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) Determining its involvement in pathways that promote healthy ageing In addition, we will collaborate with the lab of Prof. Tom Wileman to determine the conservation of these mechanisms in mammalian cells
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induced damage mechanisms. This project utilises a precisely controlled mist film to minimise thermally induced damage, enabling efficient processing of advanced materials. As a PhD student, you will work
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Exciting Fully Funded PhD Opportunity: Novel Sealing for High-Pressure H2 and Low-Carbon Storage Technologies - Help Shape the Future of Clean Energy Storage! School of Mechanical, Aerospace and
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A fully funded 3.5 years PhD position in developing software and computational tools for sustainable supramolecular materials design is available in the group of Assistant Professor Andrew Tarzia
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or international equivalent in a subject relevant to the proposed PhD project (e.g. chemical engineering, mechanical engineering, civil engineering) is our standard entry, however we place value on prior experience
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Postgraduate Application’. Use ‘Course Search’ to identify your programme of study: · search for the ‘Course Title’ using the programme code: 8090F · select ‘PhD Mechanical Engineering (full time
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materials for low-emission ammonia conversion. Perform both experimental investigations and computational simulations of the combustion process. The outcome of this project will demonstrate the feasibility
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in numerate, computational, or environmental subject areas. Numerate Subject Areas include e.g.: Mathematics, Statistics, Physics, Economics, Finance, Engineering (Mechanical, Electrical, Civil, etc
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for an individual with a keen interest in cell biology to investigate the molecular mechanisms of Wnt signal transduction pathways and how these are disrupted in disease. The successful candidate will receive expert
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thin dielectric layers, high localised electrical field stress, and the difficulty of ensuring consistent manufacturing quality. Furthermore, the fundamental understanding of its ageing mechanisms under