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challenges independently, with an interest in applied scientific research. Benefits: Full funding for the duration of the PhD program (3 years), including a stipend and tuition fees. Access to state-of-the-art
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intense search is performed to find a correct solution of what is measured. By combining state-of-the-art laser ultrasonic imaging techniques with advanced artificial intelligence, the aim of this project
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-of-the-art facilities as well as development of a mass spectrometry-based assay for detection of binding to the target protein, the human elongation factor eEF1A. This will be followed by structural
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for Additive Manufacturing (CfAM)'s expertise in applying computational materials science techniques to laser AM. The PhD student will be able to conduct research using a state-of-the-art multi-beam laser powder
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blastocysts. A range of temperatures (representing extremes of core-body temperature) will be assessed during in vitro embryo culture. State-of-the-art techniques include morphokinetic assessments undertaken
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. A range of temperatures (representing extremes of core-body temperature) will be assessed during in vitro embryo culture. State-of-the-art techniques include morphokinetic assessments undertaken using
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Technology (https://www.nottingham.ac.uk/utc/index.aspx ) at the University of Nottingham. Having state-of-the-art purpose built facilities, the UTC offers a world-class environment for the realisation
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target protein. The research will be conducted using state-of-the-art equipment, including both commercial tools and bespoke in-house apparatus. As a key member of our team, you will play a pivotal role in
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from different disciplines cutting across Arts, Engineering, Medicine and Health Sciences, Science and Social Sciences. The University of Nottingham Faculty of Science AI DTC offers the opportunity
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technology directly from N2 and water. You will access to the state-of-art equipment to explore different materials and novel tools such as plasma to maximise the performance of producing ammonia. In