667 structural-engineering-"https:" "https:" "https:" "https:" "https:" "https:" "https:" "Dip" positions at University of Sheffield
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such as MoSe₂, WSe₂, and others). The growth technology of GaAs-based photonic structures is well developed and enables the fabrication of high-quality devices with long polariton lifetimes and good spatial
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scenarios to ensure its applicability. Main duties and responsibilities Develop and implement mathematical optimization models for structural engineering problems. Collaborate with other members
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across structural biology and drug discovery. For informal enquiries about the project, please contact Dr Erin Cutts Link to website: https://sheffield.ac.uk/biosciences/people/academic-staff/erin-cutts
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oxide and reduced graphene oxide, with properties very distinct from graphene and with possible applications in photocatalysis and batteries. However, determining their exact structure and structure
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Overview As a Project Engineer, you will work specifically on Defence projects within our research team at the University of Sheffield Advanced Manufacturing Research Centre. We want you to be
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, immersed in a fluid with a matched refractive index. This allows for the direct, visual observation of the soil-structure interaction, enabling detailed three-dimensional measurement of displacements and
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Decarbonising construction: Advanced spectroscopic approaches to understand nanostructural development and phase evolution in high-performance, low-carbon cements School of Chemical, Materials and
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Physics-Informed Digital Twin for Guided Wave-Based Structural Health Monitoring (SHM) of Offshore Wind Turbine Foundations Offshore Wind CDT PhD Research Project Directly Funded UK Students Dr T
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regulation of these complexes in time and space. Insights are achieved by employing structure based reasoning and interdisciplinary techniques, including structural modelling, structure determination, protein
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, R., & Herrmann, H. J. (2016). Particle-Fluid-Structure Interaction for Debris Flow Impact on Flexible Barriers. Computer-Aided Civil and Infrastructure Engineering, 31(5), 323–333. https://doi.org