Kinetics and mechanism of chlorine exchange between chloramine-T and secondary amines

The kinetics and the equilibrium constant of the chlorine transfer reaction between monochloramine NH2C1 and the amines: C2H5NH2, (CH&CHNH,, (CH3)nNH, and (C2H&NH are investigated by spectrophotometry in aqueous medium at 25"C, in the pH range from 8 to 13 and for a n ionic strength equal to 1.03 t

The determination of the rate and pH dependency of chlorination of amino acids by chloramine-T (CAT) using the model compounds beta-alanine, L-alanine, and L-alanine ethyl ester was investigated. The reactions were studied under pseudo-first-order conditions where the amino acid concentration was in

## Abstract The kinetics of chlorination of toluene, __o__‐methyl toluene, __p__‐methyl toluene, __m__‐methyl toluene, and __m__‐chlorotoluene by chloramine‐T(CAT) in aqueous acetic acid in the presence of HClO~4~ have been studied. The reaction is first order with respect to [CAT] as well as [H^+^

Kinetics of oxidation of cinnamaldehyde (Cinn) by chloramine-T (CAT) has been studied in solutions containing HCl and H2S04 at 313 K. The respective experimental rate laws obtained in HCl and HZS04 media are as follows: (1) and Here the value of x varies from 0.9 to zero while the values of y and

## Abstract The kinetics of oxidation of dimethyl sulfoxide (DMSO) by chloramine‐T (CAT) is studied in HClO~4~ and NaOH media with OsO~4~ as a catalyst in the latter medium. In acid medium, the rate law is ‐__d__ [CAT]/__dt__ = __k__ [CAT][DMSO][H^+^]. Alkali retards the reaction and the rate law t