B. Ells et al., Detection of nine chlorinated and brominated haloacetic acids at part-per-trillion levels using ESI-FAIMS-MS, ANALYT CHEM, 72(19), 2000, pp. 4555-4559
A combination of electrospray ionization, high-held asymmetric waveform ion
mobility spectrometry, and mass spectrometry (ESI-FAIMS-MS) was used for t
he analysis of a solution containing a mixture of the nine chlorinated and
brominated haloacetic acids. For a carrier gas of nitrogen in the FAIMS ana
lyzer, haloacetate anions of the mono- and dihalogenated acids and the deca
rboxylated anions of three of the trihalogenated acids were detected, No si
gnal was observed for bromodichloroacetic acid (BDCAA) at a dispersion volt
age of -3400 V. The addition of a small amount of carbon dioxide to the nit
rogen carrier gas resulted in the detection of the pseudomolecular trihaloa
cetate anions, including BDCA(-), and significant increases in sensitivitie
s for the trihalogenated species. The addition of carbon dioxide to the nit
rogen carrier gas had little effect on the mono- and dihalogenated anions.
Quantitative analysis of the nine haloacetic acids, using now injection, ga
ve detection limits between 5 and 36 parts-per-trillion in 9/1 methanol/wat
er (v/v) containing 0.2 mM ammonium acetate.