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Field
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the formation rates or composition of a biominerals from known environmental conditions. This project aims to construct such a model. The ultimate goal is to create a general framework for predicting
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into how the structure of fat droplets during digestion is impacted by composition and formulation processing. Working under the broader project of ‘Precision Nutrition’ the research will investigate how
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into the composition of the reservoir at the time of formation4. Together these data will be used in combination with conceptual and reactive transport models to determine and quantify the processes that have occurred
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materials, element composition, rolling process, and heat treatment process of magnetic materials, and design and properties of multi-physical field magnetic measurement systems for magnetic materials under
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tests on specimens and on elementary constituents or mini-composites; - Construction of a behavior model and identification thanks to the experimental results Work program • Mechanical tests at room and
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-free scalable process by using extrusion of composite filaments containing piezoelectric, conductive or other functional fillers. Toughness and durability of the composites is imperative in performance
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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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for the new green steels compositions, including impurities and tramp elements. These models should enable density-functional-theory (DFT) accurate large scale atomistic simulations of defects including
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of state-of-the-art machine learning potentials for multi-component alloy systems that are relevant for the new green steels compositions, including impurities and tramp elements. These models should enable
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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