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motions become critical for the operational safety of the reactors. This project will focus on the fundamental understanding/mechanism of the tribochemical interface when exposed to molten salt environments
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generation, particularly in high-chloride aqueous environments; a vital yet understudied aspect relevant to the UK’s GDF program. This research programme employs short-term electrochemical and long-term
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take place in the Soft Matter Physics group in the School of Physics and Astronomy at the University of Leeds. Within the group, we have a variety of activities across soft matter. We work with world-leading
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systems to meet stringent emission legislation and simultaneously reduce carbon emissions. The project will use a novel patented catalyst (for NOx and CO reduction) developed at the University of Leeds and
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can be a blend of experimental laboratory work and atmospheric modelling. Co-supervisors may include staff from the Schools of Chemistry, Physics & Astronomy, and Earth & Environment at Leeds. Current
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that surround virtually every cell in our body. They are essential for multicellular life and instrumental for cells to communicate with their environment. How cells use their surface glycans to communicate
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of the intermolecular interactions between the drug and the surrounding chemical environment and the structural dynamics during crystallisation. The information gained in this project will enable improvements in process
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the generated fundamental knowledge can be utilised in relevant important appllications. You will work in an international research environment characterized by close collaborations between experimentalists and
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Social Sciences Doctoral Training Partnership, accredited by the Economic and Social Research Council in 2016, is a collaboration across the social sciences at the Universities of Leeds, Sheffield, York