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collaborative programme bringing together a team of leading experts in advanced electron microscopy imaging, first-principles modelling, metal halide semiconductor thin-film and device fabrication, and
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modern challenges in sustainability, nonlinear optics, photonic and quantum technologies, new nanostructured materials, sensing, imaging and clean energy. The group adopts an interdisciplinary approach
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technologies and of novel nanomaterials to address modern challenges in sustainability, nonlinear optics, photonic and quantum technologies, new nanostructured materials, sensing, imaging and clean energy. The
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biophysics, and cutting-edge analytical technologies. Your expertise in optical microscopy, single molecule imaging, computational imaging and data analysis will help us further develop mass photometry and
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transcriptomics and high-dimensional tissue imaging, run CRISPR-based perturbation assays and functional assays to reveal mechanistic insights and work closely with computational and clinical fellows in a highly
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cognitive neuroscience and imaging background, with an interest in connecting brain data to cognitive theories of compulsivity. You should also have a rich experience with neuroimaging methods and data
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unique device structures, apply thermal imaging techniques for nm-scale devices and access the extensive device testing suite available in Bristol, from advanced electrical, thermal to electric field
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cast and AM test parts, take acoustic pressure measurements and perform in-situ high speed imaging to study failure mechanisms complemented by microstructural characterisation and analysis. Experiments
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Colorectal Cancer - Stratification of Therapies through Adaptive Responses (CRC-STARS) programme, developing and applying cutting-edge mathematical methods to spatial transcriptomics imaging data in order to
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such as cloning, tissue culture, qPCR, ELISA, staining, electrophysiology, and calcium imaging. Active engagement with sustainability and eco-friendly lab practices. What We Offer We value the wellbeing