W. Gottardi, REDOX-POTENTIOMETRIC TITRIMETRIC ANALYSIS OF AQUEOUS IODINE SOLUTIONS/, Fresenius' journal of analytical chemistry, 362(3), 1998, pp. 263-269
Redox-potential, titrimetric oxidation capacity and pH were used to an
alyze aqueous iodine solutions over a concentration range of five deca
des. By a single operation the equilibrium concentrations of I- I-2, I
-3(-), I-5(-), I-6(2-) HOI and OI- were assessed. Accuracy was most in
fluenced by the redox-potential showing a repeatability of < +/- 0.1 m
V in solutions containing appreciable iodide (Lugol's solution) which
increased to +/-1.5 mV at a 1:100 000 dilution. Together with the unce
rtainty of calibration this equals a calculated total error which rang
es for ''free iodine'' ([I-2] + [HOI]), from +/- 0.5% to +/- 4.2% and
for total iodide from +/- 0.7 to +/- 5.3%. Accuracy was assessed by a
comparison of the evaluated equilibrium concentrations and parameters
derived therefrom, such as total iodide and redox-potential, with meas
ured resp. calculated values. The deviations at ionic strength < 0.1 M
were below +/- 3% and revealed a satisfactory accuracy of the method.
As a unique feature it was possible to monitor the disproportionation
in a iodide-free iodine solution with an initial concentration of 16%
hypoiodic acid (HOI) at pH 7.6. Showing a half-life time of only appr
oximate to 75 s it was confirmed that stability largely depends on HOI
concentration.