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 …

An introduction to the transport properties of graphene combining experimental results and
theoretical analysis is presented. In the theoretical description simple intuitive models are …

Understanding Dirac-like fermions has become an imperative in modern condensed matter
sciences: All across the research frontier, from graphene to high T c superconductors to the …

This brief review discusses electronic properties of mesoscopic graphene-based structures.
These allow controlling the confinement and transport of charge and spin; thus, they are of …

A significant advance toward achieving practical applications of graphene as a two-
dimensional material in nanoelectronics would be provided by successful synthesis of both …

We describe how to apply the recursive Green's function method to the computation of
electronic transport properties of graphene sheets and nanoribbons in the linear response …

In this paper, we report a study of graphene and graphene field effect devices after their
exposure to a series of short pulses of oxygen plasma. Our data from Raman spectroscopy …

As a promising cathode material of sodium‐ion batteries, Na3V2 (PO4) 3 (NVP) has
attracted extensive attention in recent years due to its high stability and fast Na+ ion …

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 …

In recent years, predictive computational modeling has become a cornerstone for the study
of fundamental electronic, optical, and thermal properties in complex forms of condensed …