Add to ORKGWe demonstrate the local oxidation nanopatterning of graphene films by an atomic force microscope. The technique provides a method to form insulating trenches in graphene flakes and to fabricate nanodevices with sub-nanometer precision. We demonstrate fabrication of a 25-nm-wide nanoribbon and submicron size nanoring from a graphene flake. We also found that we can write either trenches or bumps on the graphene surface depending on the lithography conditions. We attribute the bumps to partial oxidation of the surface and incorporation of oxygen into the graphene lattice. (C) 2008 American Institute of Physics
Monolayer graphite thin film (graphene) has attracted much attention recently because of its many un...
Functionalized graphene is a versatile material that has well-known physical and chemical properties...
Nanostructured bi-layer graphene samples formed through catalytic etching are investigated with elec...
We demonstrate the local oxidation nanopatterning of graphene films by an atomic force microscope. T...
Carbon nanotubes (CNTs) and graphene are novel carbon materials which possess numerous unique electr...
We have fabricated graphene/graphene oxide/graphene (G/GO/G) junctions by local anodic oxidation lit...
We have developed a novel technique for fabrication of nanopores in suspended graphene (SG) films us...
Recently, global scientists have drawn attentions of study of graphene. Graphene has a lot of potent...
We mechanically clean graphene devices using an atomic force microscope (AFM). By scanning an AFM ti...
We report on the morphological investigation of nanoscale thick patterns obtained by the scanning pr...
Sub-20 nm patterns have been fabricated by using oxidation scanning probe lithography on epitaxial g...
Alternative lithographic techniques, in particular those based on scanning probe microscopy, have sh...
Máster en Materiales Nanoestructurados para Aplicaciones Nanotecnológicas (Nanostructured Materials ...
A cheap and green technology based on electro-erosion, performed at room conditions and scalable to ...
Graphene, consisting of atomically thin honeycomb lattice of sp2-bonded carbon atoms, is one of the ...
Monolayer graphite thin film (graphene) has attracted much attention recently because of its many un...
Functionalized graphene is a versatile material that has well-known physical and chemical properties...
Nanostructured bi-layer graphene samples formed through catalytic etching are investigated with elec...
We demonstrate the local oxidation nanopatterning of graphene films by an atomic force microscope. T...
Carbon nanotubes (CNTs) and graphene are novel carbon materials which possess numerous unique electr...
We have fabricated graphene/graphene oxide/graphene (G/GO/G) junctions by local anodic oxidation lit...
We have developed a novel technique for fabrication of nanopores in suspended graphene (SG) films us...
Recently, global scientists have drawn attentions of study of graphene. Graphene has a lot of potent...
We mechanically clean graphene devices using an atomic force microscope (AFM). By scanning an AFM ti...
We report on the morphological investigation of nanoscale thick patterns obtained by the scanning pr...
Sub-20 nm patterns have been fabricated by using oxidation scanning probe lithography on epitaxial g...
Alternative lithographic techniques, in particular those based on scanning probe microscopy, have sh...
Máster en Materiales Nanoestructurados para Aplicaciones Nanotecnológicas (Nanostructured Materials ...
A cheap and green technology based on electro-erosion, performed at room conditions and scalable to ...
Graphene, consisting of atomically thin honeycomb lattice of sp2-bonded carbon atoms, is one of the ...
Monolayer graphite thin film (graphene) has attracted much attention recently because of its many un...
Functionalized graphene is a versatile material that has well-known physical and chemical properties...
Nanostructured bi-layer graphene samples formed through catalytic etching are investigated with elec...