| Description |
XII, 244 S. : 161 schw.-w. illustrations, 12 farb. illustrations |
| Contents |
Contents note continued: 2.2.4.The Deposition Process -- 2.3.Theoretical Analysis of the Nature of the Electrospinning Processes -- 2.3.1.Droplet Deformation and Onset of Jetting -- 2.3.2.Linear Path of the Jet -- 2.3.3.The Path of the Jet Submitted to Bending -- 2.3.4.Deposition on a Substrate -- 2.3.5.Onset of Further Instabilities -- 2.3.6.Branching Processes -- 2.4.Nature of the Electrospinning Process-Important Facts to Remember -- References -- 3.Nanofiber Properties -- 3.1.Parameters Controlling Nanofiber Formation -- 3.2.Short Account on Methods of Analysis for the Structure of Electrospun Nanofibers -- 3.2.1.Analysis of Fiber Geometry and Topology -- 3.2.2.Analysis of the Internal Fiber Morphology -- 3.3.Control of Nanofiber Diameters -- 3.3.1.The Feeding Rate -- 3.3.2.Concentration of Polymer Spinning Solution -- 3.3.3.Electrical Parameters: Applied Voltage, Electrode Distance, Conductivity -- 3.3.4.Additional Factors -- 3.3.5.Mixtures of Solvents/Nonsolvents -- |
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Contents note continued: 3.4.Shape of the Fibers -- 3.5.Nanofiber Topologies, Porous Fibers -- 3.6.Nanofiber Trajectories in the Deposition Plane -- 3.7.Internal Morphology of Electrospun Nanofibers -- 3.7.1.Amorphous Polymers -- 3.7.2.Partial Crystalline Nanofibers -- 3.8.Mechanical Properties of Single Nanofibers -- 3.9.Nanofiber Properties-Important Facts to Remember -- References -- 4.Nonwovens Composed of Electrospun Nanofibers -- 4.1.Nanofiber Nonwovens-Functional Elements for Technical Applications -- 4.2.Methods of Analysis for Properties on Nonwovens -- 4.2.1.Nonwoven Architecture and Total Porosity -- 4.2.2.Analysis of Pore Sizes -- 4.2.3.Internal Specific Surface and Permeation Coefficient -- 4.2.4.Permeation Coefficient -- 4.3.Fiber Arrangements in Nonwovens -- 4.4.Heterogeneous Nonwovens -- 4.5.Porosity and Pore Structures-Theoretical Modeling and Experimental Analysis -- 4.5.1.Prediction of Monte Carlo Simulations -- 4.5.2.Experimental Results -- |
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Contents note continued: 4.5.3.Nonwoven with Unimodal Fiber Diameter Distribution -- 4.5.4.Comparisons of Experimental Results with Theoretical Predictions -- 4.6.Mechanical Properties of Nonwovens -- 4.7.Nonwovens Composed of Electrospun Nanofibers-Important Facts to Remember -- References -- 5.Electrospinning-Some Technical Aspects -- 5.1.Technical Setups for Creating Jets -- 5.1.1.Some Technical Details -- 5.1.1.1.The Die -- 5.1.2.High-Voltage Supply -- 5.1.3.Counterelectrode -- 5.1.4.Spinning Chamber -- 5.1.5.Multiple-Die Setups -- 5.1.6.Die-Free Multiple-Jet Injection -- 5.2.Designs of Counterelectrode Configurations Allowing Preparation of Nonwovens with a Broad Range of Architecture -- 5.3.Electrospinning-Some Technical Aspects-Important Facts to Remember -- References -- 6.Modification of the Electrospinning Technique -- 6.1.Towards Advanced Modes of Fiber Preparation and Deposition -- 6.2.Near-Field Electrospinning-High-Precision Deposition Electrospinning -- |
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Contents note continued: 6.2.1.Deposition of Individual Fibers -- 6.2.2.Deposition of Nonwoven Test Pattern -- 6.2.3.Deposition of Precision Nonwovens Paths -- 6.3.Towards Core-Shell and Hollow Fibers -- 6.3.1.Coelectrospinning/Coaxial Electrospinning -- 6.3.2.Core-Shell Fibers and Hollow Fibers via a Template (TUFT Approach) -- 6.3.3.Background Information -- 6.4.Modification of the Electrospinning Technique-Important Facts to Remember -- References -- 7.Materials Considerations -- 7.1.Introduction -- 7.1.1.Background Information -- 7.1.1.1.Solutions and Dispersions -- 7.1.1.2.Bioerodible and Biostable Polymers -- 7.2.Spinning from Organic Solvents -- 7.3.Spinning of Water-Soluble Polymers -- 7.4.Spinning of Biopolymers -- 7.5.Spinning of Complex Polymer Systems -- 7.5.1.Background Information -- 7.6.Nanofibers from Polymer Hybrids, Metals, Oxides -- 7.7.Melt Spinning -- 7.8.Materials Considerations-Important Facts to Remember -- References -- |
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Contents note continued: 8.Technical Applications of Electrospun Nanofibers -- 8.1.Nanofibers, Nanofiber Nonwovens-Elements of Nanotechnology -- 8.2.Filter Applications -- 8.2.1.Basic Processes Controlling Filter Efficiencies -- 8.2.2.Effect of Nanostructuring -- 8.3.Textile Applications -- 8.4.Catalysis -- 8.5.Nanofiber Reinforcement -- 8.5.1.Background Information -- 8.5.2.Molecular/Nanofiber-Based Approach -- 8.6.Surface Modifications -- 8.7.Template Applications -- 8.8.Plant Protection via Pheromones -- 8.8.1.Background Information -- 8.8.2.Nanofiber-Based Approach -- 8.9.Technical Applications-Important Facts to Remember -- References -- 9.Medicinal Applications for Electrospun Nanofibers -- 9.1.Nanotechnology and Medicinal Applications in General -- 9.2.Tissue Engineering -- 9.2.1.Background Information -- 9.3.Wound Healing -- 9.4.Transport and Release of Drugs -- 9.4.1.Model Experiment on siRNA Transfection -- 9.4.2.Application in Tumor Therapy -- |
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Contents note continued: 9.4.3.Inhalation Therapy -- 9.5.Nanotechnology and Medicinal Applications in General-Important Facts to Remember -- 9.5.1.Tissue Engineering -- 9.5.2.Wound Healing with Nanofibers -- 9.5.3.Transport and Release of Drugs/Drug Delivery -- References |
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Machine generated contents note: 1.Introduction -- 1.1.Fibers-Key Functional Elements in Technology and Nature -- 1.2.Some Background Information -- 1.2.1.Structure of Crystalline and Amorphous Materials -- 1.2.2.Chain Conformation and Structures of Polymer Materials -- 1.3.Processing of Polymer Materials towards Fibers-Fiber Extrusion -- 1.4.Routes to More Advanced Fibers-Mimicking Nature -- 1.5.Electrospinning -- 1.5.1.A Simple Experimental Approach -- 1.5.2.The Hidden Physical Complexity -- 1.5.3.Short History of Electrospinning-The Routes Go Back More Than Two Centuries -- 1.6.Electrospinning-Important Facts to Remember -- References -- 2.Nature of the Electrospinning Process-Experimental Observations and Theoretical Analysis -- 2.1.Experimental Setups -- 2.2.Experimental Observations on Fiber Formation -- 2.2.1.Droplet Formation at the Tip of the Die -- 2.2.2.The Straight Path of the Jet -- 2.2.3.The Looping Part of the Jet-Onset of Bending Instabilities -- |
| Notes |
Formerly CIP. Uk |
| Bibliography |
Includes bibliographical references and index |
| Subject |
Electrospinning.
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|
Nanofibers.
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| Author |
Agarwal, Seema (Chemistry professor)
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|
Greiner, Andreas.
|
| LC no. |
2012471600 |
| ISBN |
3527320806 |
|
3527647708 |
|
3527647716 |
|
3527647724 |
|
3527647732 |
|
9783527320806 |
|
9783527647705 |
|
9783527647712 |
|
9783527647729 |
|
9783527647736 |
|
