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vast range of ambient temperatures in which these systems need to operate without thermal distortion. However, additive manufacturing gives the unique opportunity to tailor the material properties, and
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University, University of Edinburgh and Leonardo. We are pleased to invite applications for a PhD studentship to work as part of a leading team of experts. This studentship will be supported by an enhanced
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their fundamental constituents, such as lipids and proteins, evolve at the nano-scale. Continuum modelling approaches have been able to improve the understanding of the behaviour of biological materials, showing
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Deadline: 19th April 2024 (or until position is filled) One fully funded PhD position to work with Dr Milos Nikolic in the School of Informatics at the University of Edinburgh, on a project titled
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Deadline: 31st March 2024 (or until position is filled) One fully funded PhD position to work with Dr Milos Nikolic in the School of Informatics at the University of Edinburgh, on a project titled
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PhD Studentship: Molecular Simulations and Data-driven Modelling for Polymer Nanocomposite Membranes
applications. However, optimizing MMMs for efficient gas separation remains a challenge, due to the many factors that influence the membrane performance, such as size, shape, surface chemistry, and loading
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of Chemistry. There will also be secondments with experienced MolCal partners at: CSIC in Zaragoza (Spain; M. Evangelisti) for participating in caloric experiments, The University of Edinburgh (United Kingdom; E
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, cavitation is a major problem in engineering, as high-speed jets can develop during their collapse upon contact with solids, which are responsible for pitting wear, and even full structural failure
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PhD Studentship - Physics-based Mathematical Modelling of Water Electrolyzer for Hydrogen Production
generation, as seen from accelerated material and performance degradation. In addition to the efficient operation under dynamic loading, an improved understanding of performance, cost and durability trade-offs
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working in various aspects of surfaces and wetting. This project will also be supervised by Prof Glen McHale. Further Information: The University of Edinburgh is committed to equality of opportunity for all