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) have recently emerged as promising candidates for channel
materials in future nanoelectronic devices due to their exceptional electronic, thermal, and …

Semiconducting graphene nanoribbons are promising materials for nanoelectronics but are
held back by synthesis challenges. Here we report that molecular-scale carbon seeds can …

Single crystal graphene (SCG) has attracted enormous attention for its unique potential for
next‐generation high‐performance optoelectronics. In the absence of grain boundaries, the …

In this study, we present a synthetic method for the preparation of oxo-graphene
nanoribbons (oxo-GNRs) by oxidative cleavage of C–C bonds of enriched (6, 5)-single …

For the fabrication of modern graphene devices, uniform growth of high-quality monolayer
graphene on wafer scale is important. This work reports on the growth of large-scale …

Wafer-scale single-crystal graphene with high carrier mobility is essential as a promising
channel material for the next-generation two-dimensional nanoelectronics. However, direct …

Bottom-up assembled nanomaterials and nanostructures allow for the studies of rich and
unprecedented quantum-related and mesoscopic transport phenomena. However, it can be …

Epitaxial growth of a two-dimensional (2D) single crystal necessitates the symmetry group of
the substrate being a subgroup of that of the 2D material. As a consequence of the theory of …

Controllable synthesis of large-scale and high-quality graphene film is a basis for
development of electronic and spintronic devices. Chemical vapor deposition (CVD) has …