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To undertake research into the functionalisation of natural polymers under the supervision of Prof. Andrew Dove and Dr Deborah Crawford. To design, characterise and study both solution and melt phase methods
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on developing previously identified polymers that show an ability to prevent bacterial biofilm formation on surfaces. The polymer has already been successfully CE-marked as a urinary catheter coating, and this
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The post is associated with a Johnson Matthey initiative to develop novel polymers for the recovery of platinum group metals (PGMs). The aim is to advance synthesis methods for solid-phase metal
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focused on physicochemical phenomena that take place at the interface of polymer matrix composite materials College / Directorate College of Engineering, Design & Physical Sciences Location: Cambridge
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loading or state of hydration (as in polymer membrane swelling). In this post, you will explore the changes in structure at interfaces in MOF-based membranes using advanced electron microscopy and focused
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properties. Critically, these changes are heterogeneous, depending on the guest loading or state of hydration (as in polymer membrane swelling). In this post, you will explore the changes in structure
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-to-end integrated 3D polymer material manufacturing from waste resources. The successful candidate will study the sustainability of systems and combine it with AI for intelligent decision-support tools
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-to-end integrated 3D polymer material manufacturing from waste resources. The successful candidate will study the sustainability of systems and combine it with AI for intelligent decision-support tools
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on biodegradable polymer formulations for controlled release applications, contributing to the advancement of electrospinning techniques in agriculture. Your strong working knowledge of analytical and
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on designing dynamic polymeric synthetic cells. This research project aims to advance synthetic cell technology by developing synthetic constructs that mimic the structural and functional