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Field
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amorphous polymers. Background: Ballistic impact is a complex event that induces multiple modes of deformation, is influenced by both material and structural responses, and excites a very wide range of strain
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A fully funded PhD studentship (UK tuition fees) is available in the group of Dr Arno at the University of Birmingham (group website: https://arnolab.com ) in areas of polymer chemistry with
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on circumstances) set at the UKRI rate as a minimum (£19,237 for 2024/25). A fully funded PhD position in multiscale modelling of polymer composites is available in the group of Professor Carbone at the University
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of Nottingham and experimental development at the University of Oxford, using polycarbonate as a model material. The ultimate goal is to provide models to understand and simulate phenomena observed in polymers
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ultimate goal is to provide models to understand and simulate phenomena observed in polymers under impact, and the effect of different polymer histories on these phenomena. This builds on current
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this a key problem both within the fundamental and applied sciences. For long-chain molecules – polymers – our present understanding of glass-formation is particularly poor due to the complexity provided
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, field effect transistors, photorefractive devices and photovoltaic cells require high performing organic semiconducting materials. This project focuses on using liquid crystals and liquid crystal polymers
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View All Vacancies Engineering Location: UK Other Closing Date: Monday 11 March 2024 Reference: ENG1751 Project: Impact Failure of Amorphous Polymers 3-year PhD studentship Supervisor: Dr Davide
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styrene maleic acid (SMA)-like polymers (SMALPs) which preserve the native lipid bilayer environment of the GPCR. These diverse approaches will be employed to investigate the structure and function
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industry. It is an ever-growing multi-billion-dollar market. Molecularly imprinted polymers (MIPs) are a rapidly evolving class of synthetic receptor with antibody-like affinities. They are low-cost