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sapphire elements. You’ll have a solid grounding in physical sciences with an eagerness to understand and solve key challenges. In this project you'll have access to: state-of-the-art facilities: access
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, and catalytic processes. The project will use molecular dynamics simulations to understand molecular mechanisms of metal-based antimicrobial systems and biomolecular interactions, supporting the design
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into laboratory work to develop RPLD methods to create these novel optically active sapphire elements. You’ll have a solid grounding in physical sciences with an eagerness to understand and solve key challenges. In
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systems, biomolecular interfaces, and catalytic processes. The project will use molecular dynamics simulations to understand molecular mechanisms of metal-based antimicrobial systems and biomolecular
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methods. It may also include quantitative data analysis. The post-holder will take a role in all stages of this process, from conceptualisation to data collection and analysis, as well as writing up and
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, molecular modelling platforms, and glycan conformational analysis frameworks (e.g. GlycoShape) to investigate the structural dynamics of IgG glycans and their interactions with glycosyltransferases. Working
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practice (e.g., Python/MATLAB/C++ and/or established modelling platforms). Familiarity with asymptotic and multiscale mathematical analysis methods to ground proof numerical simulations Strong communication
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assessment and root evaluation. Undertake rhizosphere-related measurements including root exudates and the collection and analysis of the root microbiome Set up pollination trials, including recording bee
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, including root phenotyping/architecture assessment and root evaluation. Undertake rhizosphere-related measurements including root exudates and the collection and analysis of the root microbiome Set up
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in aeroacoustics, with a strong emphasis on data analysis and a deep understanding of aeroacoustics fundamentals. Demonstrate excellent communication skills, both written and verbal, as evidenced by