Speciation of antimony in natural waters : the determination of Sb(III) and Sb(V) by continuous flow hydride generation-atomic absorption spectrometry

Abstract

A new procedure for the speciation of dissolved antimony is described. This makes use of complexation with citrate to prevent, preferentially, the formation of hydride from Sb(V) and allow the selective determination of Sb(III) to be made by continuous flow hydride generation - atomic absorption spectrometry. When the citric acid (12% m/V) is replaced by potassium iodide (3% m/V), total antimony is determined and the concentration of Sb(V) can be obtained by difference. The determination of the antimony species is dominated in this new procedure by the complexation of Sb(V) with citrate and the effect of pH is limited to a minor, re-inforcing role. This permits acidification to be made with hydrochloric acid. The principal interfering species in the determination of total antimony and Sb(III) is Fe³⁺, with Fe²⁺, Cu²⁺ and Ni²⁺ showing lesser effects on Sb(III). The technique is applied successfully to synthetic mixtures and to natural waters from the environment of a disused antimony mine. The characteristic concentration obtained for antimony was 0.7 ng mL^–1 and the detection limit 1 ng mL^–1.