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will have a key focus on exploiting and developing chemistry to obtain materials at the hundreds of gram scale. because it will allow transfer of these new biomaterials into formulation processing
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performance. However, calculating defect formation energies and migration barriers using first-principles methods remains a major bottleneck in the materials discovery process. To address this, we will develop
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Research theme: Catalysis and porous materials This 3.5-year PhD is fully funded by The University of Manchester. Tuition fees will be paid and you will receive an annual tax free stipend set at
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alongside numerical simulations relying on high-performance computing and reduced order modelling. We aim to gain new insights about the physical coherent structures which are most relevant to viscoelastic
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are gaining increased attention, with recent or emerging policy drivers adding extra emphasis on sustainable management of waste plastics. Chemical recycling of plastics, via pyrolysis, to value-added products
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according to how well they meet the following criteria: A first class or strong upper second-class undergraduate degree with honours in Engineering, Physics or Materials Science Excellent English written and
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Supervisory Team: Prof Neil Sandham PhD Supervisor: Neil Sandham Project description: This project is focused on scale-resolving simulations (large-eddy and direct numerical simulation) combined
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treatment, material and energy flow analysis, integrated data modelling, systems dynamics modelling, circular economy, sustainability assessment performance, decision-support tool design Month when Interviews
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A funded 4-year UK EngD / PhD studentship is available in the group of Prof Sandy Knowles within the School of Metallurgy and Materials at the University of Birmingham, with a tax-free stipend of
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. Hydrogen embrittlement poses a significant threat to the reliability of structural materials in critical industries such as aerospace, nuclear, and hydrogen energy infrastructure. The student will develop a