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materials-based heterostructures , where the 2D nanosheets will act as transducers for electrical sensing applications. This will generate a knowledge-based platform to allow us to rationally engineer 2D
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of controllable long-range dipole-dipole interactions, long trap lifetimes and strong coupling to electric and microwave fields. The postholders will be expected to display the initiative and creativity, together
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forefront of hydrogen technologies and their integration to the energy systems. The successful candidate will hold a PhD degree (or close to completion) in Mechanical/Electrical Engineering or related subject
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into ‘Mechanisms and treatment of nausea’. This will focus predominantly on functional studies with human gastrointestinal tissues, investigating the effects of therapeutic electrical stimulation
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internal structure, combined with the existence of controllable long-range dipole-dipole interactions, long trap lifetimes and strong coupling to electric and microwave fields. The postholders will be
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close to completion) in Mechanical/Electrical Engineering or related subject, with a proven track record of publishing in high quality international academic journals and experience of working as a
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treatments. To achieve this, we will develop personalised cardiac models at scale, and update these models over time, using imaging and electrical data collected by collaborators at multiple centres. We
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pairing to enable spin-polarised charge and pure-spin supercurrents. The role will involve developing and characterising hybrid superconducting devices with ferromagnets and antiferromagnets, with a focus
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collaborative research environment. Education, Qualifications and Experience We are looking for outstanding candidates with a PhD in physics, electrical engineering, applied mathematics, computer science, or a
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system with integrated sensors. You should hold or be near completion of a PhD/DPhil with relevant experience in the field of robotics, biomedical engineering, information engineering, electrical