Reprint

Electrospun Nanofibers for Biomedical Applications

Edited by
June 2020
308 pages
  • ISBN978-3-03928-774-1 (Paperback)
  • ISBN978-3-03928-775-8 (PDF)

This is a Reprint of the Special Issue Electrospun Nanofibers for Biomedical Applications that was published in

Chemistry & Materials Science
Engineering
Summary

Electrospinning is a versatile and effective technique widely used to manufacture nanofibrous structures from a diversity of materials (synthetic, natural or inorganic). The electrospun nanofibrous meshes’ composition, morphology, porosity, and surface functionality support the development of advanced solutions for many biomedical applications.

The Special Issue on “Electrospun Nanofibers for Biomedical Applications” assembles a set of original and highly-innovative contributions showcasing advanced devices and therapies based on or involving electrospun meshes. It comprises 13 original research papers covering topics that span from biomaterial scaffolds’ structure and functionalization, nanocomposites, antibacterial nanofibrous systems, wound dressings, monitoring devices, electrical stimulation, bone tissue engineering to first-in-human clinical trials. This publication also includes four review papers focused on drug delivery and tissue engineering applications.

Format
  • Paperback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
sol-gel; electrospinning; hydroxyapatite; nanofiber; antibacterial; titanium; antibacterial coatings; electrospinning; nanocomposite coatings; TiO2 photocatalytic; orthopedic infections; electrospinning; 3D printing; nanofibers; encapsulation; protein diffusion; in vivo tissue engineering; immuno-isolation; transplantation; electrospinning; sputtering; drug delivery; wound dressing; biocompatibility; tissue engineering; biomimetic scaffolds; gelatin; electrospinning; micromolding; biomaterials; poly(lactic acid) (PLLA); bioactive glass; scaffolds; electrospinning; composite fibres; bone regeneration; poly(vinylidene fluoride); composite nanofiber; piezoelectricity; antioxidant activity; well-aligned nanofibers; P(VDF-TrFE); piezoelectric nanogenerator; preosteoblasts electrospinning; silicone modified polyurethane nanofibers; physical properties; cell attachment; cell proliferation; cytotoxicity; biopolymers; packaging; pharmaceutical; biomedical; electrospinning; alginate; gelatin fibers; ZnO particles; antibacterial activity; electrospinning; nanofibers; fabrication; therapeutics; biomedical applications; antibody immobilization; electrospun nanofibers; TNF-α capture; human articular chondrocytes; rheumatoid arthritis; nanofibers; microfluidic chip; electrospinning; live assay; hepatocellular carcinoma cells; PLA95; biocompatibility; guided tissue regeneration (GTR); electrospinning; electrospun fiber mats; mechanobiology; glioblastoma; biomaterials; finite element modeling; electrospun nanofibers; cancer treatment; drug release; nanomedicine; biocompatible polymers; hyperthermia

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