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common materials in new ways to build bespoke, miniaturised antennas using magnetic nanoparticle structures. Your designs will make it possible to integrate digital technology platforms in previously
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sustainability. This PhD project aims to develop new ionic conducting materials as next-generation membrane alternatives for fuel cell and electrolyser applications. Ceramic ion conductors present a promising
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of focussed light to structure materials in 3D [3, 4]. By scanning a high-power laser beam through a medium, it can ‘draw’ 3D networks of waveguides (freestanding or embedded within a glass substrate), and more
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-year PhD position based jointly in the Photonic and Electronic Devices Laboratory led by Dr. Nikolaos Farmakidis within the Department of Engineering at the University of Exeter (Streatham campus, Exeter
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, conformable antenna structures. Your designs will make it possible to integrate digital technology platforms in previously unrealised ways and places, enhancing device communication and functionality across
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rapid, data-driven, physically informed and human-aligned decision framework capable of robust, equity-aware intervention planning under climate uncertainty. This PhD will develop a decision-support
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population health. The student will have the opportunity to attend the structured Early Detection Training Programme (run in partnership with the Alliance for Cancer Early Detection (ACED)), providing PhD
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this fully funded PhD studentship in Physics. We’re looking for a student who has a passion for science, with ambition to apply their own ideas, perspectives, and their personal skillset to the discovery and