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 last two decades have witnessed a tremendous growth in the development and
understanding of sp 2 carbon-based nanostructures. The impact of this research has led to a …

Single-layer black phosphorus (BP), or phosphorene, is a highly anisotropic two-
dimensional elemental material possessing promising semiconductor properties for flexible …

Two-dimensional molybdenum disulfide (MoS2) is a promising material for optoelectronic
devices due to its strong photoluminescence emission. In this work, the photoluminescence …

Band gap control by an external field is useful in various optical, infrared and THz
applications. However, widely tunable band gaps are still not practical due to a variety of …

By mixing pure precursor monomers and nitrogen-doped equivalents, atomically sharp
wiggle-edged heterojunctions can be obtained via the combined action of Ullmann coupling …

Graphene nanoribbons (GNRs) can be mainly classified into armchair graphene
nanoribbons (aGNRs) and zigzag graphene nanoribbons (zGNRs) by different edge chiral …

Motivated by the recent synthesis of super-heptazethrene (S7ZTH) quantum dots, we use
theoretical calculations to propose a set of nanoribbons with nontrivial edge structures …

Recently synthesized two-dimensional covalent organic frameworks (COFs) exhibit high
surface area, large pore size, and unique structural architectures, making them promising …

Electronic structure methods are combined into a multiscale framework to investigate the
electronic transport properties of recently synthesized pristine and nitrogen-doped graphene …