Organic semiconductors have received broad attention and research interest due to their
unique integration of semiconducting properties with structural tunability, intrinsic flexibiltiy …

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

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 …

This is a tutorial-style introduction to the field of molecular polaritons. We describe the basic
physical principles and consequences of strong light–matter coupling common to molecular …

Exciton-polaritons are quasiparticles with mixed photon and exciton character that
demonstrate rich quantum phenomena, novel optoelectronic devices and the potential to …

Organic polaritonics has emerged as a captivating interdisciplinary field that marries the
complexities of organic photophysics with the fundamental principles of quantum optics. By …

Inspired by the formulation of quantum-electrodynamical time-dependent density functional
theory (QED-TDDFT) by Rubio and co-workers [Flick et al., ACS Photonics 6, 2757-2778 …

Light‐emitting field‐effect transistors (LEFETs) combine switching and amplification with
light emission and thus represent an interesting optoelectronic device. They are not limited …

Recent experiments on the strong light‐matter coupling between an organic semiconductor
and a plasmonic mode propose an unconventional way to enhance conductivity. Herein, it is …

A plasmonic modulator is a device that controls the amplitude or phase of propagating
plasmons. In a pure plasmonic modulator, the presence or absence of a plasmonic pump …