Disproportionation Kinetics of N-Chloromethylamine and N-Chloroethylamine

The kinetics of the disproportionation of N -C1-n-propylamine and N-C1-isopropylamine to the corresponding N, N-dichloramines were found to be a second order with respect to the N-chloramine. The influence of amine concentration, pH, buffers, ionic strength, and temperature were also studied. The ob

The formation of N-chlorobutylamines is a reaction of order one with respect to hypochlorite and amine, and order -1 with respect to OH-. Kinetic studies show that N-chlorobutylamines undergo decomposition in basic aqueous media, and disproportionation (with formation of N,N-dichloramines) in acidic

The tripeptide alanylalanylalanine reacts with either HOCl or HOBr to form a N, Ndihalopeptide. These compounds decompose to the N-halo-N'-(a-iminoket0)peptides plus halide ion. The rate constants for these reactions in 0.4-M NaCl were determined to be (PH 6.7) k4 = 1.06 x 1015e 18,400'RT min-' (PH

A kinetic study of the decomposition reactions of N-bromoalanine, N-bromo-2-aminobutyric acid, and N-bromonorvaline shows them to be first-order with respect to N-bromoaminoacid concentration and independent of both excess aminoacid and pH over the interval pH 9-11. In this pH range the mean rate co

## Abstract Kinetics of the hydrolytic disproportionation of I~2~ equation image was studied by UV–VIS spectrophotometry at 298 K and at the ionic strength 0.2 M (NaClO~4~) in buffered solutions in the pH range 8.91–10.50 at different initial iodide concentrations. The characterization of this re

This paper provides a theoretical survey and further experimental data of kiietically controlled stationary dark and photocurrents on n-GaAs and n-Gap electrodes. The mechanism of anodic photodissolution is treated in greater detail, taking explicitly into account a sequence of kinetic steps. The po