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computational techniques. In particular, we are looking for curious, enthusiastic and hard-working candidates with the following expertise: -- strong understanding of concepts in nonlinear waves and fluid
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opportunity to contribute to the development of next-generation construction materials that are both low-carbon and climate-resilient. The research will focus on designing and testing functional materials
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We invite applications for a fully funded PhD studentship (3.5 years) hosted by the University of Birmingham and conducted in collaboration with Siemens and the UK Met Office. This project is ideal
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Antimicrobial resistance is one of the most serious threats to humans in the 21st century. Understanding antimicrobial resistance mechanisms is pivotal for combating superbugs. Pathogens use many
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processing techniques that take full advantage of these capabilities, in order to translate them into optimal radar performance. The purpose of the PhD is to lay down theoretical and practical foundations
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the environmental and economic impacts of the defined scenarios. 6. Identify an optimal pathway for the development of the circular battery economy, defining the production and recycling technologies needed and a
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at low levels within A. baumannii populations. You will use this to understand how chromosomal changes increase pathogenicity and provide an advantage in hospital settings. You will use a combination
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diseases. These include meningitis, sepsis and pneumonia. The most recent estimates suggest that ~300,000 deaths of children under the age of five occur each year globally. The use of vaccines that target
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the development of a high k Si3N4 that retains its mechanical performance is very desirable and the subject of current research around the world. The highest k value yet achieved in a laboratory is ~170 Wm-1K-1
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1. Project overview Electrochemical sensing plays a central role in next-generation health technologies, enabling real-time monitoring of physiological environments with high sensitivity and low