214 augmented-workers-using-smart-robats-in-manufacturing-cell Postdoctoral research jobs in Denmark
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use of the department's modern laboratory-, core- and animal facilities. The Department of Biomedicine focuses on innovation, entrepreneurship and collaboration with business and industry, and numerous
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printed hydrogel microfluidics and stem cell-derived liver organoids to advance the engineering of mature human liver tissue in vitro. You will work across disciplines, with access to world-class facilities
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and public authorities. Our research aims at strengthening welfare, productivity and sustainability within society. A key element is the role of technology and its interaction with industry and
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Postdoc in development and testing of electrodes for liquid alkaline water electrolysis - DTU Energy
, this might be a position for you. If you moreover like to work with applied research in close contact with the power-to-X industry, you have come to the right place. Responsibilities and qualifications You
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either join the team working towards the chemical synthesis of defined oligosaccharides related to the plant cell wall glycan RG-II, or the team working on carbohydrate-based vaccines for cancer and
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researchers to join our research activities focused on SOEC cell and stack components. Electrolysis and green hydrogen play a central role in Power-to-X schemes to produce green fuels and facilitate
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understanding of tumor heterogeneity, cell plasticity, and the tumor microenvironment in patients with renal cell carcinoma. We apply state-of-the-art sequencing and spatial technologies to explore tumor and
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efficacy through laboratory analysis of pig-derived samples, using immunological and cell culture-based assays. The project involves collaboration with The Department of Cancer and Inflammation at SDU, where
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on post-training methods for these low-resourced languages, for example, by investigating the role of synthetic data, among other data augmentation techniques, and the role of in-context learning in
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benchmarking and advancement of new whole-cell–based biosolutions, supporting their journey from discovery to market launch. The IBIS consortium will use the pipeline to systematically evaluate hundreds