280 structures-"https:" "https:" "https:" "https:" "https:" "https:" "https:" "https:" "UCL" PhD scholarships in United Kingdom
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Field
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potentials and automated reaction discovery, we will reveal how nanoparticle composition, geometry and electronic structure govern electrochemical reaction rates, helping design efficient, low-cost materials
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research methodology and present research findings in a structured way Ability to work independently and as part of a team Flexibility, willingness to learn and travel Excellent command of written and spoken
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and characterisation techniques with state-of-the-art facilities (NMR, X-ray, possibly EPR, HRMS, IR, UV/Vis etc.), structural elucidation, and mechanistic studies. We are looking for an enthusiastic
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computational project where you will use a variety of methodologies to produce hierarchal 3D lattice structures, e.g. first principles calculations (density functional perturbation theory), molecular dynamics
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opportunity to develop autonomous microswimmers, which are bioinspired structures at the micrometre scale that can propel themselves through fluids, mimicking natural swimming organisms such as bacteria forms
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-wzn23), this project will combine advanced synthetic strategies with reactivity studies, detailed physical characterization and computational studies to elucidate electronic structures. Together
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structured datasets. These will support AI applications in paediatric care, enabling early detection of conditions and personalised treatment planning. A human-in-the-loop (HITL) approach will ensure clinical
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gets distorted and scattered by the structures present in the sample and as a result a nice quality focus and hence a nice image cannot be produced at depth into the sample. At Nottingham we have been
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, or computational methods is desirable but not essential. Candidates from non–human factors backgrounds will receive structured training in human factors and experimental methods, while candidates from engineering or
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components are designed and produced. This PhD project focuses on Molten Metal Jetting (MMJ), an emerging metal 3D printing technology that enables the precise fabrication of multi-material metallic structures