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language model (LLM)-based genome design tools with bioprocess engineering to create next-generation therapeutic conjugative plasmids. These engineered plasmids will be optimised for industrial-scale
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(SONATA, EP/V028626/1) and brings together expertise in microfluidics, fluid dynamics, nanoparticle engineering, and dental microbiology. Approach and Methods: Engineer in vitro models of bacterial biofilm
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healthcare settings. Approach and Methods: Synthesize gold nanostars with optimised optical and surface properties for enhanced plasmonic signal amplification Engineer LFA architectures incorporating salt
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, translational insight, and valuable opportunities for career mentoring and networking with industrial and clinical experts. Desirable Prior Experience: Background in an aligned engineering or science discipline
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basic microbiology, immunology, and/or microscopy would be an advantage, but not essential. How to apply This project is offered as part of the Centre for Doctoral Training in Engineering Solutions
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for Doctoral Training in Engineering Solutions for Antimicrobial Resistance. Further details about the CDT and programme can be found at AMR CDT webiste . Applications should be submitted by 12th January 2026.
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will uncover the interfacial solvation structure, validated through comparison between computed and experimental sum-frequency vibrational spectroscopies, as well as the mechanism of chemical