"Nanospin electrons" coating or stabilizing agent in nanoelectronics

Section "Nanospin Electrons" - Nanoelectronics

"Nanospin electrons"  coating or stabilizing agent in nanoelectronics

Researcher  and author: Dr.   (   Afshin Rashid)

Note: the coating or stabilizing agent of  "nano spin electrons"  produced due to the specific surface area and high surface energy, stick together and form a mass. This phenomenon leads to the loss of properties resulting from the small size of these particles. 

 Stabilizers are used to prevent the accumulation of  "nano spin electrons" in the synthesis stage. Usually, two types of electrostatic and spatial drift methods are used to stabilize nanoparticles. In this example, two methods of stabilizing particles are used. In the first method,  ions  are used to stabilize  the "nano-spin electrons" . These ions are absorbed into the particles and form an electrically charged layer around the  "nano-spin electrons"  and as a result, the Raman covalent shift is caused by the accumulation of particles. In the second method, to stabilize the  "nano spin electrons" Macromolecules are used. Macromolecules stick to the surface of the particles and occupy the space around the nanoparticle. As the particles get closer to each other, these molecules become entangled and become Raman from the particles sticking together. It is a function of nano-spin-electron structure,   surface morphology and electrochemistry  of lipid and nano-layer interactions. This broad target consists of a number of nanomolecules obtained from coarse-grained molecular simulations. 

In the production of  porous "nano spin electrons"  by the method of regenerating the coating agent or stabilizer of "nano spin electrons"  , space drift method is usually used to stabilize the particles. In this method, a mixture of two stabilizers is used as a stabilizing agent. They are most widely used in the coating of  "Nano Spin Electrons"  . In the synthesis of nanoparticles based on reducing agent, stabilizer and with the size of  "nano spin electrons"  has been obtained. One of the most influencing parameters on the size in the synthesis of nanoparticles is  whether the concentration of the monitoring substance or  the precursor concentration is higher,  the size of the produced particles will be larger, and conversely, the  lower the concentration of the monitoring substance, the smaller the particle size will be. There are  different production concentrations   and the effect of monitoring the concentration of the material on the size of  the produced "nano spin electrons" . By changing the concentration,  the size of  "nano spin electrons" has decreased  to  nanometers. In the synthesis mode of  "nano spin electrons"  and  increasing the size of the produced particles  , it increases from nanometer to micro. 

Conclusion :

The influence of the monitoring amount of the material in the synthesis of  "Nano Spin Electrons"  has been made to the resulting particles  by increasing the   average size of the resulting particles from   nanometers. "Nanospin electrons"  synthesized in different concentrations,  which  do not change in the identification of nanoparticles with the increase in the monitoring concentration of the substance, and  the resulting nanoparticles are quasi-spherical. But with the increase of the average monitoring value,  the particle size increases from nanometer to micro  . On the other hand, increasing the concentration of the precursor  increases the size of the particles; The resulting "nano spin electrons"  face an increase in volume.

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics