Issue 35, 2016

Excitonic and vibrational coherence in artificial photosynthetic systems studied by negative-time ultrafast laser spectroscopy

Abstract

Quantum coherences between excitonic states are believed to have a substantial impact on excitation energy transfer in photosynthetic systems. Here, the excitonic and vibrational coherence relaxation dynamics of artificially synthetic chlorosomes are studied by a sub 7 fs negative-time-delay laser spectroscopy at room temperature. The results provide direct evidence for the quantum coherence of the excitonic dephasing time of 23 ± 1 fs at physiologically relevant temperatures, which is significant in the initial step of energy transfer in chlorosome or chlorosome-like photosynthetic systems. Meanwhile, coherent molecular vibrations in the excited state are also detected without the effect of wave-packet motion in the ground state, which shows that the excited state wave-packet motion contributes greatly to the vibrational modes of ∼150 and ∼1340 cm−1 in artificial chlorosome systems.

Graphical abstract: Excitonic and vibrational coherence in artificial photosynthetic systems studied by negative-time ultrafast laser spectroscopy

Article information

Article type
Paper
Submitted
23 May 2016
Accepted
02 Aug 2016
First published
02 Aug 2016

Phys. Chem. Chem. Phys., 2016,18, 24252-24260

Excitonic and vibrational coherence in artificial photosynthetic systems studied by negative-time ultrafast laser spectroscopy

D. Han, B. Xue, J. Du, T. Kobayashi, T. Miyatake, H. Tamiaki, X. Xing, W. Yuan, Y. Li and Y. Leng, Phys. Chem. Chem. Phys., 2016, 18, 24252 DOI: 10.1039/C6CP03540J

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