Electrical properties of nanostructures (Electric as properties)

Note: Nanostructures  can be defined as materials that have at least one external dimension with a size of 1 to 100 nm. And the particle size of at least half of the particles in the number size distribution must be 100 nm or less. Nanostructures can They can occur naturally, be created as byproducts of combustion reactions, or be purposefully produced through engineering to perform a specific function. These materials can have different physical and chemical properties from their original bulk samples.

nanostructures  are used to bend in a composite manner in response to the application of electric voltage. The use of  nanostructures  is widespread in a wide range of industries and consumer products. Materials determine the relationship between atoms, ions and molecules that make up those materials. To understand the structure of materials, one must first understand the type of connections between atoms and ions. Chemical bonds determine the connection between atoms and ions. Therefore, the difference between different types of connections can be seen in the characteristics of these links.

Nano structures Nano structure Electronic properties of two areas are protected by a special, so-called topological, method. "And thus, a new very strong quantum state is created in the transition region.This localized electronic quantum state can now be used as a main feature to produce certain semiconductors, metals or insulators. - and possibly even be used as a feature in nanoelectronics.The shapes and sizes of nanostructures are naturally determined based on their composition and formation conditions. The characteristics of nanostructures, in turn, determine the originality of the characteristics of nanostructures and their possible fields of operation. =6> The range of 1 to 1000nm is introduced as the range of nanostructures, the important feature of nanostructures is the control of the organization's own processes.  Changing the activity of the nanostructure depends on the nature and shape of the nanostructure. With However, if the energy of the nanoparticle field is comparable to the energy of electromagnetic radiation and if within a certain range of wavelength with the occurrence of chemical reactions in materials Under irradiation, significant changes will be made, the activity of nanoparticles up to 100 nm will be significant.

Conclusion :

Nanostructures  can be defined as materials that have at least one external dimension with a size of 1 to 100 nm. And the particle size of at least half of the particles in the number size distribution must be 100 nm or less. Nanostructures can They can occur naturally, be created as byproducts of combustion reactions, or be purposefully produced through engineering to perform a specific function. These materials can have different physical and chemical properties from their original bulk samples.