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their suitability, novel substrates and materials which can be combined with existing laboratory techniques. Ideally research would identify/develop substrates that can simulate the physical properties
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, sexuality, race, ethnicity, physical ability, and legal status (Phoenix et al., 2021; Bates and Moles, 2022). This PhD aims to address these knowledge gaps by focusing on children and young people with
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of making batteries that is safer, more efficient and can help achieving better performance for electric vehicles and energy storage application? If so, perhaps this fully funded PhD studentship is available
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, or shortly expect to obtain, a PhD in Physics, Electronic Engineering or a related discipline. Experience is required in MBE growth , semiconductor characterisation and device fabrication in a
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of Nottingham including Architecture and Built Environment, Electrical and Electronic Engineering, Mathematics, Physics and Social Sciences. The PhD programme offers a fully funded, four-year PhD studentship
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components will then be cold-flow and hot-fire tested at our Buxton test facility, as well as with our partners at Westcott space cluster. The PhD will involve research into additive manufacturing process
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technologies. The team of potential PhD supervisors spans five departments at University of Nottingham including Architecture and Built Environment, Electrical and Electronic Engineering, Mathematics, Physics
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biomechanical models currently used to study HSI: the single-degree-of-freedom (SDoF) system and the moving inverted pendulum model (IPM). This PhD project will systematically analyse the reliability of these two
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see: https://gtr.ukri.org/projects?ref=MR%2FX009580%2F1 . Applicants should have a PhD or equivalent professional qualifications and experience in biological, chemical, or physical sciences and previous
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Faculty of Engineering and Physical Sciences Location: Highfield Campus Salary: £34,980 to £41,732 Full Time Fixed Term Closing Date: Sunday 30 June 2024 Interview Date: To be confirmed Reference