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Do you have a strong interest in fermentation? Do you have experience in process design and life cycle assessments? Are you keen to develop your career in bioeconomies? Do you want to further your
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for super‑resolution imaging of glycocalyx organisation and for targeted delivery with exceptional cellular selectivity. You will interact and develop research collaborations with our GLYCOCALYX academic and
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hydrological models to improve malaria transmission estimates’ funded by the UKRI Natural Environment Research Council (NERC). The project aims to embed hydrological processes in models of malaria transmission
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online process analytical technology (PAT), embedding sustainability metrics into the optimisation loop, and apply transfer learning to accelerate the transition from batch to continuous flow processes
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stress factors that would ordinarily kill vegetative cells means they are difficult to eradicate. This presents problems in the food sector, for example, since spores can survive processing and then
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of the glycocalyx, and decipher the physical rules that govern such diffusion processes. These rules will enable the rational design of regulators of glycocalyx permeation, to interfere with pathogen-host cell
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of the glycocalyx, and decipher the physical rules that govern such diffusion processes. These rules will enable the rational design of regulators of glycocalyx permeation, to interfere with pathogen-host cell