Washington, January 30 (ANI): A team of scientists has produced 100mm diameter graphene wafers, which is a key milestone in the development of graphene for next generation high frequency electronic devices.
The team is from the Electro-Optics Center (EOC) Materials Division at Penn State.
Due to its phenomenal electronic properties, graphene has been considered as a leading material for next generation electronic devices in the multibillion dollar semiconductor industry.
Using a process called silicon sublimation, EOC researchers David Snyder and Randy Cavalero thermally processed silicon carbide wafers in a physical vapor transport furnace until the silicon migrated away from the surface, leaving behind a layer of carbon that formed into a one- to two-atom-thick film of graphene on the wafer surface.
Achieving 100mm graphene wafers has put the Penn State EOC in a leading position for the synthesis of ultra-large graphene and graphene-based devices.
With the support of the Naval Surface Warfare Center, EOC researchers are initially focusing on graphene materials to improve the transistor performance in various radio frequency (RF) applications.
According to EOC materials scientist Joshua Robinson, Penn State is developing graphene device processing to enhance graphene transistor performance and has fabricated RF field effect transistors on 100mm graphene wafers.
Another goal of the Penn State researchers is to improve the electron mobility of the Si-sublimated wafers to nearer the theoretical limit, approximately 100 times faster than silicon.
According to Robinson, that will require improvements in the material quality and device design, but there is significant room for improvements in growth and processing.
In addition to silicon sublimation, EOC researchers Joshua Robinson, Mark Fanton, Brian Weiland, Kathleen Trumbull, and Michael LaBella are developing the synthesis and device fabrication of graphene on silicon using a non-sublimation route as a means to achieve wafer diameters exceeding 200mm, a necessity for integrating graphene into the existing semiconductor industry.
Graphene has the potential to enable terahertz computing at processor speeds 100 to 1000 times faster than silicon. (ANI)
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