Storage of electric current in nanotubes for energy applications and fuel cocoons (PhD in nano-microelectronics)

Storage of electric current in nanotubes for energy applications and fuel cocoons (PhD in nano-microelectronics)

Researcher   and author: Dr.   (  Afshin Rashid)

Note: A lot of hydrogen can be stored in nanotubes for energy and fuel cocoon applications. Have become superconducting. The radius of these superconducting nanotubes is only 6.4 nanometers.

Phase transfer  in one or two dimensional systems  where room temperature superconductivity can be found in carbon nanotubes and graphene particles and is based on room temperature conductivity. Electric voltage is generated by the passage of liquid through coils of single-walled carbon nanotubes. This technique is used to  build fluid flow sensors to detect very small amounts of fluids and to generate voltage in biomedical applications  . Liquids with high ionic strength also produce more voltage  . The rate of increase in heat output and resistance of nanotubes is proportional to the third root of the mass of atoms and molecules. Heating also  increases the strength of the nanotube and increases its tensile strength sixfold and increases its conductivity  . Resistance to collision of atoms or molecules with carbon nanotubes Its electricity changes.

In the  arc discharge method,  carbon atoms are heated and evaporated inside a helium gas plasma by passing a high current through the two poles of the anode and cathode  . The arc method is the most common and perhaps the simplest method for the production of carbon nanotubes,  in which a mixture of nanotubes and impurities is produced, which separates the nanotubes from soot and metals . Talisman in the raw product is essential. In this method, nanotubes are produced by evaporating an electric arc of two carbon rods  facing each other at approximately 1 mm apart. The electrodes are housed in a chamber filled with  an inert gas (helium or argon) at a relatively low pressure of 766-56 mbar. Create potential in approx26 volts with a current in the range of 166-56 amps causes an electrical discharge in the gas at high temperature, and the heat from the discharge evaporates one  of the carbon electrodes and precipitates in the form of small rods on the other electrode.

Conclusion : 

The ability to store electron (superconductivity) in carbon nanotubes and graphene particles has made nanotubes an   ideal choice for many applications. The existence of a series of special coordinates of carbon nanotubes makes them  useful in The manufacture of tools is centralized, and  they will be able to manufacture very large industrial tools.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics