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research strategy. You will work flexibly as part of a team to support the operational delivery and of the School’s world- leading research. You will: · develop, deliver, manage and coordinate support and
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Biomechanics Digital Twins for Personalised Medicine”. The central aim of the project is to accelerate the development of digital twins of the heart, primarily by decreasing the time taken for parameter
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learning, control theory, and embodied autonomous systems. The successful candidate will contribute to the development of learning-based control methods that are not only high-performing, but also safe
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, allowing bespoke projects to be developed that are within the EPSRC remit. The scheme aims to provide career development beyond the end of the PhD and specifically to increase the impact of the PhD in terms
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This project will develop and apply spin-polarised scanning probe microscopy to image, understand, and control magnetic order at the atomic scale in unconventional magnetic materials. Using
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ultrasound. This project will develop the materials, methods, and designs necessary to 3D-print the next generation of medical micro-robots targeting drug delivery, exploiting combinations of functions
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to establish a research career, allowing bespoke projects to be developed that are within the EPSRC remit. The scheme aims to provide career development beyond the end of the PhD and specifically to increase
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authoriser, develop contractor site rules and Induction packages, review Risk Assessments and Method statements and carry out onsite inspections to ensure adherence to University standards. You will also be
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holidays and five university closure days including closure between Christmas and New Year. We are committed to staff development through the provision of training, continued support, and career progression
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Mary University of London, University of Nottingham and University of Glasgow who work on the development of energy efficient, atomically thin semiconductors to dramatically reduce the electricity demand