Nanoelectronics and nano assembler
Researcher and author: Dr. ( Afshin Rashid)
Note: The practical results of the growth and development of nanotechnology branches such as nanoelectronics will lead to the construction of equipment that is significantly different from the past and will be a completely new generation with unique capabilities. Molecular Electronic Nanotechnology or Nano Assembler Programmable situational assembly at the molecular scale is the main mechanism for achieving high flexibility and ultimate accuracy and quality in production.
Molecular electronic nanotechnology or nano assembler Another key to practical molecular production is the ability to construct large quantities of precise molecular structures or to assemble larger objects from a large number of smaller objects with molecular precision - a massive parallel assembly. The end result of this process will be the development of a basic molecular assembler that uses nanotechnology in the nanoelectric machine phase (e.g., nanometer gears, springs, springs, motors, body) and to build specific structures. Is. In general , a molecular precision nano assembler uses a set of instructions to make a custom item.
Amplified nanoparticles stick together to form a mass due to their specific surface area and high surface energy. This phenomenon leads to the loss of properties due to the small size of these particles. Stabilizers are used to prevent the accumulation of nanoparticles in the synthesis stage. Usually, two types of electrostatic and spatial drift methods are used to stabilize nanoparticles. In the first method, ions are used to stabilize nanoparticles. These ions are adsorbed to the particles and form an electrically charged layer around the nanoparticles. What is certain is that nano- assembler molecular nanoelectronics has a bright future and is growing and evolving at a very fast pace. Hence it requires special attention.
Conclusion:
The practical results of the growth and development of nanotechnology branches such as nanoelectronics will lead to the construction of equipment that is significantly different from the past and will be a completely new generation with unique capabilities. Molecular Electronic Nanotechnology or Nano Assembler Programmable situational assembly at the molecular scale is the main mechanism for achieving high flexibility and ultimate accuracy and quality in production.
Researcher and author: Dr. ( Afshin Rashid)
PhD in Nano-Microelectronics