Design of nano- and micro-structured molecule-responsive hydrogels

Abstract

Stimuli-responsive hydrogels have attracted considerable attention for use as smart materials, such as in molecular sensors and drug delivery systems. With a focus on their crosslinking density, we have prepared various molecule-responsive hydrogels that undergo volume changes in response to target molecules based on the association/dissociation of molecular complexes that act as crosslinkers. Recent developments in polymerization techniques enabled us to design various types of polymer nanomaterials. This focus review provides a short overview of our recent studies on the nano- and micro-structured molecule-responsive hydrogels prepared using various polymerization techniques, such as photopolymerization, surface-initiated atom transfer radical polymerization and soap-free emulsion polymerization. The nano- and micro-structured molecule-responsive hydrogels showed not only rapid swelling/shrinkage in response to a target molecule owing to their large surface area but also smart functions, such as autonomous molecule-responsive microchannel flow regulation and highly sensitive detection of a target molecule. The smart functions of nano- and micro-structured molecule-responsive hydrogels can provide tools for constructing, for example, sensors, microdevices and smart biomaterials. Our recent studies on the nano- and micro-structured molecule-responsive hydrogels are summarized. The nano- and micro-structured molecule-responsive hydrogels exhibited rapid swelling/shrinkage behavior in response to a target molecule based on the association/dissociation of molecular complexes that act as crosslinkers. In addition, these hydrogels showed smart functions, such as autonomous molecule-responsive microchannel flow regulation and highly sensitive detection of a target molecule. The smart functions of nano- and micro-structured molecule-responsive hydrogels can provide tools for constructing sensors, microdevices and smart biomaterials.