kinetics of chromium(iii) oxidation by manganese(iv) oxides using

Kinetics of Chromium(III) Oxidation by Manganese(IV) Oxides Using Quick Scanning X-ray Absorption Fine Structure Spectroscopy (Q-XAFS) G. Landrot, M. Ginder-Vogel, and D. L. Sparks Delaware Environmental Institute, Department of Plant and Soil Sciences, University of Delaware The initial kinetics of Cr(III) oxidation on mineral surfaces is poorly understood, yet a significant portion of the oxidation process occurs during the first seconds of reaction. In this study, the initial rates of Cr(III) oxidation on hydrous manganese oxide (HMO) were measured at three different pH values (pH 2.5, 3, and 3.5), using a quick X-ray absorption fine structure spectroscopy (Q-XAFS) batch method. The calculated rate constants were 0.201, 0.242, and 0.322 s-1 at pH 2.5, 3, and 3.5, respectively. These values were independent of both [Cr(III)] and [Mn(II)] and mixing speed, suggesting that the reaction was “chemically” controlled and not dependent upon diffusion at the time period the rate parameters were measured. This represents the first study to determine the chemical kinetics of Cr(III) oxidation on Mn- oxides. The results have important implications for the determination of rapid, environmentally important reactions that cannot be measured with traditional batch and flow techniques. An understanding of these reactions is critical to predicting the fate of contaminants in aquatic G. Landrot, M. Ginder-Vogel, and D. L. Sparks, “Kinetics of Chromium(III) Oxidation by Manganese(IV) Oxides Using Quick Scanning X-ray Absorption Fine Structure Spectroscopy (Q-XAFS)“, Environ. Sci, Technol., 44, 143-149 Work performed on beamline X18B Cr(III) oxidation kinetics using a QXAFS technique, at pH 2.5, [Cr(III) ]=100mM, [HMO]=20g/L and 0-240 seconds. Each XANES spectrum shown represents 3 seconds of the reaction (average of four 0.75s spectra). X18 B

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Kinetics of Chromium(III) Oxidation by Manganese(IV) Oxides Using Quick Scanning X-ray Absorption Fine Structure Spectroscopy (Q-XAFS). G. Landrot, M. Ginder-Vogel, and D. L. Sparks Delaware Environmental Institute, Department of Plant and Soil Sciences, University of Delaware. - PowerPoint PPT Presentation

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Page 1: Kinetics of Chromium(III) Oxidation by Manganese(IV) Oxides Using

Kinetics of Chromium(III) Oxidation by Manganese(IV) Oxides UsingQuick Scanning X-ray Absorption Fine Structure Spectroscopy (Q-XAFS)

G. Landrot, M. Ginder-Vogel, and D. L. SparksDelaware Environmental Institute, Department of Plant and Soil Sciences, University of Delaware

The initial kinetics of Cr(III) oxidation on mineral surfaces is poorly

understood, yet a significant portion of the oxidation process

occurs during the first seconds of reaction.

In this study, the initial rates of Cr(III) oxidation on hydrous

manganese oxide (HMO) were measured at three different pH

values (pH 2.5, 3, and 3.5), using a quick X-ray absorption fine

structure spectroscopy (Q-XAFS) batch method. The calculated

rate constants were 0.201, 0.242, and 0.322 s-1 at pH 2.5, 3, and

3.5, respectively. These values were independent of both [Cr(III)]

and [Mn(II)] and mixing speed, suggesting that the reaction was

“chemically” controlled and not dependent upon diffusion at the

time period the rate parameters were measured.

This represents the first study to determine the chemical kinetics

of Cr(III) oxidation on Mn-oxides. The results have important

implications for the determination of rapid, environmentally

important reactions that cannot be measured with traditional batch

and flow techniques. An understanding of these reactions is

critical to predicting the fate of contaminants in aquatic and terrestrial

environments.

G. Landrot, M. Ginder-Vogel, and D. L. Sparks, “Kinetics of Chromium(III) Oxidation by Manganese(IV) Oxides Using Quick Scanning X-ray Absorption Fine Structure Spectroscopy (Q-XAFS)“, Environ. Sci, Technol., 44, 143-149

Work performed on beamline X18B

Cr(III) oxidation kinetics using a QXAFS technique, at pH 2.5, [Cr(III) ]=100mM, [HMO]=20g/L and 0-240 seconds. Each XANES spectrum shown represents 3 seconds of the reaction (average of four 0.75s spectra).

X18B

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