Abstract
A study was conducted to develop an accurate method for the determination of vanadium in environmental samples by inductively coupled plasma mass spectrometry (ICP-MS), coupled with a dynamic reaction cell (DRC), using two different chemical resolution strategies: (a) direct removal of interfering ClO+ and (b) vanadium oxidation to VO+. The performance of three reaction gases that are suitable for handling vanadium interference in the dynamic reaction cell was systematically studied and evaluated: ammonia for ClO+ removal and oxygen and nitrous oxide for oxidation. Although it was able to produce comparable results for vanadium to those using oxygen and nitrous oxide, NH3 did not completely eliminate a matrix effect, caused by the presence of chloride, and required large scale dilutions (and a concomitant increase in variance) when the sample and/or the digestion medium contained large amounts of chloride. Among the three candidate reaction gases at their optimized conditions, creation of VO+ with oxygen gas delivered the best analyte sensitivity and the lowest detection limit. Vanadium results obtained from fourteen lake sediment samples and a certified reference material (CRM031-040), using two different analyte/interference separation strategies, suggested that the vanadium mono-oxidation has advantages over the conventional method using NH3 for ultra-trace vanadium determination by ICP-DRC-MS and can be readily employed in relevant environmental chemistry applications.
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