Abstract
Directed assembly of triblock copolymer worms to produce nanostructured fibers is achieved via colloid electrospinning. These copolymer worms are conveniently prepared by polymerization-induced self-assembly in concentrated aqueous dispersion. Addition of a second water-soluble component, poly(vinyl alcohol), is found to be critical for the production of well-defined fibers: trial experiments performed using the worms alone produce only spherical microparticles. Transmission electron microscopy studies confirm that the worm morphology survives electrospinning and the worms become orientated parallel to the main axis of the fibers during their generation. The average deviant angle (θdev ) between the worm orientation and fiber axis decreases from 17° to 9° as the worm/PVA mass ratio increases from 1.15:1 to 5:1, indicating a greater degree of worm alignment within fibers with higher worm contents and smaller fiber diameters. Thus triblock copolymer fibers of ≈300 ± 120 nm diameter can be readily produced that comprise aligned worms on the nanoscale.
Highlights
Controlled and directed assembly of nanoparticles has been used for the fabrication of metamaterials,[1] information storage,[2] and sensing devices.[3]
Our approach enables the combination of the well-known self-assembly of block copolymers with electrospinning in order to fabricate internally nanostructured fibers comprising oriented anisotropic copolymer nanoparticles
ABC triblock copolymer nanoparticles were prepared by polymerization-induced self-assembly (PISA), as reported recently.[25,26]
Summary
Directed assembly of triblock copolymer worms to produce nanostructured fibers is achieved via colloid electrospinning. These copolymer worms are conveniently prepared by poly merization-induced self-assembly in concentrated aqueous dispersion. Transmission electron microscopy studies confirm that the worm morpho logy survives electrospinning and the worms become orientated parallel to the main axis of the fibers during their generation. Triblock copolymer fibers of ≈300 ± 120 nm diameter can be readily produced that comprise aligned worms on the nanoscale.
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