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the school. The successful candidate must show a demonstrable knowledge of a wide range of materials used in engineering contexts. They also must demonstrate knowledge of modern manufacturing processes and the
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manufacturing processes across the school. The successful candidate must show a demonstrable knowledge of a wide range of materials used in engineering contexts. They also must demonstrate knowledge of modern
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materials, and nano-confinement. The project builds upon recent work in the group (see e.g. J. Am. Chem. Soc. 145 (46), 25372 (2023), Nature 609, 512 (2022); ACS Nano 16, 10775 (2022); Science 372, 1444
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Michaelides at the Department of Chemistry at the University of Cambridge (https://www.ch.cam.ac.uk/group/michaelides ). The project will involve the development and application of approaches for treating
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Funding providers: EPSRC (CASE) with co-sponsor, Grove Nanomaterials Limited Subject areas: Nanotechnology, physics, chemistry, biotechnology Project description: Nanostructured materials already
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, achieving new engineering solutions only possible through multi-material additive manufacturing. Completion of this PhD will prepare you for routes into both industry and academia. You will have access
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production. In this role, you will develop control over the bonding at interfaces between materials and layers, achieving new engineering solutions only possible through multi-material additive manufacturing
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transport techniques. The project offers ample links to research areas within the Loughborough School of Science, which includes diverse topics of material science such as magnetism, spintronics, and novel 2D
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will carry out his/her doctoral research at UCL in materials chemistry for the synthesis and discovery of new metal oxide-based scintillator materials for imaging. The PhD studentship will focus
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use automation to accelerate materials discovery and where possible to free up researcher time. You should have a PhD in relevant field (Chemistry, Materials Science, Chemical Engineering etc