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amino acids, e.g. lysine, using fermentation technology. For this purpose, microorganisms that efficiently secrete amino acids will be developed. The vision is that microorganisms, in the future, can be
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: Develop and refine experimental tasks. Manage collaborations with external partners. Plan and execute analysis strategies. Work with large datasets and apply advanced analytical methods. Contribute to both
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Applications are invited for a post-doctoral position to develop and apply advanced mass spectrometry and data analysis methods to investigate plant-microbe interactions in soil, within the research
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Research Assistants, Postdocs, and academic staff to develop cutting-edge methodologies. The research is cross-disciplinary, combining advanced quantitative analysis, simulation, and systems integration
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://mbg.au.dk/en/ What we offer The department/centre offers: a well-developed research infrastructure, laboratories and access to shared equipment an exciting interdisciplinary environment with many national
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Engineering of Additive Manufactured Metals – MicroAM”. An aim of the project, central to this position, is to develop a state-of-the-art laboratory 3D X-ray micro-beam diffraction (Lab-3DµXRD) technique and to
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Postdoc in assessing carbon sequestration potential of different wetlands as nature-based solutio...
qualifications: A solid background in programming using Python, R, or other languages. Teaching and supervision experience at the BSc and MSc level. Interest and experience in developing competitive national and
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Research Assistants, Postdocs, and academic staff to develop cutting-edge methodologies. The research is cross-disciplinary, combining advanced quantitative analysis, simulation, and systems integration
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research assistants, postdoctoral researchers, and academic staff to develop cutting-edge methodologies. The research is cross-disciplinary, combining advanced quantitative analysis, simulation, and systems
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. Moreover, you will develop and apply next-generation molecular single-cell workflows to better understand e.g. stem cell differentiation, disease heterogeneity, and complex cellular interplays in time and