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/TEM). Additional Funding Information Funding is available for Home students, covering fees and providing a stipend at UKRI rates (current stipend: £20,780 p.a.) for 42 months. The PhD project would suit
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industrial settings. The student will explore a number of interconnected research strands, including: 1. Advanced CFD and multiphysics modelling Development of high-fidelity numerical models of RAM processes
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will explore public, stakeholder, and decision-maker perspectives on lockdown strategies, exit processes, and communications. Using co-design workshop methods, the student will develop a prototype
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to stadium egress, border queues, major power outages (and the resulting loss of communications and systems functionality), and emergency evacuations. The PhD student will use systems thinking to map
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for innovative therapies for atopic dermatitis. The PhD student will be embedded within a vibrant research environment and receive comprehensive training in cutting edge molecular microbiology and biochemistry
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Atopic dermatitis is a common chronic inflammatory skin disorder, affecting 15-20% of children and up to 10% of adults. During disease flares, patients experience painful, inflamed skin lesions accompanied by intense itch. In atopic dermatitis, there is a dysbiosis of the microbiome on...
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, many current UV-filter ingredients raise concerns around safety and ecological impact. This PhD project addresses this urgent need by developing bio-inspired sunscreens, drawing on nature’s own solutions
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The PhD project aims to develop dynamic pressurisation techniques for real-time crystallography and spectroscopy studies of samples in a liquid environment. It will be used for in-house macroscopic
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sensor availability, remains an open research area, particularly when grounded in experimental hardware rather than purely theoretical models. The PhD aims to conduct underpinning research on the system
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The global transition to a low-carbon economy demands innovative approaches to managing CO₂ emissions. This PhD project addresses one of the most pressing challenges in sustainable chemistry: the