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cerebrospinal fluid of sleep apnoea patients, suggesting that sleep apnoea is a potential risk factor for AD. Project aims and objectives This project aims to measure levels of AD biomarker in the blood of OSA
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thermal-catalytic system and nonthermal plasma system will also be investigated. The project will involve the preparation and modification of porous materials (e.g., zeolite, MOFs, metal oxide) and
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Steel and other metal alloys. Other raw materials (i.g. Construction materials) Electronic and photovoltaic materials Research study area 1: The first research focus will be the application of advanced
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research will focus on the design of this network as it evolves, and verification of its performance, or specific aspects of it. It will involve, as one component of the research, developing the Claims
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Project advert Prehabilitation is a core component of supportive care for health and well-being during cancer survivorship. It aims to improve cancer treatment outcomes and long-term health by
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donated to research. Our recent data demonstrated successful delivery of homodimeric minimal Factor H during the cold flush period of the organ transplant pathway, which protected human organs for damage
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also be explored. The research methods would range over modelling, design and system-level validation using SOC techniques established by Siemens EDA. Validation criteria would factor in design
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these groups. The successful applicant will join a thriving team of PhD students, postdocs and academics at the University of Bath and will collaborate with colleagues in the ChYMe research group (https
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in the project element or equivalent. A relevant Master’s degree, and relevant research or applied sports work experience, will be an advantage. The candidate should hold strong communication skills
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collection design and method. Remote Working: Is this project suitable for remote working? Yes Remote working details: This project could be done remotely but the fieldwork component would need to be