Core–shell electrospun fiber architecture used as a nanoreactor to synthesize conjugated polymers

Abstract: Chemical reactions in a confined nanometer-sized space can have a dramatic impact on conversion, reaction rate and macromolecular texture. In this work, the idea of synthesizing conjugated polymers (polyaniline, PANI) within the core of a core-shell submicron electrospun fiber was tested. To this end, acrylamide/acrylic acid solution containing ammonium persulfate was photopolymerized during electrospinning to prepare the shell of a core-shell electrospun fiber, while the core was produced based on an aniline-… Show more

“…Since it is known that interfacial oxidative polymerization produces nanofibers [ 72 ], nanocomposites made of PANIs nanofibers dispersed in cPAM can be generated [ 73 ]. Miranda et al electrospun core–shell fibers of PAAm-PAA in which the core contained aniline and the shell APS [ 74 ]. The formation of PANI occurred during electrospinning.…”

Functional Materials Made by Combining Hydrogels (Cross-Linked Polyacrylamides) and Conducting Polymers (Polyanilines)—A Critical Review

“…Since it is known that interfacial oxidative polymerization produces nanofibers [ 72 ], nanocomposites made of PANIs nanofibers dispersed in cPAM can be generated [ 73 ]. Miranda et al electrospun core–shell fibers of PAAm-PAA in which the core contained aniline and the shell APS [ 74 ]. The formation of PANI occurred during electrospinning.…”

Functional Materials Made by Combining Hydrogels (Cross-Linked Polyacrylamides) and Conducting Polymers (Polyanilines)—A Critical Review