Graphene nanoribbons (GNRs) are a family of one-dimensional (1D) materials with a
graphitic lattice structure. GNRs possess high mobility and current-carrying capability …

As cut-outs from a graphene sheet, nanographenes (NGs) and graphene nanoribbons
(GNRs) are ideal cases with which to connect the world of molecules with that of bulk carbon …

This review discusses recent advances and future research priorities in the transition-metal
dichalcogenide (TMD) field. While the community has witnessed tremendous advances …

Graphene nanoribbons (GNRs) are quasi‐1D graphene strips, which have attracted
attention as a novel class of semiconducting materials for various applications in electronics …

Graphene nanoribbons hold great promise for future applications in nanoelectronic devices,
as they may combine the excellent electronic properties of graphene with the opening of an …

The design and fabrication of robust metallic states in graphene nanoribbons (GNRs) are
challenging because lateral quantum confinement and many-electron interactions induce …

Although methods for a periodic perforation and heteroatom do** of graphene sheets
have been developed, patterning closely spaced holes on the nanoscale in graphene …

The incorporation of nanoscale pores into a sheet of graphene allows it to switch from an
impermeable semimetal to a semiconducting nanosieve. Nanoporous graphenes are …

Despite the existence of numerous photocatalyst heterostructures, their separation efficiency
and charge flow precision remain low due to the poor study on interfacial properties. The …

Substitutional heteroatom do** of bottom-up engineered 1D graphene nanoribbons
(GNRs) is a versatile tool for realizing low-dimensional functional materials for …