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study/optimization, numerical simulation, conceptual design, basic engineering and construction of the reactor. Your tasks Conduct experiments in the lab-scale including catalyst synthesis
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Irène Curie Fellowship No Department(s) Applied Physics and Science Education, Biomedical Engineering Reference number V34.7570 Job description The Molecular Plasmonics group together
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combining plant biology, simulation modelling, and artificial intelligence we aim to develop ‘smart breeding and cultivation’ methods to speed up breeding for complex resilience traits in different growing
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. This research is embedded in the CropXR work package on growth-resilience trade-offs and combines digital phenotyping and molecular omics technologies. Your job Current projections show that the incidence
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should be in line with the to be developed safety protocols; Performing experimental evaluations to assess the performance of different carriers; Modelling and simulation techniques to predict carrier
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eXtra Resilient (XR), sustainable, and climate-adaptive crops. By combining plant biology, simulation modelling, and artificial intelligence we aim to develop ‘smart breeding and cultivation’ methods
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combining plant biology, simulation modelling, and artificial intelligence we aim to develop ‘smart breeding and cultivation’ methods to speed up breeding for complex resilience traits in different growing
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. However, one key unknown remains: for multiple copying cycles to work, the template RNA molecule and the newly formed RNA strand have to separate mechanically after the first copy is made, and how
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the density of the growing network. To address this complexity, the PRONTO researchers will develop multiscale computational models connecting atomic-level molecular simulations, mesoscopic reaction kinetics
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separate mechanically after the first copy is made, and how this mechanical separation could have happened effectively remains unclear and heavily debated. In the context of an ambitious NWO-Vici research