Organic (opto) electronic materials have received considerable attention due to their
applications in thin-film-transistors, light-emitting diodes, solar cells, sensors, photorefractive …

The transport of excitation energy in molecular aggregates is of crucial importance for the
function of organic optoelectronic devices and next‐generation solar cells. First, this review …

Recent observations of oscillatory features in the optical response of photosynthetic
complexes have revealed evidence for surprisingly long-lasting electronic coherences …

Femtosecond nonlinear spectroscopy is the main tool for the time-resolved detection of
photophysical and photochemical processes. Since most systems of chemical interest are …

Surface plasmon polaritons (SPPs) are spatially confined electromagnetic field modes at a
metal-dielectric interface capable of generating intense near-field optical forces on ultrafast …

Photosynthesis begins with light harvesting, where specialized pigment–protein complexes
transform sunlight into electronic excitations delivered to reaction centres to initiate charge …

The initial steps of photosynthesis comprise the absorption of sunlight by pigment-protein
antenna complexes followed by rapid and highly efficient funneling of excitation energy to a …

Two-dimensional electronic spectroscopy (2DES) reveals connections between an optical
excitation at a given frequency and the signals it creates over a wide range of frequencies …

The motion of chemical bonds within molecules can be observed in real time in the form of
vibrational wave packets prepared and interrogated through ultrafast nonlinear …

Recent two-dimensional (2D) electronic spectroscopic experiments revealed that electronic
energy transfer in photosynthetic light harvesting involves long-lived quantum coherence …