Section _ reproduction and production of nanowires

 Propagation of Cobalt Nano  particles in the structure of nano wires Nano wire

Researcher  and author: Dr.   (   Afshin Rashid)


Note: Cobalt Nano Wires 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(s). 

 Cobalt nanowires exhibit electromagnetic absorbing behavior at medium temperature, and when the magnetic field is applied perpendicular to the nanowires, these nanoelectronic devices have a larger coercive field compared to when the electromagnetic field is parallel to the nanowires. Cobalt wires are formed.

 Cobalt Nano Wire Cobalt Nano Wire  can  have the properties of insulation, semiconductor or metal.  Insulators do not carry electric charges, while metals have very good electric 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. 

Cobalt nanowire technology in dimensions of approximately 1 to 100 nm, where only one phenomenon of its kind offers descriptive applications, is in the capacity of matter. Nanotechnology encompasses science, engineering and non-scale technology, imaging, measurement, design and manipulation of materials at this length scale. Due to nanotechnology, the speed of computers has increased compared to the past and the value of calculations has decreased. In the immersion method, the nanowires  have enough time to transfer from the particles of the nanowires to the holes; The step of forming uniform nanoparticles is done slowly and finally uniform nanowires are formed. Structural investigation with FESEM  in the immersion method of uniform nanowires in all pores and in a wide area in the particles of nanowires. The simple answer to this question is any particle less than 100 nanometers.  But as  the scale from 1-100 nm determines the size range of a nanoparticle.  In order to prevent particle contact, a cluster of atoms may be removed below 1 nm, but the electron movement in nanoparticles has to particles <1 nm.  Because particles are three-dimensional.



Conclusion: 

Cobalt Nano Wires  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(s). 

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics