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to apply your skills in flow chemistry to the development and automated optimisation of new multistep syntheses? We are seeking a Research Fellow in Digital Flow Chemistry to develop automated reactor
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you? Do you want to develop your networks both in one of the UK’s leading research-intensive institutions and with industrial partners? You will join our team from the Schools of Chemistry, and Chemical
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? Are you looking to apply your skills in flow chemistry to the development and automated optimisation of new multistep syntheses? We are seeking a Research Fellow in Digital Flow Chemistry to develop
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of people, motivate you? Do you want to develop your networks both in one of the UK’s leading research-intensive institutions and with industrial partners? You will join our team from the Schools of Chemistry
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addition to pursuing the goals of the research project, the successful candidate will be given support and freedom to develop their own research ideas. Hence, this position may be particularly attractive to those
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of the research project, the successful candidate will be given support and freedom to develop their own research ideas. Hence, this position may be particularly attractive to those looking to develop
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freedom to develop their own research ideas. Hence, this position may be particularly attractive to those looking to develop their research independence and leadership skills in a supportive and team
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to develop a detailed understanding of the optical and photocatalytic properties of these novel ALD thin film sulphide perovskite materials which will guide the design of innovative photocatalytic
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. The project, which has been awarded £5.5m by the BBSRC, involves a multidisciplinary team in Oxford, Liverpool and Cambridge and is led by Professor Justin Benesch. The team you will be part of aims to develop
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single biomolecules in solution and to measure their mass, with high accuracy, precision, resolution, sensitivity and dynamic range. This project is part of a wider programme of work to develop and