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(CfAM) and Sir Peter Mansfield Imaging Centres , will deliver significant improvements in medical imaging/ treatment by the synthesis and use of novel materials that will allow the co‑application
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of Engineering at the University of Nottingham. The student will work with an interdisciplinary supervisory team with expertise in 3D printing, functional low dimensional materials and sensing. We seek to use 3D
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photopolymer chemistry, materials development for 3D printing (including resins, composites, nanomateirals, and ceramics), design engineering, and materials processing for additive manufacturing. You will also
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View All Vacancies Engineering Location: UK Other Closing Date: Tuesday 20 August 2024 Reference: ENG1775 Project background: Polycrystals are the building blocks of numerous materials around us
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Moulding of large aerostructures Applications are invited to undertake a PhD programme, in partnership with Airbus, to address the key challenge in meeting zero waste in the manufacture of fibre-reinforced
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delivery of compositional elements and optimise high-throughput environmental control. Materials / crystal engineering challenges: Simultaneously explore crystal structure and shape of pure and co-crystals
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of B-site transition metal–O2 covalency. The fabrication of hybrid perovskites via different materials processing routes offers the opportunity for structural tunability and modification
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applications Supervisory team: Dr Marco Simonelli Dr Ian Maskery Project description The vision for next-generation Additive Manufacturing (AM) is to control the composition of every deposited volume to make
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combustion technologies, inorganic material synthesis and characteristics. Willingness to learn interdisciplinary approaches to tackle the challenges of CO2 emissions in energy production is essential. You
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the molecular composition of tissue by using light to excite molecular vibrations in the sample and generate Raman scattered photons. However, because of high light scattering by biological tissue, conventional