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the UKRI rate (£19,237 for 2024/25). The start date is October 2024. The Robotics for Extreme Environments Group invites applications for a PhD studentship to develop (semi-)autonomous control of manipulator
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to the long-term goal of nuclear decommissioning at RAICo1, Dalton Cumbria and The University of Manchester. During nuclear decommissioning, operators face severe risks from unknown environment to dealing with
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of crevice and pitting corrosion with exposure to marine environments is key challenge for the application of stainless steels. Crevice corrosion has been reported in seawater pump components, with
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, assemble them into functional macroscale structures, and use them for sustainable energy and environmental applications (https://advancednanomaterials.weebly.com/ ). We are based at the National Graphene
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. Nanoplastics, defined as plastic particles measuring less than 1000 nanometres, have emerged as a significant concern due to their ability to infiltrate ecosystems, posing potential risks to the environment
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. This PhD research seeks to comprehensively understand and compare the galling behaviours of Co-based (Stellite 6) and Fe-based hard facing alloys in high-temperature, high-pressure environments, crucial for
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of deleterious reagents and solvents that are damaging to the environment. In this PhD project we will address this problem by developing novel enzymatic methods for more sustainable, cleaner and scalable peptide
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for Robotic Autonomy in Demanding and Long-lasting Environments). Fully funded for UK home students, but only partial funding is available for overseas students. Successful candidates will receive a tax free
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electrolyser architectures and electrodes 2) Integration of catalysts for CO2 hydration into electrolysers. 3) Understanding of local environments within electrolysers through the combination of multiple
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process such as photodynamic therapy, dental reconstruction, monitoring of reactive oxygen species in biological environments and synthesis of drugs and fine chemicals, including green chemical methods. We