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produced from steam methane reformation of natural gas, which is an efficient and mature technology, yet it requires high temperatures and has a large carbon footprint. This PhD project addresses a key
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fabrication within engineering cleanrooms, in vitro testing and collaboration with consultant radiologists and surgeons from Gateshead Breast unit to assess device performance and clinical safety. Number
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be smarter, more power dense, and more efficient, delivering greater performance, functionality, and reliability. This demands the adoption of faster switching wide bandgap devices and greater system
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an efficient and mature technology, yet it requires high temperatures and has a large carbon footprint. This PhD project addresses a key challenge: efficiently producing bio-methanol from abundant
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drug discovery start points for high-value cancer targets. An iterative cycle of design-make-test will be used to optimise hit fragments identified through screening. The project will provide
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porous ceramic supports using desktop scale 3D printing for molten salt membranes. The advantages of these membranes include very high temperature stability, high mechanical stability and longevity
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, delivering greater performance, functionality, and reliability. This demands the adoption of faster switching wide bandgap devices and greater system integration. About This PhD This PhD programme is part of a
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residues into higher alcohols —an innovative, sustainable alternative aligned with the UK’s Jet Zero and circular bioeconomy goals. Research Objectives The project aims to identify high-performing microbial
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-efficient and high-performance photonic devices have been driven by the quantum revolution. This PhD studentship aims to develop novel materials and components that facilitate strong light-matter interactions
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: the key fragment screening techniques. It will be screened against potential protein targets via both protein NMR and X-ray crystallography to identify drug discovery start points for high-value cancer