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clinical samples in collaboration with DOME researchers using our state-of-the-art fluorescence imaging instruments, which include a Leica Stellaris 8 STED super-resolution confocal microscope, a Leica SP8
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-microbe interactions with a strong focus on sulfur-oxidizing bacteria. Your future tasks: Visualization of sulfur-oxidizing symbionts using fluorescence and chemical imaging (i.e. NanoSIMS) Field- and
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chemical imaging (i.e. NanoSIMS) Spatial visualization of secondary metabolites using MALDI imaging Field- and laboratory experiments Data analysis Publications in peer-reviewed journals and presentations
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documenting model source code, as well as seeking novel model applications. As a result of this work, peer-reviewed publications documenting the model and describing its applications are expected
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. Requirements: You are enrolled in the doctoral programme of DSPL45 and a doctoral student member of VISESS who agreed to the Code of Good Practice . You have successfully passed your public presentation
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thesis. You contribute to the further development of ICON or CESM as needed for your work. You disseminate your research through high-quality peer-reviewed publications and presentations at conferences
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-Life, Multi-Modal Data’ as Ph.D. Visual Data Analysis. Work alongside leading experts at the Computational Imaging Research Lab (CIR ) and the Department of Cardiology at the Medical University
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player with high social skills Required: Experience in culturing and analyzing mammalian cell lines multidimensional flow cytometry or in confocal imaging. What we offer: Work-life balance: Our employees
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with basic bioinformatics tools High ability to express yourself both orally and in writing Computer literacy (MS-Office; Imaging Software) Basic experience in academic writing Didactic competences
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-coordinator who shares this vision—someone who sees the bigger picture, a team player who aims to make a meaningful impact by working on the following tasks. Your future tasks: You develop, organize, and