Uncertainty contributions to the measurement of dissolved Co, Fe, Pb and V in seawater using flow injection with solid phase preconcentration and detection by collision/reaction cell-quadrupole ICP-MS.

Robert Clough, Hagit Sela, Angela Milne, Maeve C. Lohan, Serife Tokalioglu, Paul J. Worsfold*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

A flow injection manifold incorporating a solid phase chelating resin (Toyopearl AF-Chelate-650) is reported for the preconcentration of dissolved metals from seawater, with a focus on investigating the effect of the loading pH, wash solution composition and wash time. Cobalt, iron, lead and vanadium have been used as target analytes with contrasting oceanographic behaviour. Quadrupole ICP-MS has been used for detection to make the approach accessible to most laboratories and a collision/reaction cell has been incorporated to minimise polyatomic interferences. Results for the seawater CRM NASS-6 and two GEOTRACES reference materials were in good agreement with the certified/consensus values, demonstrating the suitability of the approach for the determination of trace metals in seawater. The experimental design used allowed a thorough investigation of the uncertainty contribution from each method parameter to the overall expanded uncertainty of the measurement. The results showed that the parameters making the largest contributions were the precision of the peak area measurement and the uncertainty associated with the slope of the calibration curve. Therefore, these are the critical parameters that should be targeted in order to reduce the overall measurement uncertainty. For iron, the wash blank also gave a measureable contribution.
Original languageEnglish
Pages (from-to)162-169
Number of pages0
JournalTalanta
Volume133
Issue number0
DOIs
Publication statusPublished - Feb 2015

Keywords

  • Flow injection
  • Preconcentration
  • Quadrupole ICP–MS
  • Seawater
  • Trace metals
  • Cobalt
  • Flow Injection Analysis
  • Iron
  • Lead
  • Limit of Detection
  • Mass Spectrometry
  • Metals
  • Heavy
  • Solid Phase Extraction
  • Uncertainty
  • Vanadium

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