Add to ORKGInternational audienceWe show that by using an original method, bulk graphite can be bonded onto borosilicate glass or potentially any insulating substrate with ionic conductivity and then cleaved off to leave single or few layer graphene on the substrate, identified optically and with Raman spectroscopy. This simple, inexpensive and fast method leads to the preparation of large area graphene and single or few-layer films of layered materials in general. We have prepared mm-sized few-layer graphene samples and also measured IV characteristics in a FET. This opens up perspectives both for fundamental research as well as for applications
Graphene is a relatively new material which has had a lot of publicity recently as a group of scient...
We have clearly discriminated the single-, bilayer-, and multiple-layer graphene (<10 layers) on ...
Commercialization of graphene is still one the biggest challenges in the carbon field despite the de...
Currently, a tremendous amount of activity is being directed towards the study of graphene. This int...
We have demonstrated a new method for the large-area graphene growth, which can lead to a scalable l...
The transferring and identification of single- and few- layer graphene sheets from SiO2/Si substrate...
International audienceWe present a fabrication method producing large and flat graphene flakes that ...
Graphene is a novel carbon nanomaterial and a great promise for nanotechnology applications in a nea...
Fast progress in chemical vapor deposition of graphene and other quasi-two-dimensional layered mater...
Thin layers of graphite can be produced by relatively easy cleaving with adhesive tape or other mean...
We present a high-scale method to produce few-layer graphene (FLG) based on the mechanical exfoliati...
Continuous growth of high-quality single-layer graphene (SLG) is highly desirable in several electro...
An effective and scalable exfoliation route has been developed to prepare high quality pristine grap...
Graphene is a nanomaterial that consists of a carbon monolayer (one atom thick) arranged in the grap...
Graphene is an amazing novel material consisting of one atomic layer of carbon in a hexagonal lattic...
Graphene is a relatively new material which has had a lot of publicity recently as a group of scient...
We have clearly discriminated the single-, bilayer-, and multiple-layer graphene (<10 layers) on ...
Commercialization of graphene is still one the biggest challenges in the carbon field despite the de...
Currently, a tremendous amount of activity is being directed towards the study of graphene. This int...
We have demonstrated a new method for the large-area graphene growth, which can lead to a scalable l...
The transferring and identification of single- and few- layer graphene sheets from SiO2/Si substrate...
International audienceWe present a fabrication method producing large and flat graphene flakes that ...
Graphene is a novel carbon nanomaterial and a great promise for nanotechnology applications in a nea...
Fast progress in chemical vapor deposition of graphene and other quasi-two-dimensional layered mater...
Thin layers of graphite can be produced by relatively easy cleaving with adhesive tape or other mean...
We present a high-scale method to produce few-layer graphene (FLG) based on the mechanical exfoliati...
Continuous growth of high-quality single-layer graphene (SLG) is highly desirable in several electro...
An effective and scalable exfoliation route has been developed to prepare high quality pristine grap...
Graphene is a nanomaterial that consists of a carbon monolayer (one atom thick) arranged in the grap...
Graphene is an amazing novel material consisting of one atomic layer of carbon in a hexagonal lattic...
Graphene is a relatively new material which has had a lot of publicity recently as a group of scient...
We have clearly discriminated the single-, bilayer-, and multiple-layer graphene (<10 layers) on ...
Commercialization of graphene is still one the biggest challenges in the carbon field despite the de...