Interactions between light and matter play an instrumental role in spectroscopy, sensing,
quantum information processing and lasers. In most of these applications, light is considered …

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 …

Our experience of the world around us is governed almost entirely by light–matter
interactions. At the most fundamental level, such interactions are described by quantum …

Solid-state quantum emitters are a mainstay of quantum nanophotonics as integrated single-
photon sources (SPS) and optical nanoprobes. Integrating such emitters with active …

We employ fluorescence lifetime imaging technology to explore exciton radiative
recombination dynamics in layered transition-metal dichalcogenides (TMDCs) and …

In this Perspective, we present that polariton modes hosted in two-dimensional (2D)
materials can be used to increase and control light–matter interactions at the nanoscale. We …

As a quasiparticle formed by light and excitons in semiconductors, the exciton polariton (EP)
as a quantum bus is promising for the development of quantum interconnect devices at room …

We introduce a photonic nanostructure made of two-dimensional materials that can lead to
non-Markovian dynamics in the spontaneous emission of a nearby quantum emitter …

We propose a nanophotonic structure that gives high-degree quantum interference (QI) in
the spontaneous emission (SE) of a quantum emitter (QE) in conjunction with strong light …

We investigate the effect of coherence on the energy transfer between a donor and an
acceptor molecule located on opposite sides of a Mo S 2 nanodisk. We study the energy …