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Moller Institute (MMMI) , at the University of Southern Denmark (SDU) , invites applications for a fully funded PhD position on the topic of automated mapping and identification of large structure
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-based workflows to evaluate stability, properties, and synthesizability-by-design in close collaboration with NTU Singapore. Develop software frameworks, APIs, and workflows for foundational machine
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tasks will include to: develop, evolve, and apply simple NMR methods for structure determinations in complex reaction mixtures and the mapping of reaction pathways, apply the methods to the discovery and
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qualifications. Possible topics are: The theory of ultrafast pump-probe experiments (e.g., time-resolved X-ray scattering and spectroscopy), simulations and data processing of actual ultrafast experiments, mapping
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experiments, mapping charge and energy transfer in molecular (and mesoscopic) systems, behavior of molecules in strong fields, dynamics of open quantum systems, and more. This project offers an excellent
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the movements and behavior of red deer in Vejlerne using advanced drone technology and AI-based data analysis. The work will include mapping reed bed dynamics and deer trails, comparing current patterns with
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and sustainable biomanufacturing. However, little is known about non-model gas fermenting microorganisms. The focus of the advertised positions will be on mapping the metabolism of gas fermenting
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ELEGANCE website: https://elegance.dtu.dk/ Google Scholar profile: https://scholar.google.com/citations?hl=en&user=yZDS88IAAAAJ More information about DTU Biosustain: www.biosustain.dtu.dk CPE group: https
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@biosustain.dtu.dk MSCA doctoral network ELEGANCE website: https://elegance.dtu.dk/ Google Scholar profile: https://scholar.google.com/citations?hl=en&user=yZDS88IAAAAJ More information about DTU Biosustain
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particular EEG responses, thereby mapping stimulus-response relationships in both space and time. Understanding these dynamic informational patterns is key to revealing how the brain tracks, processes, and