Composite Tectocapsules Containing Porous Polymer Microspheres as Release Gates
Lisa M. Croll, Harald D. H. Stöver and Adam P. Hitchcock
Department of Chemistry, McMaster University, Hamilton, Ontario, Canada L8S
4M1
Received October 16, 2003; Revised Manuscript Received January 10, 2005
ABSTRACT: Porous and amphiphilic polymer microspheres were incorporated into polyurea capsules in order to control the release of the core solvents independently of wall formation. While nonpolar poly- (divinylbenzene-55) microspheres were simply encapsulated along with the xylene core solvent, the amphiphilic poly(divinylbenzene-55-alt-maleic anhydride) microspheres, as well as maleic acid functionalized poly(divinylbenzene-55) microspheres, became embedded at the polyurea-water interface. Release of xylene from these microcapsules into air was monitored at room temperature and 50 °C. Release profiles change significantly upon addition of amphiphilic porous microspheres, with the release rates scaling with microsphere loading. Scanning transmission X-ray spectromicroscopy (STXM) indicates that the polyurea is largely excluded from the pores of the microspheres.
10.1021/ma035564c CCC:© 2005 American Chemical Society