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100%, Zurich, fixed-term This project aims at developing a parsimonious and accurate dynamic model of train motion, with values calibrated from real life measurement of different sensor types
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characterization methods, Monte-Carlo simulation, and pulsed-laser-deposition of oxide thin films. The postdoctoral project unites our internationally leading expertise in pulsed-laser spectroscopy, ultrafast
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characterization methods, Monte-Carlo simulation, and pulsed-laser-deposition of oxide thin films. Project background The postdoctoral project unites our internationally leading expertise in pulsed-laser
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of evolving cooperative behavior given experimentally determined spatial structure in the gut microbiota. The project is theoretical, relying on mathematical modeling and simulation. The position is funded
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opportunity is available with a focus on molecular & systems biology and toxicology. The research will involve evaluating the impacts of chemicals on molecular and cellular responses in human cells. You will
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to join our interdisciplinary team. Laboratory website: https://oppermann.chemie.unibas.ch/en/ Project background To capture molecular dynamics in real-time we need experimental techniques that offer both
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) to understand energy systems at the molecular level. Computational Modeling (Advantageous): Proficiency in molecular simulations (DFT and MD) applied to energy systems is a significant advantage. Your
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The Ecole polytechnique fédérale de Lausanne (EPFL) is one of the most dynamic university campuses in Europe and ranks among the top 20 universities worldwide. The EPFL employs 6,000 people
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at the solid-electrolyte interface. This involves molecular engineering of electrolytes and interfaces to achieve fast, stable, and efficient electrochemical energy storage and conversion. To unlock
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and methods for molecular imaging and radionuclide therapy in clinical and/or preclinical settings are encouraged to apply. The Department of Nuclear Medicine at the University of Bern is equipped with