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fluids within the porous structure of sedimentary rocks. These processes are critical for both conventional open-loop geothermal developments and engineered systems, including closed-loop configurations
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communication. Addressing these barriers is essential to reducing health inequalities and strain on the NHS workforce. This innovative, community-based research will pilot a structured and person-centred
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Mishra (NNUH) teams — collaborative, cross-disciplinary, and hands-on. Who should apply: We welcome applicants with backgrounds in synthetic chemistry, structural biology, pharmacology, biophysics
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Characterize the molecular basis of enzyme function with spectroscopic, kinetic, and structural techniques. About the programme Join experts in industry and academia working to sustainably manufacture
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join the world-leading Advanced Nano Materials, Structures and Applications (ANMSA) Group, a hub for innovation in the development of novel micro- and nanostructures and miniaturized diagnostic
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theoretical and practical skills training provided by a mixture of industry and academic project partners covering structural biology; biophysical and analytical methods; computational modelling; directed
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components are designed and produced. This PhD project focuses on Molten Metal Jetting (MMJ), an emerging metal 3D printing technology that enables the precise fabrication of multi-material metallic structures
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processing (e.g., heat treatments) can have on their structure and properties, and (iv) how WELs differ in different aerospace steel grades. This PhD project will seek to address these gaps. The project will
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FFA on different type of metallic surfaces as a function of temperature and concentration. The modelling data and principal component analysis will be used to build property-structural relationships
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population health. The student will have the opportunity to attend the structured Early Detection Training Programme (run in partnership with the Alliance for Cancer Early Detection (ACED)), providing PhD