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A fully funded PhD studentship and great opportunity to work closely with a leading European Research Consortium at the forefront of Sustainable Aviation to research and develop novel electrified
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This PhD studentship is an exciting, fully funded opportunity to work as part of an internationally renowned scientific and engineering team to develop a new innovative technology to meet and
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to develop new antibacterial metal complexes which kill bacteria under visible light. __________________________________________________________________________ PROJECT: Antimicrobial resistance is one
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This 4 year PhD covers tuition fees and provides a tax free of £26,000 per annum. The start date is 1st October. The funding is for home students and those with settled status. This PhD will develop
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to 7 hours per week teaching or research support within the University. Please demonstrate the following criteria in your application: Relevant undergraduateor postgraduate degree Data collection and
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studies: Howdon and Bran Sands sewage works. The student will have full access to the sites. The candidate will be part of the PINZ CDT which aims to train the next generation of process and chemical
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structural systems integrated into various robotic systems. This project will explore innovative design and manufacturing methods, and develop novel structural/material systems, in the context of sustainable
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detailing educational background, professional experience, awards, prizes and any other achievements relevant to the field of study. Proof of English proficiency (for international students) Evidence of
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measurement methods. This Advanced Materials and Data Science project will develop data analysis methods for Raman spectra of commercially produced graphene, building on previous scoping work recently published
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to develop models towards human neural spheroids and/or organoids, and use these “mini-brain” platforms to generate infiltrative tumours using patient-derived GSCs. The model will then be validated as a more