Theoretical considerations of secondary organic aerosol formation from H-abstraction of p-xylene

Citation:

Hu S-X, Yu J-G, Li S-M, Zeng EY. Theoretical considerations of secondary organic aerosol formation from H-abstraction of p-xylene. COMPUTATIONAL AND THEORETICAL CHEMISTRY. 2011;977:13-21.

摘要:

Xylenes are important constituents of many liquid fuels, as well as precursors of secondary organic aerosols (SOAs). To examine the mechanisms for formation of SOAs in the atmosphere, the abstraction reaction of p-xylene with OH and the secondary degradation channels of its intermediates were first and extensively investigated with density functional theory at the B3LYP/6-31+G (d, p) level. The result indicates that H-abstraction from methyl groups is a barrier-less path while that from phenyl groups require a free energy barrier of approximately 2.8 kcal mol(-1). Upon formation of p-xylyl, further addition by O-2 readily occurs to form peroxy radical. Subsequently, possible degradation channels for the formation of main products (p-tolualdehyde and p-quinone methide) have been determined in presence of NO. The free energy profile constructed shows that the entire reaction process is exothermic. In addition, the dipole moment of p-tolualdehyde is higher than that of p-xylene, consistent with their relative hygroscopic values. This indicates that the degradation products of p-xylene can readily immerse into the SOA phase, while p-xylene may be subject to further atmospheric degradation to form non-volatile compounds. (C) 2011 Elsevier B.V. All rights reserved.