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should have or expect to achieve at least a 2.1 honours degree in materials science/engineering, metallurgy, physics, chemistry, or a related subject. To apply, please contact the main supervisor, Prof
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the identification of topologies and technologies that can support current and future geared architectures. Within this context applying Model Based Systems Engineering principles for defining requirements and
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) can we use mathematics to engineer the next generation of LC applications? We will partially address these open questions in this project. We propose to design and analyse new sophisticated multiscale
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sustainable behaviours including the use of technology to support informed decisions (i.e virtual fitting rooms) or the use of digital media to communicate sustainable messages. Previous research has
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partner, Rapiscan Systems Ltd, and ultimately contribute to the development and deployment of this technology on a commercial scale. Rapiscan Systems Ltd are a world leader in imaging and detection
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supports a safe, equitable, and sustainable approach to tackling AMR. Anchored in Science and Technology Studies (STS) research perspectives, ALTERBIOTIC analyses the entanglements and the tensions between
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improving yield/selectivity etc. We expect to achieve similar results with our current reactions, leading to huge reductions in carbon footprint, to help the process industries move towards Net Zero. Our 3d
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a robust and reversible conductor-insulator transition, which is of strong interest in logic and memory applications. We showed that this process can be driven with independent control of the electric
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-efficient engines powered by Sustainable Aviation Fuels (SAFs). Project Overview Fuel systems play a critical role in enabling the net zero aviation transition by 2050, but current design methods are not
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. Our current research has an overarching focus on sustainability in and from space, working closely with industry and agency partners to deliver cutting-edge solutions for real-world problems