Molecular electronic nanotechnology nano assembler

Researcher  and author: Dr.   (   Afshin Rashid)



Note: 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 precision molecular nano assembler  uses a set of instructions to make a custom item.



In intelligent nanostructures, the concept of Nano-assemblies   is summarized in all the information and code needed to produce a similar inventory . Be. Nanoassemblers are made of nanoparticles and the first effect of reducing the particle size is to increase the surface area. Increasing the surface to volume ratio of nanoparticles causes the atoms located on the surface to have a much greater effect on the physical properties of the particles than the atoms in the particle volume. Have. This property greatly increases the reactivity of nanoparticles.The structure of nano-assemblers is one of the properties of nanoparticles in terms of surface to volume ratio of these materials. Using this property, powerful catalysts in nanometer dimensions can be produced. These nanocatalysts will greatly increase the efficiency of chemical reactions and will also significantly prevent the production of waste materials in the reactions. Nanoparticles in the production of other materials can increase their strength or reduce their weight. Increase their chemical and thermal resistance and change their reaction to light and other radiation. With the use of nanoparticles, the strength to weight ratio of composite materials will increase dramatically. 



Conclusion :

Molecular electronic nanotechnology no 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. 

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics