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We are developing groundbreaking robotics technology to extend robotic surgery to previously inaccessible parts of the complex industrial structures such aeroengine, enabling repair and inspection
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, using Engineering Biology approaches (high-throughput design, construction, analysis and optimisation) to construct many bacterial strains safely producing glycans and glycoproteins as vaccine candidates
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and now has over 200 members, 24 academics and circa 130 PhD students, researchers, and engineers. The group offers state-of-the-art facilities spanning 3500m², capable of handling up to 5MW
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has grown exponentially and now has over 200 members, 24 academics and circa 130 PhD students, researchers, and engineers. The group offers state-of-the-art facilities spanning 3500m², capable
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are unique to the University of Nottingham's Engineering facilities and are not currently practised by Johnson Matthey. The project seeks to improve the polymers' stability under extreme conditions, extending
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exponentially and now has over 200 members, 24 academics and circa 130 PhD students, researchers, and engineers. The group offers state-of-the-art facilities spanning 3500m², capable of handling up to 5MW
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funded by the Defence Science and Technology Laboratory (DSTL). Areas of focus include the synthesis and nitration of strained caged compounds. Candidates must: Hold a PhD (or be close to completion) in
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biomarkers • Integration of fibre optic sensors into tubing • Data capture and signal processing We are looking for enthusiastic, confident and organised engineering researchers who have a degree, PhD
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opportunities for collaboration. About You The candidate must have obtained a PhD degree within 3 years and in the relevant areas being recruited to; Excellent oral and written communication skills in English