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Field
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performance of advanced electrode materials in bioelectronics, supercapacitors, and other energy storage technologies. Optimise the 4D-printed structures for long-term stability and high-power density in
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, prospective project developers are faced with technological risks concerning safety such as gas cross over within stacks, and performance such as efficiency decrease due to degradation, and inability to operate
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called glueballs and the temperature effects of confinement. The project will be based on performing computational simulations and theoretical calculations of QCD. It will involve applying quantum field
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greater energy intake on days when snacking occurs, positive energy balance and body weight gain (1,2). Snack foods are also typically high in energy density, high in fat, salt and sugar, and low in
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, and employ high-throughput computational screening and materials informatics, to identify promising candidate materials. Aim You will work with Dr Sanliang Ling and Prof Alasdair Cairns. You will have
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. Experimental studies will be performed in wind tunnels with advanced measurement techniques with high spatial and temporal resolutions. Realistic car models (DrivAer models) will be considered in this study and
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of diverse industrial processes. While mono-material felts offer simplified recyclability, blended fibre felts remain essential for applications requiring enhanced performance, such as high
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computational recourses for limited duration yet highly accurate particle-in-cell (PIC) modelling. Kingston University has developed a simulation model, dubbed PERSEUS, that narrows the gap between these two
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failure due to high-cycle fatigue, reducing the efficiency and safety of the gas-turbine engines. The development of robust damper devices that reduce the vibration levels is of paramount importance
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of such interventions on the brain and behaviour remain poorly understood. This PhD project will explore the neurophysiological and behavioural impact of GABA-enhancing, non-alcoholic interventions. Using high-density