Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5208228 | Progress in Polymer Science | 2014 | 69 Pages |
Abstract
Compared with other nanofiber fabrication processes, electrospinning is versatile and superior in production and construction of ordered or more complex nanofibrous assemblies. Besides traditional two-dimensional (2D) nanofibrous structures, electrospinning is powerful in fabrication of three-dimensional (3D) fibrous macrostructures, especially for tissue engineering applications. This article summarizes and reviews recent advances in various promising and cutting-edge electrospinning techniques, including multilayering electrospinning, post-processing after electrospinning, liquid-assisted collection, template-assisted collection, porogen-added electrospinning, and self-assembly. And their formation mechanisms, features, and the challenges of electrospinning have also been discussed. Furthermore, these 3D nanofibrous macrostructures have been demonstrated to have potential applications in tissue engineering, energy harvesting and storage, and filtration.
Keywords
PGADSSCPLARGDTricalcium phosphatePAMPsμCTPVPPPVThree-dimensionalEDCPCLPHBVHUVECGAGPLLAArg-Gly-AspPoly (3-hydroxybutyrate-co-3-hydroxyvalerate)PLGAPLAGAPVAECMMTTPoly(p-phenylenevinylene)ElectrospinningFiltrationtwo dimensionalHuman umbilical vein endothelial cellDye sensitized Solar cellSilk fibroinTCPExtracellular matrixPANTissue engineeringHydroxyapatitePolyacrylonitrilePoly(L-lactic acid)Poly(ɛ-caprolactone)Poly(lactic acid-co-glycolic acid)poly(glycolic acid)poly(lactide-co-glycolide)Poly(lactic acid)poly(ethylene oxide)polyvinyl alcoholpolyvinyl pyrrolidonePolystyrenePolyurethanePEOHApGlycosaminoglycanone-dimensional
Related Topics
Physical Sciences and Engineering
Chemistry
Organic Chemistry
Authors
B. Sun, Y.Z. Long, H.D. Zhang, M.M. Li, J.L. Duvail, X.Y. Jiang, H.L. Yin,