Issue 35, 2019, Issue in Progress
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RSC Advances

Identification of the early intermediates formed in ozonolysis of cis-2-butene and limonene: a theoretical and matrix isolation study

Shan-shan Li,a   Xiao-yang Yang,b   Yi-sheng Xub  and  Lei Jiang ORCID logo *a  

* Corresponding authors

a Beijing Municipal Research Institute of Environmental Protection, Beijing 100037, China
E-mail: 154249704@qq.com, jiangle3657@sina.com
Fax: +86-10-68314675

b State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environmental Sciences, Beijing 100012, China
E-mail: xuys@craes.org.cn, yangxy@craes.org.cn

Abstract

This study combined quantum chemical calculations and the matrix isolation technique to identify the formation of primary intermediates from the ozonolysis of cis-2-butene and limonene. Quantum chemical calculations were conducted under the framework of density functional theory (DFT) at M06-2x/6-311+(d, p) level of theory to predict the possible mechanism as well as the new absorption bands. New bands whose intensity increased with annealing, were observed in twin jet deposition, which indicated the formation of primary ozonides, CI and secondary ozonides in the investigated systems. Isotopic labeling (18O) experiments further supported the assignment of observed bands. The results and findings in this study would enrich the understanding of the reaction mechanism of alkene ozonolysis.

Graphical abstract: Identification of the early intermediates formed in ozonolysis of cis-2-butene and limonene: a theoretical and matrix isolation study

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Article information

DOI
https://doi.org/10.1039/C9RA04176A
Article type
Paper
Submitted
03 Jun 2019
Accepted
20 Jun 2019
First published
27 Jun 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 20100-20106

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Identification of the early intermediates formed in ozonolysis of cis-2-butene and limonene: a theoretical and matrix isolation study

S. Li, X. Yang, Y. Xu and L. Jiang, RSC Adv., 2019, 9, 20100 DOI: 10.1039/C9RA04176A

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