It is possible to modify the chemical and physical properties of molecules, not only through
chemical modifications but also by coupling molecules strongly to light. More intriguingly …

Abstract Two-dimensional (2D) transition metal dichalcogenide (TMDC) materials, such as
MoS 2, WS 2, MoSe 2, and WSe 2, have received extensive attention in the past decade due …

Monolayer transition metal dichalcogenides (TMDCs) have recently been proposed as an
excitonic platform for advanced optical and electronic functionalities,–. However, in spite of …

The field of two-dimensional (2D) materials-based nanophotonics has been growing at a
rapid pace, triggered by the ability to design nanophotonic systems with in situ control …

Strong coupling between plasmons in metal nanoparticles and single excitons in molecules
or semiconductor nanomaterials has recently attracted considerable experimental effort for …

Toroidal moments in artificial media have received growing attention and considered as a
promising framework for initiating novel approaches to manage intrinsic radiative losses in …

The interaction between plasmons in metal nanostructures and excitons in layered materials
attracts recent interests due to its fascinating properties inherited from the two constituents …

Plexcitonic strong coupling between a plasmon–polariton and a quantum emitter empowers
ultrafast quantum manipulations in the nanoscale under ambient conditions. The main body …

The extraordinary optical properties of surface plasmons in metal nanostructures provide the
possibilities to enhance and accelerate the spontaneous emission, and manipulate the …

Semiconductors in all dimensionalities ranging from 0D quantum dots and molecules to 3D
bulk crystals support bound electron–hole pair quasiparticles termed excitons. Over the past …