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researcher will fabricate and characterize devices, perform low-temperature experiments using radio-frequency readout circuits, and collaborate with theorists to develop novel experiments for studying quantum
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responses in the context of inflammatory bowel disease and other mucosal barrier disorders. A central aim will be to define the mechanisms by which metabolites such as butyrate shape antimicrobial programmes
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of temperature on plant-pathogen interactions. We are applying an integrated approach that combines understanding of pathogen biology and plant immunity to inform the development of climate-resilient crops. You
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funded by BBSRC and is fixed-term for 6 months. This project is to develop simple cell (SimCell, non-dividing bacteria cell) based biocatalyst to transform waste from cultured meat process into essential
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at the microscale. The post holder will be primarily a member of the engineering research group with responsibility for development of fluid walls technology for advanced cell biology assays in close collaboration
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work within established research programmes. Excellent communication skills are essential, including the ability to write for publication, present research proposals and results, and represent
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involves the further development and application of ESR spectroscopy to the investigation of organic semiconductor heterojunction nanoparticles for photocatalysis in collaboration with the group of Prof
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governments, development financiers, market participants and local communities, ensuring that equity and inclusion are at the centre of the work. The research you lead will generate both academic outputs and
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informing the development of more precise immunotherapies. The successful candidate will: • Design and carry out in vivo experiments in preclinical mouse models of autoimmunity • Perform
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of performing in vivo gene delivery techniques in the rodent brain, such as viral delivery. Previous experience of developing custom analysis scripts for quantifying aspects of synaptic inhibition. The closing