The partial contribution of polycyclic aromatic hydrocarbons (PAH), capable of being detected by gas chromatography (GC-PAH), both to the total mass of the extractable organic fraction of flame-formed carbon particulates and to its UV-visible absorption and fluorescence spectra, has been determined by previous work. This contribution indicates the presence of PAH of molecular weight (MW) greater than 400 Da not accessible to conventional analysis. The detection of species in this higher MW range is important for both their potential toxicology and their possible role in soot formation. In the present work extracts of soots have been analyzed by linear mode laser desorption/ionization time-of-flight mass spectrometry (LDI-TOF-MS) to extend the MW range that can be analyzed beyond the GC-PAH. The results have been compared with both analysis by reflector mode LDI-TOF-MS and the MW evaluation obtained by SEC analysis, as the shortcomings and advantages of both techniques appear to be complementary. Matching the results from the two techniques could give interesting insights in the molecular mass range between GC-PAH and the first soot particles (of mass > 2000 Da). Mass spectra in this molecular mass range have been obtained with a main ion sequence spacing of 24 Th and a minor ion sequence also with a spacing of 24 Th but off-set by 12 Th with respect to the main sequence. The two ion progressions have been interpreted by attributing the predominant peaks mainly to PAH with even-carbon numbers and the smaller ones to cyclopenta-fused ring PAH. These distributions indicate the occurrence of two competitive mechanisms in the growth of PAH and soot nucleation, i.e. the addition of acetylene (HACA mechanism) and the incorporation of pentagons by large polycyclic aromatic molecules into their aromatic bonding network.
Copyright (c) 2006 John Wiley & Sons, Ltd.