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public-key cryptographic schemes (e.g., RSA and ECC), creating an urgent need for quantum-safe security solutions. This PhD project will investigate the design and evaluation of quantum-safe security
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biology approaches to develop rapid, low-cost, and field-deployable tests for detecting quarantine pests/pathogens. You will evaluate technologies such as CRISPR-based systems, strand displacement reactions
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quarantine pests/pathogens. You will evaluate technologies such as CRISPR-based systems, strand displacement reactions and cell-free biosensors, alongside novel mechanisms for sample processing. These aim
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reservoirs; and (ii) evaluating reservoir performance under a range of operational scenarios while explicitly accounting for uncertainty and variability in key subsurface properties such as porosity
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, and motivated to improve workplace safety in healthcare technologies and to work across research, industry, and medical engineering. Methodology The overall aim of the project is to design and evaluate
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research, industry, and medical engineering. Methodology The overall aim of the project is to design and evaluate processes that integrate formal requirements and formal specification-based automated test
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. Quantifying the impact of parameter uncertainty on system performance typically requires repeated evaluation of computationally expensive numerical models, which may be impractical within project timescales
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biofouling impacts on flow-induced vibration phenomena, structural responses and operational performance of dynamic cables, and to evaluate sustainable antifouling materials, structural design, optimisation
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-culture studies to evaluate mechanotransductive signalling. The resulting data will inform mathematical models linking material mechanics to biological responses, enabling the sustainable design of next
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evaluation will combine policy analysis with interviews across government, utilities, and civil society. Modelling and scenario planning will project future supply conditions and assess nature-based and multi