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of electro‑active coordination polymers (eCPs). As a PhD candidate, you will: Develop a new class of eCPs, integrating earth-abundant metals to create materials with unprecedented charge transport and storage
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designed to investigate the manufacture of ceramic matrix composites (CMCs), for defence applications, via the polymer impregnation and pyrolysis (PIP) route. The work will involve modifying specific
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Department: Chemistry Title: Polymer Materials to Store Biologics at Room Temperature Application deadline: All year round Research theme: Polymers, Chemistry, Cryopreservation, Biochemistry
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Background Fibre-reinforced polymer composites (FRPC) are increasingly used in high-performance industries such as aerospace, automotive, and renewable energy due to their exceptional strength
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potential immunogenicity/toxicity. The GibsonGroup have pioneered the development of Macromolecular Cryoprotectants: polymers which can modulate the formation and growth of ice. (Review article: Nature
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recent ‘smart ring’ products. Other more creative examples utilise stretchable polymer substrates, origami pre-folded structures or cable like braiding designs (https://doi.org/10.1038/s41586-021-03772-0
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: NanoporousMaterial Synthesis (MOFs, COFs, zeolites, polymer, silica), Crystallography, Spectroscopy Physics: Nanofluidics (nanoscale water), Molecular Dynamics, Thermodynamics Materials: Colloids, Gel, Polymer
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relationships, and environmental impact. The coatings will be formulated using renewable colloidal particles and polymers and tailored for applications in functional surfaces. A multifaceted approach will be used
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of the technology within a known PFAS transport environment. The objectives of the research are: Review PFAS affinities to materials, e.g. polymers, chemicals, cell membranes etc. Design a new analytical sensing
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coordination polymers comprised of metal clusters/ions and organic linkers. MOFs show great potential for a wide range of applications in areas such as energy, environmental sustainability, and healthcare