Talk:Graham Fleming

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Fleming's work on two-dimensional electronic spectroscopy to the study of energy transfer in photosynthetic systems has attracted particular interest in the current academic literature. One of his recent studies in particularly, discussing, quantum coherence in photosynthetic energy transfer[1], has attracted particular discussion and debate in the academic literature.[2] [3] [4] [5] [6] [7] [8]

References

  1. ^ G. S. Engel; T. R. Calhoun; E. L. Read; T. K. Ahn; T. Mancal; Y. C. Cheng; R. E. Blankenship; G. R. Fleming (2007). "Evidence for wavelike energy transfer through quantum coherence in photosynthetic system". Nature. 446 (7137): 782–6. Bibcode:2007Natur.446..782E. doi:10.1038/nature05678. PMID 17429397.
  2. ^ Quantum secrets of photosynthesis revealed, 12 April 2007, physorg.com (retrieved 4 June 2011)
  3. ^ Wilkins, David; Dattani, Nike (2015), "Why Quantum Coherence Is Not Important in the Fenna–Matthews–Olsen Complex", Journal of Chemical Theory and Computation, 11 (7): 3411–3419, arXiv:1411.3654, doi:10.1021/ct501066k, PMID 26575775
  4. ^ R. Tempelaar; T. L. C. Jansen; J. Knoester (2014). "Vibrational Beatings Conceal Evidence of Electronic Coherence in the FMO Light-Harvesting Complex". J. Phys. Chem. B. 118 (45): 12865–12872. doi:10.1021/jp510074q. PMID 25321492.
  5. ^ N. Christenson; H. F. Kauffmann; T. Pullerits; T. Mancal (2012). "Origin of Long-Lived Coherences in Light-Harvesting Complexes". J. Phys. Chem. B. 116 (25): 7449–7454. doi:10.1021/jp304649c. PMC 3789255. PMID 22642682.
  6. ^ E. Thyrhaug; K. Zidek; J. Dostal; D. Bina; D. Zigmantas (2016). "Exciton Structure and Energy Transfer in the Fenna−Matthews− Olson Complex". J. Phys. Chem. Lett. 7 (9): 1653–1660. doi:10.1021/acs.jpclett.6b00534. PMID 27082631.
  7. ^ D. M. Monahan; L. Whaley-Mayda; A. Ishizaki; G. R. Fleming (2015). "Influence of weak vibrational-electronic couplings on 2D electronic spectra and inter-site coherence in weakly coupled photosynthetic complexes". J. Chem. Phys. 143 (6): 065101. Bibcode:2015JChPh.143f5101M. doi:10.1063/1.4928068. PMID 26277167.
  8. ^ Halpin, A.; Johnson, P.J.M.; Tempelaar, R.; Murphy, R.S.; Knoester, J.; Jansen, T.L.C.; Miller, R.J.D. (2014). "Two-Dimensional Spectroscopy of a Molecular Dimer Unveils the Effects of Vibronic Coupling on Exciton Coherences". Nature Chemistry. 6 (3): 196–201. Bibcode:2014NatCh...6..196H. doi:10.1038/nchem.1834. PMID 24557133.