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The project is related to the development of a powerful microwave source, able to operate over an extremely wide frequency range (kHz to 10s of GHz). Preliminary work at Loughborough University has
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Shape, topology and chemistry of materials and structures are the ingredients to achieve multifunctionality. Combining mechanical and thermal, or permeability and bio-instructive properties in
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high-performance nanocrystalline materials for a range of advanced engineering applications. Motivation Direct solid-state conversion of low-cost materials into high-value high-performance products is a
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laboratory at Loughborough University Loughborough Campus (East Midlands) and potentially in the partner's facilities (West Midlands). Additional Funding Information Tuition fees cover the cost of your
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liquids so that we can predictively redesign both the protein landscape and target new and renewably sourced ionic liquids for applications ranging from biosensors and 3D-printed materials to healthcare