The interaction between molecular electronic transitions and electromagnetic fields can be
enlarged to the point where distinct hybrid light–matter states, polaritons, emerge. The …

Here, we review the design of optical cavities, transient and modulated responses, and
theoretical models relevant to vibrational strong coupling (VSC). While planar Fabry–Perot …

This Review focuses on the integration of plasmonic and dielectric metasurfaces with
emissive or stimuli-responsive materials for manipulating light–matter interactions at the …

Optical metasurfaces are planar metamaterials that can mediate highly precise light–matter
interactions. Because of their unique optical properties, both plasmonic and dielectric …

Molecular polaritons are hybrid light-matter states that emerge when a molecular transition
strongly interacts with photons in a resonator. At optical frequencies, this interaction unlocks …

Constructing chiral plexcitonic systems with tunable plasmon–exciton coupling may
advance the scientific exploitation of strong light–matter interactions. Because of their …

Establishing green and reliable energy resources is very important to counteract the carbon
footprints and negative impact of non-renewable energy resources. Metal-organic …

Plasmonic metasurfaces can significantly enhance the interaction between light and 2D
materials. Hybrid structures of plasmonic lattices and 2D materials show great promise for …

Strong coupling between light and matter can produce hybrid eigenstates known as exciton–
polaritons. Although polariton dynamics are important photophysical properties, the …

This paper describes a nanofabrication procedure that can generate multiscale substrates
with quasi-random microregions of nanoparticle arrays having different periodicities and …