1 research outputs found
Reduction-Controlled Release of Organic Nanoparticles from Disulfide Cross-linked Porous Polymer
Reduction-controlled
release is favored for many applications.
The cleavage of disulfide bonds is known to be sensitive to reducing
agents. Here, a cross-linker containing a disulfide bond is prepared
and then used to prepare cross-linked porous polymer via an emulsion
templating approach. Oil-in-water (O/W) emulsions are first formed
where an organic dye is dissolved in the oil droplet phase and monomer/cross-linker/surfactant
are added into the continuous aqueous phase. By polymerizing the O/W
emulsion followed by freeze-drying, organic nanoparticles are formed <i>in situ</i> within the disulfide-cross-linked porous polymer.
The release of organic nanoparticles in water is demonstrated and
can be tuned by the presence of reducing agents such as dithiothreitol
and tris(2-carboxyethyl)phospine. This approach has the potential
to be used for the reduction-controlled release of poorly water-soluble
drug nanoparticles from porous polymers or hydrogels