Simultaneous determination of antimony and bismuth in soils by continuous hydride generation—atomic absorption spectrometry

Abstract

A method for the simultaneous determination of Sb and Bi in soils using an automated hydride generation system with an electrically heated quartz cell atomizer, and an atomic absorption spectrophotometer is described. Five g of the air-dried soil was placed in a 100 mL Erlenmyer flask fitted with a Liebig condenser and boiled gently with 20 mL 6 M HCl for 1 hr on a sand bath. The extract was then filtered into a 100 mL volumetric flask. The two elements in the sample solution (<30 mL) placed in a 50 mL volumetric flask are prereduced by potassium iodide and ascorbic acid solutions. Reduction of Sb and Bi ions to stibine and bismuthine is obtained by sodium tetrahydroborate solution. Detection limits (S/N = 2) are 7 ng g−1 dry soil for Sb and 0.7 ng g−1 dry soil for Bi. The effects of 19 diverse ions on the absorbances of Sb and Bi were investigasted, and it was found that the errors by these ions will be within 5% in the ordinary unpolluted or even polluted soils. In order to examine the accuracy of the proposed method, Sb and Bi in the four Canadian reference soils and NBS-4355 from the National Bureau of Standards in the USA were determined. The values obtained in this work are close to the recommended or the not-certified values. The amounts of Sb, Bi and the related elements in the soils near a smelter were also analyzed.