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4-year Computational Project to use state-of-the-art Computational Chemistry techniques to understand structure-property relationships in thermal batteries, and to derive new understanding to guide
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developing Generation IV nuclear reactors. With the complication of Salts chemistry and the extreme conditions to operate, the material degradation behaviour when the components are subject to mechanical
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AHRC Collaborative Doctoral Partnership Applications are invited for a PhD studentship, to be undertaken at Cranfield University (CU, Defence Chemistry Department) and the National Archives (TNA
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chemistry/biochemistry or closely related subjects, who is passionate about working at the interface of chemistry, biology and medicine, and have interest in therapeutics discovery. Opportunities to visit
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a collaborative network of experts in the field. In this 3.5-year Computational Project you will build a strong foundation in the use of state-of-the-art Computational Chemistry techniques, and you
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Bachelor’s Degree in an appropriate field will also be considered. Subject Area Analytical Chemistry, Physical Chemistry, Machine Learning, Mechanical Engineering, Chemical Engineering, Materials Science
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Degree in an appropriate field will also be considered. Subject Area Applied Chemistry, Physical Chemistry, Fluid Mechanics, Mechanical Engineering, Chemical Engineering
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considered. Subject Area Environmental Chemistry, Industrial Chemistry, Chemical Engineering
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with a First Class Bachelor’s Degree in an appropriate field will also be considered. Subject Area Applied Chemistry, Industrial Chemistry, Atomic Engineering, Chemical Engineering, Energy Technologies
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multiple traditional disciplines including chemistry, physics, materials science, and computer science and will provide the successful candidate with the opportunity to broaden their scientific knowledge and