201 structural-engineering "https:" "https:" "https:" "https:" "https:" "Washington University in St" positions at ETH Zurich

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  • ETH Zurich | Switzerland | about 1 month ago

    largest research centre for the natural and engineering sciences in Switzerland. The current research focus is the investigation of novel magnetic systems at the mesoscopic scale making use of the clean

  • ETH Zurich | Switzerland | about 2 months ago

    collaboration between Food Process Engineering and Food Structure Engineering at ETH Zürich. Plant-based meat alternatives are typically obtained via high-moisture extrusion cooking. Texturization is believed

  • ETH Zurich | Switzerland | 16 days ago

    solutions. Project background Organic redox flow batteries are a promising next-generation technology for large-scale, safe, and sustainable energy storage. Their performance relies critically on the ability

  • ETH Zurich | Switzerland | about 3 hours ago

    and duty-cycling strategies responsive to structural dynamics. Energy harvesting and lifetime optimization.  Integrate multi-source energy harvesting (vibration, solar, RF, etc.) and dynamic power

  • ETH Zurich | Switzerland | about 3 hours ago

    materials, surgical technologies. Ability to collaborate and communicate across engineering, materials science - chemistry, manufacturing, and clinical teams. Structured, detail-oriented, and rigorous

  • ETH Zurich | Switzerland | about 3 hours ago

    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

  • ETH Zurich | Switzerland | about 3 hours ago

    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

  • ETH Zurich | Switzerland | about 3 hours ago

    tools. Our group combines biology, engineering, and computational science to understand how cells organize into complex tissues. Located in Basel, the Department of Biosystems Science and Engineering (D

  • ETH Zurich | Switzerland | about 3 hours ago

    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

  • ETH Zurich | Switzerland | 15 days ago

    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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