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Field
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therapeutic product. The PhD project is centred on understanding the biological mechanisms of selective interaction with cancer cells, uptake of NK-EVs into cancer cells, potential endosomal escape, and how
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of electron microscopy imaging and spectroscopy to reveal the structure–property relationships that govern molecular adsorption mechanisms. This interdisciplinary project is fully funded by DTU’s PhD grant
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to be cost competitive with other technologies, long lifetime of >5 years operation under high current density is desired. Operation conditions such as temperature, gas composition, current density and
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bore. Bismuth can be an alternative material for improved sealing of wellbores. The metallic material, which has a typical melting point between 140 – 270 0C depending on material composition, is
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-metallic clusters that combine plasmonic and catalytic metals These clusters will be deposited with high control over size and composition using cluster beam deposition on morphologically engineered TiO2
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. While communication and social networks are thought to influence one another, the mechanisms underlying this interplay remain poorly understood. Using cutting edge bio-logging technology, this project
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into or out of the microgels depending on various conditions. The mechanism of flow formation is based on the diffusioosmotic phenomenon emerging from concentration gradient of a counter-ions expelled out
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corrosion-fatigue conditions by integrating multiscale physics-based models combined with mesoscale experimental tests. This research will study the effects of corrosion-induced changes in composition
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epigenetic memory of pathogen infections and potential transgenrational immunity. Its role in the kelp S. latissima remains unknown. The proposed research links molecular mechanisms, aquaculture applications
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the biological mechanisms of selective interaction with cancer cells, uptake of NK-EVs into cancer cells, potential endosomal escape, and how they release their toxic cargo to kill the cancer cells. Methods