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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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Environmental Physics 2. Solid State Physics Electron Microscopy Semiconductor Epitaxy Semiconductor Optics Surface Physics 3. Theoretical Physics Complex Systems Solid-State Theory Semiconductor Physics
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harvesting Histology (sample preparation) Microscopy imaging (brightfield, confocal, and transmission electron microscopy) Flow cytometry: multiple channel FACS analysis and immune profiling Presenting
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harvesting Histology (sample preparation) Microscopy imaging (brightfield, confocal, and transmission electron microscopy) Flow cytometry: multiple channel FACS analysis and immune profiling Presenting
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seeks to define the life and cell cycles of N. perurans and Perkinsela in detail using light, fluorescence and electron microscopy. In particular, whether the replication of N. perurans and Perkinsela
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. These range from flow-cytometry and two-photon microscopy to genome and proteome analysis. CONVENTIONS During the course, students take part in one to two conventions in their specialist field and present
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two-photon microscopy to genome and proteome analysis. CONVENTIONS During the course of study, students take part in one to two conventions in their specialist field and present parts of their research
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), dynamic light scattering (DLS), transmission electron microscopy (TEM). EV cargo characterisation – cytokine analysis, metabolomics, proteomics. Cell analysis – PRC, western blot, flow cytometry, advanced
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histological techniques and immunocytochemistry confocal microscopy transmission electron microscopy image analysis using dedicated software (eg Neurolucida for confocal, Neurolucida Explorer, Meta Morph and