Selective detection of Isomers with Photoionization mass spectrometry for studies of hydrocarbon flame chemistry - Archive ouverte HAL
Article Dans Une Revue The Journal of Chemical Physics Année : 2003

Selective detection of Isomers with Photoionization mass spectrometry for studies of hydrocarbon flame chemistry

Résumé

We report the first use of synchrotron radiation, continuously tunable from 8 to 15 eV, for flame-sampling photoionization mass spectrometry (PIMS). Synchrotron radiation offers important advantages over the use of pulsed vacuum ultraviolet lasers for PIMS; these include superior signal-to-noise, soft ionization, and access to photon energies outside the limited tuning ranges of current VUV laser sources. Near-threshold photoionization efficiency measurements were used to determine the absolute concentrations of the allene and propyne isomers of C3H4 in low-pressure laminar ethylene–oxygen and benzene–oxygen flames. Similar measurements of the isomeric composition of C2H4O species in a fuel-rich ethylene–oxygen flame revealed the presence of substantial concentrations of ethenol (vinyl alcohol) and acetaldehyde. Ethenol has not been previously detected in hydrocarbon flames. Absolute photoionization cross sections were measured for ethylene, allene, propyne, and acetaldehyde, using propene as a calibration standard. PIE curves are presented for several additional reaction intermediates prominent in hydrocarbon flames.
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Dates et versions

hal-00095417 , version 1 (15-09-2006)

Identifiants

Citer

T.A. Cool, K. Nakajima, T.A. Mostefaoui, F. Qi, A. Mcilroy, et al.. Selective detection of Isomers with Photoionization mass spectrometry for studies of hydrocarbon flame chemistry. The Journal of Chemical Physics, 2003, 119, pp.9356-8365. ⟨10.1063/1.1611173⟩. ⟨hal-00095417⟩
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