Novel method to control the fraud circulation in the conductor polymer

Researchers at the University of Soskoba have developed a new method to control the optical circulation of conductive polymer polythene in the magnetic field in low voltage. This method combines the trend of “fraud circulation”, which rotates in response to the polarizing aircraft magnetic field, which reduces electrochemical oxidation and conductive polymer.

The study has appeared in the journal Molecular crystal and liquid crystals.

In addition to the conductor polymer conductivity, there are various properties, including light extrusion devices, electromagnetic wave saving, and anticoroson materials.

One of their features is the breed of polaron, which is virtual particles responsible for the power transmission and is formed during doping through electrochemical oxidation in the conductor polymer. These polaron optical and magnetic properties greatly affect.

In addition, researchers focused on the trend of “fraud circulation”, in which optically passive substances show optical circulation when the lettering polarized light passes parallel to the magnetic field.

The research group has previously recovered various optical active conductive polymer in liquid crystals. At the same time, researchers synthesized the optically inactive polytheophins and moduped their polarone in the magnetic field at a permanent low voltage of 1.5V under a Fraode sequence in a magnetic field by electrochemical oxidation and reducing (doping and deading).

Thus, a combination of magnetic models and electrochemicals conducting polymer with electrochemical control of optical circulation. They developed a way to control the optical circulation of Acharyl Polythews. This method promises to make magnetic field sensors and optical communication devices.