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(Central Oxford). The post is externally funded and is fixed-term to the 30th September 2026. The integration of electronic and mechanical degrees of freedom in quantum devices, particularly using carbon
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and cryo electron microscopy. You will join our enthusiastic lab in the Department of Biochemistry. We aim to upskill all our members and work together to answer important biological questions about how
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a rapidly advancing field, as well as providing opportunities to manage and take responsibility for both research tasks and people. Informal enquiries can be made to Professor Zayats via email. This
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The overall goal of our research is to describe a class of organic materials able to transport ionic and electronic charge which provide an ideal interface between human-built devices (where signals
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: - solid-state NMR - electron microscopy - lab-based and synchrotron-based x-ray techniques • solid-state electrochemistry, in particular
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: - solid-state NMR - electron microscopy - lab-based and synchrotron-based x-ray techniques • solid-state electrochemistry, in particular
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. Contact Person: HR Team Pay Scale: RESEARCH GRADE 8 Contact Email: hr@rdm.ox.ac.uk
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Koukiadaki Email: aristea.koukiadaki@manchester.ac.uk General enquiries: Email: People.Recruitment@manchester.ac.uk Technical support: Jobtrain: 0161 850 2004 https://jobseekersupport.jobtrain.co.uk/support
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with spin-orbit-coupled interfaces and superconductors can be used to generate and control unconventional superconducting states. In particular, the project aims to realise and manipulate electron
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plasma channels, and methods for controlling injection of electrons into laser-driven plasma wakefields. This work will be undertaken within the research groups led by Prof. Simon Hooker (Oxford), in