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these intricate immunological processes. Using advanced bioengineering methods and innovative molecular tools, this project aims to: Develop robust 3D skin-on-a-chip models incorporating genetically engineered
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) quantification tools, holding back early immunogenicity risk assessment in the context of protein drug development. A clearer understanding of the rules governing T cell activation would form a paradigm shift in
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paradigm shift in development of Biologics. A critical challenge preventing this is the current limiting volume of high quality and well-characterized in-vitro T cell immunogenicity data. In this project, we
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Join us at the Department of Electrical and Computer Engineering at Aarhus University to help shape the future of sustainable water management. We’re looking for a motivated postdoc for a 1-year
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described through five overall research areas: Diagnostic Imaging, Digital Health, Personalised Therapy, Precision Diagnostics, and Sensory and Neural Technology. Our technologies and solutions are developed
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buildings to identify: An appropriate pseudo biological modelling for paradigm for buildings (a standard building model) The growth stages of a building (including the integration of the different building
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the advance of image technology, AI and hydroacoustics we are now in a position to target this problem from a different angle. We here advertise one 3-year postdoc position. The aim is to develop and apply
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at the Department of Electrical and Computer Engineering, as well as Ethiopian researchers specializing in Geophysics and Nature-based solutions. The candidate must be willing to participate in field work in Ethiopia