429 data-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"SciLifeLab" positions at University of Oxford
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from archaeology, anthropology, and material sciences. Work will include creating and adding data to a project database, communicating research plans and progress updates regularly, preparing research
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vaccine-preventable diseases. The role involves designing and implementing novel modelling methodologies, analysing complex qualitative and quantitative data, publishing in peer-reviewed journals, and
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with good understanding of regulations related to Biobanking and data management and previous experience of working in a laboratory environment are essential. Hands-on experience of tissue bank techniques and
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Balkan language. You will bring experience of structured data entry in an online environment, alongside a calm, methodical approach and excellent attention to detail. You will be able to work independently
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applications, and be willing to use technology to the full to reduce administrative processes. You should have a very good standard of numeracy and experience of working with data. A strong customer focus and
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have proven experience working in a large, busy finance department and must be capable of effectively managing a small team. Further information on this role can be found in the job description. At Saïd
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-ome data at bulk and single cell resolution. You will hold a PhD in Mathematics, Systems Biology or a related subject. Experience with mathematical modelling of dynamical systems using linear and non
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track record of steering complex projects to successful delivery. You’ll need to work confidently with sensitive information, negotiate effectively, build productive partnerships, and keep multiple teams
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to Prof Daniel Eakins (daniel.eakins@eng.ox.ac.uk ). For more information about working at the Department, see www.eng.ox.ac.uk/about/work-with-us/ Only online applications received before midday on 2nd
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the molecular structural dynamics and embedded chiral information in redox-active polycyclic aromatic hydrocarbons influence the emergence of novel photoluminescent properties. While the majority of objectives