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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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Antimicrobial resistance is one of the most serious threats to humans in the 21st century. Understanding antimicrobial resistance mechanisms is pivotal for combating superbugs. Pathogens use many
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. Using detailed energy usage data from different industrial reference sites (offices, manufacturing facilities etc.) to examine what elements are affected by different weather scenarios, the project will
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First-class (or equivalent) degree in Mechanical, Automotive, Powertrain, or Control Engineering, or a closely related discipline. Strong academic performance and research potential are essential
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a novel PALB2 function in activating DNA repair in specific regions of transcriptionally active chromatin through interactions with a chromatin adaptor protein, MRG15. Mechanisms whereby these signals
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electrochemical flow technologies, such as redox flow batteries, multivalent metal ion batteries and/or capacitive deionisation. Such technologies are emerging as promising more-sustainable solutions for the global
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exposure, and thermal fluctuations. Key Objectives: - Develop and characterize low-carbon materials with multi-functional properties - Assess mechanical performance and long-term durability under simulated
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with other changing environmental conditions. Lab experiments will move from association to mechanism. Methanotrophs will be enriched and isolated from lake water and sediment. Co-cultures will test
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the current gap between the outputs of research focused studies of volcanic tsunami risk, mechanisms and scenarios, and how effectively these outputs inform and support volcanic-tsunami monitoring and hazard
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-informed machine learning (PIML) with domain-specific engineering knowledge. By embedding physical laws and corrosion mechanisms into data-driven models, the research will produce more accurate