Section "Nanospin Electrons" - Nanoelectronics
Important features of all "Nanospin Electrons" ( please pay attention)
Researcher and author: Dr. ( Afshin Rashid)
Note: The important feature of all "nano spin electrons" 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 "nano spin electrons" are naturally determined based on their composition and formation conditions. The characteristics of nanostructures, in turn, determine the originality of the characteristics of "nano-spin electrons" and their possible fields of operation . The range of 1 to 1000 nm is introduced as the range of "Nano Spin Electrons" , the important feature of "Nano Spin Electrons" is the control of the processes of the organization itself. The range of nanostructure activity change depends on the nature and shape of "nano spin electrons"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.
The surface atoms of "nano spin electrons" are not compensated in terms of energy. In general, the growth of nanoparticle energy can be expressed as the total energy of atoms on the surface of the particle. At the surface of "Nanospin Electrons" particles, the freedom of movement of surface atoms is limited and only vibrational movements and movement of electrons are possible. These two types of kinetics are related to each other because the displacement of electron clouds of atoms definitely changes the vibrational frequencies of bonds of atoms. On the other hand, changing the location of valence electrons in the bonds changes the polarity of the bond and the bodies known as supermolecules, in this case, electron transfer to a higher energy level becomes possible.
Conclusion:
The bonds of nanoparticles at the level of "electron nanospin" can increase the change of electronic structure, and as a result, nanoelectromagnetic interactions increase the number of individual electrons and the number of nanoelectromagnetic moment of the atom.
Researcher and author: Dr. ( Afshin Rashid)
Specialized doctorate in nano-microelectronics