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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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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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You The successful candidate will have prior experience in the formulation, manufacture and full mechanical, structural and chemical characterization of melt processed bioresorbable polymer bioactive
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successful candidate will have prior experience in the formulation, manufacture and full mechanical, structural and chemical characterization of melt processed bioresorbable polymer bioactive composites