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, or intervention using electronic, mechanical, or smart material systems. This particular PhD studentship, based at the School of Engineering, University of Birmingham, focuses on developing a microfabricated
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the design of fundamentally new alloys by computational methods; production through arc melting, powder metallurgy or additive manufacturing; characterisation using advanced electron microscopy and x-ray
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of work as a case study, this PhD will contribute new knowledge to the fields of archival and performance research, generating a model of practice that can be utilised by other artists. Structured over
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schedule of questions for research interviews. Conducting a series of semi-structured interviews at UoN. Transcription and analysis of qualitative data. Attending research team meetings. Contributing
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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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questions for research interviews. Conducting a series of semi-structured interviews at UoN. Transcription and analysis of qualitative data. Attending research team meetings. Contributing to publication
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structural and biophysical analysis with in vivo studies, including the generation of targeted mutants using state-of-the-art genome editing and advanced quantitative light microscopy. Students will have the
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with knowledge and interest in structural dynamics, finite element analysis, programming and numerical methods. Applicants are expected to have achieved or be about to achieve a First-class honours MEng
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semiconductors (such as those used in thermoelectric devices and solar energy applications). Point defects play a critical role in determining electronic and ionic transport properties, stability, and device
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the School of Engineering’s Department of Electronic, Electrical and Systems Engineering. A primary focus of research within the department is to develop novel technologies [1,2] for emerging 5G/6G and