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-quality journals and leading conferences. The successful candidate will, if possible, develop or adopt numerical simulation models and methods pertinent to icing science and engineering, and develop
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through publication in high-quality journals and leading conferences. The successful candidate will, if possible, develop or adopt numerical simulation models and methods pertinent to icing science and
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work as part of an existing team developing this 2D technology at Cranfield, and as part of a wider international team of membrane scientists collaborating to accelerate this technology to market. Our
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advancing the development and application of socio-technical systems thinking and justice principles to ensure the benefits and disbenefits of hydrogen transition are borne fairly. You will be joining
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contribute to the One Health Environmental Sensing project, which focuses on the development of novel sensors to enhance the understanding of multi-drug resistance and track antimicrobial resistance using a
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(AMR). The successful candidate will join our Advanced Sensors team and contribute to the One Health Environmental Sensing project, which focuses on the development of novel sensors to enhance
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sensor development for wastewater, especially on the single-cell and single molecule detection, utilising state-of-the-art facilities in the Advanced Sensors Laboratory at Cranfield University. Cranfield
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The postholder’s primary responsibility is to conduct cutting-edge research on a new class of biochemical sensor development for wastewater, especially on the single-cell and single molecule detection, utilising