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study the mechanical behaviour of materials important to the aerospace industry. You will utilise a wide-range of mechanical loading and conditioning platforms to deduce the effects of strain, strain-rate
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post in the first instance, with possibility of renewal. You will be working as part of a team to study the mechanical behaviour of materials important to the aerospace industry. You will utilise a wide
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an industry partnered project for translational drug discovery. The role will involve analysing large scale omics and spatial datasets from both primary patient samples and advanced in vitro model systems
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an industry partnered project for translational drug discovery. The role will involve analysing large scale omics and spatial datasets from both primary patient samples and advanced in vitro model systems
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will be educated to PhD level with relevant experience in molecular plant biology and evolution and will work closely with other group members to assist them with gene functional characterisation
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, government, industry) at national and regional levels. The growth of the Centre is a university priority and investment is being made in hiring an excellent team to drive its success. You should hold a PhD and
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hepatitis and liver disease. This post is funded by the National Institute for Health and Care Research (NIHR) as part of a significant research programme that leverages large-scale healthcare datasets
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nanocomposites ¿ Manufacture prototypes using the new materials and evaluate their performance ¿ Investigate science underlying the material functions and processes ¿ Work with internal and
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research hub (HI-ACT) funded by EPSRC. The project seeks to deliver industry-relevant tools that enable optimal design and operation of hydrogen technologies in real-world application. The successful
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Trust funded post is available from 1 October 2025 to 30 September 2028. The successful applicant will conduct interdisciplinary research into European mole management practices and the evaluation