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neuronal and glial cultures to model human disease in vitro. You will gain expertise in super-resolution and single-molecule imaging to investigate protein aggregation and clearance at the nanoscale, and in
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metamaterial, to better control the manufacturing process. The end result will be prototype metamaterials that can be manufactured to mitigate for the effect of sub-optimal and variable feedstock properties and
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that are applicable to various fields. We are developing fabrication techniques of micro origami-robots and remote magnetic control methods that are to be applied to paradigm shifting manufacturing approaches and in
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a range of state of the art techniques including RNAseq, proteomics and super resolution imaging. In addition, the student will also gain experience in primary cell culture, molecular biology and
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for sustainable aviation fuels supply chain. The dual effects of sustainability and security of energy and critical materials supply will underpin the model development. It will involve a paradigm shift which
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Function Brain imaging in disease: what are the activation maps really telling us?
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systems, drug screens, identification of therapeutic targets) and clinical (e.g. trial design, imaging, biomarkers, disease stratification) expertise. This post forms part of the NIHR research priority
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(such as those used in phones and tablet devices). It will focus on imaging techniques and experimental methods to measure biomechanical properties of the hand and link these characteristics with the ability
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High Speed Stereo Imaging Techniques for Flame Studies
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. For this purpose, we aim to employ a two-way co-adaptation paradigm where both the user and robot adapt to each other such that the likelihood of committing the same error in future is reduced. Importantly, a