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electron microscopy at the Ernst-Ruska-Zentrum, the Julich Supercomputing Centre, the Neutron-SimLab or various physicochemical characterization methods and workshops Comprehensive training programs and
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on conventional transmission electron microscopy (TEM) exposures taken in underfocus. In this project, we aim to further develop the imaging analysis capabilities for (scanning) transmission electron microscopy
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tomography. That is, the combination of scanning magnetic microscopy and microCT in order to characterize magnetic properties of rock samples at grain size level. The successful candidate is expected to work
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APT, TEM, FIM, EBIC, EBSD, XPS Kelvin probe microscopy, machine learning augmented analysis techniques) Experimental and computational analysis of transport and the reaction of surfaces and particles
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Contact persons Research Back Research infrastructure Back Digital Humanities Center LISA+ Quantitative Biology Center (QBiC) Tübingen Structural Microscopy (TSM) Research Data Management (RDM) Core
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adhesion and migration assays Imaging leukocyte recruitment in vivo – introduction to intravital microscopy Models of plaque destabilisation Atherothrombosis models Confocal and STED microscopy Whole mounted
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Microscopy (AFM), photoluminescence spectroscopy (PL) and other characterization techniques in our laboratory and synchrotron sources to reveal the details of formation of perovskite structure from
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Microscopy (AFM), photoluminescence spectroscopy (PL) and other characterization techniques in our laboratory and synchrotron sources to reveal the details of formation of perovskite structure from
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: Microscopy, histology, and image analysis to phenotype root anatomy. Plant and root physiological measurements to determine the function of root phenotypes. Genome-wide Association Studies (GWAS) and
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, including experts in genetics and rhizosphere biology, and have the opportunity to travel to the Netherlands to participate in shared experiments and project meetings. Your tasks: Microscopy, histology, and