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transformation in bacteria – an important mode of horizontal gene transfer. We use complementary approaches including cryo-EM, biophysical methods and in vivo functional assays to study the protein machineries
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toxic substance. Therefore, methods for detecting, quantifying and separating enantiomers are critical to many fields, including biochemistry and pharmaceutics. However, standard methods are often not
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100%, Zurich, fixed-term The goal of this work is to develop novel methods for nonlinear wave manipulation and topologically-protected waveguides, and to demonstrate these methods with acoustic
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advanced fluorescence/confocal imaging approaches to resolve biofilm network structure and eDNA conformation in situ. Contribute to the development of a numerical predictive model of biofilm mechanics
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multiphoton microscopy, you will explore the molecular and cellular mechanisms of foreign body reactions. In parallel, you will collaborate with engineers to design and test microgels with tunable surface
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targeting biological pollutants, measurement of disease-related biomarkers, and study of organ-on-a-chip. We develop microfluid, optical and electrochemical methods in combination with microorganisms and
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novel method for autonomous design of 3D shapes fitting to the user body and optimizing the design to the desired assistance. Apart from actively shaping our group's research, the positions include
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FEniCS are a plus A keen interest in computational mechanics and in scientific methods and research in general Workplace Workplace We offer Your job with impact: Become part of ETH Zurich, which not only
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spatially aware predictive methods, tools will be developed to simulate the impact of system changes in selected scenarios, supporting the transition to a fully electric car-sharing service. These methods
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Application Deadline 31 Oct 2025 - 12:00 (Europe/Zurich) Type of Contract Permanent Job Status Full-time Hours Per Week 41.5 Is the job funded through the EU Research Framework Programme? Not funded by a EU