Abstract
AbstractThe sections in this article areIntroductionNanofibrous ScaffoldsFabrication Methods for Nanofibrous ScaffoldsPhase SeparationSelf‐assemblyElectrospinningThe Electrospinning ProcessHistorySetupMechanism and Working ParametersProperties of Electrospun Nanofibrous ScaffoldsArchitecturePorosityMechanical PropertiesCurrent Development of Electrospun Nanofibrous Scaffolds in Tissue EngineeringEvidence Supporting the Use of Nanofibrous Scaffolds in Tissue EngineeringNanofibrous Scaffolds Enhance Adsorption of Cell Adhesion MoleculesNanofibrous Scaffolds Induce Favorable Cell–ECMInteractionNanofibrous Scaffolds Maintain Cell PhenotypeNanofibrous Scaffolds Support Differentiation of Stem CellsNanofibrous Scaffolds Promotein vivo‐like 3DMatrix Adhesion and Activate Cell Signaling PathwayBiomaterials Electrospun into Nanofibrous ScaffoldsNatural Polymeric Nanofibrous ScaffoldsSynthetic Polymeric Nanofibrous ScaffoldsComposite Polymeric Nanofibrous ScaffoldsNanofibrous Scaffolds Coated with Bioactive MoleculesEngineered Tissues using Electrospun Nanofibrous ScaffoldsSkinBlood VesselCartilageBoneMuscleLigamentNerveCurrent Challenges and Future DirectionsConclusion
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