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opportunity to have an industrial placement. The research will focus on the application of Systems Engineering methodologies for the design and development of future novel electric actuators to support
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apply Systems Engineering methodologies to design and develop novel electric actuators, supporting the goal of Net Zero and the sustainable development of future aerospace systems. The candidate will
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to combine Microbial Fuel Cell (MFC) technology that produces electricity using electrons derived from biochemical reactions, with hydroponics that involves growing plants without soil. The idea is to use MFC
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, from metals to ceramics, influencing their mechanical, thermal, and electrical properties. Understanding their intricate structures is crucial for advancing fields such as aerospace, engineering, and
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Project background: Polycrystals are the building blocks of numerous materials around us, from metals to ceramics, influencing their mechanical, thermal, and electrical properties. Understanding
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This PhD studentship is an exciting, fully funded opportunity to work as part of an internationally renowned scientific and engineering team to develop a new innovative technology to meet and
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materials. The project will be carried out in collaboration with the Rutherford Appleton Laboratory (RAL) of the UKRI Science & Technology Facilities Council (STFC). Scintillators are a class of luminescent
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) in a relevant science or engineering discipline, possibly supported by an MSc Degree. Please note that as this is a defence based project, only UK/EU students are eligible to apply. International
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Please note: while this is a funded studentship, funding restrictions mean this opportunity is only open to applicants who qualify for UK home fees.Cells are electric! Bioelectricity has a role in