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, including optical instrumentation, prototype device assembly, sensor characterisation, or microfluidics. Desirable: B1 A PhD in a relevant field (e.g. physics, engineering, applied photonics, or analytical
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tissue. As the successful candidate you will have a PhD in instrument development or be due to complete doctoral studies within 6 months of applying. Ideally you will have experience of light sheet imaging
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, clinical language intelligence, and AI-driven healthcare implementation. https://www.uta.edu/academics/schools-colleges/engineering/research Responsibilities The ideal candidate will be an internationally
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at imaging entire tissues at sub-micron resolution and to develop tissue clearing methods suitable for live or fixed tissue. As the successful candidate you will have a PhD in instrument development or be due
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Novel Nanoswimmers - exploring novel routes to propulsion at the nanoscale. School of Chemical, Materials and Biological Engineering PhD Research Project Self Funded Prof Jonathan Howse, Dr Stephen
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Management, and IT). The research conducted at the L2S focuses on the fundamental and applied mathematical aspects of control theory, signal and image processing, information theory, and communication
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ambition to advance methodologies and strengthen a life-long perspective, focusing on multidimensional assessments (including 3D motion analysis, muscle imaging, and/or other instrumented methods
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, which can benefit a wide range of real-world applications. This Research Engineer will work with our team to conduct the research on development of AI models and algorithms for image processing
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. degree in any quantitative science, preferably in Computer Science, Electrical and Computer Engineering, Biomedical Engineering, Applied Mathematics, and Neuroscience. Candidate should have a working
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 33 minutes ago
therapeutic technologies from early concept through prototype development and preclinical validation. This position offers a unique opportunity to work at the interface of biomaterials engineering, cancer