Estimation of Rate Constants for Reactions of Organic Compounds under Atmospheric Conditions

Structure–activity (SAR) methods are presented for estimating rate constants at 298 K and approximate temperature dependences for the reactions of organic compounds with OH, NO3, and Cl radicals and O3, and O(3P) in the lower atmosphere. These are needed for detailed mechanisms for the atmospheric r...

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Published in	Atmosphere Vol. 12; no. 10; p. 1250
Main Author	Carter, William P. L.
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.10.2021
Subjects	Amines Atmospheric conditions Cl atoms Constants Estimates Free radicals Halogen compounds Halogens Hydrocarbons Lower atmosphere Methods Molecular structure Nitrates NO3 radicals O(3P) atoms OH radicals Organic compounds Organic nitrates Oxidation Rate constants structure–activity relationships Temperature VOCs Volatile organic compounds
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Abstract	Structure–activity (SAR) methods are presented for estimating rate constants at 298 K and approximate temperature dependences for the reactions of organic compounds with OH, NO3, and Cl radicals and O3, and O(3P) in the lower atmosphere. These are needed for detailed mechanisms for the atmospheric reactions of organic compounds. Base rate constants are assigned for the various types of H-abstraction and addition reactions, with correction factors for substituents around the reaction site and in some cases for rings and molecule structure or size. Rate constant estimates are made for hydrocarbons and a wide variety of oxygenates, organic nitrates, amines, and monosubstituted halogen compounds. Rate constants for most hydrocarbons and monofunctional compounds can be estimated to within ±30%, though predictions are not as good for multifunctional compounds, and predictions for ~15% of the rate constants are off by more than a factor of 2. Estimates are more uncertain in the case of NO3 and O3 reactions. The results serve to demonstrate the capabilities and limitations of empirical methods for predicting rate constants for the full variety of organic compounds that may be of interest. Areas where future work is needed are discussed.
AbstractList	Structure–activity (SAR) methods are presented for estimating rate constants at 298 K and approximate temperature dependences for the reactions of organic compounds with OH, NO3, and Cl radicals and O3, and O(3P) in the lower atmosphere. These are needed for detailed mechanisms for the atmospheric reactions of organic compounds. Base rate constants are assigned for the various types of H-abstraction and addition reactions, with correction factors for substituents around the reaction site and in some cases for rings and molecule structure or size. Rate constant estimates are made for hydrocarbons and a wide variety of oxygenates, organic nitrates, amines, and monosubstituted halogen compounds. Rate constants for most hydrocarbons and monofunctional compounds can be estimated to within ±30%, though predictions are not as good for multifunctional compounds, and predictions for ~15% of the rate constants are off by more than a factor of 2. Estimates are more uncertain in the case of NO3 and O3 reactions. The results serve to demonstrate the capabilities and limitations of empirical methods for predicting rate constants for the full variety of organic compounds that may be of interest. Areas where future work is needed are discussed.
Author	Carter, William P. L.
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SubjectTerms	Amines Atmospheric conditions Cl atoms Constants Estimates Free radicals Halogen compounds Halogens Hydrocarbons Lower atmosphere Methods Molecular structure Nitrates NO3 radicals O(3P) atoms OH radicals Organic compounds Organic nitrates Oxidation Rate constants structure–activity relationships Temperature VOCs Volatile organic compounds
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Title	Estimation of Rate Constants for Reactions of Organic Compounds under Atmospheric Conditions
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