A simple route to prepare pomegranate‐like polystyrene‐based microspheres with high porosity

Abstract

AbstractPomegranate‐like polystyrene‐based microspheres with high porosity were successfully prepared via a simple route involving two steps. The first step was the preparation of polystyrene‐based microspheres with multi‐cores and a non‐porous shell via suspension polymerization of divinylbenzene and vinylbenzyl chloride. Nitrogen sorption failed to characterize the pore structure of the microspheres because of the non‐porous shell, but the results of Hg intrusion indicated that the pore volume of the microspheres was 0.36 cm3 g−1. The second step was post crosslinking of the microspheres derived from the first step. Extensive porosity was generated in the shell and the pomegranate‐like structure of the microspheres remained almost unchanged. The results showed that the pore volumes of the final products derived from N2 sorption and Hg intrusion were 0.54 cm3 g−1 and 0.66 cm3 g−1, respectively. Overall, this provides a simple and feasible route to biomimetic preparation of pomegranate‐like polystyrene‐based microspheres with high porosity. Copyright © 2011 Society of Chemical Industry