A future for light-powered wireless connectivity, thanks to graphene
Researchers show a graphene plasmonic phase modulator that is capable of tuning the phase between 0 and 2π in situ.
Researchers show a graphene plasmonic phase modulator that is capable of tuning the phase between 0 and 2π in situ.
Graphene currently is the most studied material on the planet – this is especially true for charge storage and the…
Nanoparticle dispersion is widely recognised as a challenge in polymer nanocomposites fabrication. The dispersion quality can affect the physical and…
Just 13 years since graphene was first isolated, it’s being added to everything from tennis rackets to million-dollar watches.
By introducing defects into the perfect surface of graphene on silicon carbide, researchers have increased the capacity of the material…
Creating a bulge in a graphene sheet offers the first measurement of the shear forces between graphene layers, an essential…
A research team has developed a technology that can control graphene electronic device through static electricity. The team has developed…
Researchers have demonstrated here a transfer printing method based on a hydrophobic mold suitable for high-resolution patterning of graphene inks.
An international team of researchers have found a new way to tune the functionality of next-generation electronic devices – using…
A group of researchers has developed a graphene-bacterial cellulose nanofiber (GC/BCN) hybrid sensor to detect alcohol (ethanol) with great efficiency.…