Geometric asymmetry is introduced in graphene-based nanofluidic devices to enhance ion current rectification.

Geometric asymmetry is introduced in graphene-based nanofluidic devices to enhance ion current rectification.
Graphene has outstanding properties. Industry and researchers join forces to develop solutions for the use in textiles.
Confining light into ultra-small metallic gaps dramatically boosts light interaction with graphene.
A group of researchers have developed a new hybrid catalyst technology to reduce oxygen at fuel cell cathodes.
A team introduce a soft processing approach for the continuous synthesis of high-quality graphene nanosheets via electrochemical exfoliation of graphite.
Researchers develop a high concentration graphene ink suitable for screen printing and a screen printing method for fabricating high-resolution patterns.
The Terrones group at The Pennsylvania State University in the US has reported a controlled technique able to dope graphene with silicon atoms.
The NanoMaster Project is reporting exciting results related to graphene and expanded graphite production and the development of novel nanocomposite intermediates.
Graphene-treated nanowires could soon replace current touchscreen technology, reducing production costs and allowing for more affordable, flexible displays.
Researchers report that SWCNTs are tubular graphene in a unique armchair configuration, resulting from the growth of a zigzag graphene ribbon.