Hydrophilic
Hollow Molecularly Imprinted Polymer Microparticles with Photo- and
Thermoresponsive Template Binding and Release Properties in Aqueous
Media
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Abstract
A facile, general, and efficient
approach to prepare hydrophilic hollow molecularly imprinted polymer
(MIP) microparticles with photo- and thermoresponsive template binding
and release behaviors in aqueous media is described, which includes
the preparation of uniform “living” silica submicrospheres
bearing surface atom transfer radical polymerization (ATRP)-initiating
groups (i.e., alkyl halide groups) via a one-pot sol–gel method,
their subsequent grafting of azobenzene (azo)-containing MIP shell
and poly(<i>N</i>-isopropylacrylamide)-<i>block</i>-poly(2-hydroxyethyl methacrylate) (PNIPAAm-<i>b</i>-PHEMA)
brushes via successive surface-initiated ATRP, and final removal of
the silica core. The successful synthesis of such hydrophilic hollow
MIP microparticles was confirmed with SEM, FT-IR, water dispersion
stability, and static contact angle studies. They proved to show apparently
higher template binding capacities than the corresponding solid ones
and obvious photo- and thermoresponsive template binding properties
in aqueous solutions. Moreover, their pronounced light- and temperature-controlled
template release in aqueous media was also demonstrated. In particular,
the introduction of PNIPAAm-<i>b</i>-PHEMA brushes onto
hollow MIP microparticles imparted them with high surface hydrophilicity
both below and above the lower critical solution temperature of PNIPAAm,
which paves the way for their applications in such areas as controlled
drug/chemical delivery and smart bioanalysis