Graphene may be ideal material for development of next gen electronics
June 9th, 2008 - 1:39 pm ICT by ANI
- Washington, June 9 (ANI): New studies have determined that graphenes promising electronic properties will make it the ideal material for the development of next generation communication devices and nanoscale electronics.
Graphene is the two-dimensional crystalline form of carbon: a single layer of carbon atoms arranged in hexagons, and was discovered by physicists at the University of Manchester in 2004.
Now, researchers at the Department of Energys Advanced Light Source (ALS), from DOEs Lawrence Berkeley National Laboratory and the University of California at San Diego (UCSD), have measured the extraordinary properties of graphene with an accuracy never before achieved.
The results confirm many of the strangest features of the unusual material, but also reveal significant departures from theoretical predictions. They point the way to novel practical applications, such as tunable optical modulators for communications and other nanoscale electronics.
The studies were performed by Zhiqiang Li, an ALS Doctoral Fellow from Dimitri Basovs laboratory at UCSD, working with colleagues at Columbia University in New York and the National High Magnetic Field Laboratory in Florida, and with Berkeley Labs Michael Martin.
Graphenes unusual electronic properties arise from the fact that the carbon atom has four electrons, three of which are tied up in bonding with its neighbors, said Li.
But the unbound fourth electrons are in orbitals extending vertically above and below the plane, and the hybridization of these spreads across the whole graphene sheet, he added.
According to Li, the electrons in graphene are sort of free.
Unlike electrons in other materials, the electrons in graphene move ballistically - without collisions - over great distances, even at room temperature.
As a result, the ability of the electrons in graphene to conduct electrical current is 10 to 100 times greater than those in a normal semiconductor like silicon at room temperature.
This makes graphene a very promising candidate for future electronic applications. (ANI)
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- - berkeley national laboratory
- - carbon atom
- - carbon atoms
- - columbia university
- - doctoral fellow
- - electronic properties
- - extraordinary properties
- - generation communication
- - graphene sheet
- - hexagons
- - lawrence berkeley national laboratory
- - magnetic field laboratory
- - nanoscale electronics
- - national high magnetic field
- - national high magnetic field laboratory
- - optical modulators
- - theoretical predictions
- - university of california at san diego
- - university of manchester
- - working with colleagues
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