Effect of 1-pentanol on the styrene emulsion polymerization

Abstract

The influence of 1-pentanol (C 5OH) on the ST emulsion polymerization mechanisms and kinetics is investigated. The CMC of the ST emulsions first decreases rapidly and then levels off when the C 5OH concentration ([C 5OH]) increases from 0 to 72 mM. The effect of C 5OH increases to a maximum and then decreases when the SDS concentration ([SDS]) increases from 2 to 18 mM. At [SDS]=2 mM, homogeneous nucleation controls the polymerization kinetics regardless of [C 5OH]. At [SDS]=4 mM, the effect of [C 5OH] appears due to the transition from homogeneous nucleation to a mixed mode of particle nucleation (homogeneous nucleation and micellar nucleation) occurs when [C 5OH] increases from 0 to 72 mM. The effect of [C 5OH] is the strongest at [SDS]=6 mM since the particle nucleation mechanisms span homogeneous nucleation (low [C 5OH]), a mixed mode of particle nucleation (homogeneous nucleation and micellar nucleation) (medium [C 5OH]) and micellar nucleation (high [C 5OH]). At [SDS] >6 mM, in which micellar nucleation controls the polymerization kinetics, the effect of [C 5OH] decreases rapidly with increasing [SDS].