The past few decades have witnessed a notable increase in transition metal dichalcogenide
(TMD) related research not only because of the large family of TMD candidates but also …

Surface acoustic wave (SAW)–matter interaction provides a fascinating key for inducing and
manipulating novel phenomena and functionalities in two-dimensional (2D) materials. The …

Two-dimensional chalcogenide semiconductors have recently emerged as a host material
for quantum emitters of single photons. While several reports on defect-and strain-induced …

Tip-enhanced nano-spectroscopy and-imaging have significantly advanced our
understanding of low-dimensional quantum materials and their interactions with light …

The optical properties of transition-metal dichalcogenides have previously been modified at
the nanoscale by using mechanical and electrical nanostructuring. However, a clear …

The generation of high-purity localized trions, dynamic exciton–trion interconversion, and
their spatial modulation in two-dimensional (2D) semiconductors are building blocks for the …

Strain-engineering band structure in transition-metal dichalcogenides (TMDC) is a
promising avenue toward capabilities in optoelectronics. For example, controlling the flow of …

We study theoretically the effects of an anisotropic elastic strain on the exciton energy
spectrum fine structure and optical selection rules in atomically thin crystals based on …

Emerging light–matter interactions in metal–semiconductor hybrid platforms have attracted
considerable attention due to their potential applications in optoelectronic devices. Here, we …

Spatial manipulation of excitonic quasiparticles, such as neutral excitons, charged excitons,
and interlayer excitons, in two-dimensional semiconductors offers unique capabilities for a …