The anaerobic oxidation of dopamine and 5-hydroxydopamine by iron(III) in acid aqueous solution

The kinetics of oxidation of L-ascorbic acid (H2A) by the mononuclear complex [Co(NH3)5(OH2)] (C103) 3 have been studied spectrophotometrically at 490nm. The mechanism involves single one-electron transfers involving the pentaamminehydroxo complex and the ascorbate anions (HA-and A 2 ), subsequent f

The reaction kinetics and mechanism of the oxidations of leucomethylene blue (MBH) and leucothionine (TH) by iron (III) sulfate in aqueous solution were studied spectrophotometrically by the stopped-flow technique. MBH and TH, which were freshly prepared by photoreduction of methylene blue and thion

The copper-catalyzed oxidation of hydrazine by iron(II1) in acid solution follows the rate law -d[Fe(III)]/dt = ~K~[CU(II)]~/(K~ + [H+]), where Kh is the hydrolysis constant of Cu2+, k was found t o be 8.8f0.8, 13.2f1.4 and 17.5f1.3 min-' at 35, 40, and 45OC respectively and p= 0.2 mol/L. The compos

## Abstract The mechanism by which an excess of iron(II) ion reacts with aqueous chlorine dioxide to produce iron(III) ion and chloride ion has been determined. The reaction proceeds via the formation of chlorite ion, which in turn reacts with additional iron(II) to produce the observed products. T