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optimisation before physical manufacturing begins. This project aims to develop advanced deep learning models capable of predicting fabrication outcomes and guiding fabrication recipe optimisation. By learning
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. This position focuses on the development of innovative microfluidic-based sensors for continuous, in-situ chemical and biochemical analysis. About the Role: The successful candidate will join a dynamic research
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the full complexity of fabrication processes and enable optimisation before physical manufacturing begins. This project aims to develop advanced deep learning models capable of predicting fabrication
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is on a fixed term basis till the end of February 2027. This position focuses on the development of innovative microfluidic-based sensors for continuous, in-situ chemical and biochemical analysis
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to develop a novel glass fibre-reinforced polymer (GFRP)–steel–concrete tower-to-monopile transition structure for offshore wind turbines, with a focus on improving structural efficiency, durability, and ease
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Renewable Energy Hub. It aims to develop a novel glass fibre-reinforced polymer (GFRP)–steel–concrete tower-to-monopile transition structure for offshore wind turbines, with a focus on improving structural
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to experimental campaigns and will use image-derived structures (including XCT images where available) to develop mechanistic, validated mathematical multiscale models. We are recruiting a Postdoctoral Research
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postdoctoral fellow to be part of our team to advance our Rapid Pulsed Laser Deposition (RPLD) technology and ultimately develop a new class of active mirror to underpin the next generation of thin-disk lasers
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addition to the essential disciplinary research skills, candidates should demonstrate a genuine enthusiasm for collaborative working, the ability to communicate effectively across disciplines, and well-developed
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components for innovative-lasers applications. We’re looking for an enthusiastic postdoctoral fellow to be part of our team to advance our Rapid Pulsed Laser Deposition (RPLD) technology and ultimately develop