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substantial body of work already performed by this team, but the main objective is to enable these calculations to find use in the early hit-to-lead stages of drug-design. This is a full-time fixed-term post up
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funded by industry (Ørsted) and is fixed-term for 12 months. The role is concerned with developing and exploiting new data-driven modelling techniques for the analysis and design of offshore foundations
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examine performance experimentally, and use numerical / analytical analysis to model and understand behaviour. You will be responsible for the design and thermal performance assessment of a range of turbine
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) by looking at other joints such as the knee, wrist and finger. You will design and fabricate relevant chambers, contribute to the development of scaffolds, and interface with robotic teams and
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the EPSRC and is fixed-term for 3 years with the possibility of extension. The role is to lead the development of integrated whole system design models of tidal stream turbines for renewable power generation
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the EPSRC and is fixed-term for 2 years with the possibility of extension. The role is to lead the design and analysis of fixed bottom and floating offshore structures for application to tidal stream energy
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requires the development of novel micro- and nanofluidic approaches. You will design and fabricate micro/nanofluidic devices in Si, glass and PDMS using cleanroom-based nanofabrication processes and
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to 2 years in the first instance. You will be responsible for the design and testing of machine-learning based algorithms for HAIC. You will work with clinical domain experts to develop tools and
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to develop correlative technologies to visualize integration targeting by cryoET in situ. You will be managing the project day-to-day, including both design and action of strategies in molecular biology and
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March 2025. The postholder will work on the design and development of a new vectorial beam measurement system. Among other activities, this will involve investigating liquid crystal-based devices