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are energy intensive processes that physically break-down oil droplets to a satisfactorily low diameter. Such droplets are stabilised via surface active ingredients including sodium caseinate from dairy
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rate), and a research training support grant of £20,000. Overview The PINZ CDT will train the next generation of process and chemical engineers, and chemists, to develop the new processes, process
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of the physical mechanisms of infection. If we can better characterise and model how infection proceeds in the first instance in snails at a deep quantitative level, particularly the process of selection and
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PhD Studentship: Data-driven Probabilistic Modelling of Clonal Dynamics in Human Tissues and Cancers
. In the last decade, rapid advances in next-generation genome sequencing technologies have re-shaped the way we think about this mutational process. Both cancer and tissues from healthy individuals are
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Embark on a ground-breaking PhD project harnessing the power of Myopic Mean Field Games (MFG) and Multi-Agent Reinforced Learning (MARL) to delve into the dynamic world of evolving cyber-physical
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methods Switchable catalysis for pharma Sustainable additives for construction Smarter Synthesis via process intensification All Projects will all be informed by Life Cycle Assessments (LCA) and will
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are expected to gain) a first-class honours degree or equivalent in a suitable field such as engineering, computer science, physics, or atmospheric science. Funding This studentship is for 3.5 years and will
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9 May 2024 Job Information Organisation/Company Swansea University Department Central Research Field Physics Engineering Researcher Profile First Stage Researcher (R1) Country United Kingdom
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2024 (Enrolment open from mid-September) Aligned programme of study: PhD in Physics or Materials Engineering Project description: Advanced glass technology with added electronic functionality is
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and from several leading European research institutions. Quantum technologies and their applications form the key part of the research programme of the Department of Physics. Dr Alexandre Zagoskin is a