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carboxylic acids. This will exploit the ability of the nickel-iron hydrogenase enzyme to activate hydrogen gas under mild conditions to unlock mild and selective hydrogenation and dehydrogenation processes
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. Application Process Applications for this vacancy are to be made online via www.recruit.ox.ac.uk and Vacancy ID 179922 . You will be required to upload your curriculum vitae and a supporting statement, setting
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computer programs to design experimental paradigms, analyse data and conduct advanced statistical analysis. Prior experience in running neuromodulation studies including TMS and TUS is essential. You will be
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Process Applications for this vacancy are to be made online and you will be required to upload a supporting statement and CV as part of your application. In your supporting statement (not more than 2 pages
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radiation biology, cell signalling, or immunology, as well as first-author publications in peer-reviewed journals. Application Process You will be required to upload a supporting statement (outlining how you
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England in recognition of the strong connection between Freemasonry and Enlightenment values. Application process You will be required to upload a CV and a supporting statement explaining why you consider
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exploring B cell migration in the spleen. The successful candidate will have extensive experience in handling and processing live spleens and an established expertise in live imaging of this organ. As a
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great place to work. Application Process Applications for this vacancy are to be made online via www.recruit.ox.ac.uk and Vacancy ID 179558 . You will be required to upload your curriculum vitae and a
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insights into the disrupted biological processes underlying cancer. This project is initially funded until March 2027 and is part of a collaborative initiative supported by the Oxford Cancer Centre
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will have three responsibilities: - (1) studies of composite materials for a beam-facing RF shield. (2) contributions to the operation and exploitation of the Timepix4 testbeam. (3) simulation work