IDENTIFYING AIRBORNE CARBONYL-COMPOUNDS IN ISOPRENE ATMOSPHERIC PHOTOOXIDATION PRODUCTS BY THEIR PFBHA OXIMES USING GAS-CHROMATOGRAPHY ION-TRAP MASS-SPECTROMETRY
Jz. Yu et al., IDENTIFYING AIRBORNE CARBONYL-COMPOUNDS IN ISOPRENE ATMOSPHERIC PHOTOOXIDATION PRODUCTS BY THEIR PFBHA OXIMES USING GAS-CHROMATOGRAPHY ION-TRAP MASS-SPECTROMETRY, Environmental science & technology, 29(8), 1995, pp. 1923-1932
Coupled with gas chromatographic/mass spectrometric detection, the oxi
me formation of aldehydes and ketones by reaction with O-(2,3,4,5,6-pe
ntafluorobenzyl)hydroxylamine hydrochloride (PFBHA) can be used to det
ermine multi-functional airborne carbonyls as well as simple carbonyls
. In this study, we report that methane chemical ionization of the PFB
HA-carbonyl derivatives in an ion trap mass spectrometer provides for
the determination of molecular weights of unknown carbonyls. We first
report the study of model carbonyl compounds and then illustrate examp
les of detecting and identifying carbonyl products from methyl vinyl k
etone and methacrolein experiments conducted in an indoor irradiation
chamber and from isoprene experiments conducted in a dual outdoor smog
chamber. The examples show th at multifunctional carbonyls do account
for part of the missing reaction products in the atmospheric oxidatio
n of isoprene. The advantages of PFBHA derivatives over the normally u
sed 2,4-dinitrophenylhydrazine (DNPH) derivatives will also be discuss
ed.