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each year, so that the entire period of a tree’s life remain impressed in its wood material. As wood growth is affected by environmental conditions, trees have marks of past interactions with
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Energy Integration in Power Grids Multiscale Numerical and Experimental Approaches for Materials Design and Engineering Integration of plugin balcony solar systems within the UK The full description of
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not contribute to the increase in Anti-Microbial Resistance (AMR). The project will have a key focus on exploiting and developing chemistry to obtain materials at the hundreds of gram scale. because it
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metascintillator prototypes towards clinical application. The research will combine experimental surface engineering, advanced materials characterisation (SEM, XRD, spectroscopy), and performance testing alongside
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not contribute to the increase in Anti-Microbial Resistance (AMR). The project will have a key focus on exploiting and developing chemistry to obtain materials at the hundreds of gram scale. because it
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building blocks to elicit properties far beyond simple averaging over the component materials involved, instead giving exciting opportunities for new functionalities that are not found in natural materials
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structures. This highly interdisciplinary project combines mechanical engineering, materials science, and control systems, and will require both numerical simulation and experimental validation. The outcomes
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Natural flood management (NFM) interventions, such as woody material in rivers, offer a potential to reduce downstream flooding by slowing water flow, while boosting biodiversity. However, we don't
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interatomic-potentials (MLIPs), refined for molten salt mixtures hosting other nuclear material solutes. We will perform density functional theory (DFT) calculations and molecular dynamics (MD) simulations
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the Department of Materials Science and Metallurgy, University of Cambridge and the new AstraZeneca Discovery Centre at Cambridge. Closing date for applications: 21 November 2025 with interviews shortly afterwards