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首页> 外文期刊>The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory >Nontraditional (Per)oxy Ring-Closure Paths in the Atmospheric Oxidation of Isoprene and Monoterpenes
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Nontraditional (Per)oxy Ring-Closure Paths in the Atmospheric Oxidation of Isoprene and Monoterpenes

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摘要

In the atmospheric oxidation of organic compounds, free peroxy and oxy radicals play a crucial role. The traditional view is that peroxy radicals react with NO or with other (hydro-)peroxy radicals, whereas oxy radicals decompose, undergo a hydrogen shift, or react with O_2. However, we show in this quantum chemical and statistical-rate investigation that the presence of a double C=C bond in many (per)oxy radicals formed from isoprene and monoterpenes, the most abundant nonmethane hydrocarbons emitted into the atmosphere, can result in hitherto neglected ring-closure isomerizations. These processes are shown to be competitive under atmospheric conditions and can substantially alter the predicted oxidation products. As an illustration, the major pathways in the OH-initiated oxidation of β-pinene are discussed. It is shown that the predominance of the (per)oxy ring-closure routes offers a consistent rationalization for the "anomalously" low observed yields of traditional-pathway oxidation products from this compound.

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