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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
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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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, 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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Develop an active learning-driven platform for compound selection and optimisation Integrate robotic sample preparation, automated data acquisition, and computational analysis Advance five existing
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conference presentation. Research Environment: The project is jointly hosted by UCL Chemistry and the Institute of Structural and Molecular Biology (ISMB), in collaboration with Birkbeck. The student will
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(Chemistry) and Michalska (Mechanical Engineering) groups lead research at the interface of chemistry, materials science, and engineering. The student will join a vibrant, collaborative ecosystem tackling AMR
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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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flow characterisation Nanoparticle synthesis and drug delivery systems Cell culturing and in vitro biofilm modelling Collaborative research across engineering, chemistry, dentistry, and microbiology
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PhD Studentship: Nanopore Technology for Rapid and Accurate Measurement of Antibiotic Concentrations
engineering. Desirable Prior Experience: Background in chemistry, molecular biology, biophysics, physics, bioengineering, or related disciplines Experience with biosensing or single-molecule techniques is