Determination of halogenated carboxylic acids in drinking water by ion chromatography-orbitrap mass spectrometry method

Abstract

To establish a method for determination of the common and emerging halogenated carboxylic acids(HCAs) in drinking water by ion chromatography(IC) and quadrupole-orbitrap(Q-Orbitrap) high resolution mass spectrometry(HRMS) combined the traditional quantitative detection with semi-target analysis. Effects on the type of chromatographic column, the composition of mobile phase, the flow rate of acetonitrile added post column, the column temperature, and the injection volume were studied in detail for IC-HRMS method, also for HRMS conditions. Drinking water sample was directly injected into IC-HRMS for analysis after filtration. The chromatography separation was performed on an AS21 anion exchange chromatography column(2 mm×250 mm) with the gradient elution using 800 mmol/L methylamine-water as mobile phase, and acetonitrile was added after column. The detection was conducted on HRMS with the electrospray ionization negative mode. And the quantitative analysis of 8 haloacetic acids(HAAs) and semi-target screening of 19 HCAs were achieved by full MS/dd-MS~2 mode. Good linearity(r>0.996) was obtained for each of 8 HAAs for IC-HRMS. The method detection limits(MDLs) and method quantification limits(MQLs) were in the range of 0.50-2.5 μg/L and 1.7-8.3 μg/L, respectively. Intra-and inter-day relative standard deviations(RSDs) were in the range of 1.50%-11.0% and 4.58%-10.9%, respectively. The recoveries were in the range of 61.3%-117%(n=6). The proposed method was applied to analyze 39 drinking water samples, and dichloroacetic acid and trichloroacetic acid were detected and quantified, with concentrations ranging from 1.35 to 48.0 μg/L. Besides, five HCAs(difluoroacetic acid, trifluoroacetic acid, bromochloroacetic acid, monochloropropionic acid and dichloropropionic acid) were preliminary identified with semi-target screening method. The developed method was simple, rapid, no sample preparation except filtration and low reagent cosumption, which could meet the need of drinking water monitoring and achieve comprehensive screening of HCAs in drinking water. In addition, full MS/dd-MS~2 data acquisition mode could provide retrospective analysis of existing data by adding the emerging or interesting HCAs into the screening compound database.