information Department or Unit Name Fowler School
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exoscopic HD-3D system coupled with free beam or fiber laser,” Lasers in Medical Science, vol. 36, pp. 1865–1872, https://doi.org/10.1007/s10103-020-03221-w , January 2021 Olivieri, E., Barresi, G., Caldwell
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of metallic interfaces between two topologically inequivalent systems or simply between a topological material and vacuum, i.e. metallic surfaces for 3D topological insulators and metallic edges for 2D
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(https://qomix.weebly.com/), which is focussed on quantum science with ultracold atoms and quantum technologies based on advanced 3D-printing methods. Our areas of interest include fundamental questions in
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aims to use state of the art 3D MINFLUX tracking established in the Jakobs group to follow single labeled sparse cargo proteins in living cells and study their transport to and import through the TOM
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. Specifically fast-growing 3D photo-printing technologies to make bespoke products such as dental aligners, shoes and car parts present a major challenge as a liquid ink is transformed into a permanently hardened