Bilayer graphene (3) | ![]() |
Flexible graphene (4) | ![]() |
Graphene (2046) | ![]() |
Graphene coating (10) | ![]() |
Graphene device (22) | ![]() |
Graphene film (26) | ![]() |
Graphene gel (3) | ![]() |
Graphene growth (6) | ![]() |
Graphene ink (31) | ![]() |
Graphene layer (23) | ![]() |
Graphene material (3) | ![]() |
Graphene membranes (6) | ![]() |
Graphene nanopore (10) | ![]() |
Graphene nanoribbon (96) | ![]() |
Graphene oxide (59) | ![]() |
Graphene quantum dot (11) | ![]() |
Graphene research (6) | ![]() |
Graphene ribbon (5) | ![]() |
Graphene sample (9) | ![]() |
Graphene science (4) | ![]() |
Graphene sensor (5) | ![]() |
Graphene sheet (58) | ![]() |
Graphene strip (3) | ![]() |
Graphene structure (8) | ![]() |
Graphene surface (4) | ![]() |
Graphene synthesis (6) | ![]() |
Graphene technology (8) | ![]() |
Graphene transistor (4) | ![]() |
Layered graphene (3) | ![]() |
Nanographene (4) | ![]() |
Porous graphene (8) | ![]() |
Pristine graphene (12) | ![]() |
Pure graphene (3) | ![]() |
Reduced graphene oxide (10) | ![]() |
Single-layer graphene (13) | ![]() |
Suspended graphene (9) | ![]() |
This produced the glass layer on the would-be pure graphene. The work that describes direct imaging of this thin glass was published first in January 2012 in Nano Letters
To understand graphene oxide it is best to start with pure graphene which is a single-layer sheet of carbon atoms in a honeycomb lattice that was made first in 2004 by Andre Geim
The absence of a bandgap in pure graphene means that although its electrical conductivity is the highest of any material bar none,
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