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Field
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Division of Infection Medicine The research group in Structural Infection Medicine (STRIME) is led by Lotta Happonen, and the focus is to map how different bacteria bind to human cells and proteins
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, topology, and electronic structure rather than net magnetisation. A core scientific aim is to resolve and manipulate topological magnetic textures such as vortices, merons, and domain walls at the level of
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terms of employment The employment is in accordance with the Ministerial Order on the Appointment of Academic Staff at Universities (the Appointment Order) and the Ministerial Order on Job Structure for
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biodegradability. You’ll systematically study the impact of molecular structural parameters on material properties and biodegradability (‘structure-degradation correlation’). You’ll also optimize light source
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electronic structure methods in the areas of molecular response theory for molecules in complex environments. The developed methodologies will, for instance, be applied to model advanced spectroscopies
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domains are generated, or for improved structuring in model training and design. Work on this project will require research into novel methods to represent model variations and attribute them to specific
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these methods to understand the atomic structure and properties of a range of materials being developed for efficient solar cells, light generation, batteries, superconductors, photonics and nanoelectronics. We
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robotic structures with intelligent control to study how body deformation and surface interactions enable agile, adaptive movement. The project emphasizes the integration of novel mechanical designs
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-based materials used in applications ranging from plumbing to transport. They are also nature's preferred way of providing structural scaffolding within cells (the cytoskeleton), and within tissues
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excitation of specific bonds. It will revolutionize the field of biopolymer processing beyond cellulose and yield fundamental insights into su-pramolecular structure and dynamics in biomaterials. About us Our