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Sustainable Materials for Consumer Products)¿. The part of the project led by Prof. Cooper will focus on two key objectives: 1) development of automated and robot-assisted methods for polymer synthesis
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can be found on this link . This project aims to harness cutting edge particle and polymer self-assembly methods to produce the next generation of paints and coatings. It will involve
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polymerization catalysts and processes to deliver sustainable polymers and block polymers for use in liquid formulations, including in water. New degradable polymer amphiphiles, surfactants and hydrophiles will be
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Sustainable Materials for Consumer Products)’. The part of the project led by Prof. Cooper will focus on two key objectives: 1) development of automated and robot-assisted methods for polymer synthesis
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England (E3) Programme and will synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive
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delivering a project funded by Sinopec, a major international chemicals manufacturer, in our internationally leading Polymer Interdisciplinary Research Centre. Complementary work will be undertaken by
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Hamied Department of Chemistry at the University of Cambridge. The position will be based in the Melville Laboratory of Polymer Synthesis working in an interdisciplinary team with our industrial
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recently awarded BBSRC Impact Accelerator Award. The project aims to develop a novel targeted drug delivery system using polymer-lipid nanoparticles. The ideal candidate will have a strong track record in
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/synthesis and characterisation of (bioresorbable) polymers and hydrogels? Join this adventurous project, funded by CRUK Convergence Science Centre, in collaboration with young leading research teams from
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Research Assistant/Associate in the Experimental Mechanics of Liquid Crystal Elastomers (Fixed Term)
soft solid mechanics (ideally including instabilities) and fabrication of soft solids such as gels, elastomers, liquid crystals elastomers or other polymer systems. Experience in 3D printing