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- Title
Kinetic and Mechanistic Aspects of the Chromic Acid Oxidation of D-Galactose in the Presence and Absence of Picolinic Acid Catalyst in Aqueous Micellar Acid Media.
- Authors
Das, Asim K.; Islam, Monirul; Das, Ruhi; Kar, Dalia
- Abstract
The kinetics and mechanism of the chromic acid oxidation of D-galactose in the presence and absence of picolinic acid (PA) in aqueous acid media have been determined under the conditions, [D - galactose]T » [CrVI]T at different temperatures. Under the kinetic conditions, HCrO4- has been found kinetically active in the absence of PA while in the PA catalysed path, a CrVI - PA complex has been established as the active oxidant. In the PA-catalysed path, the CrVI - PA complex receives a nucleophilic attack by the substrate to form a ternary complex which subsequently undergoes a redox decomposition through a two-electron transfer leading to a lactone (oxidised product) and a CrIV - PA complex. Then the CrIV - PA complex participates further in the oxidation of D-galactose and ultimately is converted into a CrIII - PA complex. In the uncatalysed path, a CrVI - substrate ester experiences an acid catalysed redox decomposition (2e-transfer) at the ratedetermining step. The uncatalysed path shows a second-order dependence on [H+]. Under the experimental conditions, both paths show first-order dependences on [D-galactose]T and [CrVI]T. The PA-catalysed path is first-order in [PA]T. These observations remain unaltered in the presence of externally added surfactants. The effect of surfactants like N-cetylpyridinium chloride (CPC, a cationic surfactant) and sodium dodecyl sulfate (SDS, an anionic surfactant), on both the uncatalysed and PA-catalysed paths have been studied. CPC retards both the uncatalysed and PA-catalysed path, while SDS accelerates the reactions. The observed micellar effects have been explained by considering the hydrophobic and electrostatic interactions between the reactants and surfactants.
- Subjects
SURFACE active agents; CHROMIC materials; OXIDIZING agents; OXIDATION-reduction reaction; DYNAMICS; CATALYST supports; CHEMICAL decomposition
- Publication
Progress in Reaction Kinetics & Mechanism, 2010, Vol 35, Issue 4, p387
- ISSN
1468-6783
- Publication type
Article
- DOI
10.3184/146867810X12894108189521