Heterostructures are often expected to be of enhanced electronic properties compared with
homogeneous ones. Valuable experimental efforts have been devoted to the fabrication of …

The in-plane heterostructures composed of graphene and hexagonal boron nitride (G/BN),
as the first kind of two-dimensional metal/semiconductor heterostructures of one-atom …

Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …

Van der Waals (vdW) heterostructures consist of isolated atomic planar structures,
assembled layer-by-layer into desired structures in a well-defined sequence. Graphene …

Very recently, the lateral heterojunctions of hexagonal boron nitride (h-BN)/graphene were
experimentally realized for the time. To study the related properties of such heterojunctions …

Two-dimensional materials are promising for use in atomically thin electronics,
optoelectronics and flexible electronics because of their versatile band structures, optical …

Research on in‐plane and vertically‐stacked heterostructures of graphene and hexagonal
boron nitride (h‐BN) have attracted intense attentions for energy band engineering and …

The combination of several materials into heterostructures is a powerful method for
controlling material properties. The integration of graphene (G) with hexagonal boron nitride …

Atomically sharp heterojunctions in lateral two-dimensional heterostructures can provide the
narrowest one-dimensional functionalities driven by unusual interfacial electronic states. For …

Integration of individual two-dimensional materials into heterostructures is a crucial step
which enables development of new and technologically interesting functional systems of …