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collaborative approach to PhD projects. Our new PhD projects develop skills targeting the urgent need in transition to sustainable chemicals manufacturing. Our projects will define the next generation of
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Raman spectroscopy techniques cannot prob deeper into tissue under the skin. Therefore, non-invasive in-vivo measurements are limited to the skin. The aim of this PhD project is to develop new Raman
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on international healthcare systems. Recently, droplet microfluidics has been used to develop crosslinked, functionalised 3D polymer microparticles to promote wound healing. This project aims to create a
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the power distribution lines, on-train power converters and trackside systems interact, and then to use these tools to understand how EMC issues can be mitigated. An academic or technical background in
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project, we will develop and implement approaches for estimating the uncertainty in AI predictions of chemical reactivity, to help strengthen the interaction between human chemists and machine learning
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-Royce to develop smart and robotic solutions to enable in-situ/on-wing repair and maintenance of gas turbine engines. At the Rolls-Royce UTC at University of Nottingham we have developed robotic systems
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from this dynamic environment. However, there are still great challenges to be overcome. Engineering challenges: Improve the robustness of the crystalliser towards blockages; Develop high-throughput
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arisen to study for a PhD alongside our commercial partner, Totally Natural Solutions Limited (TNS), to develop novel, clean label and sustainable flavourings for use in brewing and other industries. TNS
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and engineers who wish to establish a research career. The EPSRC Doctoral Prize aims to develop independent researchers. Applicants are encouraged to move into new areas of research and demonstrate
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with the following actions: •Develop the principles and theories for governing the scalability principles for building foldable and reconfigurable end-effectors that are able to access geometrically