In general  , a precision molecular nano assembler  uses a set of instructions to make a custom item (PhD in Nano-Microelectronics).

Researcher  and author: Dr.   (   Afshin Rashid)




Note: Molecular electronics 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.  

Although many methods have been developed for the fabrication of self-assembled biomolecular nanostructures  A small number of them can be designed to assemble structures whose shape depends on the identity and organization of the structures that already exist in the environment. In the internal structure and structure of   nano-molecular electronics or  nano_assembler, the  joints between the marked pairs in more than 1 to 10 micrometers are separated in more than 75% of cases and can form a surface or three dimensions. Give. This point-to-point assembly process shows how the nano_assembler  itself can be designed to produce structures with the desired properties instead of a specific shape.  




Technology  Nanotechnology Molecular electronic technology or  nano_assembler in  nanoelectronics is considered as one of the top technologies in the world. Today, increasing data storage capacity, increasing its transfer speed and reducing the size of electronic devices, especially nano-electronics, is very important because reducing the size of electronic devices, in addition to increasing processing speed, also reduces power consumption and nanoelectronics It can be helpful in reaching the smallest possible dimensions. To become more familiar with this technology and to have a deeper understanding of the various phenomena that occur in the nanometer dimension, and as a result of accurate analysis of the results and fundamental modification of the methods of  molecular electronic nanotechnology or  nano_assembler.  Its purpose is to produce sample properties and a new appearance. Another goal is to design and fabricate components that take advantage of the capabilities of quantum nanomechanics. Quantum nanocomputers and their realization are other goals. In fact, it can be said that the better understanding of the methods of  molecular electronic nanotechnology or  nano_assembler of particles is to design complex structures to do predefined tasks. Developing a better understanding of  molecular electron nanotechnology or  particle nano_assembler to do things cheaper, which in turn requires communication and replacement problems in nanoelectronics.  



Conclusion :

Although many methods have been developed for the fabrication of self-assembled biomolecular nanostructures. A small number of them can be designed to assemble structures whose shape depends on the identity and organization of the structures that already exist in the environment.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics