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engines, alternative fuels, combustion optimisation, and powertrain control. As the automotive industry transitions towards electrification, integrating novel fuels—such as hydrogen, ammonia, e-fuels, and
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Project Description: This EPSRC-funded PhD project will investigate how next-generation electric and autonomous vehicles can operate as symbiotic agents within the urban ecosystem—intelligently
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problem is global in scope, affecting both developed and developing nations, and demands innovative, scalable solutions. This PhD project aims to revolutionize corrosion prediction by integrating physics
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form of energy–e.g. electrical, magnetic, acoustic, or chemical–into mechanical motion. These swimmers are expanding the frontiers of micro-engineering and can be used in tasks such as chemical analysis
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wide range of techniques including: advanced genetics to manipulate genes and cells, molecular cell biology including CRISPR/Cas9 gene editing technology and transgenesis, microscopy, including laser
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wide range of techniques including: advanced genetics to manipulate genes and cells, molecular cell biology including CRISPR/Cas9 gene editing technology and transgenesis, microscopy, including laser
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Project Overview This PhD project is part of an Innovate UK-funded research programme focused on developing a novel ammonia-fueled engine and generator set (genset) demonstrator for harbour and
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to August 2029 Closing date: 31st January 2026 UK and International travel will be required for this role Background The role will be salaried as an Early Career Researcher and will include a fully funded PhD