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, mechanical or chemical stability. The complex polymer formulations, multi-material components, and diverse use-case scenarios for such plastics create barriers that must be understood at the end of the product
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this fundamental challenge, the PhD candidate will be part of a wider team to establish methodological framework, combing utilisation of controlled tree growth test, thermodynamic modelling and advanced optical
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activated enzymes for selective chemical transformations. The first part of the project will involve preparing and characterising a set of photoresponsive proteins. These proteins will then be screened for a
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, through specific experimental arrangements during the PhD project. This PhD is fully funded by the University of Manchester as part of their commitment to support a recently successful BBSRC-Arxada award
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Gamesa Renewable Energy R&D team and also undertake an industry placement as part of the PhD programme. To apply, please contact the main supervisor, Dr Chen - lujia.chen@manchester.ac.uk . Please include
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partnership with the Royce Institute and Cummins, you will study the microstructure of nickel-based alloys used in turbine wheels — vital components for hydrogen-ready engines and future power technologies
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the main supervisor, Dr Bissett - mark.bissett@manchester.ac.uk , to discuss this. Project Overview Carbon nanotubes (CNTs) are critical components in advanced technologies, particularly as conductive