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and Sanger), PCR/qPCR, and ELISA. • Demonstrated ability to design, optimise, and troubleshoot molecular assays, including experimental planning, hypothesis testing, and refinement of protocols
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microbial biotechnology components into designs for a 3D bioreactor, whilst also optimising co-culturing methods and post-growth materials testing and characterisation. These materials will incorporate
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pertinent measured or calculated parameters, conduct surveys and undertake and record the outcomes of physical and numerical tests. You will work under general supervision, and you should have the ability
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at higher risk offered PSA blood tests which are not definitive. Our research aims to develop an image-based approach to screening, combining PSA testing with MRI to better identify aggressive cancers
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both homogenous and heterogenous catalytic conversion, including the handling, testing and characterizing the catalysts as well as the reactor and process simulation and analysis. Details will be
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goals. Organise and facilitate interactive workshops and stakeholder meetings as part of the research process, generating qualitative and quantitative data to test and refine platform content and
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analysis using StarCCM+/OpenFoam, conduct the experimental test using our cavitation tunnel, the combined wind, wave and current tank and the research vessel, and develop a novel maritime system for clean
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correlate behavioural variability with neural responses to naturalistic audio-visual stimuli Examine cross-modal interactions between visual and auditory cortices using techniques such as cross-modal decoding
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integration of genomics, proteomics, epigenomics and transcriptomics from these models alongside extensive human tumour collections. You will be PhD-qualified, or have submitted your PhD thesis for examination
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) for different scientific applications, including simulations, large-scale data analyses and AI. This will involve designing test protocols, building test benches to track power and energy usage, and running