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The student will work across UCL Mechanical Engineering and RNOH, benefiting from a collaborative environment and access to state-of-the-art facilities. Research Environment: The project is hosted in
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, and biotechnology. Research Environment: The project is a collaboration between UCL Chemistry, Pharmacy, and Chemical Engineering departments. Students will work across multiple labs, benefiting from a
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targeting AMR gene suppression AI-driven genome design: Use LLM tools (e.g. PlasmidGPT, Evo2) to refactor plasmid genomes for enhanced manufacturability, safety, and performance Microbial validation: Test
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PhD Studentship: Nanopore Technology for Rapid and Accurate Measurement of Antibiotic Concentrations
analysis of nanopore signals Microfabrication and device integration Collaborative research in biophysics, biotechnology, and molecular diagnostics The student will work across the Bell and Husain labs
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courses and conferences. Research Environment: The Werner and Waudby labs at UCL provide complementary expertise in viral molecular biology, structural biology, and NMR spectroscopy. The student will work
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statement (500 words maximum) outlining (i) your research experience, (ii) which project you would like to work on (Project 1 or 2) and your suitability for the project, (iii) what you hope to achieve in your
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-gradient-driven diffusiophoretic focusing for power-free analyte concentration Integrate nanomaterials and microfluidic components into scalable, user-friendly LFA prototypes Validate device performance