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trapping and analysis using state-of-the-art nanopore experiments. About the Project Our group has pioneered the development of the Nanopore Electro-Osmotic Trap (NEOtrap), a groundbreaking technique that
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and the Laboratory for Biointerfaces. This dynamic environment in the ETH Domain offers state-of-the-art facilities, expert mentorship, and an ideal platform to advance your scientific career. Starting
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to perform state-of-the-art research in one of the most dynamic scientific institutions in Europe. Competitive salary and excellent educational conditions. Term of employment: 1-year fixed-term contract (CDD
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defiance by centering on visual analysis grounds aspirational urbanism, rescaling the object of urban theory towards everyday micro-practices.
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characterization is highly appreciated. We are looking for committed and creative individuals able to work in a team. The candidate will work in a top-level research environment with state-of-the-art laboratory
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of biopolymers using state-of-the art techniques. Assemble bio-based materials using advanced 3D printing (binder jetting and two-photon polymerization) and characterize the resulting material properties. Publish
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The Department of Public Health of the Medical Faculty, University of Basel, Switzerland, has for long been active in health economic evaluation and health services research, with state-of-the-art
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, interact with the other 4 PhD students of the project at ETHZ and TU Delft, and use state of the art methods such as Nanoindentation, Raman Spectroscopy, Digital Light Processing, Two-Photon Lithography
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grades. Good experimental capability is of high value. Good command of English is required. Our offer A highly interdisciplinary and dynamic research environment with state-of-the-art laboratory equipment
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of technologically relevant oxide thin films. In particular, the combination of state of the art non-linear optics monitoring and electron spectroscopy in situ allows investigating the dynamics