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constraints, facilitating innovative, intensified designs using generative design techniques for scaling up photobioreactors. These intensified designs will be compared to conventional ones using multiphase
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PhD project to develop theoretical computations and modelling methods to guide and optimise the synthesis conditions and composition of electrocatalysts. PhD project to develop theoretical
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. Project description Flow in porous media is a ubiquitous phenomenon and relevant to many engineering processes, ranging from large scale carbon geosequestration and hydrogen subsurface storage to microscale
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computers to large-scale multi-dimensional simulations on high-end supercomputers, depending on your interests and inclinations. "Modelling extreme supernova explosions: From fast and faint to bright and
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in the hard tissues (cartilage, bone, and scales) of fish are increasingly being used to interpret the environment, age animals and answer questions around connectivity and habitat partitioning in
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. Specific projects seeking applications are: Accelerating the discovery of inorganic solar-cell materials via a closed-loop, fully robotic synthesis–characterisation platform driven by multi-agent machine
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self-testing, emphasise groups among whom vaccination scale up initiatives are likely to be impactful, and clarify the effectiveness of neuraminidase inhibitors for reducing transmission of influenza
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or an international student meeting the minimum English language requirements provide evidence of adequate oral and written communication skills demonstrate the ability to work as part of a multi-disciplinary research
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In the PhD program, you will be involved in working with a multi-disciplinary team. You will be conducting experiments and developing phenomenological models to understand the graphite formation
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nutritional characteristics and techno-functional properties for food and non-food applications. Food biopolymers will be altered at both micro- as well as nano-scales, and innovative functions will be created