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and characterizing disease-specific EVs and identifying and optimising biomarkers to enable detection on novel nanoplasmonic surfaces. This project forms part of an EPSRC Programme Grant, Molecular
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molecular detail. You will use a combination of structural computational/artificial intelligence approaches, protein biochemistry and single-molecule techniques, such as optical tweezer assays and single
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)/Neurodegeneration clinical research programme. You will have the opportunity to be part of the NIHR Sheffield Biomedical Research Centre (Translational Neuroscience for Chronic Neurological Disorders) Junior Academy
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of the system is within the set at some time, then it is guaranteed to remain within the set for all future times. Therefore, being able to characterize and compute these sets is of prime importance when
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devices with integrated sensing, computing, communication and possibly actuation capabilities will work together to achieve a common mission-specific task. The nodes may be heterogeneous, with varying
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and Interview Ability to prioritise work while maintaining standards Desirable Application and Interview Basic computer skills, use of emails and ability to use online training modules. Desirable
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accepted all year round Details The advent of easily accessible high performance computers or computer clusters and numerical techniques such as finite element methods (FEM) facilitates the highly accurate
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of how to apply can be found at the following link: https://www.sheffield.ac.uk/acse/research-degrees/applyphd Applicants can apply for a Scholarship from the University of Sheffield but should note that
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of the service, using internal and external data sets (e.g. curriculum data, the data that underpins regulatory compliance by the Office for Students and programme and module surveys) to help develop services
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Overview Research and Innovation IT has become crucially important across the full spectrum of research activity at the University of Sheffield. In addition to traditional compute-intensive HPC