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of 24 months. The project aim’s to develop new constitutive models to describe the mechanical behaviour of Thermoplastic Elastomers (TPEs). These polymers are increasingly being developed as a
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ideas from concept to transformative technology. The award will fund the MEMetic project , which will develop nature-inspired (biomimetic) polymer membranes for water filtration. MEMetic involves
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ideas from concept to transformative technology. The award will fund the MEMetic project , which will develop nature-inspired (biomimetic) polymer membranes for water filtration. MEMetic involves
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techniques using polymer- and nanomaterial-based coatings. These advanced coatings will enhance not only the chemical and thermal stability of the LFP materials but also improve their electrochemical
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ideas from concept to transformative technology. The award will fund the MEMetic project , which will develop nature-inspired (biomimetic) polymer membranes for water filtration. MEMetic involves
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have (or be about to obtain) a PhD in chemistry, with expertise in the synthesis of conjugated small molecules and/or polymers. Key skills that are required are the ability to work on multiple projects
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. Applicants should have (or be about to obtain) a PhD in chemistry with expertise in the synthesis of conjugated small molecule and/or polymers. Key skills that are required are the ability to work on multiple
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candidate will work at the interface of polymer science, pharmaceutical engineering, and drug delivery, conducting experimental studies on implant formation, drug release kinetics, and biocompatibility
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to control the folding of single polymer chains through use of polymer sequence building on previous research within the Serpell group on the folding and self-assembly of sequence-defined polyphosphoesters
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Focus Areas: Synthesis, Catalysis and Process; Sustainable and Resilient (Bio) Chemistry; Materials Discovery; Theory, Computational and Data-Led Chemistry, Soft Matter, Polymers and Interfaces; Chemical