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versus $68 kg−1 – Li), safety, and relative abundance with recycling recovery efficiency as high as 99%. The well-established ability of abundant and low-cost, manganese-based air electrodes to deliver
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the areas of power electronic systems, power systems, physics, mathematical modelling or software development is required. The PhD is offered jointly by the George Green Institute for Electromagnetic Research
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Revolution Industrialisation Centre at the University of Nottingham and contribute to the Power Electronics, Machines and Drives Research Group (PEMC). Your research will focus on electrical machines, drives
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. Their design and selection involves a complex mix of considerations including component life under normal running conditions, power losses, vibrations in the machine and the ability to carry exceptional loads
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View All Vacancies Chemistry Location: Jubilee Campus Salary: £30,487 to £44,263 per annum, depending on skills and experience (minimum £33966 with relevant PhD). Salary progression beyond
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, organised researcher who can evidence: PhD or equivalent, in a relevant branch of mathematics, or near to completion of a PhD. Expert knowledge of algebraic geometry. Proven ability to produce research
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, including using the UK’s only high power axial injection Suspension Plasma Spray (SPS), >1300 C temperature testing in flowing steam, coating characterisation with electron backscattered diffraction
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they are applying to be part of this PhD programme and what they believe they can offer to: [email protected] . The email subject line should be: “DMT PHD APPLICATION”. Candidates may apply for more than
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Power Electronics and Machines Centre (PEMC) at the University of Nottingham and become a core member of a team working on electrical machines design and development. The multidisciplinary team covers
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Funding: fully-funded (stipend and PhD fees) Start date: September 2024 Duration: 3.5 years Subject Area: Biophotonics/Optics Raman spectroscopy is a powerful label-free analytical technique that measures