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including biolayer interferometry, flow cytometry, high-content live cell microscopy and (in 2024) confocal microscopy. From 2025 the team will host a UK unique automated glycan synthesis platform. The
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facilities, including advanced microscopy, controlled environment growth rooms, genomics, proteomics, and metabolomics platforms. • Opportunities to work across model and crop species, including Arabidopsis
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that rotations play in gas-surface collisions. The group the student will join uses and further develops a unique Magnetic Molecular Interferometer (MMI) apparatus which allows us to control and manipulate
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in both technical and potentially non-technical skills of medical staff, such as poor team dynamics, problems with communication and a lack of leadership. This automated obtained data can then be fed
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This project offers an exciting opportunity to undertake cutting edge research in electrical machines within the globally renowned Power Electronics, Machines and Control (PEMC) Research Institute
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, and household appliances. The research aims to apply a novel porous treatment technique to control turbulence generation mechanisms, thereby mitigating aerofoil broadband noise. A key objective is also
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and deterministic AI outputs is critical. This requires robust design principles and architectural changes to reduce variability and integrate smoothly with industrial control systems. Enhancing
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the phenomenon of magnetic exchange bias at the interface between a ferromagnet and an antiferromagnet. This phenomenon allows such heterostuctures to act as spin-valves to control the conduction of electrons
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development of high strength aluminium alloys designed to provide better performance compared with existing alloys. The properties of this alloy depend on careful control of the microstructure, in particular
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the volume and weight of power electronics converters. The research will take place at the Power Electronics, Machines and Control (PEMC) Research Institute, University of Nottingham. The successful