205 data-"https:" "https:" "https:" "https:" "https:" "https:" "https:" "UNIV" "Univ" "UNIV" research jobs at University of Oxford
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. More information about the research and group can be found here . About you Applicants must hold a PhD in Physical Chemistry, Physics or a relevant subject area, (or be close to completion) prior
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, aerosols, and their interactions, utilising satellite-based remote sensing. Potential areas of emphasis include cloud tracking and the analysis of data from the innovative EarthCARE satellite mission in
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also have experience of structural biology methods, in particular cryogenic electron microscopy and data processing. Enthusiasm for working in a laboratory environment, a pro-active determination to
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to independently plan and manage a research project, including a research budget, and act as a source of information and advice to other members of the group on scientific protocols and experimental techniques
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opportunities as this is a network grant including external collaborators. Please see the below 'Job Description' for further details on the responsibilities and selection criteria, as well as further information
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act as a point of contact for the team, managing enquiries and coordinating information from a wide range of contributors. About You • Educated to A-level or equivalent professional experience
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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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-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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-sequencing workflows, small-molecule treatment optimisation, data preparation for reports and publications, and collaborative project work. You will also support laboratory operations, including stock
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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