Kinetics and Mechanism of Oxidation of Fe2+ by the Tris(biguanide)manganese(IV) Ion in Aqueous Acid Media

## Abstract The kinetics of a net two‐electron transfer between an authentic Mn^IV^ complex, [Mn(bigH)~3~]^4+^ (__Fig. 1__; bigH = biguanide = C~2~N~5~H~7~), and nitrite in aqueous solution in the pH interval 2.00–3.60 is described. Stoichiometric data for the reaction clearly indicates Δ[Mn^IV^]/Δ

The title Mn IV complex, [Mn(LH 2 ) 3 ] 4 (LH 2 biguanide H 2 NC( NH)NHC( NH)NH 2 ), an authentic two-electron oxidant, quantitatively oxidizes hydrazine (H 2 NNH 2 ) to dinitrogen in the pH interval 2.00 ± 3.50. The net four-electron oxidation of hydrazine is provided by two Mn IV as established by

The reaction between formic acid and bromine in strongly acid aqueous media at 298 K Brz + HCOOH -2 Br-+ 2 H+ + COz was studied by absorption spectrophotometry (A = 447 nm). Reaction rates, expressed as H = -d[Brz]/dt, depend on the concentrations of HCOOH (0.3-2.4M), Br2[(2.7-13.6) X 10-3M], H+ (0.

The kinetics of oxidation of ethanol by cerium(1V) in presence of ruthenium(II1) (in the order of mol dm-3) in aqueous sulfuric acid media have been followed at different temperatures (25-40°C). The rate of disappearance of cerium(1V) in the title reaction increases sharply with increasing [CzH50H]