During the first steps of photosynthesis, the energy of impinging solar photons is transformed into electronic excitation energy of the light-harvesting biomolecular complexes. The subsequent energy transfer to the reaction center is commonly rationalized in terms of excitons moving on a grid of biomolecular chromophores on typical timescales [Formula: see text]100 fs. Today's understanding of the energy transfer includes the fact that the excitons are delocalized over a few neighboring sites, but the role of quantum coherence is considered as irrelevant for the transfer dynamics because it typically decays within a few tens of femtoseconds. This orthodox picture of incoherent energy transfer between clusters of a few pigments sharing deloc...
AbstractThe idea that quantum-mechanical phenomena can play nontrivial roles in biology has fascinat...
AbstractSpectroscopic studies of light harvesting and the subsequent energy conversion in photosynth...
Long-lived electronic coherences in various photosynthetic complexes at cryogenic and room temperatu...
During the first steps of photosynthesis, the energy of impinging solar photons is transformed into ...
Photosynthesis is a highly optimized process from which valuable lessons can be learned about the op...
We have studied the FMO, LHCII and PSII reaction center complex by electronic 2D spectroscopy. At am...
AbstractQuantum coherence improves the quantum efficiency of excitonic energy transport within the F...
A remarkable amount of theoretical research has been carried out to elucidate the physical origins o...
AbstractA remarkable amount of theoretical research has been carried out to elucidate the physical o...
Recent measurements using two-dimensional electronic spectroscopy (2D ES) have shown that the initi...
AbstractLong-lived electronic coherences in various photosynthetic complexes at cryogenic and room t...
AbstractPhotosynthetic light harvesting is a paradigmatic example for quantum effects in biology. In...
The idea that excitonic (electronic) coherences are of fundamental importance to natural photosynthe...
Almost all life on Earth depends on the products of photosynthesis — the biochemical process whereby...
AbstractThe idea that quantum-mechanical phenomena can play nontrivial roles in biology has fascinat...
AbstractSpectroscopic studies of light harvesting and the subsequent energy conversion in photosynth...
Long-lived electronic coherences in various photosynthetic complexes at cryogenic and room temperatu...
During the first steps of photosynthesis, the energy of impinging solar photons is transformed into ...
Photosynthesis is a highly optimized process from which valuable lessons can be learned about the op...
We have studied the FMO, LHCII and PSII reaction center complex by electronic 2D spectroscopy. At am...
AbstractQuantum coherence improves the quantum efficiency of excitonic energy transport within the F...
A remarkable amount of theoretical research has been carried out to elucidate the physical origins o...
AbstractA remarkable amount of theoretical research has been carried out to elucidate the physical o...
Recent measurements using two-dimensional electronic spectroscopy (2D ES) have shown that the initi...
AbstractLong-lived electronic coherences in various photosynthetic complexes at cryogenic and room t...
AbstractPhotosynthetic light harvesting is a paradigmatic example for quantum effects in biology. In...
The idea that excitonic (electronic) coherences are of fundamental importance to natural photosynthe...
Almost all life on Earth depends on the products of photosynthesis — the biochemical process whereby...
AbstractThe idea that quantum-mechanical phenomena can play nontrivial roles in biology has fascinat...
AbstractSpectroscopic studies of light harvesting and the subsequent energy conversion in photosynth...
Long-lived electronic coherences in various photosynthetic complexes at cryogenic and room temperatu...