M. Pettine scite author profile

The rates of the reduction of Cr(VI) with H2O2 were measured in NaCl solutions as a function of pH (1.5-4.8), temperature (5-40 degrees C), and ionic strength (I = 0.01-2 M) in the presence of an excess of reductant. The rate of Cr(VI) reduction is described by the general expression -d[Cr(VI)]/dt = k2[Cr(VI)](m)[H2O2](n)[H+](z), where m = 1 and n and z are two interdependent variables. The value of n is a function of pH between 2 and 4 (n = (3 x 10(a))/(1 + 10(a)), where a = -0.25 - 0.58pH + 0.26pH2) leveling off at pH < 2 (where n approximately = 1) and pH > 4 (where n approximately = 3). The rates of Cr(VI) reduction are acid-catalyzed, and the kinetic order z varies from about 1.8-0.5 with increasing H2O2 concentration, according to the equation z = 1.85 - 350.1H2O2 (M) which is valid for [H2O2] < 0.004 M. The values of k2 (M(-(n+z)) min(-1)) are given by k2 = k/[H+](z) = k1/[H2O2](n)[H+](z), where k is the overall rate constant (M(-n) min(-1)) and k, is the pseudo-first-order rate constant (min(-1)). The values of k in the pH range 2-4 have been fitted to the equation log k = 2.14pH - 2.81 with sigma = +/- 0.18. The values of k2 are dependent on pH as well. Most of the results with H2O2 < 3 mM are described by log k2 = 2.87pH - 0.55 with sigma = +/- 0.54. Experimental results suggest that the reduction of Cr(VI) to Cr(III) is controlled by the formation of Cr(V) intermediates. Values of k2 and k calculated from the above equations can be used to evaluate the rates of the reaction in acidic solutions under a wide range of experimental conditions, because the rates are independent of ionic strength, temperature, major ions, and micromolar levels of trace metals (Cu2+, Ni2+, Pb2+). The application of this rate law to environmental conditions suggests that this reaction may have a role in acidic solutions (aerosols and fog droplets) in the presence of high micromolar concentrations of H2O2.

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Reduction of chromium (VI) with hydrogen sulfide in NaCl media

Pettine

1994

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Chromium speciation in seawater: The probable role of hydrogen peroxide

Pettine

Millero

1990

Limnology & Oceanography

116

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M. Pettine

The reduction of chromium (VI) by iron (II) in aqueous solutions

Arsenite oxidation by H2O2 in aqueous solutions

Reduction of Hexavalent Chromium by H₂O₂ in Acidic Solutions

Reduction of chromium (VI) with hydrogen sulfide in NaCl media

Chromium speciation in seawater: The probable role of hydrogen peroxide

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M. Pettine

The reduction of chromium (VI) by iron (II) in aqueous solutions

Arsenite oxidation by H2O2 in aqueous solutions

Reduction of Hexavalent Chromium by H2O2 in Acidic Solutions

Reduction of chromium (VI) with hydrogen sulfide in NaCl media

Chromium speciation in seawater: The probable role of hydrogen peroxide

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Product

Resources

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Reduction of Hexavalent Chromium by H₂O₂ in Acidic Solutions