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to develop enhanced NbS strategies that target micropollutant removal and remain compatible with other ecological and environmental benefits. The aims of this project are therefore to 1) benchmark the long
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AI-Driven Digital Twin for Predictive Maintenance in Aerospace - In Partnership with Rolls-Royce PhD
system health monitoring, and more efficient maintenance planning. Digital twins offer a powerful foundation but must evolve beyond simulation to truly support engineering decisions. This PhD will develop
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promising avenues for developing high performance devices, making them strong candidates for large-area electronics. A significant barrier remains, however: the lack of ceramic-based PMOS with transport
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Technology Research Group (AMTG) at the Faculty of Engineering, University of Nottingham (UoN), which amongst its wide research portfolio, conducts cutting edge research into the development of future
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for long-term monitoring to confirm successful restoration5. This exciting and timely PhD will develop and deploy a range of low-cost and open-source sensors to measure the biophysical properties necessary
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, biochemical and molecular biological approaches. You will develop the necessary skills to derive experimental data that could identify important roles for these molecules in glioma progression and that may
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; EPSRC Centre for Doctoral Training in Green Industrial Futures | Bath, England | United Kingdom | 2 months ago
biggest environmental challenges? This fully funded PhD offers a unique opportunity to develop energy-efficient, cost-effective, and carbon-reducing manufacturing processes — placing you at the forefront
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(£) globally each year on treatments, yet costs are expected to continue rising due to climate change-driven increases in sea lice abundance and the ongoing evolution of resistance within sea lice populations
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This project provides an excellent opportunity to develop state-of-the-art mathematical models and computational tools of emerging respiratory pathogens, within a world-renowned research group
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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