Add to ORKGThe combination of unique properties -high electrical mobility, thermal conductivity, transparency and mechanical flexibility- make graphene promising for a wide variety of applications, including transparent electrodes, flexible displays, touch-screens and wearables. One of the main reasons that prevent its widespread use is the difficulty to maintain all of the previously mentioned properties when grown using industrial grade techniques. The most widely used technique for growing graphene on a large scale is Chemical Vapor Deposition (CVD), where graphene is, typically, first deposited on a Cu catalyst foil and then transferred to a target substrate using additional sacrificial materials (polymers). The transfer is time-consuming and can ...
Here we review commonly used techniques for the production of large area and high quality graphene t...
We demonstrate the direct transfer of graphene from Cu foil to glass and flexible substrates such as...
This work demonstrates an attractive low-cost route to obtain large area and high-quality graphene f...
The combination of unique properties -high electrical mobility, thermal conductivity, transparency a...
Direct deposition of graphene on substrates would avoid costly, time consuming and defect inducing t...
Graphene growth: The 2D structure of graphene combined with its excellent physical properties make i...
In 2004 there were newly conditions for a scientific revolution, with very important technology impl...
Graphene has attracted intensive attention for various electronic applications in the past decades g...
International audiencePost-growth transfer and high growth temperature are two major hurdles that re...
The landscape of consumer electronics has drastically changed over the last decade. Technological ad...
We demonstrate direct growth of two-dimensional (2D) and three-dimensional (3D) graphene structures ...
The method of using CVD or Chemical Vapor Deposition [1-2] in the formation of graphene synthesis ha...
Graphene~1 is a miracle material with many promising prospects in both fundamental research and prac...
The high theoretical mobility of graphene makes it an excellent material for radio frequency applica...
Graphene, a single layer of sp2 hybridized carbon atoms, was first isolated from graphite in 2004. I...
Here we review commonly used techniques for the production of large area and high quality graphene t...
We demonstrate the direct transfer of graphene from Cu foil to glass and flexible substrates such as...
This work demonstrates an attractive low-cost route to obtain large area and high-quality graphene f...
The combination of unique properties -high electrical mobility, thermal conductivity, transparency a...
Direct deposition of graphene on substrates would avoid costly, time consuming and defect inducing t...
Graphene growth: The 2D structure of graphene combined with its excellent physical properties make i...
In 2004 there were newly conditions for a scientific revolution, with very important technology impl...
Graphene has attracted intensive attention for various electronic applications in the past decades g...
International audiencePost-growth transfer and high growth temperature are two major hurdles that re...
The landscape of consumer electronics has drastically changed over the last decade. Technological ad...
We demonstrate direct growth of two-dimensional (2D) and three-dimensional (3D) graphene structures ...
The method of using CVD or Chemical Vapor Deposition [1-2] in the formation of graphene synthesis ha...
Graphene~1 is a miracle material with many promising prospects in both fundamental research and prac...
The high theoretical mobility of graphene makes it an excellent material for radio frequency applica...
Graphene, a single layer of sp2 hybridized carbon atoms, was first isolated from graphite in 2004. I...
Here we review commonly used techniques for the production of large area and high quality graphene t...
We demonstrate the direct transfer of graphene from Cu foil to glass and flexible substrates such as...
This work demonstrates an attractive low-cost route to obtain large area and high-quality graphene f...