论文信息 - Electrostatic fabrication of ultrafine conducting fibers: polyaniline/polyethylene oxide blends

Electrostatic fabrication of ultrafine conducting fibers: polyaniline/polyethylene oxide blends

Abstract Ultrafine fibers of polyaniline doped with camphorsulfonic acid (PAn.HCSA) blended with polyethylene oxide (PEO) were prepared by a non-mechanical, electrostatic spinning (“electrospinning”) technique. The morphology and fiber diameter of electrospun polyaniline blend fibers revealed that both the PEO and the PAn.HCSA/PEO blend fibers had a diameter ranging between 950 nm and 2.1 μm, with a generally uniform thickness along the fiber. The UV–visible spectra of these electrospun fibers were similar to those for cast films produced from the same solutions. As expected, the conductivity of the non-woven fiber mat, as measured by the four-point probe method, was slightly lower than that of a cast film, due to the high porosity of the non-woven mat. The rate for the vapor phase de-doping/re-doping of the electrospun fibers is at least one order of magnitude faster than for cast films, stressing the enormous effect an increase in the surface-to-volume ratio, accomplished by electrospinning the material into fibers, can have on the selected chemical properties of polyaniline blends.

[1] B. Furman,et al. LiCl induced morphological changes in polyaniline base and their effect on the electronic properties of the doped form , 1996 .

[2] Darrell H. Reneker,et al. Beaded nanofibers formed during electrospinning , 1999 .

[3] Holger Schönherr,et al. Chain Packing in Electro-Spun Poly(ethylene oxide) Visualized by Atomic Force Microscopy , 1996 .

[4] Darrell H. Reneker,et al. Carbon nanofibers from polyacrylonitrile and mesophase pitch , 1999 .

[5] Darrell H. Reneker,et al. Electrospinning process and applications of electrospun fibers , 1995 .

[6] C. O. Yoon,et al. Electrical transport in conductive blends of polyaniline in poly(methyl methacrylate) , 1994 .

[7] D. Reneker,et al. Nanometre diameter fibres of polymer, produced by electrospinning , 1996 .

[8] J. Travers,et al. ELECTRONIC CONDUCTION IN POLYANILINE-POLYETHYLENE OXIDE AND POLYANILINE-NAFION BLENDS : RELATION TO MORPHOLOGY AND PROTONATION LEVEL , 1997 .

[9] R. Jaeger,et al. Electrospinning of ultra-thin polymer fibers , 1998 .

[10] Huang,et al. Polaron lattice in highly conducting polyaniline: Theoretical and optical studies. , 1987, Physical review letters.

[11] A. Epstein,et al. The concept of secondary doping as applied to polyaniline , 1994 .

[12] Donald Rivin,et al. Electrospun fiber mats: Transport properties , 1999 .

[13] A. Epstein,et al. Aggregation and molecular conformation of doped polyaniline in chloroform solution , 1997 .