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propagate through bacterial communities while deactivating AMR genes. However, current designs are limited by scalability and complexity. This project aims to overcome these limitations by integrating large
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management and coordination within a multidisciplinary environment Scientific writing and effective communication within a multidisciplinary environment Networking, career development, and professional self
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-of-the-art analytical and fabrication facilities at UCL Chemistry and the Royal Institution. Both supervisors are active in national and international scientific communities, providing excellent networking and
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principles molecular dynamics simulations. You will contribute to the development of novel work flows as well as to the training, testing and application of latest neural network methodologies. Applications
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within a highly collaborative setting, benefiting from access to the UCL Automation Network and cutting-edge facilities for structural and biophysical analysis. The project is well-positioned to deliver
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combining micro/nanopatterned surfaces with immobilised enzymes that degrade biofilms and disrupt microbial communication, the project aims to overcome the limitations of each individual strategy and deliver
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cultivation and molecular cloning Quantitative data analysis and process optimisation Synthetic and molecular biology techniques Research design, interdisciplinary collaboration, and scientific communication
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reasoning and interdisciplinary communication Research Environment The project will be hosted in two collaborative, interdisciplinary labs with expertise in: Evolutionary microbial genomics and phylogenetics
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Eastman Dental Institute. Research Environment: The student will join a vibrant, multidisciplinary research community within UCL’s Mechanical and Chemical Engineering departments. The project is supported