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Field
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handle to control biomolecular chemistry as their behaviour (e.g. binding interactions) can be programmed with electrochemical signals. Establishing electrochemical control over the interactions between
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Applications are invited for a Research Associate position within the Control and Power Research Group, working on a new research initiative focused on load modelling in power systems at grid supply
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significant relevance in today's technological landscape. As industries continue to integrate digital and physical systems, the role of eCPS in enhancing automation, control, and sustainability becomes
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at the Department of Functional Materials and Catalysis at the Faculty of Chemistry develops advanced porous materials (MOF and COF) for sensing, energy conversion and catalysis. This PhD project aims to control
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large herbivores and off-road driving, using the RPI to control for climate-driven variability and incorporating data from allied ground monitoring. This should reveal landscape-scale recovery timeframes
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Project advert The democratization of finance is transforming global asset management. Retail investors, empowered by trading apps and AI-driven platforms, now control a rapidly expanding share of
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vibrations in these engines. These vibrations, if not properly controlled and reduced, can lead to premature blade failure due to high-cycle fatigue, reducing the efficiency and safety of the gas-turbine
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investigate how regulatory, epigenetic, and structural mechanisms contribute to the balance or dominance among subgenomes. Miscanthus is a notable bioenergy crop, capable of growing on marginal land and
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disinfectants. With antimicrobial resistance (AMR) on the rise, there is an urgent need for non-antibiotic strategies to prevent and control biofilm formation on medical devices. This PhD project proposes a novel
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could be applied in biotechnology, healthcare, and environmental contexts. Employ synthetic and molecular biology tools to design and test new methods of controlling fungal behaviour. Impact and Outlook