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are gold for medical diagnostics and cancer treatment; iridium and platinum for clean energy (hydrogen); and silicon for photonics and solar. They will be characterised by state of the art methods including
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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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strong interest in analytical chemistry and method development in the field of microplastics research. The work includes goal-oriented analysis of samples, data evaluation, conducting literature searches
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understanding of macromolecules. Independent preparative organic and macromolecular syntheses as well as solving interdisciplinary problems are a matter of course for you. We offer state-of-the-art technical
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of state-of-the-art Computational Chemistry techniques, and you will extend the boundaries of computational materials design through the combination of cutting edge electronic structure simulation techniques
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-of-the-art recycling, manufacturing and testing instruments, guaranteeing a comprehensive, hands-on research experience. You will be co-supervised by academic expert from Umeå University and industry
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containing a extensive literature review, a set of research objectives and research plan within the first six months of joining. This research proposal will need to be approved by the GUGC Campus Council in
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will be used to develop detailed atmospheric degradation mechanisms. At the same time, isotopic composition will be studied using a state-of-the-art orbitrap technique, which will be used for isotopic
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well defined stoichiometries of APMNs, in particular gold nanoclusters, our Warsaw group will apply state-of-the-art photophysical and electrochemical methods to study the nature of the states involved
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an advantage. The ability to carry out literature searches autonomously and to keep up to date with the pertinent literature is compulsory. The recruited student must be able to work in relative autonomy, and