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Computational modelling of two-dimensional graphene-based materials School of Mathematical and Physical Sciences PhD Research Project Self Funded Dr Natalia Martsinovich Application Deadline
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Department/Location: Department of Engineering, West Cambridge, Cambridgeshire, UK A position exists, for a Research Assistant in Photonics Integration of Graphene and Related Materials. The aim is
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National Graphene Institute (NGI). This work will involve the development graphene liquid cells fabrication methods (within the cleanroom facilities in the NGI), as well as advanced image processing and atom
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major adverse effects1,2. Furthermore, optogenetics methods for powering the neural implants relies on stiff and tethered (e.g. optical fibres) systems. Due to the remarkable qualities of graphene
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functionalisation impact biosensor sensitivity by exploring gold nanoparticle and graphene-based sensors. Biosensors typically involve a bio-receptor (small molecule ligand/antibody/nucleic acid aptamer) attached
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entirely new physics and new applications in this space. 2D materials are the future. Graphene was just the beginning, and the possibilities before us now are endless. Our group aims to identify new
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especially under compressive buckling loads, potentially leading to catastrophic failure. We have developed new generation of multi-scale composites using graphene/nanoparticles reinforcement in glass/carbon
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will receive a tax free stipend based on the UKRI rate (£19,237 for 2024/25). We expect this amount to increase each year. The electrochemical hydrogenation of graphene has been recently shown to induce
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materials like oxides, advanced alloys, graphene, and organic conductors to improve sensitivity, manufacturability, and cost-efficiency. This PhD project offers an exciting opportunity to pioneer
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studying the use of graphene oxide for similar applications. Graphene oxide is large flat sheet that can interact and bind aromatic and hydrophobic molecules (via pi-pi and hydrophobic interactions), Also