In this review, the recent development of blue perovskite light‐emitting diodes (PeLED) are
summarized. On deep‐blue (≤ 465 nm) perovskite nanomaterials of different structural …

Exciton-polaritons provide a versatile platform for investigating quantum electrodynamics
effects in chemical systems, such as polariton-altered chemical reactivity. However, using …

The generation of exciton–polaritons through strong light–matter interactions represents an
emerging platform for exploring quantum phenomena. A significant challenge in colloidal …

We derive an analytic expression of the non-equilibrium Fermi's golden rule (NE-FGR)
expression for a Holstein–Tavis–Cumming Hamiltonian, a universal model for many …

Linearly polarized organic light-emitting diodes have become appealing functional
expansions of polarization optics and optoelectronic applications. However, the current …

Controlling the relaxation dynamics of excitons is key to improving the efficiencies of
semiconductor-based applications. Confined semiconductor nanocrystals (NCs) offer …

In this work, the gas sensing properties of a single ZnO nanowire (NW) are investigated,
simultaneously in terms of photoluminescence (PL) and photocurrent (PC) response to NO2 …

Understanding the microstructure of materials and their impact on performance is crucial for
new electronic devices design. The strong interaction between multiple degrees of freedom …

Hybridization of excitons with photons to form hybrid quasiparticles—exciton–polaritons
(EPs)—has been widely investigated in a range of semiconductor material systems coupled …

Carbon materials, known for their lightweight properties, are widely utilized in
electromagnetic wave absorption applications. In order to overcome the limitations of …