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Supervisors: Prof Manish Tiwari Prof Shervanthi Homer-Vanniasinkam Clinical Partner: The Royal National Orthopaedic Hospital (RNOH) Collaborator: Dr. Priya Mandal – UCL Mechanical Engineering
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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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annually, with life-threatening consequences for immunocompromised individuals. With few antifungal drugs available and resistance on the rise, this project explores a novel strategy: engineering the fungal
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Eastman Dental Institute. Research Environment: The student will join a vibrant, multidisciplinary research community within UCL’s Mechanical and Chemical Engineering departments. The project is supported
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or higher degree (or international equivalent) in: Mechanical Engineering, Aeronautics, Aerospace Engineering, Materials or Physics We would also like to see experience in: Mechanical experimentation, FEA
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the synergistic effects of monoclonal antibodies and colistin. Building on extensive preliminary data, the project aims to uncover the mechanisms behind this synergy using advanced biophysical and molecular
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, candidates will be expected to achieve/have achieved aFirst class honours MEng/MSci or higher degree (or international equivalent) in: Engineering (Aeronautics or Mechanical Engineering). A strong background
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mycobacterial infections. The student will characterise their mechanisms of action using cross-linking mass spectrometry and assess their effects on mycobacterial membrane integrity and cell wall metabolism
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architected materials or metamaterials (MTM) that can undergo targeted non-linear response. You will develop a computational framework that can reveal novel Multiphysics (thermo-mechanical) MTM solutions
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at scale raises privacy and real hardware constraint concerns. This PhD will focus on those challenges by developing a distributed, privacy-preserving NILM framework, so we can move from small research