Rates of hydrolyses of p-nitrophenyl acetate, hexanoate, and octanoate in borate buffer solutions at 30 °C are 2.3-16.5 times faster in the presence of 1.2 mg mL -1 quaternary ammonium ion exchange latex particles than those obtained in water alone. The latexes were constructed by emulsion copolymerization of styrene, butyl methacrylate, or 2-ethylhexyl methacrylate with 25 wt % vinylbenzyl chloride (VBC), 1% divinylbenzene, and 1% styrylmethyl(trimethylammonium chloride) followed by quaternization of the VBC units with either trimethylamine or tributylamine. Analysis of the kinetics as a function of particle concentration, pH, and buffer concentration using an ion-exchange model provided partition coefficients of the p-nitrophenyl esters, intraparticle second-order rate constants, and ion-exchange selectivity coefficients. The major contributors to the enhanced rates are the partition coefficient favoring absorption of the p-nitrophenyl ester into the latex by a factor as large as 90 000 and intraparticle hydroxide concentrations up to 10 times higher than those obtained in the external water. The intraparticle secondorder rate constants differ little from those in water.
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