This work demonstrates the synthesis of high quality, single layer graphene on commercially available ultra-smooth copper foils. The presented method will result in improved scalability of graphene based electronic and optical devices. Our approach is compatible with roll-to-roll printing as well as transfer printing of graphene layers on to a broad range of substrates including flexible and ultra-thin polymers. We propose that using commercially available ultra-smooth coppers provides scalable approach with the reduced variation of transport properties sourced from local graphene quality
An efficient and reliable transfer for graphene onto the substrates of interests acts as the crucial...
Having high charge carrier mobility and superior elastic properties, graphene is a very suitable mat...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...
This work demonstrates the synthesis of high quality, single layer graphene on commercially availabl...
This work demonstrates the synthesis of high quality, single layer graphene on commercially availabl...
This work demonstrates an attractive low-cost route to obtain large area and high-quality graphene f...
This work demonstrates an attractive low-cost route to obtain large area and high-quality graphene f...
Graphene, a single layer of sp2 hybridized carbon atoms, was first isolated from graphite in 2004. I...
As more knowledge is accumulated in the synthesis of 2D materials, such as graphene, graphene analog...
Pristine graphene inks show great promise for flexible printed electronics due to their high electri...
Graphene has been attracting great interest because of its distinctive band structure and physical p...
Over the last decade, graphene has generated immense excitement in the scientific and engineering co...
Over the past decade, graphene has advanced rapidly as one of the most promising materials changing ...
Graphene growth: The 2D structure of graphene combined with its excellent physical properties make i...
The ability to directly synthesize high-quality graphene patterns over large areas is important for ...
An efficient and reliable transfer for graphene onto the substrates of interests acts as the crucial...
Having high charge carrier mobility and superior elastic properties, graphene is a very suitable mat...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...
This work demonstrates the synthesis of high quality, single layer graphene on commercially availabl...
This work demonstrates the synthesis of high quality, single layer graphene on commercially availabl...
This work demonstrates an attractive low-cost route to obtain large area and high-quality graphene f...
This work demonstrates an attractive low-cost route to obtain large area and high-quality graphene f...
Graphene, a single layer of sp2 hybridized carbon atoms, was first isolated from graphite in 2004. I...
As more knowledge is accumulated in the synthesis of 2D materials, such as graphene, graphene analog...
Pristine graphene inks show great promise for flexible printed electronics due to their high electri...
Graphene has been attracting great interest because of its distinctive band structure and physical p...
Over the last decade, graphene has generated immense excitement in the scientific and engineering co...
Over the past decade, graphene has advanced rapidly as one of the most promising materials changing ...
Graphene growth: The 2D structure of graphene combined with its excellent physical properties make i...
The ability to directly synthesize high-quality graphene patterns over large areas is important for ...
An efficient and reliable transfer for graphene onto the substrates of interests acts as the crucial...
Having high charge carrier mobility and superior elastic properties, graphene is a very suitable mat...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...