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the Leverhulme Trust and supervised by Dr Fraser Smith , Dr Stephanie Rossit (UEA) and Professor Tim Kietzmann (University Osnabruck, Germany). The project will determine the neural and computational mechanisms
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testing and computational modelling. You'll become part of a diverse, multidisciplinary team that prioritises equity, diversity, and inclusion, gaining specialist expertise in hydrogen-material interactions
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, in collaboration with Rolls-Royce, will develop innovative coatings to safely contain hydrogen in critical aerospace materials through experimental and computational modelling work. You’ll join a
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, computational modelling and experimental work. You’ll join a pioneering multidisciplinary team that values equity, diversity, and inclusion, gaining unique expertise in turbomachinery pump development, hydrogen
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diffusion often deviates from ideal Fickian behaviour, following complex, system-dependent mechanisms that are poorly understood. These materials also undergo aging, which affects their structural and
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. This project seeks to enhance the phase-field method, enabling more accurate predictions of fracture under dynamic conditions. State-of-the-art computational techniques combined with insights from advanced
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for the probability of occurrence of FBO responses. Applications are invited for a fully fundedPhD studentship (UK or EU or International) working on the project. The PhD student will join Rolls Royce Computational
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tunable electronic properties using low-temperature STM and spectroscopy. This involves two-dimensional material mechanical exfoliation and transfer, nanoleads fabrication and deposition, molecular-beam
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are invited to undertake a three-year PhD programme in partnership with industry to address key challenges in on-platform manufacturing engineering. The successful candidate will be based at the Rolls-Royce
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Trust. The successful candidate will work closely with the PI and a PhD student within a larger cross-disciplinary team to construct a quantitative computational model of carbonate biomineralisation