Ultrafast carotenoid band shifts: Experiment and theory

J.L. Herek; M. Wendling; Z. He; T. Polivka; G. Garcia-Asua; R.J. Cogdell; C.N. Hunter; R. van Grondelle; V. Sundstrom; T. Pullerits

doi:10.1021/jp040094p

Ultrafast carotenoid band shifts: Experiment and theory

J.L. Herek, M. Wendling, Z. He, T. Polivka, G. Garcia-Asua, R.J. Cogdell, C.N. Hunter, R. van Grondelle, V. Sundstrom, T. Pullerits

Biophysics Photosynthesis/Energy

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

The ultrafast carotenoid band shift upon excitation of nearby bacteriochlorophyll molecules was studied in three different light harvesting complexes from purple bacteria. The results were analyzed in terms of changes in local electric field of the carotenoids. Time dependent density functional theory calculations based on known and model structures led to good agreement with experimental results, strongly suggesting that the mutual orientation of the pigment molecules rather than the type of the carotenoid molecules determines the extent of the ultrafast band shift. We further estimate that the protein induced local field nearby carotenoid molecule is about 4 or 6 MV/cm, depending on the orientation of the change of the electrical dipole in the carotenoid upon optical transition.

Original language	English
Pages (from-to)	10398-10403
Journal	Journal of Physical Chemistry B
Volume	108
Issue number	29
DOIs	https://doi.org/10.1021/jp040094p
Publication status	Published - 2004

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Ultrafast carotenoid band shifts: Experiment and theory

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10.1021/jp040094p

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title = "Ultrafast carotenoid band shifts: Experiment and theory",

abstract = "The ultrafast carotenoid band shift upon excitation of nearby bacteriochlorophyll molecules was studied in three different light harvesting complexes from purple bacteria. The results were analyzed in terms of changes in local electric field of the carotenoids. Time dependent density functional theory calculations based on known and model structures led to good agreement with experimental results, strongly suggesting that the mutual orientation of the pigment molecules rather than the type of the carotenoid molecules determines the extent of the ultrafast band shift. We further estimate that the protein induced local field nearby carotenoid molecule is about 4 or 6 MV/cm, depending on the orientation of the change of the electrical dipole in the carotenoid upon optical transition.",

author = "J.L. Herek and M. Wendling and Z. He and T. Polivka and G. Garcia-Asua and R.J. Cogdell and C.N. Hunter and {van Grondelle}, R. and V. Sundstrom and T. Pullerits",

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T1 - Ultrafast carotenoid band shifts: Experiment and theory

AU - Herek, J.L.

AU - Wendling, M.

AU - He, Z.

AU - Polivka, T.

AU - Garcia-Asua, G.

AU - Cogdell, R.J.

AU - Hunter, C.N.

AU - van Grondelle, R.

AU - Sundstrom, V.

AU - Pullerits, T.

N1 - Ultrafast carotenoid band shifts: Experiment and theory

PY - 2004

Y1 - 2004

N2 - The ultrafast carotenoid band shift upon excitation of nearby bacteriochlorophyll molecules was studied in three different light harvesting complexes from purple bacteria. The results were analyzed in terms of changes in local electric field of the carotenoids. Time dependent density functional theory calculations based on known and model structures led to good agreement with experimental results, strongly suggesting that the mutual orientation of the pigment molecules rather than the type of the carotenoid molecules determines the extent of the ultrafast band shift. We further estimate that the protein induced local field nearby carotenoid molecule is about 4 or 6 MV/cm, depending on the orientation of the change of the electrical dipole in the carotenoid upon optical transition.

AB - The ultrafast carotenoid band shift upon excitation of nearby bacteriochlorophyll molecules was studied in three different light harvesting complexes from purple bacteria. The results were analyzed in terms of changes in local electric field of the carotenoids. Time dependent density functional theory calculations based on known and model structures led to good agreement with experimental results, strongly suggesting that the mutual orientation of the pigment molecules rather than the type of the carotenoid molecules determines the extent of the ultrafast band shift. We further estimate that the protein induced local field nearby carotenoid molecule is about 4 or 6 MV/cm, depending on the orientation of the change of the electrical dipole in the carotenoid upon optical transition.

U2 - 10.1021/jp040094p

DO - 10.1021/jp040094p

M3 - Article

SN - 1520-6106

VL - 108

SP - 10398

EP - 10403

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

IS - 29

ER -

Ultrafast carotenoid band shifts: Experiment and theory

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