Nanowerk

Engineered disorder in graphene unlocks localization-enhanced thermoelectricity

Controlled defects in single-layer graphene pinpoint a critical 20 nm spacing where quantum interference traps electrons and ...
AZoNano

A Close-Up Look at Electron Transport in Graphene

The number of graphene layers determines specific properties. Both single-layer and bi-layer graphenes are zero band gap semiconductors because of the association between conduction and the valance ...
Nanowerk

Laser shockwaves transform carbon nanotube films into graphene-rich networks without external heating

Laser shockwaves convert carbon nanotube films into multilayer graphene without external heating, boosting thermal ...
AZOM

Raman Mapping for Structural and Electronic Analysis of Graphene

Originating as a theoretical prediction in the 1940s, with experimental isolation from graphite in 2004, graphene has quickly become a desirable quantum material used in various application areas, ...
AZoNano

How Does Stacking Graphene Influence Its Electronic Properties?

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.
AZOM

Density Functional Theory Applied to Optoelectronical Properties of Graphene

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, ...