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evaporation, magnetron sputtering, spin-coating, photolithography, and plasma etching. Advanced optical and electronic methods will be used for device characterization. In line with our values , ETH Zurich
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, which you will co-develop with the help of a software engineer. In close collaboration with the architects in the frame of several Design Research Studios, you will apply the tool to co-create new urban
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challenges. Disseminate results through scientific publications, technical reports, industry publications and through presentations at national and international conferences. Profile PhD degree in engineering
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with contemporary methods in molecular and cellular biology, including the duties listed above, is essential. Mastery of Excel, Powerpoint, and at least one cloning (e.g., Geneious) and plotting (e.g
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Perform model calibration, parameter screening, and validation Compare simulations to experimental data and prepare high-quality visualizations Profile We welcome applications from candidates with: A PhD in
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at the Department of Biosystems Science and Engineering (D-BSSE) of ETH Zurich in Basel invites exceptional candidates to apply for PhD and Postdoc positions in pioneering projects at the intersection of synthetic
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system design. We employ advanced computational methods, machine learning, modeling, and custom hardware and software to continually test our solutions in various real-world industry projects. In one
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of the SPUR group through a variety of activities, including: Conducting structured literature reviews; Collecting and analysing empirical data, using quantitative methods (e.g., surveys) and/or qualitative
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associated to a project on phase-field modeling of fracture. The PhD project aims at developing cutting edge models for the fracture behavior of quasi-brittle materials, relevant for a real application of
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lab has developed cutting-edge methods that combine microfluidics with time-lapse microscopy and automated image analysis to quantitatively track single-cell gene expression in controlled dynamic