A camera flash allowed the researchers to remove oxygen from, or reduce, just one side of
a sheet of graphene oxide.
3D - printing bacterial ink onto
sheets of graphene oxide could make precise patterns of highly - conductive material in a cheaper and easier way
Comprising tiny rolled
sheets of graphene oxide, these structures can zip around easily through both oil and water, picking up any oil particles they encounter and transporting them as cargo for later release.
Not exact matches
Researchers at Umeå University, together with researchers at Uppsala University and Stockholm University, show in a new study how nitrogen doped
graphene can be rolled into perfect Archimedean nano scrolls by adhering magnetic iron
oxide nanoparticles on the surface
of the
graphene sheets.
In the journal Optical Materials Express, from The Optical Society (OSA), the researchers reported that
graphene oxide sheets treated with brief exposure to bright light in the form
of a camera flash exhibited reversible bending at angles from zero to 85 degrees in response to switching the relative humidity between 33 and 86 percent.
An electron microscope image shows flake - like nanoplatelets made
of graphene quantum dots drawn from coal and
graphene oxide sheets, modified with boron and nitrogen.
By using the probe
of an atomic force microscope to trigger a local chemical reaction, Jeffrey Mativetsky, assistant professor
of physics at Binghamton University, and PhD student Austin Faucett showed that electrically conductive features as small as four nanometers can be patterned into individual
graphene oxide sheets.
Researchers at Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a new, environmentally stable solid - state hydrogen storage material constructed
of Mg nanocrystals encapsulated by atomically thin and gas - selective reduced
graphene oxide (rGO)
sheets.