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, from metals to ceramics, influencing their mechanical, thermal, and electrical properties. Understanding their intricate structures is crucial for advancing fields such as aerospace, engineering, and
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Project background: Polycrystals are the building blocks of numerous materials around us, from metals to ceramics, influencing their mechanical, thermal, and electrical properties. Understanding
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Project summary This is a full-time, funded PhD opportunity in the Faculty of Science and Engineering. It is open to both Home and Overseas students. Please note that only Home fees will be covered
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of the UK. Eligibility Applicants should have or expect to achieve at least a 2.1 honours degree in engineering or computer science or an MSc qualification in Robotics, Electrical & Electronic Engineering
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technology. Our ambition is to push the frontiers of electronics through emerging technologies, disrupting current ways of thinking by innovating advanced nano/biosensors, safe and efficient energy storage
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, Faculty of Engineering and Physical Sciences, next page select “PhD Electronic and Electrical Engineering (Full time)”. In Section 2 of the application form you should insert the name of the supervisor
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addition to funding for tuition fees and research training. We are looking for applicants with a degree in Computer Science, Mathematics, Physics, or Electrical Engineering. Prior experience in tomographic imaging
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structural simulation models. Current challenges identified: Despite commercial image analysis software, can map the fibre orientation distribution from XCT scans, they cannot distinguish different
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information and other funding options: View Website Eligibility Students are expected to hold a 2.1 Hons degree or above, or equivalent, in Electronics and Electrical Engineering, Computer Science, Physics
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Supervisory Team: Chris-Kriton Skylaris (90%) Andrea Russell (10%) Project description: Proton-exchange Membrane (PEM) hydrogen fuel cells are an emerging technology for environmentally sustainable