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platforms. You will have a key role in developing automated methodologies for polymer chemistry and will work closely with roboticists and engineers in the Cooper group and other collaborators. The aim is to
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Organisation Cranfield University School/Department Cranfield Defence and Security Based at Shrivenham, Oxfordshire - Cranfield Defence and Security Hours of work 37 hours per week, normally worked
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of the cell wall on the kinetics of ice growth. This is a unique opportunity to work at boundaries between physical chemistry and biology, in a research group with a very prominent profile in the ice community
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in the UK. We pride ourselves on delivering high-quality teaching and diverse, real-world research. We specialise in biosciences, chemistry, computing and technology, as well as engineering, forensic
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biomarkers. We have a vibrant and rapidly expanding programme of PET research with over 25 different radiotracers in our current portfolio. You will have the opportunity to work on academic and industry
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that you meet the following criteria: Applicants must have a degree in Pharmacy, Chemistry, Chemical Engineering, Mechanical Engineering or a closely related discipline (Minimum standard 2.1) Have, or about
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that you meet the following criteria: Applicants must have a degree in Pharmacy, Chemistry, Chemical Engineering, Mechanical Engineering or a closely related discipline (Minimum standard 2.1) Have, or about
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, chemistry, computing and technology, as well as engineering, forensic science, mathematics, physics and sport science. This mix of traditional and modern subjects encourages and inspires future innovators
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for reaction optimisation and mapping of the design space. You will work alongside other members of the team to add these capabilities to a multisite reactor network and apply this technology towards
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optical fibre technology to work on the UK’s Engineering and Physical Sciences Research Council (EPSRC) funded Programme Grant, HiPPo (Smart Fibre optic High-power Photonics), and will involve collaboration