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electronic characteristics. The project’s goal is to develop fundamental understanding and innovative fabrication processes to solve urgent problems in organic electronic devices, and to enable new components
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of which you are part. Your work may also include teaching or other departmental duties, up to a maximum of 20 per cent of full-time. Your qualifications You have graduated at Master’s level in biology or
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percent of a full-time post (Chapter 5, Section 2 of the Higher Education Ordinance (HEO)). As part of the PhD training, the research project will involve the development and validation of molecular models
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Centre for Electron Microscopy (UCEM, https://www.umu.se/en/research/infrastructure/umea-centre-for-electron-microscopy-ucem/ ), offering access and support for EM experiments. The facility is part of
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, https://www.umu.se/en/research/infrastructure/umea-centre-for-electron-microscopy-ucem/ ), offering access and support for EM experiments. The facility is part of the national infrastructure network
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electronic devices, and enable new components with sustainable functionalities. Collaboration with industry partners will enhance the translation of research into real-world applications. The 17 Doctoral
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the organization of DNA and its relation to the dynamic 3D-structured chromosomes. The student will form a part of our new NEST initiative funded by the Wallenberg AI, Autonomous Systems and Software Program (WASP
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(time-lag) obstacles currently prevent the success of unassisted establishment. The PhD project is part of a larger research program called ANAFOR. ANAFOR is a multi-disciplinary cooperation between SLU
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edge results, and you will profit from being part of our highly collaborative team. The PhD studentship is shared between the Westenhoff group at the Department of Chemistry-BMC and the Wernet and Jay
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to Swedish industry, a dynamic research culture, and focus on practical impact and innovation. As a PhD student here, you will be part of a supportive team, with access to cutting-edge XR and AI research