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. These materials-ranging from structural to water-soluble polymers-are designed for complete microbial metabolic utilization in their intended receiving environments (e.g., aquatic systems, soils, wastewater). By
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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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ecosystem processes, in particular deadwood decomposition, in forests are altered by global change factors such as climate change, disturbances, and management-induced structural changes at different spatial
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Zurich is the leading institute for applied research in economics in Switzerland. KOF conducts well-founded and independent research on the Swiss and international economy. It addresses structural and
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CCS. Your main tasks will include: Processing and imaging the newly acquired high-density 3D seismic dataset and integrating vintage 3D seismic data to image and characterise the geological structures
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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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torrential catchments.The Torrents and Mass Movements group is looking for a candidate to start in December 2025 or by agreement as a PhD student in Sustainable Hydraulic Structures in Torrents (f/m/d) You
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this project, high-resolution spectroscopic imaging will be employed to map chemical changes and structural degradation in the PE material, while correlating these findings with biological responses observed in
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plus but not required Interest in biophysics, developmental biology, or cell signaling (no prior experience required) Independent, proactive, and structured work style Master’s students interested in