Electrospin System

nano-fiber production with electrospin method.

Nano Fiber Manufacturing

You can use this technique for the generation of polymeric materials of new generation nano-fiber fabric .

High Security

Our system is ready for CE standarts.

Controlled Experiments

You can adjust many parameters in electro-spinner including electrical field strength.

Electrospinning System and Nanofiber

What is Electrospinning?

Electro-spin method is improved for producing polymeric nanofibers. Polymeric nanofibers are manufactured from polymer solutions by creating an electrical field that is created with high voltage. This method is the easiest controllable method to manufacture nanofibers. Various nanofibers which has different morphological features are produced with this method. You can visit here to get representative information prepared by Michigan University. Besides this, you can also see an academical video on  JOVE

Electro-spin was firstly used in 1600s. William Gilbert was the first one who examined this phenomena in 1600s. Cristian Friedrich Schönbein on the other hand, creates first fiber which contains high amount of nitrate in it at 1847. The first patent application was done by Francis Cooley in 1900. If you want to learn more about electrospin method you can visit here .

Where Electrospinning method can be used?

There are many uses of nanofibers in real life. Some of these are listed here.

 Electrospin method can be used in cosmetic sector Electrospin method can be used for controllable drug release studies in vein. Electrospin method can be used for environmental problems. Electrospin method can be used in agriculture
 Cosmetic Applications Drug Release Studies in Vein Environmental Problems (Oil sanitization) Agricultural Applications
Electrospin method is used for acoustics.Electrospin method can be used for chemical susbtance emissionelectrospin method can be used for filter applications.Electrospin method can be used in stent materials.
Acoustic applicationsChemical Substance EmissionFiltrationStent applications

There are many uses of nanofibers in real life. Some of these are listed here. The representative story of electrospin method can be found at the left corner of the site. In this method, a high voltage (10-40 kV) is applied on polymer solutions. This high voltage in the electrical field will move toward to the grounded metal surface. This movement is the result of a variety of physicochemical process in polymer which ends up with thinner and nanometer size of constitute fibers. On the left, you can find a video of fiber formation with electrospin method taken with high speed camera.

  • Polimer Type
  • Polimer Concentration
  • Solvent Type
  • Elektrik field Force
  • Voltage
  • Solvent Flow Rate
  • Temperature
  • Humidity



  • High voltage source 25 kV
  • Single-Channel Syringe Pump
  • Adjustable power supply
  • 100 volt step interval
  • Emergency Stop
  • Electronic door lock (power will be shutdown when door is open)
  • High current-voltage protection
  • Optional: Dual-Channel Syringe Pump
  • Optional: linear moving table
  • Optional: Rotary Table
  • Optional Syringe Heater

Controllable Use

You can control many parameters with our system. Some of them are listed here

  • Polymer Type
  • Polymer Content
  • Polymer Concentration
  • Condutivity
  • Solvent Type
  • Electrical Field Force (upto 25kV)
  • Distance between collector and loop
  • Solution Flow Rate





High Security

As Nanodev Scientific, we have developed an electrospin system based on international security standarts. Thanks to magnetic key in our system, the system will shut down automatically, when the door is opened. Also, we put an additional lock system to prevent any mistaken about doors. You can face high voltage label in every direction of devices.
Each pieces of electrospin device is grounded. Also there is a high voltage protection circuits on it.
With the help of fan located on the cabin, you can easily connect electrospinner devices to ventilation system to get rid of from accumulated gas.

Do you want to learn more about ElectroSpinner

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