Abstract
Outside Front Cover: The study demonstrates how UV-Vis spectroscopy can be utilized to investigate the growth and transport of nanoparticles inside a gas aggregation source (GAS). Trapped nanoparticles were found at different positions inside the GAS. With the help of computational fluid dynamic simulations three distinct areas were identified, where nanoparticles can become trapped or lost. The gas flow velocity distribution was found to strongly impact the transport and trapping of nanoparticles. Further details can be found in the article by Jonas Drewes, Suren Ali-Ogly, Thomas Strunskus, Oleksandr Polonskyi, Hynek Biederman, Franz Faupel, and Alexander Vahl (e2100125).
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