Determination of iron(II) and iron(III) by flow injection and amperometric detection with a glassy carbon electrode

Iron(I1) (1.0 X 10-g-1.0 X 10e6 M) is determined by the production of chemiluminescence in a luminol system in the absence of added oxidant. Iron(II1) (2.0 x lo-'-2.0 x 10e6 M) is determined after reduction to iron(I1) in a silver reductor mini-column in the fiow system. Cobalt, chromium, copper and

## How-injection atomic spectrometry with sorbent extraction preconcentration is applied to the simultaneous determination of iron and i&III). Upon injection of a sample containing iron in both oxidation states, iron(III) is directly carried to the flame atomic absorption spectmmeter whereas the i

The change in peak current resulting from the reaction of Fe(I1) with nitroso-R salt in a flow-injection system is used to quantify Fe(I1) with either single-or dual-electrode amperometric detectors. The current change varies linearly with Fe(I1) concentration from 0 to 200 mg 1-l. The relative stan

An electroanalytical study of the Irganox 1076 oxidation process at a glassy carbon electrode in an aqueous 60% ethanolit medium using different voltammetric techniques has been carried out. The results obtained by differential pulse voltammetry allowed the development of a method for the determinat