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immunobiology), and OrbiSMS (spatial glycosaminoglycan profiling), you will map the relationship of immune subsets, signalling pathways, and extracellular matrix interactions and identify novel interactions and
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nanometre-sized optical structures for intelligent manipulation of light. They require only simplistic (microelectronics-compatible) fabrication processes, and have the potential to replace previous optical
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the “Dialling up Performance for on Demand Manufacturing” Programme Grant, which will place the student within an active and supportive team of 9 other PhD students, 15 postdoctoral researchers, 18 world-leading
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. Hydrogen permeation barrier coatings for nuclear fusion and hydrogen energy applications. Using cutting-edge thin-film deposition and advanced microscopy, you will explore how nanoscale structures can
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for nuclear fusion and hydrogen energy applications. Using cutting-edge thin-film deposition and advanced microscopy, you will explore how nanoscale structures can transform performance in real-world
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the “Dialling up Performance for on Demand Manufacturing” Programme Grant, which will place the student within an active and supportive team of 9 other PhD students, 15 postdoctoral researchers, 18 world-leading
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dynamic environments, including narrow spaces and interactions with unfamiliar objects. This project aligns with Rolls-Royce’s technical needs for developing soft robotic solutions to enable in-situ/on-wing
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into the models that are used to evaluate a range of deviations from guidelines including their interactions and effects on procedure outcomes and used to support operational and strategic decisions. This approach