On the Controversial Nature of the 825 nm Exciton Band in the FMO Protein Complex
Author:
Affiliation:
1. Department of Physics, Concordia University, Montreal H4B 1R6, Quebec, Canada
Publisher
American Chemical Society (ACS)
Subject
General Materials Science,Physical and Theoretical Chemistry
Link
https://pubs.acs.org/doi/pdf/10.1021/jz5001165
Reference57 articles.
1. A new chlorophyll from green bacteria
2. The FMO Protein
3. Revisiting the optical properties of the FMO protein
4. Evidence for wavelike energy transfer through quantum coherence in photosynthetic systems
5. Long-lived quantum coherence in photosynthetic complexes at physiological temperature
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1. Exciton Lifetime Distributions and Population Dynamics in the FMO Protein Complex from Prosthecochloris aestuarii;ACS Omega;2021-02-19
2. Normal mode analysis of spectral density of FMO trimers: Intra- and intermonomer energy transfer;The Journal of Chemical Physics;2020-12-07
3. Architecture of the photosynthetic complex from a green sulfur bacterium;Science;2020-11-20
4. On uncorrelated inter-monomer Förster energy transfer in Fenna–Matthews–Olson complexes;Journal of The Royal Society Interface;2019-02
5. The influence of quaternary structure on the stability of Fenna–Matthews–Olson (FMO) antenna complexes;Photosynthesis Research;2018-10-12
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