Increase of electronic conductivity by Ga graphene bonding in Nano carbon Tube multilayer CNTs (based on Nano _ Microelectronics PhD) PhD Teaching _ Research
Researcher and author: Dr. ( Afshin Rashid)
Note: Graphene has outstanding nanoelectronic properties, very high electron mobility and unparalleled nanoscale conductivity. It is so conductive that it transmits electrons ten times faster than silicon. And plays an important role in increasing the electronic conductivity with Ga graphene bonding in Nano carbon Tube multilayer CNTs.
To increase the electronic conductivity with Ga graphene bonding in Nano carbon Tube, a lot of hydrogen can be stored in the nanotubes for energy applications and fuel cocoons. 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 make liquid flow sensors to detect very small amounts of fluids and to generate voltage in biomedical applications. Also, liquids with high ionic strength produce more voltage .
Because the multilayer carbon nanotubes of CNTs are hollow, it is possible to place foreign matter inside them. So by putting Ga graphene in it, you can improve both the electrical properties and the energy storage. It limits the use of Ga graphene for some applications, such as digital switches with high on-off current ratios. Fortunately, quantum excitation excitation and edge effects on uniform, narrow-width (GNRs) and controllable graphene nano-strips are defective. Coating CNTs to increase electronic conductivity by bonding Ga graphene to Nano carbon Tube . Graphene is a pure carbon-based material. Graphene is a simple, regular, hexagonal carbon structure but very strong. Graghene is electrically divided into semiconductors such as germanium and silicon.
Multi-walled carbon nanotubes consist of nested layers of graphene and have a diameter of about 233 nanometers. The length of this nanotube can vary from a few nanometers to a few micrometers . Modifiable chemical levels, high surface area, unique physical properties, and rhythmic length have led to increased electronic conductivity by Ga graphene bonding in Nano carbon Tube multilayer CNTs . Usually to improve the electrical properties of some materials such as (carbon glass electrodes) GCE , carbon paste electrode, graphite electrodes or graphene electrodes can be increased electronic conductivity by Ga graphene bond in Nano carbon Tube multilayer CNTs can be observed. .
Author: Dr. ( Afshin Rashid)