Electrospinning is a process in which polymer solutions are sprayed and stretched using a static electric field to create nanoscale fibers. The fibers typically have diameters ranging from ...

Electrospraying and electrospinning have been used for a wide range of applications ranging from coatings, propulsion, and pesticide sprays to scaffolding a wide range of advanced materials for ...

Combining these two twins-tech, electrospinning and electrospraying, to fabricate novel nanomaterials is an urgent area of research for materials scientists and biomedical engineers, according to a ...

Scientist are developing new applications for a fabrication process called coaxial electrospinning, which combines two or more materials into a fine fiber for use in industry, textiles or even ...

Ever-increasing worldwide concerns surrounding levels of plastic waste alongside water and air pollution have driven the search for viable, sustainable solutions. Emerging as a potential resolution, ...

This review innovatively proposes the use of electrospinning to fabricate electroactive fibrous scaffolds, which mimic the structure of the extracellular matrix while providing electrical activity, ...

In the biomaterials industry, electrospinning is a ubiquitous fabrication method used to produce nano- to microscale fibrous meshes that closely resemble native tissue architecture. Alas, the process ...

The most widely used and researched method of fabricating nanofibers is electrospinning (ES), due to its high efficiency, adaptability and cost-effectiveness. Nanofibers are fibrous structures with ...

The new process, called gel electrospinning, is described in a paper by MIT professor of chemical engineering Gregory Rutledge and postdoc Jay Park. The paper appears online and will be published in ...

The electrospinning and electrospraying synergism (ESS) can positively impact diverse sectors, from bioengineering and textile technology to medical treatment, defence technology, intelligent ...