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group of Prof. Jörg Libuda. The position focuses on surface‑science studies on complex model interfaces for catalysis, energy storage, and the production of semiconductor devices. In situ infrared
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combines state-of-the-art computational multiscale modelling (using DFT/TDDFT methods, collision theory, molecular dynamics, stochastic dynamics, Monte Carlo and analytical methods) and its thorough
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biological techniques, as well as animal models, will be applied. We offer: Embedding in an internationally competitive scientific environment An established, broad spectrum of scientific methods A wide range
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Description We invite applications for a fully funded PhD position within the DFG Priority Programme SPP2389. https://tu-dresden.de/mn/biologie/allgemeine_mikrobiologie/spp2389?set_language=en
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Application of self-consistent continuum solvation models to account for solvation effects Collaborating with peers including experimental project partners Publishing results in academic and peer-reviewed
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at least one of the following fields: theoretical computer science, model theory, or universal algebra high motivation and creativity We offer: the chance to do interesting and independent work in an open
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Research Areas: mechanical, fluid transport, photonic, and energy materials, supported by four Cross Areas dedicated to imaging, modeling, data, and exploitation. Together, they form a vibrant
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coating, iii) investigation of system design from small-scale to potentially pilot scale, and iv) application to micropollutant removal. Modelling aspects are open to exploration at molecular and process
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: System-Level Impact Analysis of IAM using Agent-Based Models Supervisor: Prof. Dr. Regine Gerike, Chair of Mobility System Planning and co-supervised by at least one additional professor
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. This position is to be filled at the Institute of Climate and Energy Systems - Energy Systems Engineering (ICE-1), where we develop models and algorithms for the simulation and optimization of future energy