Block Copolymer Micelles
with a Dual-Stimuli-Responsive
Core for Fast or Slow Degradation
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Abstract
We report the design and demonstration of a dual-stimuli-responsive
block copolymer (BCP) micelle with increased complexity and control.
We have synthesized and studied a new amphiphilic ABA-type triblock
copolymer whose hydrophobic middle block contains two types of stimuli-sensitive
functionalities regularly and repeatedly positioned in the
main chain. Using a two-step click chemistry approach, disulfide and <i>o</i>-nitrobenzyle methyl ester groups are inserted into the
main chain, which react to reducing agents and light, respectively.
With the end blocks being poly(ethylene oxide), micelles formed by
this BCP possess a core that can be disintegrated either rapidly via
photocleavage of <i>o</i>-nitrobenzyl methyl esters or slowly
through cleavage of disulfide groups by a reducing agent in the micellar
solution. This feature makes possible either burst release of an encapsulated
hydrophobic species from disintegrated micelles by UV light, or slow
release by the action of a reducing agent, or release with combined
fast-slow rate profiles using the two stimuli