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and automated floor-plan recognition, to fill data gaps and harmonise information from disparate sources. Learn more and watch our project video here: https://sb.chalmers.se/digital-material-inventories
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photodetectors, including thin-film processing and structure–property optimization. In close collaboration with device researchers, you will iteratively improve OPD performance and stability by linking material
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IV is a world-leading synchrotron facility, providing researchers with cutting-edge tools to advance knowledge across materials science, life science, chemistry and physics. Join us for a unique chance
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heat transfer, fluid mechanics, reactive flows, as well as solid mechanics plays a central role. In particular, improved understanding of turbulent, reactive, and multiphase flows together with material
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and stability by linking material structure and morphology to key device metrics. Supervise master’s and/or PhD students to a certain extent Possibility to engage in teaching at undergraduate/master’s
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every year. Unlike traditional pulping, which often breaks down or burns lignin as waste, RCF integrates solvolysis and catalytic hydrogenation to selectively extract lignin while preserving its natural
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threatened species, and support biological diversity and ecosystem services. Active dissemination, outreach and frequent contacts with stakeholders are key activities. We build on extensive national and
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and their influence on materials. In a new project in cooperation with a consortium of ten different industrial companies, we are seeking a Post doc for a position at University West. The scientific
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) exhibit a unique operational mode in that a p-n junction doping structure forms in situ during the initial device operation. The selected post-doc will collaborate with a larger team, with the shared goal
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their structure and properties. Develop and optimize aqueous electrolyte systems, evaluating their electrochemical window, ionic transport properties, long-term stability, and interactions with electrode materials