Perchlorate analysis using solid-phase extraction cartridges

Perchlorate is a compound of increasing concern as an environmental contaminant and is being regulated at increasingly stringent levels. Reliable methods are needed to consistently analyze perchlorate at low concentration levels. This research investigates the use of solid-phase extraction cartridges as an alternative to large-volume injection loops to achieve low-level (μg/L level) perchlorate quantitation. The method involves commercially available strong anion exchange (SAX) cartridges. Water samples are filtered (100 to 1000 ml) using the cartridge, which removes the perchlorate from the solution by anion exchange. Then, after the desired volume is filtered, the perchlorate is extracted using 4 ml of 1 % NaOH. In addition, a cleanup method is developed to remove competing anions (chloride, sulfate, and carbonate) that are often found in environmental samples. Analyses are performed with an ion Chromatograph using a 10-μL injection loop, yielding a perchlorate method detection limit (MDL) of 210 μg/L. One-liter volumes of a 2-μg/L perchlorate spiked deionized water solution are filtered with SAX SPE. Following extraction and analysis, an MDL of 0.82 μg/L is obtained, comparable to that found for 1-mL injection loop systems (reported as low as 0.53 μg/L). MDL studies are then conducted on perchlorate-amended groundwater (solution concentration of 70 μg/L) and surface water (solution concentration of 10 μg/L) using a filtration volume of 200 ml. The MDLs are 6.7 μg/L for the groundwater and 2.4 μg/L for the surface water.