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quantitative image analysis, numerical modeling, and explainable AI (XAI) with state-of-the-art biophysical methods. Using techniques such as traction force microscopy, microfluidics, 3D bioprinting, and
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materials, (2) Battery materials, (3) Quantum materials, (4) Semiconducting materials, (5) Artificial intelligence materials, (6) Metal and inorganic materials, (7) Organic materials, (8) Biomaterials, (9
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for replication timing and directionality, GRO-seq for nascent transcription, and DRIP-seq for R-loop detection. These methods allow us to integrate replication, transcription, and DNA repair features at nucleotide
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PhD fellowship at the Copenhagen Center for Glycocalyx Research at the Department of Cellular and Mo
technologies to study cell signaling and protein modifications providing an essential element of the glycocalyx-focused research at CGR. As such, our core resources include proteomic, glycoproteome data and
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of nanoparticles. Important part of project is aimed on design of environmentally friendly methods for selective sorption of lanthanides from complex waste mixtures using advanced materials. This research will be
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, policy analysis, risk research, and systems analysis methods Experience in stakeholder participation Experience in writing academic publications, research reports, and policy briefs A high degree of
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expansion of the composites and explore them as new copper current collectors for Li-ion batteries (with graphitic, graphitic+silicon based slurries or as Li Metal anodes). You will work in (Belvaux) and have
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, business informatics, or business analytics Initial practical experience in academic writing and research methods in the field of Operations Research (esp. exact and heuristic solution methods) Teaching
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members of the lab to integrate new methods into our current workflows participate in DEEP-DV meetings (online and at various locations in Germany), regularly interact and collaborate with DEEP-DV members
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, and regulate plasticity. We use cutting-edge methods (multi-omics, single cell, live cell imaging, modelling, chromatin biochemistry as well as various developmental, stem cell, and cell biology systems