A Simple Breakdown of BioSurfaces' Core Technology
Electrospinning uses electrostatic forces to deposit polymer nanofibers onto a surface by applying high voltage to a liquid polymer solution. By using collection surfaces of different shapes and sizes, this technology creates standalone materials with unique properties for biomedical applications....
Mimicking The Natural Scaffold
A key advantage of electrospun materials is their structural similarity to the extracellular matrix—the natural scaffold that supports human tissue growth. This biomimicry promotes natural healing and tissue integration, even when using strong, biodurable polymers, making electrospun materials ideal for biomedical applications.... Learn More >>
Limitless Possibilities
Electrospinning can be adapted to virtually any application that requires a nanofibrous material or coating. Materials are usually made by electrospinning a layer of polymer onto a rotating mandrel, then either sliding the material off the mandrel to produce a tube, or by cutting the material away and peeling it off the mandrel to create a flat sheet... Learn More >>
Raising The Bar For Drug Delivery
BioSurfaces’ patented electrospinning process embeds drugs, growth factors, radiopaque agents, or other bioactives directly into the fibers of degradable and non-degradable materials. Unlike traditional biomaterials, which require high-heat manufacturing and dip-coating for drug delivery, BioSurfaces integrates these components seamlessly during production...