Bonding of Quantum Nanoparticles and  Nickel Nanoparticles NI_nanoparticle  (PhD in Nano-Microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)



Note: NI_nanoparticle nickel nanoparticles are  strong conductors of electricity   and its surface is shiny and polished. This element belongs to the group of iron and cobalt elements.

The use of particles from micro-scale to nanoscale provides advantages for various scientific fields, but because a large percentage of their atoms are on the surface, nanomaterials can react greatly and pose potential risks to humans. To have with. Nanoparticles are highly regarded both in industry and in the natural sciences due to their widespread use. While natural materials have fixed physical properties regardless of size, the size of a nanoparticle determines its physical and chemical properties. Therefore, the properties of a substance change as its size approaches the nanoscale and the percentage of atoms on the surface of the material becomes significant.An important feature of all nanostructures is that the number of surface atoms in them is greater than the number of volume atoms. This ratio increases with decreasing nanoparticle size. Therefore, nanoparticle size is an important feature. The range of change in nanoparticle activity depends on the nature and shape of the nanostructure. With  However, if the energy field of nano-particles with energy exposure to electro-magnetic analogy, and if within a certain  wavelength, the occurrence of chemical reactions in materials under irradiation dramatic changes the activity of nanoparticles  in the size of 100nm will be dramatic. One of the new data storage tools is the use of nickel quantum dots in nanometer sizes that are expected to be used for storage. Given the relatively large (physically) storage devices we currently have, and the fact that we need sizes around GIGABYTE in various fields, there is a great potential for activity in this area. Each quantum dot contains a separate ball of several hundred atoms that can have one of two magnetic states. This allows them to contain a bit of information (zero or one), as is customary in machine computing. On common hard drives, the data bits must be spaced far enough apart to avoid retaliation. Quantum dots act as completely independent units that are not structurally interconnected, so they can be somewhat closer together. One of the new data storage tools is the use of nickel quantum dots in nanometer sizes that are expected to be used to store terabytes of data. Due to  nano molecular memory, there is  a high potential for activity in this field.


One of the goals of nanotechnology is to advance in the field of electronics and computer science, to build memory and chips with more capability, and less cost. As explained above, achieving the goals in this area will eliminate many defects in the machines. Memories and assemblers in particular, which will be a major revolution in the electronics industry in the field of nanotechnology,  each quantum dot contains a separate ball of several hundred atoms that can have one of two magnetic states. This allows them to contain a bit of information (zero or one), as is customary in machine computing. On common hard drives, the data bits must be spaced far enough apart to avoid retaliation. Quantum dots act as completely independent units that are not structurally interconnected, so they can be somewhat closer together.Quantum dots act as completely independent units that are not structurally interconnected, so they can be somewhat closer together.



Conclusion : 

NI_nanoparticle nickel nanoparticles are  strong conductors of electricity   and its surface is shiny and polished. This element belongs to the group of iron and cobalt elements.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics