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institutions in the programme grant and with supporting industrial partners. About you You should possess a university PhD degree in mechanical engineering or a similar discipline, preferably with experience
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on modelling of the transport, electrochemistry, and mechanics of next-generation lithium/air electrode materials and cell architectures. Using input data from experiments, the post holder will develop and
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semiconductors. The PDRA will be responsible for the characterisation of advanced power electronic materials to understand their mechanical behaviour, residual stresses in relation to their 3D microstructure. You
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molecules, and understanding mechanisms of resistance, being undertaken in the medicinal chemistry labs in the IOI and therefore will work closely with chemists and biochemists within the IOI. The IOI’s
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tomato and pepper as model systems. Work in Oxford will build on our extensive experience in studying bacterial virulence mechanisms and the role of the plant microenvironment in disease development
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new data will be linked with information from samples previously collected during pregnancy, there will also be opportunities to be involved with analysis of multi-omic data to study mechanisms
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with other researchers in designing behavioural tasks and neuroimaging/neurostimulation experiments for investigating the neural mechanisms underlying emotional approach/avoid choices. You will use fMRI
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the molecular mechanisms of ribosome biogenesis dysregulation in cancer. This full-time fixed-term post is funded by Cancer Research UK for 1 year. The actual starting salary offered will be based
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hardware support mechanisms. Your role will include the design, implementation and evaluation of different parts in the system, and the integration with other partners in the project. About you You should
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the molecular mechanisms underlying disease progression and treatment resistance and identify novel therapeutic targets. You will take a lead on development of computational approaches to integrate multi-omics