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analytical tools. Molecular dynamics of semiconductor-oxide interface. Numerical simulations of the oxide condensation process based on force-field data. The topic will require numerical simulations and
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Are you passionate about sustainable biotechnology and ready to tackle one of today’s biggest environmental challenges? Join our dynamic and interdisciplinary team at Chalmers University
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thereafter. The project Currently, plant ingredients are often refined to almost molecular purity - and then combined again to create structured foods. This isolation is resource intensive, and the removal
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electrochemistry. Our goal is to combine electronic structure theory, molecular and quantum dynamics methodology, and machine learning methods to achieve an accurate yet computationally feasible description
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to address major global challenges through molecular-level insights and cross-disciplinary innovation. We offer a creative and stimulating environment where postdocs will develop skills in organic, inorganic
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assembly, recognition, transport, motion, and catalysis. The goal is to create new structures and functions, with an emphasis on molecular switches and motors, dynamic molecular systems, responsive materials
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of circRNAs in in vitro models of Neurodegenerative Diseases. Towards this end, various cell lines combined with molecular, cellular, biochemical and pharmacological methods will be utilized to functionally
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, molecular dynamics simulations using ab initio and machine-learning potentials, and the development or application of machine-learning tools for feature extraction, property prediction, and inverse molecular
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in (plant) molecular biology or biochemistry with max. 4 years of postdoc experience. You are an expert in molecular biology, biochemistry and/or (plant) biotechnology. You have guided (master/PhD
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in (plant) molecular biology or biochemistry with max. 4 years of postdoc experience. You are an expert in molecular biology, biochemistry and/or (plant) biotechnology. You have guided (master/PhD