Electrospinning is a special fiber manufacturing process in which a polymer solution or melt is jet-spun in a strong electric field. Under the action of the electric field, the droplet at the needle will change from a spherical shape to a conical shape (ie "Taylor cone") and extend from the tip of the cone to obtain fiber filaments. In this way, polymer filaments with nanometer diameters can be produced. Electrospinning materials have a very important role in different fields.
Air filtration: Electrospinning nanofibers have the advantages of small diameter, small pore size, high porosity, and good fiber uniformity. They have high filtration efficiency for tiny particles and lower resistance pressure; different polymer raw materials can be selected to affect the structure of the fiber. Design and function to prepare air filter materials for different use environments;
Waterproof and moisture-permeable: The fiber membrane formed by the random accumulation of electrospun nanofibers has a three-dimensional connected pore structure, which is conducive to the rapid transportation of water vapor; in addition, the surface of the fiber is highly modifiable; by regulating the pore structure and surface wettability of the fiber membrane It can realize its application in the field of waterproof and moisture permeability;
Energy battery: Electrospinning nanofibers have excellent optical, electrical, magnetic, mechanical, and thermal properties, and nanofiber materials and structures are rich and diverse, which can be widely used in solar energy, batteries, optoelectronic devices, energy storage, and other fields;
Biomedicine: Electrospinning nanofibers can mimic the structure and biological function of a natural extracellular matrix, providing ideal templates for cell adhesion, proliferation, and growth; some natural and synthetic electrospinning raw materials have good biocompatibility and degradability, can be used as a carrier to enter the human body, and has good applications in drug controlled release, wound repair, biological tissue engineering, etc.;
Cosmetic makeup: Nanofibers have a porous structure and large specific surface area, which can be used as carriers of drugs and cosmetic active ingredients to improve the loading rate; and have a strong penetrating ability, which is conducive to drug diffusion and dissolution, and improves the ability of transdermal absorption;
Matexcel can provide a variety of electrospinning products, and can also customize your own electrospinning material solutions for you. Our raw materials are complete: product types include water-soluble synthetic polymers, organic solvent-soluble synthetic polymers, and natural high Molecules that can meet the needs of different functional products. The properties of our products are uniform, ensuring uniform properties of electrospun fibers within batches, good repeatability and stability between batches, and high yield; we can provide corresponding technical solutions according to customer needs, which can effectively improve production efficiency and reduce production. cost. Please contact us if you have any custom requirements for electrospinning.