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. This position is part of the CDT in Net Zero Aviation, which offers a modular, cohort-based training programme with emphasis on innovation and impact, collaborative working and learning, continuous development
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In this project, novel laboratory-scale continuous “flow chemistry” reactors will be designed and 3d-printed, and applied to a variety of real reactions from industry, currently performed in batch
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This PhD project is designed for a highly motivated and innovative early career researcher to build strong skills in experimental and theoretical photonics and quantum optics. The goal is to develop
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the drivetrain. Alternative machine topologies such as axial flux, transverse flux, and homopolar designs offer unique advantages by enabling 3D flux paths, novel cooling strategies, and increased architectural
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timely opportunity to rethink the role of the electric motor within the drivetrain. Alternative machine topologies such as axial flux, transverse flux, and homopolar designs offer unique advantages by
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experimental work in this area. The combination of experimental and computational expertise will illuminate the fundamental chemistry occurring at a molecular level, inform extractant design, and yield
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, meteorological and physical conditions they operate under. Such data can inform structural health monitoring for offshore wind turbines or help plan new offshore sites, via estimation of power yield in relation
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computational mechanics or multiphysics modeling, with particular interest in fracture mechanics and chemo-mechanical degradation. Knowledge of solid-state defect chemistry (advantageous). You will join a dynamic
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and brain tissue mechanics to improve stroke treatment. Stroke is a leading cause of death and disability worldwide, making advancements in its diagnosis and treatment highly relevant. Computational
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important questions such as: Are the patterns that drive AF stable or do they change over time? How do the heart’s layers interact during AF? Can stimulating the heart during normal rhythm help predict