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) | ![]() |
To make their uniquely compact electrode Li s team exploited an adaptive graphene gel film they had developed previously.
One is a graphene gel that works as a supercapacitor electrode and the second is a 3-D porous graphene foam.
The graphene gel provides the same functionality as porous carbon a material currently sourced from coconut husks for use in supercapacitors and other energy conversion and storage technologies but with vastly enhanced performance.
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