Abstract
Tracer (∼ 10 −8 M) mercury(II) can be quantitatively extracted with 5-(4-pyridyl)nonane in benzene from aqueous thiocyanate solutions that are up to 6 M in HCl, 1 M in H 2SO 4 or 0.25 M in HNO 3, in a single extraction. Optimal conditions for the extraction are given, based on a critical study of the relevant factors such as the effects of the acids, thiocyanate, salting-out and complexing agents and the reagent concentration. The mechanism underlying these extractions is discussed on the basis of the results obtained from partition and slope-analysis data. The extraction of the metal as Hg(PyN) 2(SCN) 2 is indicated. The extracted mercury can be stripped from the non—aqueous layer with various aqueous solutions, including nitric acid (⩾2 M), sodium citrate (⩾ 1 M) and sodium thiosulphate (⩾0.1 M). Common salts do not depress the extraction. Distribution coefficients and separation factors of several elements relative to mercury(II) are reported for media that contain the optimal concentrations of the mineral acids and are in 0.2 M in potassium thiocyanate. The data have been applied for the determination of mercury in soil and water samples by atomic-absorption spectrometry.
Published Version
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