Nanoelectronics and plasmonics model for manufacturing and producing nanoelectrical systems (dimensions 1 to 100 nanometers)

 _ Nanoplasmonics and Nanoelectronics Model Section 

Nanoelectronics and plasmonics model for manufacturing and producing  nanoelectrical systems (dimensions  1 to 100 nanometers)

Researcher  and Author: Dr.   (   Afshin Rashid)

Note: Nano Systems are composed of various organic or inorganic materials whose capabilities and characteristics, such as their size, range from 1 to 100 nanometers. Nano particles  are the main components of Nano Systems.

The first broad description of nanotechnology refers to the specific goal of the technology of precisely manipulating atoms and molecules to make products on a large scale, also known as a nanosystem  .

Nanosystems are molecular-scale functions.  This includes both current work and more advanced concepts.  In its original sense, nanotechnology refers to the envisioned ability to build things from the bottom up, using techniques and tools that are developed to produce complete, high-performance products. Nanosystems  introduced the idea of ​​nanoscale "assembly" that can make copies of itself and of itself. Among other things, arbitrary complexity with atomic control  is very widespread and applicable in Nanosystems. Nanocomputers and nanoassemblers are also sub-groups of Nanosystems.  Nanoparticles are the main components of all Nanosystems. Nanotechnology can be used to produce nanoparticle particles by changing the properties of atoms. When materials are studied at the nanoscale, the reactions and behavior of atoms  are completely different compared to when they are studied at the molecular level, because in this realm the physical properties of the materials change. This is like dropping a ball into a container and taking another ball out of that container. The difference in the nano realm is so great that even the color, melting point, chemical properties, etc. of the materials outside this range are completely different.  With the technological approach towards the accumulation of optoelectronic circuits, the fabrication problems and phenomena that helped prevent further compaction of the structure led to the use of plasmonic structures and plasmonic waves. These nanostructures consist of metal and dielectric whose dimensions are below the excitation wavelength (the wavelength of the radiation that excites the plasmonic waves).

Conclusion: 

Nano Systems are composed of various organic or inorganic materials whose capabilities and characteristics, such as their size, range from 1 to 100 nanometers. Nano particles  are the main components of Nano Systems.

Researcher  and Author: Dr.   (   Afshin Rashid)

Specialized PhD in Nano-Microelectronics