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4-year Industrially funded D.Phil. studentship that includes joining the Faraday Institution PhD Training Programme and an industry internship. Project: The impact of thermal-mechanical
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, including research assistants, PhD students, and/or project volunteers. With a background in physics and computational modelling of magnetic and carbon nanosystems, you will be self-motivated with the ability
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and reporting of the results in technical reports for sponsors, internal seminars, and at international symposia. You should possess a PhD/Dphil (or be near completion) in a relevant field and have
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excellent written and oral communication skills and a strong ability to work as part of an interdisciplinary team. Informal enquiries may be addressed to Antonis Papachristodoulou (email: [email protected]
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programme Undertake specialist lectures/seminars Timely completion of work, reporting and analysing of results to agreed development plans Contribute to the supervision of PhD students if necessary Any other
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manuscripts for submission to peer reviewed journals. You may also have opportunities to co-supervise Masters and PhD projects. The projects you will be working on are interdisciplinary and so the ability
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, hydrogen/deuterium exchange (HDX)), transcriptomics, expansion microscopy, and cryo-electron microscopy/tomography. You will be managing your own academic research and administrative activities, including
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fixed-term duration of 24 months. The researcher will work with Dr Adina Pusok to develop, test and use computer models to explore the key processes by which magma creates and shapes the ocean floor. Mid
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to corroborate experimental findings and propose other configurations not experimental investigated. You should possess a PhD or DPhil (or be near completion of) in the field of engineering, physics or applied
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ability to work effectively in a team and individually will also be essential to deliver the project. Informal enquiries may be addressed to Dr Paul Beard (email: [email protected]) For more