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platforms, and regulatory guidance Evaluate long-term performance and potential for clinical translation Impact and Outlook: This project addresses a critical unmet need in orthopaedic surgery by developing
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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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Jochen Blumberger at the Condensed Matter and Materials Physics Laboratory, University College London, UK. Interested candidates may want to work on one of the following two projects. Project 1
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. The work will contribute to pandemic preparedness and the development of next-generation antiviral strategies. Training and Student Development: The student will gain multidisciplinary training in
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-penetrating capabilities Evaluate delivery efficiency in cell-based models mimicking lung and immune tissues Identify structure–function relationships to inform rational design of future mucosal delivery
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interest are also welcome. Motivation to learn about nanoparticle formulation, microfluidics, or data analysis is highly valued. Motivation to work in AMR and nanomedicine and to learn how AI can guide
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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
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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