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well as an extensive national and international researcher network. The department consists of nine research sections with around 350 highly skilled employees, of which approximately 50% are scientific staff. More
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computational models to map co-expression networks and predict systemic disease transitions. Characterise intestinal microbiome changes and their correlation with inflammatory diseases. Computational modelling
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computational models to map co-expression networks and predict systemic disease transitions. Characterise intestinal microbiome changes and their correlation with inflammatory diseases. Computational modelling
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-based topology optimisation and de-homogenisation Adaptive meshing algorithms for topology optimization PDE-driven topology optimisation methods Research fund application Collaboration with industrial
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of national and European research projects and enjoys a robust network of academic and industrial partners. This position provides an opportunity to engage with these collaborations and work on real
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industrial collaborators A work environment with close working relationships, networking and social activities Opportunities for career development Place of work and area of employment The place of work is
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Job Description Are you passionate about nutrition, food safety, and the transition to sustainable diets? Do you have a strong interest in modelling and want to contribute to the development
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, encouraging students to explore the intersections of language, culture, and society. They are actively involved in various research centres, groups, and networks, contributing to cutting-edge projects and
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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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fresh perspective on how specialized brain networks can identify and categorize causes of sensory inputs, integrate information with other networks, and adapt to new stimuli. It proposes that perception