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To combat climate change and achieve the UK's target of Net Zero, it is expected that the integration of renewable energy sources (RESs) at the distribution/consumption level will keep increasing
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Supervisors: Prof. Giorgio Volpe Prof. Lena Ciric Abstract Horizontal gene transfer (HGT) is a major driver of antimicrobial resistance (AMR), yet most research focuses on well-mixed lab cultures
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sustainability, and healthcare. The ability to control the pore environment of the MOF is one of their remarkable advantages and enables control over the structure and properties required for specific applications
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Funding amount Standard UKRI stipend, RTSG, Fees Covered. The project: Tracking and controlling the spread of emerging pathogens using sequentially collected data is a critical challenge in public
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Funding: The studentship is supported for 3.5 years and includes Home or International tuition fees plus a stipend of £20,780 per annum 2025-26 rate (2026-27 rate TBC) Lead Supervisor (DoS): Dr Lee
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control engineering and/or numerical optimisation Interest in embedded systems or real-time autonomous applications Programming experience in a compiled language (e.g. C, C++, Rust) Application Procedure
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chronic monitoring and facilitate seamless integration into dynamic neuromodulation systems for closed-loop therapeutic interventions. By leveraging graphene’s exceptional electrochemical properties with
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Methods In this project we want to provide a better understanding of how cloudiness affects, and is affected by, environmental factors called “cloud controlling factors”. Success of this goal will be
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Supervisor(s) 1) Professor James Gilbert, University of Hull 2) Dr Hatice Sas, University of Sheffield Increasing productivity and yield in the manufacture of wind turbine blades is a key priority
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closed-loop control (verifying the dose delivered) is lacking. There is a clear need to advance the state-of-the-art by making ingestible capsules more autonomous, energetically efficient, and intelligent