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REACTOR DESIGNS FOR THE SUSTAINABLE PRODUCTION OF LIGNIN-DERIVED END-PRODUCTS VIA DEPOLYMERISATION REACTIONS This exciting opportunity is based within the Advanced Materials Research Group
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increased healthcare end-user and accessibility demands. Imaging is a crucially important aspect in many scientific fields, with it being of particular importance in life-sciences and biomedical imaging
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increased healthcare end-user and accessibility demands. Imaging is a crucially important aspect in many scientific fields, with it being of particular importance in life-sciences and biomedical imaging
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aforementioned tasks with the following actions: Develop the principles and theories for governing the scalability principles for building innovative robotics end-effectors that can access geometrically complex
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materials research, to develop a wide range of skills in experimental and data analysis methodologies, and to be involved in end-to-end development and application of new, much-needed, additions to neutron
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installations. Building on these research and industrial successes, this project aims to design soft robotic systems capable of fast locomotion within aero-engines and operating end effectors for non-destructive
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opportunities at the end of the PhD study. For PhD students wishing to pursue an academic career, the opportunity to participate in teaching activities will be sought. Internationally recognised Rolls-Royce
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and manipulation capabilities. These systems will feature both hexapod and continuum arm sub-systems, allowing them to navigate confined spaces and perform precision tasks using specialized end
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appropriate technical teams. Joint academic and industrial supervision. In this way, the student will develop both academic and industrial skills with multiple career opportunities at the end of the PhD study