US EditionHighly Oxidized Products From Isoprene—Atmospheric Chemistry Pathways Could Drive Global Aerosol Formation
4 Articles
4 Articles
Highly oxidized products from isoprene—atmospheric chemistry pathways could drive global aerosol formation
Highly sensitive detection methods allow ever deeper insights into complex chemical processes in the atmosphere: Researchers at the Leibniz Institute for Tropospheric Research (TROPOS) in Leipzig found a series of new product channels in a detailed product study on the oxidative degradation of isoprene in the gas phase, which allows a better mechanistic understanding of this important process for atmospheric chemistry. The results were published…
Highly oxidized products from isoprene—atmospheric chemistry pathways could drive global aerosol formation - Tech and Science Post
by Tilo Arnhold, Leibniz-Institut für Troposphärenforschung e. V. Highly sensitive detection methods allow ever deeper insights into complex chemical processes in the atmosphere: Researchers at the Leibniz Institute for Tropospheric Research (TROPOS) in Leipzig found a series of new product channels in a detailed product study on the oxidative degradation of isoprene in the gas phase, which allows a better mechanistic understanding of t…
Highly sensitive detection methods allow for ever deeper information on complex chemical processes in the atmosphere: researchers at the Leibniz Institute for Ground-level Research (Tropos) in Leipzig found a series of new product channels in a detailed product study on oxidative degradation of isoprene in the [...]
Experimental studies under atmospheric conditions show two important reaction pathways in the hydroxyl radical-initiated degradation of the isoprene, which can form highly oxidized peroxyradicals with 8 resp. 9 oxygen atoms and be important for the production of organic aerosols worldwide.
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