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identify structures with improved stability, performance, and scalability. At ETH Zurich, this work is embedded in an interdisciplinary research environment spanning organic and inorganic synthesis
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at both ETH Zurich and Eawag. Job description The successful candidate will conduct fundamental research on WS/DP adsorption and establish (semi-)quantitative polymer structure–adsorption relationships by
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in protein engineering and drug delivery on an innovative research challenge. Apply their expertise in designing structure-based peptide ligands and peptide conjugates. Develop affinity-based screens
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a postdoctoral researcher to investigate the structure and function of human pulmonary lymphatic networks in health and chronic lung disease. Project background This project, funded by the Swiss
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and resilient materials and structures. By combining numerical modeling, laboratory experiments, and theoretical analyses, we seek to link microscopic processes with the macroscopic behavior of both
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(protein-protein and protein-DNA interactions). Produce stable complexes between proteins and/or DNA. Determine structures of proteins/complexes. Design mutants and perturbations for in vivo experiments
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structures, domain walls, and topological defects govern macroscopic functionality. In this project, we will employ cutting-edge synchrotron-based 3D imaging techniques to directly visualize ferroic order at