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one PDF file containing all materials to be given consideration. To apply, please open the link "Apply now", fill out the online application form, and attach all your materials in English in one PDF
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Applications are invited for a 3-year Postdoc position, ideally starting in November 2025 within the general field of coastal engineering at the Technical University of Denmark (DTU) , Department of Civil and Mechanical Engineering , section for Fluid Mechanics, Coastal and Maritime Engineering...
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Zachary Whyte, whyte@hum.ku.dk , +4535327131. The deadline for applications is 23:59 [CEST] on 7 September 2025. Any applications or additional material submitted after the deadline will not be considered.
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or materials engineering, chemistry or similar. A general interest in technology application, societal challenges, and techno economics is a further qualification. Solid knowledge within
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portfolio. The specific requirements regarding the documentation can be found here Materials that cannot be uploaded together with the application may be submitted in three copies to Aarhus BSS HR & PhD
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). We are aiming at realizing high area materials capitalizing on this insight. A similar system as described above for ammonia has also been established for or CO2 hydrogenation where we also have a long
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portfolio. The specific requirements regarding the documentation can be found here Materials that cannot be uploaded together with the application may be submitted in three copies to Aarhus BSS HR & PhD
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that is tightly entangled with values, politics and societal institutions. The project approaches the past by textual means, and the source material consists of Old Norse texts of various genres
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cells, electroporation, multi-color flow cytometry, droplet digital PCR, DNA sequencing including NGS, viral vector production, and mouse xenotransplantation experiments. Analysis, interpretation, and
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opportunity for you. Electrocatalysts are essential materials for producing green fuels and chemicals. Conventional electrocatalysts with two-dimensional active sites, however, have a fundamentally limited