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Applications are invited for a Postdoctoral Research Associate/Fellow to work in the field of numerical simulation of multiphase flows under the supervision of Dr Mirco Magnini in the Faculty
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Based in the Faculty of Engineering at the University of Nottingham, this role will focus on electromagnetic design, modelling and validation of microwave heating technologies for the BioIron™ project—a groundbreaking collaboration with Rio Tinto to decarbonise the iron and steel-making...
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to adapt to transient water stress conditions. This position is especially suited for candidates with an interest in root development and molecular cell biology. All the technologies required for the project
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Applications are invited for a postdoctoral research position at the University of Nottingham, to work on simulations of galaxy clusters with Dr. Yannick Bahé. This position is part of a UKRI funded
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volunteer pilot-study in healthy participants involving intake of sugar and alcohol, neuroimaging, collection of biological samples and subsequent analysis using molecular biology techniques. You will be
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analysing the outputs of hydrodynamical simulations of clusters of galaxies to trace the build-up of mass through the cosmic network as clusters grow by mergers or smooth accretion of matter along filaments
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utilize preclinical tumour models, high dimensional techniques including spatial mass spectrometry and immunocytochemistry, alongside complementary state-of-the-art molecular biology approaches to identify
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signalling (e.g. calcium fluxes/signalling), root development, and molecular cell biology. Applicants must be highly motivated and self-driven, with a PhD in molecular biology or a related area of biological
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scientific boundaries and overcome hurdles. They will have experience in stem cell culture, imaging, molecular biology, genetic engineering and/or bioinformatics analysis. This will enable new approaches
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project is a collaboration between researchers in the UK, Spain and Ecuador, it builds directly on our previous work identifying and characterising the molecular mechanism of altitude adaptation through