High temperature in the process (discharge) for the synthesis of nanotubes ( carbon in the negative electrode is sublimated) PhD in Nano-Microelectronics

High temperature  in the process (discharge)  for the synthesis of nanotubes ( carbon in the negative electrode is  sublimated) PhD in Nano-Microelectronics

Researcher  and author: Dr.   (   Afshin Rashid)

Note: In this process (CVD), the carbon in the negative electrode is  sublimated due to the high temperature  in the discharge process. Since  this method was first used to synthesize nanotubes  , it is known as the most common method of producing  carbon nanotubes. In this method,  which has both types of nanotubes, single-walled and  multi-walled, with lengths of up to 50 microns containing  structural defects.

In the laser irradiation process, the laser is used to evaporate the  graphite and an inert gas is used to conduct these  vapors into the tank. Carbon nanotubes grow on the cold surface of the reactor  . It is  suitable for the production  of multi-walled carbon nanotubes. And the  use of composite  graphite and metal catalyst particles combination of  cobalt and nickel (for the synthesis of carbon nanotubes) CNT and the CNTs  can be used. The efficiency of this process is 70  % and its main product is  single-walled and multi-walled carbon nanotubes. The diameter of these nanotubes is  completely controllable and the diameter of the nanotubes can be controlled as desired by changing the temperature  .

Carbon nanotubes are produced and propagated using a variety of methods  , such as CVD, laser irradiation, and deburring  . The CVD method is the best option  for the industrial production of carbon nanotubes. The reason for this is the low cost-to-income ratio  as well as the possibility of vertical growth of nanotubes on the desired substrate  . Catalyst- assisted CVD method was used  to produce carbon nanotubes  . During the CVD process, a layer of  nickel, cobalt, and  metal catalyst particles, iron is commonly  used to make carbon nanotubes . CVD is a common method for the commercial production  of carbon nanotubes. In this method, the diameter of the  nanotubes is related to the dimensions of the metal particles. With Substrate patterning, heat treatment and  pulsed catalysis of the catalyst can control the  diameter of the nanotubes.

Conclusion :

In this process (CVD), the carbon in the negative electrode is  sublimated due to the high temperature  in the discharge process. Since  this method was first used to synthesize nanotubes  , it is known as the most common method of producing  carbon nanotubes. In this method,  which has both types of nanotubes, single-walled and  multi-walled, with lengths of up to 50 microns containing  structural defects.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics