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commonly estimated through chemical markers that are generated through the degradation of cellulose. 2-Furfural and methanol are some commonly used ageing markers. Once generated these markers undergo a
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investigations of pre-selected systems differing by solvent, porous material surface chemistry and gas. This project has two parallel tracks – scientific and engineering. The scientific focus will be on: (i
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through the Photon Science Institute at the University of Manchester, it is open to both UK and International Students and will cover full fees and a stipend at the UKRI rate (£19,237 for 2024/25) Light
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. Applicants should have, or expect to achieve, at least a 2.1 honours degree or a Master’s in Chemistry, Chemical Engineering or other related discipline. We strongly recommend that you contact the supervisor
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of Prof Anthony Green. The design of enzymes with new modes of catalysis is a major objective in modern biocatalysis. In this project will use state-of-the-art enzyme design, engineering and
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international equivalent) in a relevant science or engineering related discipline. Before applying, please contact Prof Robert Dryfe ([email protected] ) to discuss the application.
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. Chris Hardacre within Catalysis and Porous Materials Group in the Department of Chemical Engineering at The University of Manchester. Overall, this project represents an interdisciplinary effort at
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a master’s in materials science, chemistry or a related discipline. Experience with either analytical chemistry, nanomaterials, polymer engineering or sustainability principles is desired. Please
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chemistry and biochemistry, including protein engineering, directed evolution, enzyme characterisation (X-ray crystallography and AI based modeling) and enzyme assays. Candidates are not expected to have
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, or expect to achieve, at least a 2.1 honours degree or a master’s in Physics, Chemistry, Chemical Engineering, Materials Science and other relevant STEM degrees. Pre-knowledge on molecular simulations