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Field
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implement a combination of metagenomic sequencing techniques to comprehensively characterise baseline levels of microbial pathogens in wastewater and surface water and compare our findings with data
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limitations in nanoscale layered materials characterisation. This interdisciplinary approach will allow you to probe both local atomic environments and long-range structural features, such as stacking sequences
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efficiency and functionality. The process must be carried out with precise alignment between layers and at physical scale and process robustness relevant to industrial manufacture. The project aims
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, overcoming the tough fungal cell wall. You’ll also design robust workflows for targeted long-read sequencing of clinical and environmental samples, enabling accurate identification and resistance genotyping
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for antibiotic prescription. Novel, rapid, point-of-care, precise and easily interpreted diagnostic tools are required to tackle this challenge. Direct sequencing of nucleic acids from patient samples can be rapid
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for integrating human-centric generative algorithms with absolute sustainability metrics into existing CAD/CAE/CAM systems. Provide policy recommendations for aligning industrial design standards with planetary
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detailing academic qualifications, research experience, and relevant technical skills A cover letter explaining your motivation for applying, relevant experience, and how your skills align with the project
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for antibiotic prescription. Novel, rapid, point-of-care, precise and easily interpreted diagnostic tools are required to tackle this challenge. Direct sequencing of nucleic acids from patient samples can be rapid
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the drivers behind this public health issue have not been identified. In this project, we will use a dataset of C. difficile genome sequences to generate a nationwide population snapshot of
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that are closely aligned with the DSTL specified application, characterize the existing untested samples, and manufacture the most promising designs.