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This PhD studentship, based at the University of Exeter's Penryn Campus (Cornwall), offers an opportunity to conduct research at the intersection of wind energy, power systems, and advanced control
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humidity ranges. By exploiting advances in materials design, it is possible to tailor ionic transport properties while maintaining structural integrity under demanding electrochemical environments
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Funded PhD Studentship in applied geospatial ecology. This project will investigate how dryland vegetation productivity varies across space and time and how it responds to land management. Working
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from sequential to parallel laser writing, increasing fabrication rates by up to two orders of magnitude. Our vision: We will combine advanced spatio-temporal beam shaping technology developed by Mounaix
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development, modelling and simulation, through to fabrication and advanced optical/electrical characterization—offering a unique opportunity to push the boundaries of photonic device engineering. This is a 3.5
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of plasma deposition systems, in collaboration with Oxford Instruments. Low-temperature plasmas play a critical role in advanced manufacturing, yet their design and control remain challenging. This project
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uncertainties make planning and decision-making more complex and difficult to optimise using conventional approaches. This project aims to develop advanced modelling and simulation frameworks to support decision
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development of new 3D nanoscale thermal metamaterials. If you want to play at the nexus of quantum, advanced materials, and thermodynamics, to design and create intricate nanoscale geometries that allow you to
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The University of Exeter’s Department of Engineering is inviting applications for a PhD studentship fully funded by the department to commence on September 2026 or as soon as possible thereafter