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PostDoc in the project). Collaborating with fellow researchers across the UPLIFT network, including those focused on digital twins at DTU Chemical Engineering- As a PhD candidate, your work will adapt
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transport studies (proof-of-concept): You will conduct low-temperature electronic transport measurements to confirm and characterize fundamental quantum behaviors induced by these nanoscale superlattices
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professor, one assistant professor, one postdoc, and a large number of PhD students. The project includes strong partnerships with the University of Leipzig (Bioinformatics, Prof. Peter Stadler
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transport studies (proof-of-concept): You will conduct low-temperature electronic transport measurements to confirm and characterize fundamental quantum behaviors induced by these nanoscale superlattices
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, please see DTU PhD Guide . The assessment of the applicants will be made by Associate Professor Kaushik Das, Senior Researcher Matti Koivisto, Postdoc Rujie Zhu and Head of the RES section Gregor Giebel
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PhD fellowship at the Copenhagen Center for Glycocalyx Research at the Department of Cellular and Mo
leader in the field of membrane biology and glycosciences. We are composed of several research groups and host about 20 postdocs and 20 PhD students, in addition to master’s students and guest researchers
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economically viable TES strategies. You will engage with national and international partners, including the Danish Centre for Energy Storage and the International Energy Agency. The project includes proof
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professor, one assistant professor, one postdoc, and a large number of PhD students. The project includes strong partnerships with the University of Leipzig (Bioinformatics, Prof. Peter Stadler
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? The Villum Investigator group will (eventually) consist of three postdocs, three PhD students and will be part of the section for Theoretical High Energy Physics, Astroparticle and Gravitational Physics
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transport studies (proof-of-concept): You will conduct low-temperature electronic transport measurements to confirm and characterize fundamental quantum behaviors induced by these nanoscale superlattices