Quantum materials have attracted much attention in recent years due to their exotic and
incredible properties. Among them, van der Waals materials stand out due to their weak …

Two‐dimensional/two‐dimensional (2D/2D) heterostructures consisting of two or more 2D
building blocks possess intriguing electronic features at the nanosized interfacial regions …

Abstract Mid-infrared (MIR) light-emitting devices play a key role in optical communications,
thermal imaging, and material analysis applications. Two-dimensional (2D) materials offer a …

Van der Waals interfaces can be formed by layer stacking without regard to lattice constants
or symmetries of individual building blocks. We engineered the symmetry of a van der Waals …

Strain can be used to modify the band structure—and thus the electronic properties—of two-
dimensional materials. However, research has focused on the use of monolayer graphene …

Heterostructure has triggered a surge of interest due to its synergistic effects between two
different layers, which contributes to desirable physical properties for extensive potential …

We study the effects of strain in moiré systems composed of honeycomb lattices. We
elucidate the formation of almost perfect one-dimensional moiré patterns in twisted bilayer …

Black phosphorus is well known for its excellent electromechanical properties. Although it
has previously been used for therapeutic drug delivery in cancer, it has never been applied …

The exceptional control of the electronic energy bands in atomically thin quantum materials
has led to the discovery of several emergent phenomena. However, at present there is no …

Despite the potential of graphene for building a variety of quantum photonic devices, its
centrosymmetric nature forbids the observation of second harmonic generation (SHG) for …