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-diffusive(-thermal-chemical) behavior of fiber-reinforced composites at the micro/meso-scale. These models will incorporate uncertainty via stochastic inputs, such as random field representations of spatially
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the properties of composite, biological networks which consist of stiff filaments and liquid inclusions which arise from liquid-liquid phase separation. We will use a multi-scale approach bridging scales from
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for career development in environmental science. For further information on this project and details of how to apply to it please visit https://centa.ac.uk/studentship/2026-b15-a-multi-scale-quantitative
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-location multi-microscopy strategies that enable electrochemical processes to be studied on electrode materials at the single entity level - single atoms, nanoparticles, grain boundaries, step edges
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details can be found at https://www.net-zero-fibe-cdt.eng.cam.ac.uk/ The project is funded in collaboration with Ramboll and Buro Happold who work across diverse projects with key clients focused
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adaptation beyond anatomy [IRP13] Micrometrical assessment of biological response to particle therapy (National Institute of Nuclear Physics (INFN), Division of Torino, Italy) [IRP14] Multi-scale modelling
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PCM composites the RecyWax+ project combines multi-physics modelling approaches and physical experimentation of the thermal properties of the PCM composite. Throughout, theory is validated by synthesis
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composition of incoming radiation, thereby affecting photovoltaic performance and the urban energy balance. Existing Earth observation datasets remain fragmented across scales. Copernicus reanalyses (ERA5, CAMS
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PCM composites the RecyWax+ project combines multi-physics modelling approaches and physical experimentation of the thermal properties of the PCM composite. Throughout, theory is validated by synthesis
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of electron microscopy approaches for the characterization of complex hybrid materials at the atomic scale. As a member of the project team, you will contribute to establishing and applying low-electron-dose