A possible role of triplet-state species as chain-initiators in high-temperature oxidations of aromatic hydrocarbons

Ming-Chang Lin; D. E. Tevault

doi:10.1016/0010-2180(81)90152-8

A possible role of triplet-state species as chain-initiators in high-temperature oxidations of aromatic hydrocarbons

Ming-Chang Lin^*, D. E. Tevault

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7 引文斯高帕斯（Scopus）

摘要

Photooxidation of benzene at 254 nm has been studied in 10-KAr matrices. Both CO and CO₂, which are believed to be secondary photodissociation products of initial peroxy-adducts or their dialdehyde isomers from the reaction of the triplet benzene with O₂, were found to be the major observable oxidation products by IR analysis. Formation of these products has been studied as a function of photolysis time and of O₂ concentration. On the basis of this result and estimates of transition state calculations, it can be concluded that at 2500K, the C₆H₆(T₁) + O₂ reaction is at least as important as the hydrogen abstraction reaction, C₆H₆ + O₂ å C₆H₅ + HO₂, for chain-initiation. The T₁-state reaction is expected to be more important as its energy decreases for the larger members of the homologous series.

原文	English
頁（從 - 到）	139-146
頁數	8
期刊	Combustion and Flame
卷	42
發行號	C
DOIs	https://doi.org/10.1016/0010-2180(81)90152-8
出版狀態	Published - 1 1月 1981

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10.1016/0010-2180(81)90152-8

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title = "A possible role of triplet-state species as chain-initiators in high-temperature oxidations of aromatic hydrocarbons",

abstract = "Photooxidation of benzene at 254 nm has been studied in 10-KAr matrices. Both CO and CO2, which are believed to be secondary photodissociation products of initial peroxy-adducts or their dialdehyde isomers from the reaction of the triplet benzene with O2, were found to be the major observable oxidation products by IR analysis. Formation of these products has been studied as a function of photolysis time and of O2 concentration. On the basis of this result and estimates of transition state calculations, it can be concluded that at 2500K, the C6H6(T1) + O2 reaction is at least as important as the hydrogen abstraction reaction, C6H6 + O2 {\aa} C6H5 + HO2, for chain-initiation. The T1-state reaction is expected to be more important as its energy decreases for the larger members of the homologous series.",

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T1 - A possible role of triplet-state species as chain-initiators in high-temperature oxidations of aromatic hydrocarbons

AU - Lin, Ming-Chang

AU - Tevault, D. E.

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N2 - Photooxidation of benzene at 254 nm has been studied in 10-KAr matrices. Both CO and CO2, which are believed to be secondary photodissociation products of initial peroxy-adducts or their dialdehyde isomers from the reaction of the triplet benzene with O2, were found to be the major observable oxidation products by IR analysis. Formation of these products has been studied as a function of photolysis time and of O2 concentration. On the basis of this result and estimates of transition state calculations, it can be concluded that at 2500K, the C6H6(T1) + O2 reaction is at least as important as the hydrogen abstraction reaction, C6H6 + O2 å C6H5 + HO2, for chain-initiation. The T1-state reaction is expected to be more important as its energy decreases for the larger members of the homologous series.

AB - Photooxidation of benzene at 254 nm has been studied in 10-KAr matrices. Both CO and CO2, which are believed to be secondary photodissociation products of initial peroxy-adducts or their dialdehyde isomers from the reaction of the triplet benzene with O2, were found to be the major observable oxidation products by IR analysis. Formation of these products has been studied as a function of photolysis time and of O2 concentration. On the basis of this result and estimates of transition state calculations, it can be concluded that at 2500K, the C6H6(T1) + O2 reaction is at least as important as the hydrogen abstraction reaction, C6H6 + O2 å C6H5 + HO2, for chain-initiation. The T1-state reaction is expected to be more important as its energy decreases for the larger members of the homologous series.

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A possible role of triplet-state species as chain-initiators in high-temperature oxidations of aromatic hydrocarbons

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