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taken up by 1st October 2024. Applicants must live within a reasonable distance of the University of Leeds whilst in receipt of this scholarship. Lead Supervisor’s full name & email address Dr. Wuhu Feng
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overall porosity increase and volume expansion have only been observed in unconfined cases, where reaction rates are appreciable. This PhD project will work alongside leading teams within the University
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Lead Supervisor’s full name & email address Dr Liuquan Yang - [email protected] Co-supervisor name(s) & email address(s) Dr Frederick Pessu - [email protected] Project summary Materials challenges have always been critical for delivering low-carbon energy towards the UK’s goal to reach...
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Lead Supervisor’s full name & email address Dr Xiaodong Jia - [email protected] Co-supervisor name(s) & email address(s) Professor Shane Xie - [email protected] Dr Mehmet Dogar - [email protected] Project summary When sorting and packing nuclear waste items, the current practice typically...
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Lead Supervisor’s full name & email address Professor Richard Barker - [email protected] Co-supervisor name(s) & email address(s) Professor Harvey Thompson - [email protected] Dr Joshua Owen - [email protected] Dr Timothy Hunter - [email protected] Project summary Geological...
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Lead Supervisor’s full name & email address Professor David Harbottle – [email protected] Co-supervisor name(s) & email address(s) Professor Timothy Hunter – [email protected] Martyn Barnes, Sellafield Ltd. Project summary The UK’s nuclear sector is actively undertaking substantial...
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Lead Supervisor’s full name & email address Professor Timothy Hunter – [email protected] Co-supervisor name(s) & email address(s) Dr David Harbottle – [email protected] Project summary As the UK prepares to invest in new nuclear power plants, industry and research organisations are...
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Lead Supervisor’s full name & email address Dr Tariq Mahmud - [email protected] Co-supervisor name(s) & email address(s) Professor Kevin J Roberts - [email protected] Project summary Nuclear power generation is expected to rise to meet increasing UK and global energy demand, whilst...
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. for Interdisciplinary Physics and the Molecular Chemistry Department, in collaboration with the University of Leeds, to create an in vitro platform to study how cell mimetics adhere to model macromolecular layers as a