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one of the UK’s leading tribology research centres, home to over 50 PhD students working in a highly collaborative, dynamic environment. You’ll benefit from working alongside top academics and fellow
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and thermoelectrics made from organic materials. The overall aim of this project is to further develop our recently introduced non-adiabatic molecular dynamics simulation method, termed excitonic state
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enzymes. Mapping bacterial defence systems to infer predictive features of co-evolutionary dynamics. Impact and Outlook This project will: • Advance understanding of microbial co-evolution. • Deliver a
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PhD project is fully funded for UK students and EU students with settled status. The successful candidate will receive a tax free stipend based on the UKVI rate (£20,780 for 2025/26 and tuition fees
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to develop cutting-edge quantitative and applied environmental skills with real-world impact. It is a fully funded NERC CENTA PhD Studentship for 3.5 years with CASE support from BASF. Successful home-fees
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Project Supervisor - Dr James Bull A PhD position is available in laser spectroscopy to probe the excited- and ground-state dynamics of next-generation photomolecular motors (PMMs). The position is
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research for more than a century, and today it is home to the largest concentration of marine researchers in the UK. Come and join our vibrant community of marine PhD students. Project Description Climate
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Project advert This funded PhD studentship is part of Manchester Met’s strategic investment in developing the next generation of thought leaders. It offers an exciting opportunity to join the
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. From a fluid dynamics perspective, the newly formed solids can be regarded as particles suspended within the pore-scale flow. The primary objective of this project is to investigate the transport
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Chemistry, Pharmacology, Pharmacy, Pharmaceutical Science. Mode of study Full-time Start date 1 October 2026 This PhD project is in a competition for a Faculty of Science funded studentship. Funding is