Issue 3, 2022

Formation of phenylacetylene and benzocyclobutadiene in the ortho-benzyne + acetylene reaction

Abstract

Ortho-benzyne is a potentially important precursor for polycyclic aromatic hydrocarbon formation, but much is still unknown about its chemistry. In this work, we report on a combined experimental and theoretical study of the o-benzyne + acetylene reaction and employ double imaging threshold photoelectron photoion coincidence spectroscopy to investigate the reaction products with isomer specificity. Based on photoion mass-selected threshold photoelectron spectra, Franck–Condon simulations, and ionization cross section calculations, we conclude that phenylacetylene and benzocyclobutadiene (PA : BCBdiene) are formed at a non-equilibrium ratio of 2 : 1, respectively, in a pyrolysis microreactor at a temperature of 1050 K and a pressure of ∼20 mbar. The C8H6 potential energy surface (PES) is explored to rationalize the formation of the reaction products. Previously unidentified pathways have been found by considering the open-shell singlet (OSS) character of various C8H6 reactive intermediates. Based on the PES data, a kinetic model is constructed to estimate equilibrium abundances of the two products. New insights into the reaction mechanism – with a focus on the OSS intermediates – and the products formed in the o-benzyne + acetylene reaction provide a greater level of understanding of the o-benzyne reactivity during the formation of aromatic hydrocarbons in combustion environments as well as in outflows of carbon-rich stars.

Graphical abstract: Formation of phenylacetylene and benzocyclobutadiene in the ortho-benzyne + acetylene reaction

Supplementary files

Article information

Article type
Paper
Submitted
12 nóv. 2021
Accepted
23 des. 2021
First published
03 jan. 2022

Phys. Chem. Chem. Phys., 2022,24, 1869-1876

Formation of phenylacetylene and benzocyclobutadiene in the ortho-benzyne + acetylene reaction

M. N. McCabe, P. Hemberger, D. Campisi, J. C. Broxterman, E. Reusch, A. Bodi and J. Bouwman, Phys. Chem. Chem. Phys., 2022, 24, 1869 DOI: 10.1039/D1CP05183K

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