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engineering, and nanofabrication techniques. Test materials against clinically relevant pathogens such as Pseudomonas aeruginosa and Staphylococcus aureus. Impact and Outlook: This project will deliver a new
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guidelines for the design of improved organic materials. Interested candidates may want to take a look at our recent work: https://www.nature.com/articles/s41467-022-30308-5 & https://www.science.org/doi
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, please send the following materials to Gemma Ludbrook (g.ludbrook@ucl.ac.uk ): Your CV (max 2 pages), Transcripts from your previous qualifications, A letter of support from (this would ideally be from
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chemistry and nanoscale structure, these coatings will offer long-term, biocompatible protection against infection. The project will involve materials design, fabrication, characterisation, and biological
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pharmaceutical R&D Application of AI in process development and materials discovery Antimicrobial testing and biological evaluation Workflow integration and data management for self-driven laboratories Project
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efficacy Collaborate with dental and material science experts to optimise drug formulations and validate the system in clinically relevant models. Impact and Outlook: This project will deliver a novel, non
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rather than the structured biofilms found in real-world environments. This project investigates how engineered surface topographies influence HGT dynamics, aiming to develop design principles for materials
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publishing, conference participation, and career planning. Desirable Prior Experience: Background in chemistry, pharmaceutical sciences, biomedical engineering, or materials science Experience with