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by UKRI under the Frontier Research Guarantee scheme. The project aims at developing single-molecule optoelectronic devices, leveraging the opportunities given by synthetic chemistry into the wider
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You will join the group of Professor Alessandro Troisi based in the Materials Innovation Factory to work on a project supported by a recent ERC Advanced Grant on the Theory of Materials for Organic
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computational chemistry, with a particular emphasis on organic or hybrid porous materials. The position is available immediately and is fixed term until 31 March 2025. Any applicants who are still awaiting their
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Department of Food & Nutritional Sciences, University of Reading | United Kingdom | about 2 months ago
properties.Researcher profile: Doctoral candidate.Research field: Food Microbiology, Molecular Microbiology, Analytical Chemistry, Biotechnology, Biochemistry, Bioinformatics.Type of contract: Temporary.Job status: Full
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and students; planning and organising research resources and workshops. Successful applicants will have or be near to completing a PhD in computer science, information engineering, statistics, chemistry
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subject, such as chemistry, physics or materials science A Ph.D. in the field of computational chemistry or materials science or a related discipline is essential for appointment at associate level
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from ambitious researchers with the skills in solution and understanding of the structures of new materials across chemistry, physics and materials science. This position forms part of
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. This network involves 19 organisations across 12 countries and will train 14 Doctoral Researchers (DRs). The interdisciplinary network combines physics, chemistry, biology and engineering to train a new
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organisms (corals, foraminifera, coccolithophores) grown under controlled conditions in laboratory and field settings. The experimental conditions will be designed to examine the pathways of ion transport and
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organisms (corals, foraminifera, coccolithophores) grown under controlled conditions in laboratory and field settings. The experimental conditions will be designed to examine the pathways of ion transport and