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. The overall goal of the project is to use computational approaches to map both the modulus and the Poisson’s ratio of the bone in patients with and without OI to improve our understanding of the mechanical
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School of Medicine Closing date: 2 January 2026 Start date: 1 February 2026 Defining mechanisms underlying post-translational modification of airway mucus and the impact on mucociliary function
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-generation regenerative materials. This interdisciplinary project combines mechanical, materials, and biomedical engineering, offering training across fabrication, nanomechanical analysis, and computational
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approach: integrating mechanical and enzymatic antibiofilm mechanisms into medical-grade polymers to create next-generation single-use medical consumables with built-in, robust antibiofilm properties. By
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Mechanical, Materials, or Biomedical Engineering, or a related field. Interest in biomaterials, mechanobiology, or modelling. Familiarity with computational tools (Matlab, Python, or finite element analysis
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, and travel related to the project. Overview ReNU+ is a unique and ambitious programme that will train the next-generation of doctoral carbon champions who are renowned for research excellence and
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, and travel related to the project. Overview ReNU+ is a unique and ambitious programme that will train the next-generation of doctoral carbon champions who are renowned for research excellence and
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Location: Mechanical and Aerospace Systems Research Group, Faculty of Engineering, University of Nottingham Funding: UK Home fees + tax-free stipend of £24,000 p.a. for 4 years Applications
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materials and innovative sensor architectures that maintain stable performance under bending, moisture exposure, and mechanical loading. The envisioned platform will contribute to future responsive biomedical
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for an enthusiastic engineer to help us explore the mechanics of bone in patients with brittle bone disease, who is familiar with finite element modelling techniques and scripting. Osteogenesis imperfect (OI), also