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prerequisites): Molecular dynamics (MD) and Density Functional Theory (DFT); Protein engineering; Aptamer design/optimisation; Molecular biology; Graphene. DC13: Structural engineering of bioreceptors
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): Molecular dynamics (MD) and Density Functional Theory (DFT); Protein engineering; Aptamer design/optimisation; Molecular biology; Graphene. DC13: Structural engineering of bioreceptors for graphene. Engineer
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framework for metalloenzymes containing bound metal cofactors, with a focus on the Ni(I)–F430 center of methyl-coenzyme M reductase (MCR). Using density functional theory (DFT), force-field parameterization
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, Physics, Computational Chemistry, Nanoscience, Chemical Engineering, or a related field. Strong background in modelling (electro)catalytic processes using periodic density functional theory (DFT) is
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insulators and superconductors, and light-driven phase transitions. The personal website can be found here: https://ias.szu.edu.cn/en/info/1046/3165.htm Position Description We invite applications for one
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of density functional theory (DFT) is beneficial but not required. Your workplace You will work in the Theoretical Physics Division: https://liu.se/organisation/liu/ifm/teofy . The division conducts research
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Scikit-learn, PyTorch, Openbabel, and RDKit packages. Experience with density functional theory (DFT) calculations. Experience with version control GitHub repositories, and Unix/Linux supercomputing
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responsibilities for this position include the development of computational models to simulate scintillator properties using time-dependent density functional theory and Monte Carlo methods, analysis and
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to) SIESTA (www.siesta-project.org) and its TranSIESTA functionality. SIESTA is a multi-purpose first-principles method and program, based on Density Functional Theory, which can be used to describe the atomic