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could provide clean alternative routes to other platform chemicals and intermediates. In addition to synthesis and catalysis studies, the project will involve DFT modelling of reaction mechanisms. Number
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sources. However, plasma catalysis still faces key challenges: low energy efficiency and a limited understanding of reaction mechanism, imposing a significant barrier to their wider adoption. The Project
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. The projects will be based around the development of advanced magnetic resonance techniques to optimise heterogenous catalysts and the operation of the reactor in which the catalysis occurs. Two projects
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PhD Studentship: Polyoxoniobates for Catalysis in Green Chemical Processes Award Summary 100% fees covered, and a minimum tax-free annual living allowance of £19,237 (2024/25 UKRI rate). The
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Solid-Supported Chalcogen Bonding Catalysis A 3.5 year fully-funded PhD position is available in the group of Dr Mark Greenhalgh at the University of Warwick, in collaboration with GoldenKeys High
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2024. The projects will be based around the development of advanced magnetic resonance techniques to optimise heterogenous catalysts and the operation of the reactor in which the catalysis occurs. Two
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Research theme: Catalysis and Porous Materials This 3.5 year long PhD project is for UK students and EU students with settled status. The funding will cover home tuition fees and provide a tax free
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provided us with a more efficient, in silico approach to develop new ligands for functional materials and catalysis. We aim to extend the Big Data/high throughput DFT methodology in Nguyen group to carry out
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experimental and computational techniques The successful candidate will participate in both fundamental and applied catalysis research. This will include experimental electrochemistry, catalyst and electrode
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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