We review the electronic properties of bilayer graphene, beginning with a description of the
tight-binding model of bilayer graphene and the derivation of the effective Hamiltonian …

The problem of electron-electron interactions in graphene is reviewed. Starting from the
screening of long-range interactions in these systems, the existence of an emerging Dirac …

The electronic properties of graphene, a two-dimensional crystal of carbon atoms, are
exceptionally novel. For instance, the low-energy quasiparticles in graphene behave as …

Carbon is a unique and very versatile element which is capable of forming different
architectures at the nanoscale. Over the last 20 years, new members of the carbon …

This article reviews the theoretical and experimental work related to the electronic properties
of bilayer graphene systems. Three types of bilayer stackings are discussed: the AA, AB, and …

Edge structures of thermally treated graphite have been studied by means of atomically
resolved high-resolution TEM. The method for the determination of a monolayer or more …

Low-dimensional materials are of great interest to both theorists and experimentalists, owing
to their novel electronic properties which arise mainly because of a host of quantum …

Graphene, a single two-dimensional sheet of carbon atoms with an arrangement mimicking
the honeycomb hexagonal architecture, has captured immense interest of the scientific …

Graphene has been the focus of research since its isolation in 2004. However, the lack of a
bandgap restricts its application in semiconductor industry in spite of its predicted extremely …

A review work is done for the electronic and optical properties of graphene nanoribbons in
magnetic, electric, composite, and modulated fields. Effects due to the lateral confinement …