_ Lindemann's change structure section in electrical nanostructures
Description of the link between nanoelectronics and Lindemann change (change structure) in nanostructures
Researcher and author: Dr. ( Afshin Rashid)
Note: 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 it is possible that the strength of materials of a few tens or even hundreds of nanometers is much higher than that of 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. In electronic science, the topic of nano revolves around (nano memories, nano chips and fast nano chips and nano electronic components) with less weight and more efficiency. Nanotechnology, knowledge, engineering and technology on a nano scale, or in other words, studying the application of very small objects and their use in all fields of science such as chemistry, biology, electronics; Material science and engineering.The history of nanotechnology describes the development of concepts and experimental work done in the field of nanotechnology. Although nanotechnology is one of the recent advances in scientific research, the development of its fundamental concepts has taken place over a long period of time.
The important feature of all nanostructures is summarized in the fact that the number of atoms (surface) in them is more than the number of atoms (volume). This ratio increases with decreasing size (nanoparticle). Therefore, the size of the nanoparticle is considered its most important feature. The shapes and sizes of nanostructures are naturally determined based on their composition and formation conditions. The characteristics of the nanostructures, in turn, determine the originality of the characteristics of the nanostructures and their possible fields of operation. The range of 1 to 1000nm is introduced as the range of nanostructures, the important feature of nanostructures is to control the processes of the organization itself. The range of nanostructure activity change depends on the nature and shape of the nanostructure. However , if the energy of the nanoparticle field is comparable to the energy of electromagnetic radiation and if within a certain range The wavelength of the chemical reactions in the irradiated materials will cause significant changes, the activity of nanoparticles up to 100 nm will be significant.
Conclusion :
In electronic science, the topic of nano revolves around (nano memories, nano chips and fast nano chips and nano electronic components) with less weight and more efficiency.
Researcher and author: Dr. ( Afshin Rashid)
Specialized doctorate in nano-microelectronics