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and Environmental Sustainability Environmental Impact of Construction on Peatlands Exploring the mechanisms of wave propagation in granular materials Effects of bio-inspired remediation techniques
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. This is a 3.5-year PhD position based in the Structured Light Lab, within the Department of Physics and Astronomy at the University of Exeter (Streatham campus, Exeter). The Structured Light Lab is led by
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structures, demonstrating the ability to engineer the membrane shape. They will test the effect of using their structures in selected devices. The student will be trained in wet lab techniques and advanced
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insole architectures to redistribute plantar pressure and improve comfort. To support continuous monitoring, sensing elements will be incorporated within the insole structure to capture changes that may
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characterised at atomic resolution via crystal structures of PrfA–peptide complexes. Building on these findings, this PhD will develop peptide-based PrfA inhibitors as novel anti-Listeria agents. The project will
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library of polymer candidates with varied physicochemical properties (charge, size, structure, biodegradability) Formulate polymer–mRNA nanoparticles and characterise their size, stability, and mucus
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of Medicine, which is internationally recognised for its work in cardiovascular science, thrombosis, fibrin clot structure and inflammation. The project will be based in the Leeds Institute of Cardiovascular
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of Medicine, which is internationally recognised for its work in cardiovascular science, thrombosis, fibrin clot structure and inflammation. The project will be based in the Leeds Institute of Cardiovascular
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, and data-intensive processing, with real-world applications across aerospace, energy, and infrastructure. Aim This project will pioneer the first-generation structured light projection robotic system
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. Current XAI methods are often generic and overlook industrial realities. This project will embed user-centric explanations directly into machine learning workflows using structured, ontology-driven