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. Is proficient in modern statistical modelling, AI & machine learning methods (e.g. system identification, regression models, Bayesian methods, deep learning). Is an experienced programmer in R and/or
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well-equipped laboratory for advanced millimeter wave measurements and a state-of-the art cleanroom facility. A major part our research is targeting new semiconductor materials and devices to enable
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homologues in humans. This makes BY-kinases a promising target for development of new antibiotics. We have recently discovered a natural mechanism of BY-kinase inhibition based on protein-protein interactions
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target breakthroughs in sensitivity and selectivity for disease-related biomarkers. The work integrates catalysis, surface chemistry, materials design, and sensor engineering, and continues all the way
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generation. Unlike Li-ion batteries, the targeted zinc batteries operate in aqueous, pH-dependent environments. A mechanistic, atomic-scale understanding of interfacial chemistry is essential for achieving
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antimicrobial targets. The focus lies on membrane-associated proteins such as transmembrane channels, transporters, and stress signaling systems. The project requires thorough knowledge of bacterial cell biology
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Doctoral student in Materials Chemistry of Doped Organic Semiconductors in EU Training Network FADOS
from EU countries, the UK and Switzerland. The mission of FADOS is to achieve targeted modification of semiconductor properties through doping. The goal of the project is to develop fundamental