71 phd-in-architecture-landscape-built-environment Postdoctoral positions in Switzerland
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- Empa
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- Swiss Federal Institute for Forest, Snow and Landscape Research WSL
- EPFL - Ecole Polytechnique Fédérale de Lausanne
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- EPFL - Ecole polytechnique fédérale de Lausanne
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therapeutics, a passion for drug discovery and development, and the ability to integrate effectively into a multidisciplinary team through collaborative exchange and discussions. Requirements: PhD in Chemical
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. Requirements: PhD in Vascular Biology, Cell Biology, Mechanobiology, or a related field Solid expertise in vascular biology, ideally complemented by knowledge of mechanobiology and microfluidic engineering
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position is a PhD in mathematics, - A background in probability theory / stochastic analysis / PDE theory would be extremely beneficial. - Proficiency in English is required. We offer: - A stimulating work
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through structure-activity relationship (SAR) studies. Work in a multi-disciplinary environment (collaboration with biologists, organic chemists and computational chemists). Writing of scientific
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applications such as responsive nanomaterials or targeted drug delivery, requires the development of bespoke motor architectures that are highly robust, scalable, and energy-efficient. Towards this goal, our
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employer, UNIL encourages excellence, individual recognition, and responsibility. Your qualifications Essential PhD degree in Accounting or related field (e.g., Economics, Finance, and Management) Excellent
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computational models and collaborate closely with lab teams. Publish research findings, present at conferences, and support PhD students. Help shape new research proposals and assist in securing funding. Your
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, selectively captured using antigen-specific monoclonal antibodies, and detected and quantified via flow cytometry. The postdoctoral researcher will work closely with an ongoing PhD project at the University
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mechanical experiments & hydrogen embrittlement: fracture toughness and fatigue crack growth experiments under high-pressure hydrogen environments, considering microstructure conditions of pipeline steels and
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of an in vitro model that mimics an in-vivo-like environment such as flow, medium, and temperature to ensure the translational potential of the coatings. Comparison of the established model with the standard