Fabrication of 3D Nanofiber Scaffold by Sequential Electrospinning
Zusammenfassung
The generation of a 3D porous scaffold
that would mimic the native ECM of tissue and
organs is a topic of interest in tissue engineering.
Electrospinning is a widely used technique in the
area because it generates fibers of nano metric
diameter with high surface, so several studies have
applied it in the creation of 3D scaffolds. This
research proposes a new approach that consists on
the application of sequential electrospinning cycles
over a rotational collector leaving a timespan
between each cycle in which all the remaining
solvent evaporates and the electro charges on the
upper layer are dissipated. It was proved that the
thickness of the scaffold increases linearly with
each cycle. Additionally, when compared to
continuous electrospinning the novel method
generates a scaffold which presents almost double
the thickness size and a similar porosity.
Key Terms - 3D Scaffold, Porous
Architecture, Sequential Electospinning, Tissue
Engineering.