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Flexible batteries with seamless integration in textiles will revolutionize the healthcare system. Such batteries could power sensors to continuously monitor vital signals (e.g. glucose) and
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expertise spanning mooring lines, floating platforms and anchors, with both academic and industry perspectives. You will have many opportunities to expand your network, both in academia and industry, through
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of symmetries and equivariance and their implementation in deep neural networks, mathematical criteria stability and robustness of neural networks, applications of topology and geometry to deep
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key role in developing and producing advanced optoelectronic devices for applications such as quantum technologies, integrated optical sensors, and laser optics. In this EPSRC-funded project, you will
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opportunities to expand your network, both in academia and industry, through project meetings, workshops and conferences. You will contribute to the activities of the Intelligent and Resilient Ocean Engineering
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intellectual leadership, establish novel approaches to pseudoviral and viral-like glycosylation studies, integrate glycomics with immunological outcomes, and share findings across the CAVD network. The role
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systems, with emphasis on criteria for robustness, reliability, and stability. Topics of interest include the study of symmetries and equivariance and their implementation in deep neural networks
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, and share findings across the CAVD network. The role includes experimental design, mentoring junior researchers, and extensive international collaboration to address key challenges in viral glycobiology
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Interest We welcome applications from all disciplines aligned with one of the strategic research priorities below: Clean Technologies: Net zero innovation, sustainable energy, circular economy Life Sciences
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considered on a pro-rata basis. You will have access to mentoring, career development and networking across the University and beyond. The successful candidate will work under the supervision of Dr Dawn-Marie