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of the wearable, diagnostic device and signal processing aspects of several world-first multi-modal studies seeking to assess and quantify the effect of repetitive head impacts on short-term and long-term
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nanotubes, enables the exploration of thermodynamic processes at the nanoscale. Carbon nanotubes serve as exceptional nanomechanical resonators due to their low mass, high stiffness, and quality factor
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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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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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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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processes from a quantitative perspective in vitro. The lab employs state-of-the-art biophysical techniques (e.g. advanced single-molecule fluorescence microscopy, optical and magnetic tweezers) together