We present calculations of the electronic and thermal transport properties of graphene
antidot lattices with a finite length along the transport direction. The calculations are based …

The discovery of the integer quantum Hall effect in the early eighties of the last century, with
highly precise quantization values for the Hall conductance in multiples of e 2/h, has been …

Orbitronics has recently emerged as a very active research topic after several proposals
aiming to exploit the orbital degree of freedom for charge-free electronics. In this …

Controlled, tunable, and reversible negative-differential resistance (NDR) is observed in
lithographically defined, atomically thin semiconducting graphene nanoribbon (GNR)-gated …

This review is devoted to the different techniques that have been developed to compute the
coherent transport properties of quantum nanoelectronic systems connected to electrodes …

We introduce apz-d coupling model Hamiltonian for the π-graphene/Au bands that predicts
a rather large intrinsic spin-orbit (SO) coupling as is being reported in recent experiments …

The recent observation (Gorbachev et al 2014 Science 346 448) of nonlocal resistance R
NL near the Dirac point (DP) of multiterminal graphene on aligned hexagonal-boron nitride …

Precise doping of graphene at nanoscale resolution is vital for a number of applications in
nanoelectronics and sustainable energy. Although large metallic contacts are presumed to …

We investigate theoretically the ability of graphene nanopore membranes to detect
methylated sites along a DNA molecule by electronic sheet current along the two …

We present a calculation of the electron-phonon scattering rates in ideal monolayer
graphene using the third-nearest-neighbor (3NN) tight-binding (TB) electronic Bloch wave …