Journal
INTERNATIONAL JOURNAL OF CHEMICAL KINETICS
Volume 53, Issue 11, Pages 1220-1227Publisher
WILEY
DOI: 10.1002/kin.21527
Keywords
chloride periodate bridge; chromium(III); chromium(V); hydroxide bridge; inner sphere; kinetics; mechanism; two-electron transfer
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The kinetics of oxidation of a chromium coordination compound in aqueous acidic solution by periodate has been investigated, revealing a reaction proceeding through two parallel pathways with different dependencies on factors such as pH and periodate concentration. The thermodynamic parameters of the processes involved were reported, and it was concluded that the reaction proceeds via a one-step two-electron transfer mechanism.
The kinetics of oxidation of [(CrCl2)-Cl-III(phen)(H2O)(2)]C.2H(2)O (phen = 1,10-phenanthroline) by periodate {I(VII)} have been studied in aqueous acidic solutions. The oxidation product has been isolated and characterized by elemental analysis, IR, and ESR as [(CrCl2)-Cl-V(phen)(O)]C.1.5H(2)O. Under pseudo-first-order conditions, the reaction showed first-order dependence on the initial Cr(III) complex concentration. At fixed reaction conditions, the dependence of k(obs) on [I(VII)] showed saturation kinetics. The rate constant, k(obs), increased with increasing pH, indicating that the hydroxo form of the chromium(III) complex is the most reactive species. A plot of k(obs)([H+] + K-1) versus [H+] is linear with an intercept, indicating that the reaction proceeds via two parallel pathways. One pathway is independent of [H+] and the other on [H+](-1). Since water is known to be a very weak bridging ligand, the pathway involving the aqua form of the complex, almost certainly, is bridged to periodate via the chloro ligand of the chromium(III) complex. The thermodynamic parameters of the processes involved are reported. A one-step two-electron transfer via an inner-sphere mechanism has been assigned to the two pathways based on the form of the rate law
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