- Oligophenylene vanillin  nano  wires section

Nanoparticles superconductivity and diamagnetism in the structure  of  Oligophenylene  vanillin  nanowires

Author and researcher : Dr. (Afshin Rashid)

Note:  Oligophenylene vanillin  nanowires  are  one of the best examples of semiconductor nanostructures that can be made as single crystals with a small diameter of 9 to 0 nm.

The electromagnetic nature of nanoparticles in magnetic materials, the molecules and atoms that make them  have electromagnetic properties. In other words, elements such as iron, cobalt, nickel and their alloys  are attracted by magnets. It is called magnetic material. The classification of electromagnetic materials is based on the magnetic receptivity (magnetization ability of the material). Based on this, materials are classified into three groups: ferromagnetism, paramagnetism, and diamagnetism. Therefore, the dipole moment in electromagnetic diamagnetic materials is zero, and in the presence of a magnetic field,  a dipole moment is induced in them; But the direction of these two polarities It is induced against the direction of the external magnetic field, which causes the (diamagnetic) material to be repelled from the magnetic field. By removing the external magnetic field, the magnetic property of these materials does not remain. The magnetic susceptibility of these materials is negative and very low (around 10-6 to 10-3). All gases (except oxygen) are water, silver, gold, copper, diamond, graphite, bismuth and many organic compounds ( diamagnetism). Magnetic dipoles  in paramagnetic material do not have specific and regular orientation; As a result, these materials do not have magnetic properties. If they are placed in a magnetic field,  they will be arranged along the magnetic field lines. With the removal of the  magnetic field, the magnetic dipoles quickly return to their previous state in the absence of the field. In this way, paramagnetic materials acquire magnetic properties in strong nano-electromagnetic fields. 

Oligophenylene vanillin  nanowires  have  a structure that   has an amazing length to width ratio . Nanowires are very thin - it is possible to create nanowires with a diameter of only one nanometer,  nanowires are used to create the smallest transistor (nanotransistors). Oligophenylene vanillin  nanowires  can  have   insulating, semiconducting or metal properties . Insulators do not carry electrical charges, while metals carry very good electrical charges. Semiconductors lie between the two and are charged under the right conditions. By placing semiconductor wires in the right configuration, transistors can be made that either act  as  switches  or  amplifiers  . Some of the interesting and anti-flexible properties of nanowires are due to their small scale. 



Conclusion : 

 Oligophenylene vanillin  nanowires are  just like normal electrical wires except for the fact that they are much smaller. Like conventional wires, nanowires can be made from a variety of conductive and semi-conductive materials such as copper, silver, gold, iron, silicon, zinc oxide, and germanium. Oligophenylene vanillin  nanowires  can  also be made from carbon nanotubes.

Author and researcher : Dr. (Afshin Rashid)