Mutant Nanomaterials and More Electrical Conductivity in the Particles of Nanostructures

Note: The importance of miniaturizing  mutant nanomaterials  to  nanometer dimensions is the change of some known material properties.

The structure of  nanomaterials (mutant)  Mutant nanomaterials   is the importance of the nanoscale in changing the properties and characteristics of materials in these dimensions. Properties such as strength, flexibility, electrical conductivity, magnetic properties, color, reactivity, etc. Starting to change the properties of the material by shrinking it depends more on the type of material and the desired property. For example, by reducing the dimensions of a nanoporous material, generally some mechanical properties of the material such as strength are improved. This increase in strength does not happen only in the range of a few nanometers, and the strength of materials of several tens or even hundreds of nanometers may be much higher than large-scale mass materials. On the other hand, the change of some properties such as color and magnetic properties may occur in dimensions of only a few nanometers.

"Scales in atomic, molecular and macromolecular dimensions" in the definition of nanoelectronics science and "nanometer scale" in the definition of nanotechnology. In the definition of nanoporous logic, every material consists of three dimensions. If at least one of these dimensions is on the nano scale (between 0 and 011 nm), this material is called a nanoporous material. Also, the dimension that is not on the nano scale is called the free dimension, because any value can be Graphene is one of the most useful materials in the production of nanoporous materials, in addition to changing the properties of nanoporous materials In addition, nanomaterials have a much higher surface-to-volume ratio than bulk materials. This is a very important property in all processes that occur on the surface of materials (such as reactivity). It is extremely important. So it can be concluded that nano is not only a thousand times smaller than micro. Also, nano technology is not the only extension of micro technology. Nano technology is a completely new model for It provides electronics and other sciences.

Conclusion :

The importance of miniaturization  of  mutant nanomaterials  to nanometer dimensions is the change of some known material properties. The structure of  nanomaterials (mutant)  Mutant nanomaterials   is the importance of the nanoscale in changing the properties and characteristics of materials in these dimensions. Properties such as strength, flexibility, electrical conductivity, magnetic properties, color, reactivity, etc. Starting to change the properties of the material by shrinking it depends above all on the type of material and the desired property.