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substantial benefits across the UK aerospace and battery sectors. The project will be delivered collaboratively by academic and industry researchers providing a pathway to revolutionise zero carbon flight and
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to attend Hub events, including symposia, project meetings, networking events and industry mentoring. The University of Oxford and the Department of Chemistry offer an inclusive and supportive working
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students, and 130 teaching and research staff. Our research is highly collaborative, working with colleagues across all three faculties and supported by partnerships with industry, NHS and other stakeholders
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students, and 130 teaching and research staff. Our research is highly collaborative, working with colleagues across all three faculties and supported by partnerships with industry, NHS and other stakeholders
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therefore aims to translate this approach from the synchrotron to conventional lab-based XPS instruments, to make it a widely accessible research tool for academia and industry. You will have responsibility
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to conventional lab-based XPS instruments, to make it a widely accessible research tool for academia and industry. You will have responsibility for adapting ultrahigh vacuum equipment to accommodate the reaction
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building to embed and exploit these technologies for long-term growth. AMMIC will contribute to net zero, develop industry digital skills, improve efficiencies, and create increased international
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deploy models symbiotically with experimental researchers to optimise design and manufacture of Li air electrodes and cells. This will include image-based modelling of electrodes, and finite-element
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generations of research and development professionals, data specialists, technology experts, inventors, and scientists for industry and society. The Macroscopic Quantum Optics (MQO) Group at Aalto University
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deploy models symbiotically with experimental researchers to optimise design and manufacture of Li air electrodes and cells. This will include image-based modelling of electrodes, and finite-element