Published: CABEQ 26 (4) (2012) 417–425
Paper type: Original Scientific Paper
R. Rošic, J. Pelipenko, J. Kristl, P. Kocbek and S. Baumgartner
Abstract
The subject of nanomedicine has seen a surge in research activity over the past decade, with nanofibers being a particularly active field. Nanofibers are solid, dry fibers
with nanometer diameters, made of various polymers, whereas electrospinning is a versatile, simple, elegant, reproducible, continuous and scalable technology for their preparation. Nanofibers are a unique class of materials in the biomedical field, since they provide a biomimetic environment on the nanometer scale, a three-dimensional architecture with the desired surface properties on the micrometer scale, combined with mechanical strength and physiological acceptability on the macro scale. In particular, their ability to imitate the fibrillar elements of a natural extracellular matrix in a very realistic way is crucial. In this paper we introduce the fundamental aspects of the electrospinning process and the properties of nanofibers, as well as highlighting the enormous potential of nanofibers as drug-delivery systems and tissue scaffolds.
This work is licensed under a Creative Commons Attribution 4.0 International License
Keywords
Nanofibers, electrospinning, polymer, drug delivery, tissue scaffolds