Issue 45, 2006

Experimental and computational study of the ultraviolet photolysis of vinylacetylene. Part II.

Abstract

The ultraviolet photochemistry of vinylacetylene (C4H4) was studied under temperature and pressure conditions similar to Titan’s atmosphere by exciting the molecule in a constrained expansion that opens into the ion source region of a time-of-flight mass spectrometer. The primary dissociation products detected by vacuum-ultraviolet ionization were found to be C4H3 and C4H2, in a ratio of 3–10 : 1. Subsequent reaction of the C4H3 radicals with the parent C4H4 produced two major secondary products: C8H6 and C6H4. The former was spectroscopically identified as phenylacetylene, confirming that photochemical reactions of C4H4 can produce aromatic molecules. The primary dissociation reaction was also studied computationally. The results were consistent with the experimental findings for C4H2 and C4H3. However, the major product is C2H2, which is undetected by 118 nm photoionization in the present experiment but should account for roughly two-thirds of the products. Simulations were also performed to confirm that the present experiment accurately represents the 220 nm photochemistry of vinylacetylene at the temperature and pressure of Titan’s atmosphere, with a product yield of C2H2 : C4H2 : C4H3 of 66 : 7 : 27. Accounting for the wavelength dependent solar flux on Titan, the estimated absorption cross section of vinylacetylene in the ultraviolet, and the slightly wavelength dependent product distribution, the overall product yield predicted by the simulations for ultraviolet photolysis of vinylacetylene on Titan is C2H2 : C4H2 : C4H3 = 65 : 8 : 27. Finally, a simulation was performed under conditions of a shock tube experiment to examine the differences between thermal and photochemical dissociation. The product yield of this simulation was C2H2 : C4H2 : C4H3 = 61 : 1 : 38.

Graphical abstract: Experimental and computational study of the ultraviolet photolysis of vinylacetylene. Part II.

Supplementary files

Article information

Article type
Paper
Submitted
30 Jun 2006
Accepted
02 Oct 2006
First published
17 Oct 2006

Phys. Chem. Chem. Phys., 2006,8, 5317-5327

Experimental and computational study of the ultraviolet photolysis of vinylacetylene. Part II.

J. A. Stearns, T. S. Zwier, E. Kraka and D. Cremer, Phys. Chem. Chem. Phys., 2006, 8, 5317 DOI: 10.1039/B609285C

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