The formation of secondary organic aerosol (SOA) from the photooxidation of xylene isomers (m-, p-, and o-xylenes) has been extensively investigated. The dependence of SOA aerosol formation on the structure of xylene isomers in the presence of NO was confirmed. Generally, SOA formation of p-xylene was less than that ofm- and o-xylenes. This discrepancy varies significantly with initial NOx levels. In a NOx-free environment, the difference of aerosol formation between o- and p-xylenes becomes insignificant. Several chemical pathways for the SOA dependence on structure and NOx are explored, with the experimental findings indicating that organic peroxides may be a major key to explaining SOA formation from aromatic hydrocarbons.
Revised: February 8, 2008 |
Published: November 1, 2007
Citation
Song C., K. Na, B. Warren, Q. Malloy, D.R. Cocker, and D.R. Cocker. 2007.Secondary Organic Aerosol Formation from the Photooxidation of p- and o-Xylene.Environmental Science & Technology 41, no. 21:7403-7408.PNNL-SA-58594.doi:10.1021/es0621041