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 …

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 …

A broad review of fundamental electronic properties of two-dimensional graphene with the
emphasis on density and temperature-dependent carrier transport in doped or gated …

We theoretically study the optical absorption property of twisted bilayer graphenes with
various stacking geometries and demonstrate that the spectroscopic characteristics serve as …

From diagnosis of life‐threatening diseases to detection of biological agents in warfare or
terrorist attacks, biosensors are becoming a critical part of modern life. Many recent …

We report variation of the work function for single and bilayer graphene devices measured
by scanning Kelvin probe microscopy (SKPM). By use of the electric field effect, the work …

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 …

A range of quantum field theoretical phenomena driven by external magnetic fields and their
applications in relativistic systems and quasirelativistic condensed matter ones, such as …

Studies of the electromagnetic response of various classes of correlated electron materials
including transition-metal oxides, organic and molecular conductors, intermetallic …

Multilayer epitaxial graphene is investigated using far infrared transmission experiments in
the different limits of low magnetic fields and high temperatures. The cyclotron-resonance …