The electronic structure of quasi-one-dimensional graphene nanoribbons (GNRs) is closely
related to their width, boundary configuration and heteroatomic doping because of the …

Two‐dimensional (2D) ultra‐thin materials beyond graphene with rich physical properties
and unique layered structures are promising for applications in electronics, chemistry …

Glassy carbon is a graphene-rich form of elemental carbon obtained from pyrolysis of
polymers, which is composed of three-dimensionally arranged, curved graphene fragments …

Graphene and its analogues have some of the highest predicted melting points of any
materials. Previous work estimated the melting temperature for freestanding graphene to be …

By removing the oxygen-containing functional groups, thermal treatment in inert gas has
been widely reported to improve the hydrophobicity of carbon materials. However, this work …

Abstract Two-dimensional (2D) materials have displayed many remarkable physical
properties, including 2D superconductivity, magnetism, and layer-dependent bandgaps …

As one of the representatives of nano-graphene materials, graphene nanoribbons (GNRs)
have more novel electrical properties, highly adjustable electronic properties, and …

Graphitization of polymers is an effective way to synthesize nanocrystalline graphene on
different substrates with tunable shape, thickness and properties. The catalyst free synthesis …

We report the etching of and electronic transport in nanoribbons of graphene sandwiched
between atomically flat hexagonal boron nitride (h-BN). The etching of ribbons of varying …

The predicted quasiparticle energy gap of more than 1 eV in sub‐6 nm graphene
nanoribbons (GNRs) is elusive, as it is strongly suppressed by the substrate dielectric …