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Field
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high consistency of quality, (3) use the knowledge gained to understand the opportunities and limitations of the process when extended to a wide range of wire and powder materials. The PhD studentship is
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robotics, and materials science. Project description: 3D-printing of soft robotics is a growing field, with many applications in biomedical devices, electronics, and autonomous machines. Actuators to drive
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, organic chemistry and biophysics Are desire to explore the biochemical composition and biological activity of GAGs Are confident working with complex data Enjoy learning beyond your current expertise with
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on fatigue damage in metallic materials. We will employ 3-D crystal plasticity models in order to understand the role of compositional changes in fatigue damage. We will correlate these changes with a
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both the fundamental physics of electromagnetic materials and practical applications in 6G communications. The PhD is 4 years and funded by DSTL (Defence Science and Technology Laboratory), and you will
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isotope release, and apply advanced characterisation techniques to quantify both released and retained tritium. • Diagnose failure modes in LLZO electrolytes and tailor material composition and
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fit if you: Have a background in Biochemistry, biomedical sciences, organic chemistry and biophysics Are desire to explore the biochemical composition and biological activity of GAGs Are confident
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. While a background in materials science is preferable, it is not a prerequisite, as there are opportunities for retraining. This ensures that the project is accessible to individuals from diverse academic
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Department: Materials Title: Self assembled non-close packed quantum dot superlattices via high entropy approaches Application deadline: 17/06/2025 Research theme: Nano and Functional Materials How
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professionals. Career Pathways Graduates will develop highly transferable skills, preparing them for careers in: Academia (postdoctoral research at universities and research institutes). Industry (energy sector