Kinetic study on the effects of mixed nonionic–cationic micelles on the rate of alkaline hydrolysis of N-hydroxyphthalimide

## Pseudo -first-order rate constants (k obs ) for alkaline hydrolysis of 4-nitrophthalimide show a monotonic decrease with increase in [C 12 E 23 ] T (total concentration of Brij 35) at constant [CH 3 CN] and [NaOH]. This micellar effect is explained in terms of a pseudophase micelle model. The r

The effects of the concentrations of LiCI, NaCl, KC1, CsCl, NaZCO3, BaC12, and Me4NCI on the rates of reactions of hydroxide ion with ionized N-hydroxyphthalimide (NHP) at 30°C and in a HzO-MeCN solvent containing 98%, v/v, HzO reveal a nonlinear increase in observed rate constants with increase in

The effects of Brij 35 micelles, CTABr micelles, and mixed Brij 35-CTABr micelles on the acid-base behavior of phenyl salicylate (PST) have been studied in aqueous solution containing 2% v/v acetonitrile. The apparent pK(b) (pK(app)(b)) of PST is decreased by 1.5 pK units with the increase in [Brij

## Abstract The nucleophilic second‐order rate constant (__k__~OH~) for the reaction of ŌH with ionized __N__‐hydroxyphthalimide (S^−^) appears to follow a reaction mechanism similar to that for reactions of ŌH with neutral phthalimide and its __N__‐substituted derivatives. Kinetically indistinguis

The reaction mechanisms of the alkaline hydrolysis of N-methylcarbamates were studied using the AM1 method by assuming two possible pathways: (1) nucleophilic attack of hydroxide ion on the car-bony1 carbon to give a tetrahedral complex followed by its breakdown to carbamic acid (BA,~); and (2) prot