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for an ethusiastic individual to join our fast-paced interdisciplinary research team based in the School of Engineering. The “BEWISe on trickling filter process emissions ” project will involve working with Professors
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Assistant/Research Associate in decision modelling to join the Health Economics Group in the Population Health Sciences Institute. You will spend 60-80% of their time for the first two years working
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to combine Microbial Fuel Cell (MFC) technology that produces electricity using electrons derived from biochemical reactions, with hydroponics that involves growing plants without soil. The idea is to use MFC
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. Applicants should hold (or be about to obtain) a first or upper second class honours degree (or equivalent) in a relevant subject area including medical sciences, biomedical sciences, biomedical engineering
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an interest in multidisciplinary bioanalytical science to work with us on this studentship. Supervisors: Professor Melanie Bailey , Dr Catia Costa , Professor Paul Townsend and Professor Roger Webb Entry
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their suitability, novel substrates and materials which can be combined with existing laboratory techniques. Ideally research would identify/develop substrates that can simulate the physical properties
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In the early development of new active pharmaceutical ingredients (APIs), pharmaceutical scientists often have access to only small amounts of material for testing. Even as we move through
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materials that show limited long-range order between layers are particularly exciting because their interlayer chemistry can differ significantly from crystalline materials. This can potentially be tuned via
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environmentally friendly aircraft. It will also inform research strategies and technology roadmaps including the development of future test campaigns and flying demonstrators. Furthermore it will further develop
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respiratory infections and health economics. Essential skills: A Master in Epidemiology or Public Health with experience in medical statistical analyses, an understanding of Health Economics, knowledge