Journal Article
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Analytical Chemistry
Anal.Chem.
2001/10
73
20
4815
4820
0003-2700
Unknown(0)
Iron colloids play a major role in the water chemistry of natural watersheds and of engineered drinking water distribution systems. Phosphate is frequently added to distribution systems to control corrosion problems, so iron-phosphate colloids may form through reaction of iron in water pipes. In this study, sedimentation field flow fractionation (SdFFF) is coupled on-line with multiangle laser light scattering (MALLS) detection to characterize these iron colloids formed following the oxygenation of iron(II) in the presence of phosphate. The SdFFF-MALLS data were used to calculate the hydrodynamic diameter, density, and particle size distribution of these submicrometer colloids. The system was first verified with standard polystyrene beads, and the results compared well with certified values. Iron(III) colloids were formed in the presence of phosphate at a variety of pH conditions. The colloids' hydrodynamic diameters, which ranged from 218 ± 3 (pH 7) to 208 ± 4 nm (pH 10), did not change significantly within the 95% confidence limit. Colloid density did increase significantly from 1.12 ± 0.01 (pH 7) to 1.36 ± 0.02 g/mL (pH 10). Iron(III) colloids formed at pH 10 in the presence of phosphate were compared to iron(III) colloids formed without phosphate and also to iron(III) colloids formed with silicate. The iron(III) colloids formed without phosphate or silicate were 0.46 g/mL more dense than any other colloids and were >6 times more narrowly distributed than the other colloids. The data suggest competitive incorporation of respective anions into the colloid during formation.
ferric hydroxide, phosphate, polystyrene, silicate, article, calculation, chemical analysis, corrosion, density, field flow fractionation, hydrodynamics, light scattering, oxygenation, particle size, pH, reaction analysis
Embase; MEDLINE
Embase
Magnuson,M. L., Lytle,D. A., Frietch,C. M., Kelty,C. A.
Magnuson, M.L., Natl. Risk Mgmt. Research Laboratory, Water Supply/Water Resources Div., Treatment Technol. Evaluation Branch, Cincinnati, OH 45268, United States
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2001