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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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challenges across electronic textile-based sensing, wireless, electrochemical and design technologies with a focus on sustainable developments towards practical user-centric e-textile systems. In these roles
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and fabrication of microfluidic systems, with demonstratable skills in sensors, micro-fabrication, electronics and programming. We are looking for a self-motivated person, able to organise their own
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to deliver the reconfigurable terahertz topological states for the application in the next generation of wireless communications. To be successful in this role, you will have: a PhD or equivalent qualification
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must possess detailed knowledge and experience in design and fabrication of microfluidic systems, with demonstratable skills in sensors, micro-fabrication, electronics and programming. We are looking
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generation of wireless communications. To be successful in this role, you will have: a PhD or equivalent qualification (or be nearing completion thereof) in Physics/Optical Engineering or another subject
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will play a 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
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valued member of our team, you will play a key role in developing and producing advanced optoelectronic devices for applications such as quantum technologies, integrated optical sensors, and laser optics
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://www.southampton.ac.uk/geography/research/groups/economy_society.page ). The group has a leading international reputation in human geography. The research team will also support you through mentoring and networking
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stakeholders. You will also contribute to other collaborative research e.g. conducting evidence synthesis using a range of approaches (e.g. systematic reviews, scoping reviews, network meta-analysis). There will