66 structures "https:" "https:" "https:" "https:" "https:" "https:" "Imperial College London" positions at ETH Zurich

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  • ETH Zurich | Switzerland | 42 minutes ago

    -organized and structured working style with strong problem-solving ability High motivation and willingness to learn new skills Team-oriented mindset with a positive attitude and creativity Ability to work

  • ETH Zurich | Switzerland | 1 day ago

    Structuring and follow-up of project ideas Execution and coordination pre-studies Preparation of industry and grant proposals Development of collaboration opportunities with other research groups Development

  • ETH Zurich | Switzerland | 1 day ago

    100%, Zurich, fixed-term Impact Build is a new startup (ETH label pending) that aims to decarbonize construction through robotic manufacturing. Our core technology, Impact Printing, is an innovative

  • ETH Zurich | Switzerland | 8 days ago

    , Engineering and Construction (AEC) for net-zero carbon infrastructure. Job description Development and maintenance of Python and C# libraries supporting XR-based research workflows in architecture and civil

  • ETH Zurich | Switzerland | 20 days ago

    schedules and calendars, coordinating meetings, handling correspondence, and ensuring well-structured document workflows. You will coordinate and monitor group and project budgets in close collaboration with

  • ETH Zurich | Switzerland | 1 day ago

    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

  • ETH Zurich | Switzerland | 9 days ago

    experience is a 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

  • ETH Zurich | Switzerland | 9 days ago

    driven by curiosity about the physical mechanisms that underlie failure and by the ambition to translate this understanding into more reliable and resilient materials and structures. By combining numerical

  • ETH Zurich | Switzerland | 1 day ago

    driven by curiosity about the physical mechanisms that underlie failure and by the ambition to translate this understanding into more reliable and resilient materials and structures. By combining numerical

  • ETH Zurich | Switzerland | 1 day 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

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