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Start date: 29/09/2024 Type of opportunity Fully-funded studentship - Opportunities which are fully funded (e.g. covers all fees and stipend) Eligibility & Related Project Details Type of studentship: PhD Fee status of eligible applicants: UK and International Duration of Award if full time...
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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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transport and other carbon-neutral energy applications. A crucial component of these devices are the metallic catalyst nanoparticles which allow the chemical reactions to take place at fast rates. The aim
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of fields, including catalysis. Current state-of-the-art catalysts benefit from high activity and stability, however their syntheses can be challenging and the catalysts are neither recovered nor
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at Mitsubishi Chemical UK, Wilton. Overview This project will develop polyoxometalate (POM) based catalysts to investigate step-changes to the globally-leading Alpha process for methyl methacrylate (MMA
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been published since, yet what is the effect of ions present in seawater on water splitting reaction and on catalyst activity is ambiguous. This project aims to investigate impact of the presence of ions
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advancing electrolyser catalysts and conducting comprehensive environmental and economic evaluations. This project is funded (home fees & stipend) and there is one place available. The deadline
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electrolyser architectures and electrodes 2) Integration of catalysts for CO2 hydration into electrolysers. 3) Understanding of local environments within electrolysers through the combination of multiple
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on sharpless asymmetric dihydroxylation of alkenes, and requires the use of toxic cyanide and metal complex catalysts, resulting in a host of by-products, therefore limits the development of the traditional
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HetSys trains people to challenge current state-of-the-art in computational modelling of heterogeneous, ‘real world’ systems across a range of research themes such as nanoscale devices, new catalysts