Atomically thin materials such as graphene and monolayer transition metal dichalcogenides
(TMDs) exhibit remarkable physical properties resulting from their reduced dimensionality …

Recent advances in the isolation and stacking of monolayers of van der Waals materials
have provided approaches for the preparation of quantum materials in the ultimate two …

Recently, the emerging conceptual valley-related devices have attracted much attention due
to the progress on generating, controlling, and detecting the valley degree of freedom in the …

In van der Waals (vdW) heterostructures formed by stacking two monolayers of transition
metal dichalcogenides, multiple exciton resonances with highly tunable properties are …

The optical properties of atomically thin transition metal dichalcogenide (TMDC)
semiconductors are shaped by the emergence of correlated many-body complexes due to …

Fabricating van der Waals bilayer heterostructures (BL-HS) by stacking the same or different
two-dimensional layers, offers a unique physical system with rich electronic and optical …

Transition metal dichalcogenides (TMDs) offer a new platform for theoretical study of two-
dimensional materials and their applications, beyond graphene. Previous studies indicate …

Twisted 2D bilayer materials are created by artificial stacking of two monolayer crystal
networks of 2D materials with a desired twisting angle θ. The material forms a moiré …

Scientific curiosity to uncover original optical properties and functionalities of atomically thin
semiconductors, stemming from unusual Coulomb interactions in the two-dimensional …

Semiconducting transition‐metal dichalcogenides (TMDCs) provide a fascinating discovery
platform for strong light–matter interaction effects in the visible spectrum at ambient …