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attitude toward high-quality research to work as a full-time Doctoral Researcher or Postdoctoral Researcher in Computational Structural/Solid Mechanics. The candidate's research activities will focus
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. The successful applicant will investigate the structure, dynamics, and motility of the bacterial Type IV pilus (T4P) machinery in the model organism Thermus thermophilus using theoretical modelling, simulation
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new bespoke and tailored for Additive Manufacturing (AM) aluminium alloys. This project adopts a three-fold strategy: creating hierarchically structured aluminium-based alloys with fine-tuned
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, collaborative environment at our Newcastle city‑centre campus. About you To succeed, you will bring: PhD (or thesis submitted) in Mechanical/Materials/Electrical Engineering, Physics or related field
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The Royal Veterinary College, University of London; | Potters Bar, England | United Kingdom | 20 days ago
Interview Date: Friday 26 September 2025 We are looking for a skilled and motivated Post Doctoral Research Associate to join the Structure and Motion Laboratory, a multi-disciplinary research group
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Structure and Motion Laboratory, a multi-disciplinary research group investigating different aspects of animal structure and movement. The post holder will join Professor Richard Bomphrey’s research group
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Manufacturing (AM) aluminium alloys. This project adopts a three-fold strategy: creating hierarchically structured aluminium-based alloys with fine-tuned compositions, testing their performance upon AM, and
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to pioneering research at the forefront of structural chromosome biology. You will investigate the molecular mechanisms of SMC complexes using cryo-EM, with the aim of directly visualising their activities. You
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, where the successful candidate will have access to a large range of equipment including state-of-the art microscopes, bio- and nanofabrication equipment, mechanical and structural characterisation and
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. This Collaborative Award is investigating the evolutionary mechanisms of resistance to ciprofloxacin during treatment for chronic lung infections caused by Pseudomonas aeruginosa. The overarching goal of the project