_ Nanoreactors and (nanostructures) section

Behavior of (nanoreactors   and nanostructures in contact with electric current

Researcher  and Author: Dr.   (   Afshin Rashid)




Note: Nanostructures are structures that are produced and used on a very small scale.  Nanostructures are created to exhibit new properties compared to the same structure without nano-properties, such as increased strength, chemical reactivity, or conductivity.

 Nanostructures  with any external dimensions in the nanoscale (size range approximately from 1 to 100 nm) or having internal or surface structure in the nanoscale are defined by  the  catalytic reaction model in conductive nanomaterial particles  . " Nanostructures " means a natural, accidental or manufactured material containing particles, in an unbound state or as an aggregate or as an agglomerate and where for 50% or more of the particles in the number size distribution, one or more external dimensions are in the size range 1 nm - 100 nm. In special cases and where, the size distribution threshold may be replaced by a threshold between nanomaterial particles. Inferring from the above,  nanostructures  with one or more external dimensions less than 1 nm should be considered as vital devices in nanoelectronics. Nanostructures  that react naturally. Or are produced as a combustion by-product (unintentional) from combustion processes. They are usually physically and chemically heterogeneous and are often referred to as porous particles. "  On the other hand,  nanostructures  are produced and designed from multiple structures with physical and electronic goals for a specific purpose or function.    



An example of this process is the way nanoparticles are made  to aid in nanoelectronics  . Carbon nanotubes are also made to be used in a process called nanotubes to create bacterial sensors. Nanotubes are used in composites to bend in response to the application of an electrical voltage.   Elsewhere, nanoelectronics such as (nanowires) also use nanomaterials - in this case, nanowires.  Applications for the use of nanowires - zinc oxide nanowires - are also used in flexible solar cells as well as nanotransistors.


Conclusion: 

The versatility  of nanostructures  in terms of the ability  to model catalytic reactions in their conductive nanoparticle  for specific needs highlights their utility.  An additional advantage is their high porosity, which increases the demand for their use in many nano-microelectronic industries. 

Researcher  and Author: Dr.   (   Afshin Rashid)

Specialized PhD in Nano-Microelectronics