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enhancing the clinical relevance of experimental findings and supporting the development of novel therapies. You will be responsible for planning, managing and conducting the academic research project and
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on investigating new attack vectors and security mechanisms in chiplet-based architectures. The project will be performed in collaboration with other academic and industrial partners and will innovate new mechanisms
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knowledge and tools for non-equilibrium flows for hypersonic vehicles. The research will provide unique and high-quality experimental data for expanding high temperature flows. Alongside this, the proposal
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cancer scientists, clinicians and mathematicians will explore the mechanisms of evolved adaptive response to therapeutic selective pressures in colorectal cancer. You will be responsible for developing
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, running fluid codes, undertaking experiments with high-power lasers, developing code for experiment control or feedback, or of supervising undergraduate or graduate students will be an advantage. Candidates
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electrochemistry, in particular: - electrochemical impedance spectroscopy; • fundamental materials science, including: - Mechanical and microstructural characterisation
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, defensive mechanisms and related topics to the safe deployment of systems contain multiple LLM and VLM powered models. You will be responsible for Developing and implementing; capability evaluations, attacks
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will have strong links to the experimental synthesis, diffraction and electrochemical work performed in the overall project. Previous experience in computer modelling of lithium battery cathodes and a
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Postdoctoral Research Associate in Sum-Frequency Generation Microscopy of Biomolecular Self-Assembly
. Requirements Applicants for this position should hold a Ph.D. in physics, chemistry, or a related subject and have broad knowledge in molecular spectroscopy and general optics. Furthermore, experimental
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Full Time (37.5 hours per week) rm Contract for up to 3 years About the role Dr. Frank Bürmann leads a research group investigating the molecular mechanisms of chromosome remodelling. The team employs