The Advantages of Graphene Nanoribbons
Nowadays, microelectronic technology is one of the smallest and fastest electronic circuits which are very functional. Although the usage of microelectronic technology is already wide spread, many semiconductor industries are still hoping to get something faster. That is why microelectronic is started to be developed to create the nanoelectronic technology.
For more than 30 years, microelectronic technologies are dominated by silicone semi conductor as the basic material. This material has several weaknesses such as the low saturation speed. This weakness is giving other material chances to be the alternative basic material in the microelectronic circuit. Graphene Nanoribbons is one of the materials that become the main attention; it is the 2 dimension form of Graphene.
The recent studies are proving that Graphene Nanoribbons has many advantages than the silicon semi conductor. One of the most important points is the possibilities of changing its band gap by adjusting the width of the band itself.
This kind of feature will not be available in the silicon semi conductor material. According to the Morozov (2010) the mobility of this material is much larger than the silicone; it is up to 20.000 cm2/Vs.
By using its character and advantages, Graphene Nanoribbons can be applied for nanoelectronic devices in the future, especially as the basic material of p-n nano diode connectives.
Some theoretical studies are also done to find many possible of function in the transport model of p-n armchair Graphene Nanoribbon (AGNR).
Incredibly, the circuit may afford a high speed and massive electron moves without overheating. It means that the future transistor may be totally built by using this material.
Today’s computer processor is only available to transfer in Mega Hertz to Giga Hertz speed; however, in the future you will be able to transfer through a Terra Hertz speed as well. This kind of high speed and lightweight computer will be very helpful to support our daily activities in the
For more than 30 years, microelectronic technologies are dominated by silicone semi conductor as the basic material. This material has several weaknesses such as the low saturation speed. This weakness is giving other material chances to be the alternative basic material in the microelectronic circuit. Graphene Nanoribbons is one of the materials that become the main attention; it is the 2 dimension form of Graphene.
The recent studies are proving that Graphene Nanoribbons has many advantages than the silicon semi conductor. One of the most important points is the possibilities of changing its band gap by adjusting the width of the band itself. This kind of feature will not be available in the silicon semi conductor material. According to the Morozov (2010) the mobility of this material is much larger than the silicone; it is up to 20.000 cm2/Vs.
By using its character and advantages, Graphene Nanoribbons can be applied for nanoelectronic devices in the future, especially as the basic material of p-n nano diode connectives.
Some theoretical studies are also done to find many possible of function in the transport model of p-n armchair Graphene Nanoribbon (AGNR).
Incredibly, the circuit may afford a high speed and massive electron moves without overheating. It means that the future transistor may be totally built by using this material.
Today’s computer processor is only available to transfer in Mega Hertz to Giga Hertz speed; however, in the future you will be able to transfer through a Terra Hertz speed as well. This kind of high speed and lightweight computer will be very helpful to support our daily activities in the