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for near-field interaction and in vitro sensing of lossy materials including human tissue and realistic cell culture samples. As a part of the project, the Danish company HHC medical will provide
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PhD fellowship at the Copenhagen Center for Glycocalyx Research at the Department of Cellular and Mo
(CGR) The Copenhagen Center for Glycocalyx Research (CGR) aims to uncover the vital role of the glycocalyx, a cell surface layer of complex glycans, that integrates signals from cells and their
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models and reinforcement learning models for 3D graphs of materials to explore vast inorganic chemical spaces and design synthesizable energy materials. You will couple such models with physics simulation
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. In the project you should: Design and implement enzyme libraries using generative AI tools such as RFdiffusion2 or BoltzDesign. Perform molecular dynamics simulations to assess enzyme-substrate
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, and fibrosis. Aberrant MMP activity can drive tissue destruction, pathological remodeling, and disrupted cell signaling, making them critical yet complex targets for therapeutic intervention. Despite
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, pathology, pharmacology, immunology, microbiology, nutrition and diseases in both animals and human infants. The work extends from basic in vitro studies in cells and tissues (gut cell lines, primary blood
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. Main duties of the position include: Perform electrochemical characterization (Galvanostatic charge/discharge, Electrochemical Impedance Spectroscopy etc.) on zinc-air battery cells. Develop specialized
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of the position include: Perform electrochemical characterization (Galvanostatic charge/discharge, Electrochemical Impedance Spectroscopy etc.) on zinc-air battery cells. Develop specialized in situ cells, which
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-film solar cells.” You will become part of an enthusiastic team working closely with collaborators at DTU Physics and DTU Nanolab to advance neural network-based methods for materials discovery. Project