Cobalt nanowires show the behavior of electromagnetic absorbers at medium temperatures (PhD in Nano-Microelectronics)

Cobalt nanowires show the behavior of electromagnetic absorbers at medium temperatures (PhD in Nano-Microelectronics)

Researcher   and author: Dr.   (  Afshin Rashid)

Note: Cobalt nanowires exhibit electromagnetic absorber behavior at moderate temperatures, and when the magnetic field is applied perpendicular to the nanowires, these nanoelectronic devices have a larger induction field than when the electromagnetic field is parallel. Forms in cobalt nanowires.

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). Nano wire Nano wire can have insulating, semiconductor  or metal properties . Insulators do not withstand electrical charges, while metals have very good electrical charges. The semiconductors are located between the two and are charged under suitable conditions.  By placing the semiconductor wires in the proper configuration, transistors can be made that act either as  switches  or  amplifiers  .Some interesting and anti-flexible features of nanowires are due to their small scale. 

The technology of cobalt nanowires is approximately 1 to 100 nanometers in size, where only one of its kind phenomena offers descriptive applications. Nanotechnology encompasses science, engineering, and non-scale technology, imaging, measuring, designing, and manipulating materials at this length scale. Due to nanotechnology, computers have become faster than before and the value of computing has decreased. In the immersion method, nanowires have enough time to transfer from nanoparticle particles to cavities  ; The formation step of uniform nanoparticles is done slowly and finally uniform nanowires are formed. Structural study with FESEM  in the immersion method of single-stranded nanowires in all porosities and in a large area of ​​nanowire particles are formed. The simple answer to this question is that each particle is less than 100 nanometers. But like The scale from 1 to 100 nm determines the size range of a nanoparticle. In order to prevent contact of cluster particles from atoms, less than 1 nm may be removed, but the movement of electrons in nanoparticles to particles is <1 nm. Because the particles are three-dimensional.

Conclusion :

Cobalt nanowires exhibit electromagnetic absorber behavior at moderate temperatures, and when a magnetic field perpendicular to the nanowires is applied, these nanoelectronic devices have a larger coercive field than when the electromagnetic field is parallel to the nanoparticles. Cobalt wires are formed.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics