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learning methodology, electronic structure theory, and molecular dynamics methodology to simulate ultrafast chemical dynamics at surfaces and in materials. Your personal sphere of influence: As a university
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: 10.1038/s41467-023-39181-2 Research area: Computational biophysics, drug delivery, protein design Keywords:Computer simulations, coarse-grained model, molecular dynamics, membrane fusion, fusion protein
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Sorbonne Université SIS (Sciences, Ingénierie, Santé) | Palaiseau, le de France | France | about 1 month ago
employ a 3D dynamical model called a Cloud-Resolving Model (CRM). It is a non-hydrostatic atmospheric model simulating a rather small, local domain (a few hundred kilometers across, to be compared
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the project. Preferred: Skills and experience in molecular spectral analysis. Knowledge of molecular theory and spectral modeling. Excellent problem-solving and communication skills. Excellent written, oral
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Ph.D. Position in Organic Chemistry, Polymer Chemistry, and/or Sol–Gel Chemistry & Materials Science
measurements Basic knowledge of molecular simulation or modelling (e.g., molecular dynamics, coarse-grained modelling, or structure–property simulations) is advantageous Excellent written and oral
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: Ridone, P., Vassalli, M. & Martinac, B. Piezo1 mechanosensitive channels: what are they and why are they important. Biophys Rev 11, 795–805 (2019). https://doi.org/10.1007/s12551-019-00584-5 . Lüchtefeld
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simulation of health-relevant biomolecular structure, dynamics and networks Computational modeling of health relevant signals that report biomolecular activity in model systems vivo Successful candidates will
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learning methodology, electronic structure theory, and molecular dynamics methodology to simulate ultrafast chemical dynamics at surfaces and in materials. Your personal sphere of influence: As a university
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particular reference to 3D models, and molecular biology with the development of stably transfected clones. She/he will also have an opportunity to develop troubleshooting skills and critical thinking
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powerful ways to process quantum information using superconducting resonators and bosonic modes. To make these systems perform reliably, their quantum dynamics must be modeled carefully and their control