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that can provide key insight into the role of individual functional groups and the bonds that link these. The BONDS project has as its ambition to develop novel, interpretative computational tools capable
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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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Job Description The SURFCAT section at DTU Physics explores the use of catalysis and solar energy harvesting to secure renewable energy for the future. Novo Nordisk Fonden (NNF) has funded
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opportunity to make a real impact. At DTU Biosustain, you will work at the forefront of developing next-generation microbial cell factories for sustainable production of chemicals and materials. Here, you will
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for carbon cycling, ecosystem functioning, fisheries, and services such as CO₂ sequestration. Despite their importance, many of these processes remain poorly understood due to Greenland’s remoteness and
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researcher, you will join an international research environment with strong and open scientific interactions. Specifically, you will: Take a leading role in shaping and driving enzyme characterization
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Job Description If you want to establish your academic career in chemical engineering and you are looking for a challenge involving the use of artificial Intelligence (AI) applied to higher
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Job Description Are you worried about the coastal regions in an era of climate change and plastic pollution? Do you want to play a part in the development of a novel numerical model that can shed
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strong commitment to the green transition, especially in advanced thermal systems such as Carnot batteries, thermal storage, and high-efficiency heating. As part of DTU, you will contribute to cutting-edge
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. The project is part of an international collaboration with leading experts at KTH Royal Institute of Technology in Sweden, offering the opportunity for extended research stays at both DTU and KTH. We