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conventional production hosts. In parallel, we design and build advanced yeast cell factories. By combining fundamental biology with cutting-edge strain engineering, our work aims to enable sustainable
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, chemistry at the interface of biology and medicine, materials science, renewable energy, to chemical engineering processing, material recycling, nuclear chemistry, as well as theory and modelling. We have
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the area of antenna systems and their applications in biomedicine/biology Knowledge of computational electromagnetics with practical experiences with electromagnetics modeling software Programming in Matlab
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within research and education. The following will strengthen your application: Familiarity with any of: molecular simulation methods (integrators, force fields, enhanced sampling), structural biology
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on this project. About us At the Department of Life Sciences , we bring together biology and technology to develop sustainable solutions for the future — from food and medicine to energy — driven by curiosity
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any of: molecular simulation methods (integrators, force fields, enhanced sampling), structural biology, biophysics, or chemistry. Teaching experience is meritorious but not required * The date shown in
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bring together biology and technology to develop sustainable solutions for the future — from food and medicine to energy — driven by curiosity, creativity, and scientific excellence. The Mijakovic lab started out