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to serve as a gaseous, metal-free electrode and mediate electrochemical reactions. In particular, the injection of gas-phase electrons into solution to generate solvated electrons, one of the strongest
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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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experimental investigations of the electronic structure of atomically thin transition metal trihalides and chalcogenides. The aim of the work is to investigate how their electronic properties can be specifically
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transduction mechanisms at the protein and membrane level. Experimental systems will include 2D cell culture, organoid models, and advanced biophysical assays (e.g., high-throughput atomic force microscopy