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conducted with different composite material parameters (thickness, lay-up, and types of fibre and matrix) in order to develop optimised FML composites with high durability and fatigue life. The expected
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The aims of the research are to develop efficient and accurate computational and experimental methodologies for characterising hybrid, multifunctional 3D printed fibre-polymer composites and explore
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The scholarship will be suited to a materials/polymer scientist and/or chemical engineering student willing to develop skills in polymer chemistry and materials upcycling. The scholarship will be
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stiffness by changing their composition and self-assembly process. The relationship between nanoparticle structure and stiffness will be determined both through experimental and modelling approaches. Finally
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PhD Scholarship in ‘Using nanoparticles to enhance the immune response and improve vaccine efficacy’
are interested in nanoparticles of different materials and compositions to compare to our standard biocompatible and non-inflammatory polystyrene nanoparticles in animal vaccine models, as well as their mechanism
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nanomaterials, including magnetic ones (nanoparticles of Fe, Co Ni and composites such as Si-Fe, Fe-Au nanostructures). Biocidal and bio-toxicity of these new class of material will be examined by E. Ivanova
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PhD project to develop theoretical computations and modelling methods to guide and optimise the synthesis conditions and composition of electrocatalysts. PhD project to develop theoretical
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are developing new composites to address the Waste Heat problem. Waste Heat is a huge challenge in the global energy transition. We are developing new materials and system to enhance the conversion of heat to
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characterisation for all optical communications 2D materials and graphene photonics 3D printing of composite materials Nanophotonics solar energy harvesting, storage and applications Photonics approach for solar