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team effort to develop modelling of the Novatron concept for stable plasma confinement. The Novatron is a new improved type of mirror device. A particular goal of the postdoctoral project is to develop
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approaches. The successful candidate will join a research team that is carrying state-of-the-art research aiming to help the European manufacturing industry transform its linear model into circular
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-edge computational tools for modeling and analysis. The postdoctoral researcher will work within multidisciplinary teams in close industrial collaboration, contributing to both experimental and
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the simulation of microbubbles. Microbubbles can for example be used to transport drugs to the desired location in the body. We will develop a surrogate model that can be used to effectively scale up
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of metal salts. The work includes the design and experimental study of simple model systems as well as more applied studies. The overall project is focused on production of NMC cathodes from secondary raw
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structure calculations, combined with atomistic spin Hamiltonians and/or phenomenological models to study fundamental magnetic and topological phenomena from a computational/theoretical perspective. Current
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of green chemistry in a life cycle perspective, upscaling process data from low TRL, and integrating quantitative LCA modelling with socio-technical systems approaches to make well-founded assumptions about
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project focusing on developing controlled crystallization of metal salts. The work includes the design and experimental study of simple model systems as well as more applied studies. The applicant should
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exploration in healthcare, revealing insights that would otherwise remain hidden, and enable the development of models with lesser data than otherwise required. The project will also incorporate black-box
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skills for a sustainable future Our growing research group consists of 7 PhD students, 1 postdoc, 1 senior lecturer, 1 associate lecturer and has produced innovative models, theories and tools that have