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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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. for Interdisciplinary Physics and the Molecular Chemistry Department, in collaboration with the University of Leeds, to create an in vitro platform to study how cell mimetics adhere to model macromolecular layers as a
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characterisation (FIB-SIMS, XPS) at the Bragg Centre for Materials Research at Leeds University. The project will be carried out at Leeds University, with several secondments to the AWE site for X-ray tomography
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take place in the Soft Matter Physics group in the School of Physics and Astronomy at the University of Leeds. Within the group, we have a variety of activities across soft matter. We work with world-leading
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research colloquia and networking with other researchers at the University of Leeds and beyond. To explore the post further or for any queries you may have, please contact: Professor Stephen Russell
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selectivity. We have recently demonstrated that multivalent probes based on a flexible polymer scaffold can effectively discriminate surfaces based on the density of surface receptors (Dubacheva et al, Acc Chem
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on the material. These properties have been harnessed in materials applications such as thermochromic inks; stimuli-responsive polymers; and solid state refrigeration. Different materials can undergo spin-crossover
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polyhedral or prismatic chemical architectures can self-assemble from combinations of transition metal cations and multifunctional ligands. Likewise supramolecular materials such as coordination polymers
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constant, hardness and size. These properties have been harnessed in materials applications such as thermochromic inks; stimuli-responsive polymers; switchable microwave absorbers; and solid state