The dependence of excitation energy transfer kinetics on the electronic state of the acceptor (ground vs excited) has been resolved with a novel multipulse prePump-Pump-Probe spectroscopy. The primary energy transfer and annihilation dynamics in two model light-harvesting systems were explored: an artificially synthesized carotenoid-zinc-phthalocyanine dyad and a naturally occurring light-harvesting peridinin-chlorophyll protein complex from Amphidinium carterae. Both systems use carotenoid as the primary excitation energy donor with porphyrin chromophores as the acceptor molecules. The prePump-Pump-Probe transient signals were analyzed with Monte Carlo modeling to explicitly address the underlying step-by-step kinetics involved in both exc...
The energy dissipation mechanism in oligomers of the major light-harvesting complex II (LHC II) from...
Time resolved fluorescence spectroscopy was carried out on porphyrin-based artificial light harvesti...
Antenna complexes in photosystems of plants and green algae are able to switch between a light-harve...
Many aspects in the regulation of photosynthetic light-harvesting of plants are still quite poorly u...
Spectral and kinetic information on energy transfer from carotenoids (Cars) to chlorophylls (Chls) w...
Time-resolved multi-pulse methods were applied to investigate the excited state dynamics, the inters...
Inspiration from nature is a dominant force in generating creative solutions to important problems o...
Photosystem II (PSII) initiates photosynthesis in plants through the absorption of light and subsequ...
Time-resolved multi-pulse methods were applied to investigate the excited state dynamics, the inters...
Inter-pigment interactions define the functioning of light-harvesting protein complexes. To describe...
The excitation dynamics in isolated dimers of light harvesting complex I, the peripheral light harve...
In this chapter we introduce the physical models at the basis of photosynthetic light harvesting and...
The excitation dynamics in isolated dimers of light harvesting complex I, the peripheral light harve...
Under excess illumination, photosystem II of plants dissipates excess energy through the quenching o...
The energy transfer rates between chlorophylls in the light harvesting complex CP29 of higher plants...
The energy dissipation mechanism in oligomers of the major light-harvesting complex II (LHC II) from...
Time resolved fluorescence spectroscopy was carried out on porphyrin-based artificial light harvesti...
Antenna complexes in photosystems of plants and green algae are able to switch between a light-harve...
Many aspects in the regulation of photosynthetic light-harvesting of plants are still quite poorly u...
Spectral and kinetic information on energy transfer from carotenoids (Cars) to chlorophylls (Chls) w...
Time-resolved multi-pulse methods were applied to investigate the excited state dynamics, the inters...
Inspiration from nature is a dominant force in generating creative solutions to important problems o...
Photosystem II (PSII) initiates photosynthesis in plants through the absorption of light and subsequ...
Time-resolved multi-pulse methods were applied to investigate the excited state dynamics, the inters...
Inter-pigment interactions define the functioning of light-harvesting protein complexes. To describe...
The excitation dynamics in isolated dimers of light harvesting complex I, the peripheral light harve...
In this chapter we introduce the physical models at the basis of photosynthetic light harvesting and...
The excitation dynamics in isolated dimers of light harvesting complex I, the peripheral light harve...
Under excess illumination, photosystem II of plants dissipates excess energy through the quenching o...
The energy transfer rates between chlorophylls in the light harvesting complex CP29 of higher plants...
The energy dissipation mechanism in oligomers of the major light-harvesting complex II (LHC II) from...
Time resolved fluorescence spectroscopy was carried out on porphyrin-based artificial light harvesti...
Antenna complexes in photosystems of plants and green algae are able to switch between a light-harve...