• Title of article

    Lability of metal ion-fulvic acid complexes as probed by FIA and DGT: a comparative study Original Research Article

  • Author/Authors

    Alison J. Downard، نويسنده , , Jared Panther، نويسنده , , Young-Chool Kim، نويسنده , , H.Kipton J. Powell، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    12
  • From page
    17
  • To page
    28
  • Abstract
    Two kinetic-based analytical techniques with very different time constants (flow injection analysis, FIA and diffusive gradients in thin films, DGT) have been compared in a study of metal ion lability in the systems Al3+–FA and Cu2+–FA (fulvic acid, FA). Flow injection analysis used an in-line micro-column of chelating ion exchanger to capture the labile metal fraction during the short contact time, 1–3 s, with the injected sample. The moderately labile and inert metal fractions were rejected by the ion exchanger but the former gave a colorimetric reaction down-line. The labile fraction was quantified by subsequent elution of captured metal ions and down-line analysis. The chelating resins used were oxine-derivatised fractogel (for Al3+) and oxine-derivatised controlled-pore glass (for Cu2+). Diffusive gradients in thin films utilised cross-linked polyacrylamide films as the diffusive barrier and Chelex-100 to capture the diffusing metal ions that are labile on the experiment time-scale (min). Diffusion coefficients, D, for metal–FA systems at different metal:FA ratios were measured independently in a diffusion cell. They indicated that for both the labile (Cu2+–FA) and slowly labile (Al3+–FA) systems the metal ion diffuses at a similar velocity to the FA, even when the total metal ion concentration exceeds the capacity of FA to bind metal ions in non-labile forms (FA complexation capacity, CC).
  • Keywords
    Complexation capacity , Flow injection , Diffusive gradients , Fulvic acid
  • Journal title
    Analytica Chimica Acta
  • Serial Year
    2003
  • Journal title
    Analytica Chimica Acta
  • Record number

    1030290