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, where opportunities for collaboration and learning abound. About the role The role involves undertaking high quality research as part of an exciting new internationally funded research project
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the transition to a full-time training model, and how these demands can be best managed to maximise adaptations and performance, and mitigate injury risk. The successful candidate will audit the current scientific
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, balancing efficiency and sustainability in AI deployment poses a significant challenge, calling for advances in model design and training to reduce environmental impact while maintaining high performance
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Students Dr Marco Colombo Application Deadline: 30 September 2025 Details Are you ready to shape the next generation of high-performance engineering systems? Join a cutting-edge, fully-funded PhD project
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holder will be required to have practical experience in high-density microelectrode pattern on soft substrates with good understanding of advanced microfabrication processes, electrode substrate
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hydrogen (H₂) production. Conventional thermal catalytic methods for H₂ production (e.g., steam reforming, water gas shift reaction) requires conditions of temperatures exceeding 500 °C and high pressures
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to study corrosion, cracking and mechanical degradation, develop advanced computational models using modern C++ and high-performance computing to simulate material behaviour over a 100+ year timespan. This
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your area of specialist expertise and conduct high quality PhD research. Are able to communicate scientific concepts clearly and with enthusiasm and in a way that engages students Have good interpersonal
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critical issue in water-cooled reactor technology, impacting thermal performance by introducing increased resistance to heat removal and altering surface composition. This PhD project holds substantial
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storage and transport, high-performance mechanical seals are essential. These seals prevent gas leakage by maintaining a sub-micron-thin layer of hydrogen between a rotating ceramic face and a stationary