The integration of dissimilar materials into heterostructures has become a powerful tool for
engineering interfaces and electronic structure. The advent of 2D materials has provided …

The exfoliation and identification of the two-dimensional (2D) single atomic layer of carbon
have opened the opportunity to explore graphene and related 2D materials due to their …

Two-dimensional materials provide extraordinary opportunities for exploring phenomena
arising in atomically thin crystals. Beginning with the first isolation of graphene, mechanical …

We present an overview of the main techniques for production and processing of graphene
and related materials (GRMs), as well as the key characterization procedures. We adopt …

Black phosphorus (BP), a fascinating semiconductor with high mobility and a tunable direct
bandgap, has emerged as a candidate beyond traditional silicon-based devices for next …

A foundation of the modern technology that uses single-crystal silicon has been the growth
of high-quality single-crystal Si ingots with diameters up to 12 inches or larger. For many …

Two-dimensional (2D) materials have attracted tremendous research interest since the
breakthrough of graphene. Their unique optical, electronic, and mechanical properties hold …

Twisted bilayer graphene (tBLG) has recently attracted growing interest due to its unique
twist-angle-dependent electronic properties. The preparation of high-quality large-area …

Graphene, in its ideal form, is a two-dimensional (2D) material consisting of a single layer of
carbon atoms arranged in a hexagonal lattice. The richness in morphological, physical …

This article reviews the theoretical and experimental work related to the electronic properties
of bilayer graphene systems. Three types of bilayer stackings are discussed: the AA, AB, and …