Graphene nanoribbons (GNRs) are a family of one-dimensional (1D) materials with a
graphitic lattice structure. GNRs possess high mobility and current-carrying capability …

Graphene nanoribbons (GNRs) have recently emerged as promising candidates for channel
materials in future nanoelectronic devices due to their exceptional electronic, thermal, and …

Kwant is a Python package for numerical quantum transport calculations. It aims to be a user-
friendly, universal, and high-performance toolbox for the simulation of physical systems of …

This review on graphene, a one-atom thick, two-dimensional sheet of carbon atoms, starts
with a general description of the graphene electronic structure as well as a basic …

The nucleation of graphene on a transition metal surface, either on a terrace or near a step
edge, is systematically explored using density functional theory calculations and applying …

The thermoelectric properties of graphene and graphene nanostructures have recently
attracted significant attention from the physics and engineering communities. In fundamental …

We carried out measurements on nanoelectromechanical systems based on multilayer
graphene sheets suspended over trenches in silicon oxide. The motion of the suspended …

Two-dimensional graphene, carbon nanotubes, and graphene nanoribbons represent a
novel class of low dimensional materials that could serve as building blocks for future …

Graphene is the strongest material ever studied and can be an efficient substitute for silicon.
This six-volume handbook focuses on fabrication methods, nanostructure and atomic …

The transport properties of carriers in semiconducting graphene nanoribbons are studied by
comparing the effects of phonon, impurity, and line-edge roughness scattering. It is found …