Electronic behavior is a highly engaging domain for physicists exploring the properties of graphene. In this article, we discuss the relationship between stacked graphene and its electronic behavior.

Graphene and diamane have emerged as pivotal materials in the field of nanotechnology owing to their remarkable mechanical strength and unique electronic attributes. Graphene, a monolayer of carbon ...

Graphene superlattices offer a versatile platform for engineering the electronic and transport properties of graphene through periodic modulation of its potential landscape. By introducing controlled ...

The creation of graphene, a wonder material that promises to transform the future, is already the stuff of scientific legend. As a piece of brilliant serendipity it stands alongside the accidental ...

The ‘wonder material’, which is made from carbon and was discovered in 2004, is hailed for many of its extraordinary characteristics including being stronger than steel, more conductive than copper, ...

For industrial-scale applications, a delicate balance must exist between graphene quality and production cost. As diverse applications demand varied graphene properties, customizing graphene films to ...

A team of physicists at University of California, Riverside have discovered how to induce magnetism in graphene in a way that still preserves the material's electronic properties, which paves the way ...

Due to its high electron mobilities at ambient temperature and peculiar electronic behaviors like the quantum hall effect, which imitates massless transportation and results in high superconductivity, ...

Researchers at The University of Manchester’s National Graphene Institute (NGI) have achieved a long-sought-after objective of electrically controlling water flow through membranes, as reported in ...

Graphene has reached a commercial tipping point. Two decades after its first isolation, the carbon-based nanomaterial is now present in a range of consumer goods available locally and in innovations ...