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challenge in modern medicine: many promising drugs lack effective delivery systems. Hence, this project not only allows the student to make a real-world impact, but also provides, through our strong network
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PhD Studentship: Nanopore Technology for Rapid and Accurate Measurement of Antibiotic Concentrations
their use in field or point-of-care settings. This project aims to develop portable, nanopore-based sensors for the rapid and accurate quantification of antibiotic concentrations in environmental and clinical
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principles molecular dynamics simulations. You will contribute to the development of novel work flows as well as to the training, testing and application of latest neural network methodologies. Applications
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within a highly collaborative setting, benefiting from access to the UCL Automation Network and cutting-edge facilities for structural and biophysical analysis. The project is well-positioned to deliver
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labs The project offers access to GPU-enabled HPC clusters, high-end workstations, and a collaborative, interdisciplinary environment. The student will develop a versatile skill set applicable to careers
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techniques. The findings will lay the groundwork for clinical application and contribute to the development of targeted therapies for resistant bacterial infections. Approach and Methods Atomic force
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Supervisors: Dr Julia Rho – Rho Group Website Dr Pratik Gurnani Abstract: Vaccines are a cornerstone of infectious disease prevention and a key strategy in reducing antimicrobial resistance (AMR). While mRNA vaccines have demonstrated rapid development and high efficacy, current formulations...
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Supervisors: Prof Stavroula Balabani Prof Panagiota Angeli Abstract: Oral biofilms are a major cause of dental and periodontal diseases, including endodontic infections and dental caries the most prevalent noncommunicable disease globally. The confined and complex architecture of the oral...
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/population genetics (van Dorp Lab) • Environmental microbiology, phage biology and metagenomics (Santini Lab) Both labs promote open research culture and have a strong track record of PhD supervision
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disinfectants. With antimicrobial resistance (AMR) on the rise, there is an urgent need for non-antibiotic strategies to prevent and control biofilm formation on medical devices. This PhD project proposes a novel