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vehicles, data centers, etc.). These devices are mostly power electronic interfaced introducing new types of dynamic phenomena and the need for more detailed models, increasing complexity. In addition
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the genetic, molecular, cellular, and whole systems level. Cross-cutting strengths lie in our world-leading expertise in neuroplasticity, interdisciplinary neuro-immune research, high-throughput sequencing
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software packages. The Person Knowledge, Skills and Experience Expertise in classical molecular mechanics. Knowledge of biomolecular simulation methods. Experience in quantum mechanical calculations
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interatomic-potentials (MLIPs), refined for molten salt mixtures hosting other nuclear material solutes. We will perform density functional theory (DFT) calculations and molecular dynamics (MD) simulations
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analytical and numerical skills, with a well-rounded academic background. •Demonstrated ability to develop precision mechanical devices and mechatronics •Ability to develop kinematic and/or dynamic analysis
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function, but to develop the molecular tools the global research community needs to investigate them. This is fundamental, high-impact bioscience with the potential to unlock new therapeutic strategies
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. Using dynamic covalent chemistry, molecular switches and reversible polymerisation, we’ll explore new ways to tune droplet growth and stability. The goal is to develop design rules for materials with
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their targets are simulated at the atomistic level. The most widely-used tool for this are molecular mechanics force fields, such as those developed by the Open Force Field Initiative [https://doi.org
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molecular techniques (e.g. qPCR, metabarcoding) to characterise pathogen life cycles, host responses and environmental tolerances. Fieldwork will be conducted at selected coastal sites to assess natural
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are expected to provide insights into the fundamental dynamics of molecule-plasmon coupling and contribute to the development of molecular quantum light sources, paving the way for advancements in nanoscale