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for proof-of-principles demonstrations with experimental collaborators. While the general theme of the postdoc will center on advancing the understanding of the interplay between photonic topology and
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Physics, we perform research, teaching, and innovation in experimental and theoretical physics with the overall aim to benefit society. We contribute to the transition to sustainable energy via research and
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, teaching, and innovation in experimental and theoretical physics with the overall aim to benefit society. We contribute to the transition to sustainable energy via research and innovation in catalysis, Power
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challenging job in an international environment with excellent facilities for experimental studies and scientific cruise-based research. We strive for academic excellence in an environment characterized by
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. Andersen, affiliated with the Department of Clinical Microbiology, Odense University Hospital. The group conducts research in the interface between experimental and clinical microbiology and consists
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A postdoc position in the Torben Heick Jensen lab, Aarhus University, Denmark: Mammalian Nuclear ...
team, projects are carried out independently or in interdisciplinary collaboration with leading structural- and/or mass spectrometry-biologists. The team consists of a dynamic mix of experimental and
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experimental) quantification tools, holding back early immunogenicity risk assessment in the context of protein drug development. A clearer understanding of the rules governing T cell activation would form a
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. Professor Johan Andersen-Ranberg. The fellow’s main duties will include conducting experimental molecular biology research on eukaryotic microalgae, performing genome engineering in algae, and carrying out
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cutting-edge experimental and computational technologies. Our aim is to dissect dynamics and cellular programmes active during human blood lineage development and to decipher how haematopoietic
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these achievements to the microstructural engineering of two AM steels: 316L and 17-4 PH, to show the potential in improving the toughness and fatigue resistance. The work will be based primarily on experimental work