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, there is no consensus on the adsorption mechanisms of these molecules on the metallic surfaces. In this PhD project we will use state-of-art molecular simulation methods [2,3] to clarify the adsorption and
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, making a new model which is suitable for a variety of polymer systems. This will involve integrating molecular dynamics simulations, electronic structure calculations, and machine learning techniques
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of how these devices function. Electron Spin Resonance (ESR) spectroscopy allows us to selectively detect these electron spins and to characterise their molecular environment, gaining a molecular-level
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) techniques and develop advanced cancer models including organoids and patient-derived xenografts from primary human tissue. Current projects include investigating extrachromosomal DNA (ecDNA), copy number and
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, to industrial catalysis and green energy production. The aim of this PhD project is to study hydrogen colliding with surfaces at a fundamental, molecular level to gain unprecedented insight into the role
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modelling of laser shock peening. Molecular Dynamics (MD) and Finite Element (FE) simulations will be combined to account for the complex physical phenomena and their different scales. The interdependence
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into interfacial thermal transport. The goals are to: run ab-initio molecular simulations to sample relevant nanomaterial/liquid interfaces. construct new MLPs by using generated data from 1. and validate them. use
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molecular analyses to reveal how wood pasture systems influence trophic interactions. The student will gain significant expertise in field sampling, species identification and advanced molecular analysis
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. Analysing the biotic community and abiotic factors using a variety of laboratory-based techniques including molecular analyses to reveal the impact of grassland restoration on soil. The student will gain
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samples of invertebrates and utilising molecular analyses to reveal how wood pasture systems influence trophic interactions. The student will gain significant expertise in field sampling, species