Anodically generated manganese(III) acetate for the oxidation of α — amino acids in aqueous acetic acid: A kinetic study

Manganese(III) acetate was prepared by the electrolytic oxidation of Mn(OAc)2 in aqueous AcOH. The electrogenerated manganese(III) species was characterised by spectroscopic and redox potential studies. The kinetics of oxidation of pyridoxine (PRX) by manganese(III) in aqueous AcOH were investigated

Manganese(III) solutions were prepared by known electrochemical methods in sulfuric acid, acetic acid, and pyrophosphate media. The nature of the oxidizing species present in manganese(III) solutions was characterized by spectrophotometric and redox potential measurements. Kinetics of oxidation of L

The kinetics of oxidation of c~,/?-unsaturated alcohols (UA's), such as prop-2-ene-l-ol, but-2-ene-l-ol and 3phenyl-prop-2-ene-l-ol, by manganese(III) acetate in aqueous H2SO 4 at constant ionic strength and different acidities has been studied. The reaction was found to proceed through an outer sph

Kinetics of oxidation of L-aspartic acid and L-glutamic acid by manganese(II1) ions have been studied in aqueous sulphuric acid, acetic acid, and pyrophosphate media. Manganese(II1) solutions were prepared by known electrolytidchemical methods in the three media. The nature of the oxidizing species

The kinetics of oxidation of some neutralized ␣-hydroxy compounds such as glycolic (GA), lactic (LA), ␣-hydroxyisobutyric(IB), mandelic (MA), atrolactic (AL), and benzilic (BA) acids by tetrachloroaurate(III) have been studied. The substrates are oxidized to give formaldehyde, acetaldehyde, acetone,