198 structural-engineering-"https:"-"https:"-"https:"-"https:"-"https:"-"Dip"-"Dip" positions at ETH Zurich
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of synthetic biodegradable polymers. These materials-ranging from structural to water-soluble polymers-are designed for complete microbial metabolic utilization in their intended receiving environments (e.g
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chemicals in the environment and team up for the study of water-soluble and water-dispersible polymers (WS/DPs). These polymers are widely used in home care and cosmetic products and enter both engineered
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on the development and application of advanced electronic structure calculations to explore the phase diagram and relevant properties of layered Ruddlesden-Popper-type nickelates. Project background Layered nickelates
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- and medium-term macroeconomic outlooks using macroeconometric models, indicators and survey information. The division combines structural macroeconometric modelling with data-science methods
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that control microbial surface colonisation and biofilm assembly, structure, and rheology. We use a broad spectrum of technologies in materials science, microbiology, and microfluidics, as well as advanced
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100%, Zurich, fixed-term The CMR Zurich group at the Institute for Biomedical Engineering develops Magnetic Resonance (MR) technology and methods to assess the cardiovascular system. We devise
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to study lymphatic morphology and leukocyte migration. We are currently recruiting a postdoctoral researcher to investigate the structure and function of human pulmonary lymphatic networks in health and
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earth observation with applied forest monitoring, including tree species identification, forest structural changes, and forest resilience assessments, with a growing focus on spectral and functional trait
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well as skills in dynamics & structural health monitoring, data analysis and modelling, and interest in laboratory-based experimentation and engineering applications. A solid knowledge of English as the spoken and
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structures. By combining numerical modeling, laboratory experiments, and theoretical analyses, we seek to link microscopic processes with the macroscopic behavior of both engineering and natural systems and