通过γ-酮氢过氧化物分解在正丁烷氧化过程中形成有机酸和羰基化合物。

Formation of Organic Acids and Carbonyl Compounds in n-Butane Oxidation via γ-Ketohydroperoxide Decomposition.

作者信息

Popolan-Vaida Denisia M, Eskola Arkke J, Rotavera Brandon, Lockyear Jessica F, Wang Zhandong, Sarathy S Mani, Caravan Rebecca L, Zádor Judit, Sheps Leonid, Lucassen Arnas, Moshammer Kai, Dagaut Philippe, Osborn David L, Hansen Nils, Leone Stephen R, Taatjes Craig A

机构信息

Department of Chemistry and Physics, University of California, Berkeley, Berkeley, CA 94720, USA.

Department of Chemistry, University of Central Florida, Orlando, FL 32816, USA.

出版信息

Angew Chem Int Ed Engl. 2022 Oct 17;61(42):e202209168. doi: 10.1002/anie.202209168. Epub 2022 Sep 14.

DOI:10.1002/anie.202209168

PMID:35895936

Abstract

A crucial chain-branching step in autoignition is the decomposition of ketohydroperoxides (KHP) to form an oxy radical and OH. Other pathways compete with chain-branching, such as "Korcek" dissociation of γ-KHP to a carbonyl and an acid. Here we characterize the formation of a γ-KHP and its decomposition to formic acid+acetone products from observations of n-butane oxidation in two complementary experiments. In jet-stirred reactor measurements, KHP is observed above 590 K. The KHP concentration decreases with increasing temperature, whereas formic acid and acetone products increase. Observation of characteristic isotopologs acetone-d and formic acid-d in the oxidation of CH CD CD CH is consistent with a Korcek mechanism. In laser-initiated oxidation experiments of n-butane, formic acid and acetone are produced on the timescale of KHP removal. Modelling the time-resolved production of formic acid provides an estimated upper limit of 2 s for the rate coefficient of KHP decomposition to formic acid+acetone.

摘要

自燃过程中一个关键的链分支步骤是酮氢过氧化物（KHP）分解形成一个氧自由基和OH。其他途径与链分支相互竞争，例如γ-KHP的“科尔切克”解离生成一个羰基和一种酸。在此，我们通过两个互补实验中对正丁烷氧化的观测，表征了γ-KHP的形成及其分解生成甲酸+丙酮产物的过程。在喷射搅拌反应器测量中，在590 K以上观测到了KHP。KHP浓度随温度升高而降低，而甲酸和丙酮产物增加。在CH CD CD CH氧化过程中对特征同位素异构体丙酮-d和甲酸-d的观测与科尔切克机理一致。在正丁烷的激光引发氧化实验中，甲酸和丙酮在KHP去除的时间尺度上产生。对甲酸的时间分辨生成进行建模，得出KHP分解生成甲酸+丙酮的速率系数的估计上限为2 s。

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通过γ-酮氢过氧化物分解在正丁烷氧化过程中形成有机酸和羰基化合物。

Formation of Organic Acids and Carbonyl Compounds in n-Butane Oxidation via γ-Ketohydroperoxide Decomposition.

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