Kinetic and Mechanistic Pathway of Electron Transfer React ions: Pyridine Oxidation by Peroxomonophosphoric Acid in Acidic Aqueous Medium

Title:Kinetic and Mechanistic Pathway of Electron Transfer React ions: Pyridine Oxidation by Peroxomonophosphoric Acid in Acidic Aqueous Medium

Volume: 14 Issue: 2

Author(s): A. Agarwal and A. Meena*

Affiliation:

• Department of Chemistry, Jai Narain Vyas University, Jodhpur, India

Keywords: Electron transfer reaction, kinetics, mechanism, pyridine, peroxomonophosphoric acid, medium.

Abstract: The kinetic and mechanistic pathways of pyridine oxidation by peroxomonophosphate has been studied in an acidic aqueous medium. Reactions of peroxomonophosphoric acid are the least exploited kinetically. This reaction has been attempted to understand the role of oxidation of pyridine and the reactivity pattern of peroxomonophosphate. The reaction has been second order and First-order concerning the oxidant and substrate, respectively. The reaction rate showed a decreasing effect with increasing hydrogen ion concentration. Considering peroxomonophosphate reactions as non-chain reactions and all the results, a feasible mechanism for the reaction has been suggested. The calculated energy of activation and entropy of activation has been observed conventionally to be 80 ± 5 kJ mol^-1 and – 45 ± 6 JK^-1 mol^-1. The oxidation product was pyridine-N-oxide in this reaction.

Cite this article as:

Agarwal A. and Meena A.*, Kinetic and Mechanistic Pathway of Electron Transfer React ions: Pyridine Oxidation by Peroxomonophosphoric Acid in Acidic Aqueous Medium, Current Physical Chemistry 2024; 14 (2) . https://dx.doi.org/10.2174/0118779468262862231220094220