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Field
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applications within the chemical industry. Candidates should possess a BSc (at least a 2.1 honours degree) or an MSc in Chemistry. A strong competence in computational chemistry is essential, along with a
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In this project, novel laboratory-scale continuous “flow chemistry” reactors will be designed and 3d-printed, and applied to a variety of real reactions from industry, currently performed in batch
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participate in the dissemination of findings through publications and conferences. Qualifications: Completed or nearing completion of a Master's degree in Medicinal Chemistry, Chemical Engineering, or a related
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participate in the dissemination of findings through publications and conferences. Qualifications: Completed or nearing completion of a Master's degree in Medicinal Chemistry, Chemical Engineering, or a related
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(electrochemistry) alongside a current team of experts across chemistry disciplines including Dr Thomas Britten (organic chemistry), Dr. Andrew Lewis (chemical biology) and Dr. Ian Ingram (green chemistry). Project
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not essential, as training will be provided): Either an excellent undergraduate degree or an MSc/MRes in Chemistry. Experience in materials synthesis, computational modelling and/or electrochemistry
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will be provided): Either an excellent undergraduate degree or an MSc/MRes in Chemistry. Experience in materials synthesis, computational modelling and/or electrochemistry. Familiarity with analytical
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-supervised by Dr John Low in the Energy Innovation Centre in the Warwick Manufacturing Group (WMG), and Prof. Richard Walton in the Department of Chemistry (Materials and Analytical Science) in collaboration
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engineering, advanced characterisations, and computational studies to understand reaction mechanisms for NH3 and NOx conversion. You will have opportunities to collaborate with scientists at the UK and
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to be limited by the chemical functionalisation used within the biosensor and the sensitivity of the detection system. This project aims to enhance understanding of how surface chemistry, valency, and