Behavior of nanostructures in the face of electric current (PhD in Nano-Microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)




Note: Nanostructures are structures that are produced and used on a very small scale. Nanostructures are designed to represent new properties compared to the same structure without nanoparticles such as strength, chemical reaction or conductivity.

 Nano-structures  with any external dimensions in the nanoscale (approximately the size range of 1 to 100 nm) or having internal structure or surface structure at the nanoscale  to  model catalytic reactions on nanoparticles conductive material  define. " Nanostructures " means a natural substance, incident or made up of particles, in the infinite state or as a whole or as an agglomerate, where for 50% or more of the particles in the number size distribution, one or more dimensions External is in the size range of 1 nm - 100 in special cases and in cases where the size distribution threshold may be replaced by a threshold between nanoparticles. Based on the above,  nanostructures  with one or more external dimensions less than 1 Nanometers should be considered as vital tools in nanoelectronics. Nanostructures    Who react naturally. Or produced as an by-product of (unintentional) combustion processes. They are usually physically and chemically heterogeneous and are often referred to as porous particles. "  On the other hand,  nanostructures that  are multi-structured with physical and electronic purposes are produced and designed for a specific purpose or function. 



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



Conclusion : 

The versatility of  nanostructures  highlights their usefulness in terms of the ability of the catalytic reaction model in  their nanoconductor  particles for specific needs. An additional advantage is their high porosity, which increases the demand for their use in many nano-microelectronics industries. 

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics