The range of 1 to 1000nm (nanometers) is introduced as the range of electrical nanostructures (PhD in nano-microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)



Note: The range of 1 to 1000nm is introduced as the range of nanostructures, an important feature  of nanostructures is the control of the organization's own processes. The range of change in nanostructure activity depends on the nature and shape of the nanostructure.

With  However, if the energy field of nano-particles with energy exposure to electro-magnetic analogy, and if within a certain  wavelength, the occurrence of chemical reactions in materials under irradiation dramatic changes the activity of nanoparticles  to the size of 100nm will be dramatic. Nanostructures Nano structure The  electronic properties of two regions are "protected" differently by a special method, the so-called topology, and thus, a very strong new quantum state is created in the transition region. This local electron quantum state could now be used as a primary property for the production of special semiconductors, metals, or insulators - and possibly even as a feature in nanoelectronics. The shapes and sizes of nanostructures are naturally determined by their composition and formation conditions. Property Nanostructures, in turn, determine the originality of nanostructured properties and their possible contexts of operation  .



Nanostructures   can be defined as materials that have at least one external dimension of 1 to 100 nanometers in size. And  particle size At least half of the particles in the number size distribution must be 100 nm or less. Nanostructures   can occur naturally, as by-products of combustion reactions, or can be purposefully engineered to perform a specific function. These materials can have different physical and chemical properties than their bulk prototypes. 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. The use of nanostructures is common  in a wide range of industries and consumer products. In nanoscience, the structure of a substance determines the relationship between the atoms, ions, and molecules that make it up. To understand the structure of materials, one must first understand the type of bonds between atoms and ionsChemical bonds determine how bonds between atoms and ions are made. Therefore, differences in the type of connections can be seen in the properties of these links. Of course, it is important to note that as the distance from the surface of the metal nanoparticle decreases, the intensity of the electromagnetic field (specifically the intensity of the electric field) decreases exponentially.In this nanoparticle, the generated electromagnetic field is localized, compressed and improved.



Conclusion : 

The range of 1 to 1000nm is introduced as the range of nanostructures, an important feature  of nanostructures is the control of the organization's own processes. The range of change in nanostructure activity depends on the nature and shape of the nanostructure.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics