16 design "https:" "https:" "https:" "U.S" Fellowship positions at University of Leeds
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Are you looking to apply your skills in nanoparticle synthesis and automation for the development of novel nanomedicines? Do you have a background in nanoparticle synthesis in continuous flow? Do you want to further your career in one of the UK’s leading research-intensive universities? We are...
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with local authorities. Our research to date finds that a one-size-fits-all policy will not work, instead we need to design better interventions for household types. This is where you come in: in
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influence, technology acceptance, and household context, as well as the effect of changes to urban space and design. The outputs will feed into whole life-cycle carbon assessments. Candidates will require
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on the costs of delivery of safely managed urban sanitation services (https://cactuscosting.com/ ). We are looking for a Senior Research Fellow to join our team and lead the development of the next phase of
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visa. For more information please visit: https://www.gov.uk/global-talent To explore the post further or for any queries you may have, please contact: Professor David Meads; email: D.Meads@leeds.ac.uk
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/skilled-worker-visa For research and academic posts, we will consider eligibility under the Global Talent visa. For more information please visit: https://www.gov.uk/global-talent If you are looking for a
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involve extensive collaboration with industry partners including AstraZeneca, Labman and Britest. https://iuk-business-connect.org.uk/news/funding-to-build-a-sustainable-future-for-medicines-manufacturing
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protocols, pilot work contributing to future grants and design and delivery of patient and public engagement activities. You must have a PhD (or close to completion) in epidemiology, biostatistics, health
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), or have sat their viva or submitted their thesis for examination between 1 October 2025 and 30 September 2026. Your research area must fall under the EPSRC remit. These prestigious Fellowships are designed
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lectin–glycan interactions in molecularly defined model systems, and elucidate the physical and chemical rules underlying superselective targeting. This knowledge will enable the rational design of probes