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. The studentship is available from September 2025 for 3.5 years. The project will be in the area of transition metal catalysis and its applications to organic synthesis, particularly on C-H bond activation and their
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PhD Studentship: Optimisation of Liquid Metal Filtration and Cleanliness in Nickel Based Superalloys
exceptional reliability and durability, attributes realised through both material integrity and manufacturing process capability. Birmingham has long-standing research excellence in liquid metal cleanliness and
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greener synthetic methodologies for high-value chemical products by combining electrochemistry and earth-abundant metal catalysis. Our aim is to reduce the number of synthetic steps, minimise reliance
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(£19,237 for 2024/25). A Leverhulme Trust-sponsored PhD studentship is available for an outstanding and ambitious scientist to undertake research in the field of physical f-element chemistry. As part of a
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project will combine advanced materials testing and finite element modelling to explore hydrogen-material interactions, particularly in ferritic and austenitic steels. You’ll investigate how these materials
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either liquid metal embrittlement (LME) or solid metal-induced embrittlement (SMIE). The aim of this project is to establish the potential for either LME (during welding) or SMIE (during service) in common
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Co-supervisor’s full name & email address Dr Sean Collins: S.M.Collins@leeds.ac.uk Dr Christopher Pask: C.M.Pask@leeds.ac.uk Project summary Metal-organic frameworks (MOFs) are a class of porous
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Co-supervisor’s full name & email address Professor Richard Bourne: r.a.bourne@leeds.ac.uk Project summary Metal-organic frameworks (MOFs) have attracted extensive interest from academia and industry
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cyclic loading, varied surface conditions, and exposure to gaseous impurities, and advanced numerical modelling (Finite Element Analysis), this project aims to significantly enhance our understanding
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of the pharmaceutical industry. We are recruiting a motivated PhD student to develop automated flow technologies to enable the next generation of metal oxide catalysts for synthesis of products within the pharmaceutical