T. Kyaw et al., REVERSED MICELLAR MEDIATED LUMINOL CHEMILUMINESCENCE DETECTION OF IRON(II, III) COMBINED WITH ONLINE SOLVENT-EXTRACTION USING 8-QUINOLINOL, Analytical sciences, 14(1), 1998, pp. 203-207
An enhancement of the chemiluminescence (CL) emission, observed when t
he iron(III) complex of 8-quinolinol (oxine), Fe(oxine)(3), was mixed
with a reversed micellar solution of cetylltrimethylammonium chloride
in chloroform-cyclohexane (6:5 v/v)-water (1.0 M NaOH) containing lumi
nol and hydrogen peroxide, was investigated in order to develop a meth
od for iron(III) determination based on the direct coupling of on-line
solvent extraction with a reversed micellar-mediated CL reaction in a
reverse-flow injection system using a microporous Teflon membrane fil
ter for phase separation. In the CL process, uptake of the complex by
reverse micelles and its subsequent decomposition occurs easily, follo
wed by an iron(III)-catalyzed luminol reaction. In the on-line process
, iron(III) was extracted from an aqueous solution into chloroform via
complex formation with oxine. Upon mixing the reversed micellar lumin
ol solution with the extract stream in a flow cell of a CL monitor, th
e produced CL signal was measured. A detection limit of 5 ng cm(-3) Fe
(III) and a linear calibration graph was obtained in the concentration
range of 10 - 500 ng cm(-3) Fe(III). In a sample solution containing
iron(II) and iron(III), total iron, Fe(II)+Fe(III), was measured as th
e peak height in the presence of the hydrogen peroxide used to oxidize
iron(II) to iron(III) prier to solvent extraction, while only iron(II
I) could be determined in the absence of hydrogen peroxide.