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microscopy tools for visualizing critical biological processes deep within their native context, with a particular focus on applications in neuroscience. To this end, the lab combines tools from physics and
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Application deadline: 31/03/2026 Research theme: Nuclear Materials Hoe to apply: https://uom.link/pgr-apply-2425 UK only This 4-year PhD project is fully funded by the Nuclear Decommissioning
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microscopy) and has straightforward access to nanomaterial characterizations (TEM, AFM, DLS, zetametry). It will bring the candidate to work in a very dynamic scientific atmosphere, embracing energy and
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nanolab cleanroom to realize these designs. You will use state of the art microscopy methods to map the performance of your structures, moving to progressively more advanced prototypes. This project is
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the University of Vienna: https://doschem.univie.ac.at/ The employment duration is 3 years. Initially limited to 1.5 years, the employment relationship is automatically extended to 3 years if the employer does not
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the University of Vienna: https://doschem.univie.ac.at/ The employment duration is 3 years. Initially limited to 1.5 years, the employment relationship is automatically extended to 3 years if the employer does not
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. Our research takes a multifaceted approach, combining imaging of organoids and animal embryos, mechanical measurements using atomic force microscopy (AFM) and other in-house technologies, as
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force microscopy (AFM), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and secondary ion mass spectrometry (SIMS). Electrical properties will be evaluated using Hall effect
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research integrates in vivo gene therapy models, functional genomics, and super-resolution microscopy to uncover fundamental mechanisms of podocyte biology and glomerular disease. As a member of our team
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Force Microscopy for monitoring polymer growth with nanometer scale resolutions, in-situ and post-mortem Small and Wide Angle X-ray Diffraction for the quantitative identification of different phases and