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, including Chemistry, Physics, Materials, and Engineering. Shortlisting is based on written applications (qualifications, aspirations, experience), with final selection via interview focusing on independent
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performance through physics-driven insulation material design. Applicants should hold a first-class (or equivalent) degree in a relevant engineering or science discipline (upper second class may be considered
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DoS: Dr. Juri Na (juri.na@plymouth.ac.uk ) 2nd Supervisor: Dr. Claire Adams (claire.adams@plymouth.ac.uk ) 3rd Supervisor: Dr. Emanuela Ercolano (emanuela.ercolano@plymouth.ac.uk ) Applications
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to water, with the Zinc acting as the anode and hydrogen evolution potentially occurring at the steel surface. The successful PhD candidate will work at the forefront of hydrogen materials research, with
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mechanical fatigue—individually and sequentially, followed by electrical breakdown testing to assess their impact on the dielectric performance of the material subsystems. The target is to develop a
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second class UK honours degree or equivalent. This project would suit an applicant with a materials science/engineering, mechanical/chemical engineering or chemistry background or a related discipline
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, and materials science, with a strong publication record (h-index 36, i10-index 69). The second supervisor is Dr. Indrat Aria, a materials scientist with expertise in low-dimensional nanomaterials and
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Additive Manufacturing of User-Focused Facial Prostheses with Real-Life Colour Appearance”. The aim of the programme is to produce high-fidelity silicone-based facial prostheses by modern additive
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policymakers. Entry requirements Applicants should hold or expect to achieve an equivalent of a first or second-class UK honours degree in materials science, physics, engineering, or a related discipline. The
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a highly motivated candidate with: A first-class or upper second-class degree (or equivalent) in Materials Science, Chemistry, Physics, Chemical Engineering, or a related discipline. Experience in