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to investigate fluid-structure interactions in channels. Physical modelling will be carried out in the Newcastle University Vedrana Kutija flume; state-of-the-art fully instrumented flume: glass side panels over
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between proteins, small organic molecules and water, at a fraction of the cost of quantum mechanics. They will integrate the workflows into drug discovery pipelines at Newcastle University and/or
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processes that clean up the wastewater. A process co-developed by Newcastle University and Northumbrian Water Ltd (NWL) and installed at the Bran Sands treatment works on Teesside, uses an ammonophilic
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the wastewater. A process co-developed by Newcastle University and Northumbrian Water Ltd (NWL) and installed at the Bran Sands treatment works on Teesside, uses an ammonophilic microalga (Chlorococcum sp
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Newcastle University, with a specific focus on catalysis, molecular functionality creation, and production pathways development. The candidate will access to Procter and Gamble’s R&D facility in Newcastle
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CO2 activation and conversion techniques and exploit bio-renewable platform molecules in Newcastle University, with a specific focus on catalysis, molecular functionality creation, and production
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must be developed. We have recently developed a reversible glue targeted for use in recycling that is water-based, inexpensive, scalable, and has a long shelf life. This glue contains two emulsion