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explore how salt distribution, structure formation, water management, and flavour release interact during processing, cooking, and consumption. Using advanced characterisation tools alongside sensory and
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, material properties and formulation behaviour, the project will explore how implant structure can be designed to regulate drug transport and provide sustained therapeutic release. The overall aim is to
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master’s degree in economics, business, or any social science with the following: • Subject knowledge (economics, data science, agriculture, environmental science, or social science, structural equation
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variety of issues - including bandwidth, size and weight - which preclude their use across many technologically significant applications, such as small/compact, lightweight structures, and complex-shaped
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the most comprehensive overview of SMARTs to date and highlights several important common problems. First, sample size calculations rarely reflect the multistage structure and the intended treatment‑sequence
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jointly learn from images and text, most current systems are still limited in three important ways: they primarily rely on statistical pattern recognition rather than structured clinical reasoning
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the menopausal microbiome using innovative experimental models, supported by structured training in preclinical models, batch fermentation, human colon models, LC–MS–based metabolomics, and next-generation
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with Graphs led by Prof. Nils M. Kriege. Our research focuses on the development of new methods and learning algorithms for structured data. Graphs and networks are ubiquitous in various domains from
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have partnered with AWE to fund a 4-year Computational Project to use state-of-the-art Computational Chemistry techniques to understand structure-property relationships in oxide scintillators. We will
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: Designing and developing CAD models of test coupons and other structures Fabrication of ‘green’ test structures and sintering these across a range of conditions Characterising the mechanical properties