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Ultrafast Charge Separation Due to Excited State Symmetry Breaking in Dimers of Push‐Pull Perylenes

Fuller, Michael J. ; Gusev, Alexey V. ; Wasielewski, Michael R.

Wiley ; 2004

In: Israel Journal of Chemistry Vol. 44, No. 1-3 ( 2004-10), p. 101-108

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In: Israel Journal of Chemistry, Wiley, Vol. 44, No. 1-3 ( 2004-10), p. 101-108

Abstract: Photoexcitation of chromophoric dimers constrained to a symmetric π‐stacked geometry by their molecular structure usually produce excimers independent of solvent polarity, while dimers with edge‐to‐edge perpendicular π systems undergo excited‐state symmetry breaking in highly polar solvents leading to intradimer charge separation. We present direct evidence for symmetry breaking in the lowest excited singlet state of a symmetric cofacial dimer of 9‐( N ‐pyrrolidinyl)‐1,6‐bis(3,5‐di‐ tert ‐butylphenoxy)perylene‐3,4‐dicarboximide (5PMI) in the low‐polarity solvent toluene to produce a radical ion pair quantitatively. This dimer, cof ‐5PMI 2 , was synthesized by attaching two 5PMI chromophores via imide groups to a xanthene spacer. For comparison, a linear symmetric dimer, lin ‐5PMI 2 , was prepared in which the 5PMI chromophores are linked end‐to‐end via a N‐N single bond between their imides. The edge‐to‐edge π systems of the 5PMI chromophores within lin ‐5PMI 2 are perpendicular to one another. Ground‐state absorption spectra of both 5PMI dimers show exciton coupling, which is consistent with the orientation of the 5PMI chromophores relative to one another. Ultrafast transient absorption spectroscopy following excitation of the dimers with 400‐nm, 80‐fs laser pulses shows that quantitative intradimer electron transfer occurs in cof ‐5PMI 2 in toluene with τ = 0.9 ps, followed by charge recombination to ground state with τ = 780 ps. Similar measurements on lin ‐5PMI 2 reveal that photoinduced electron transfer does not occur in toluene, but occurs in more polar solvents such as 2‐methyltetra‐hydrofuran, wherein τ = 4.5 ps for charge separation and τ = 660 ps for charge recombination. Excited‐state symmetry breaking in 5PMI dimers provides new routes to biomimetic charge separation and storage assemblies that can be more easily prepared and modified than those based on multiple tetrapyrrole macrocycles.

Type of Medium: Online Resource

ISSN: 0021-2148 , 1869-5868

URL: Article

DOI: 10.1560/KUBW-6YQV-X3W2-27UE

Language: English

Publisher: Wiley

Publication Date: 2004

detail.hit.zdb_id: 2066481-3

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Solvent Polarity Dependent Photophysics of a Fixed‐Distance, Symmetric Chlorophyll Dimer. A Model of the Special Pair in Photosynthetic Reaction Centers

Johnson, Douglas G. ; Svec, Walter A. ; Wasielewski, Michael R.

Wiley ; 1988

In: Israel Journal of Chemistry Vol. 28, No. 2-3 ( 1988-01), p. 193-203

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In: Israel Journal of Chemistry, Wiley, Vol. 28, No. 2-3 ( 1988-01), p. 193-203

Abstract: The synthesis and properties of a fixed‐distance symmetric bis‐pyrochlorophyllide‐ a molecule are described. The molecule, 1 , consists of two methyl pyrochlorophyllide‐ a (MePChlide‐ a ) moieties which share a common vinyl group at the 2‐position of each macrocycle. The two chlorophylls are trans to one another across the vinyl linkage. The dihedral angle between the plane of each macrocycle and the vinyl linkage is about 50°. The Q y absorption band of this dimer occurs at 689 nm and is essentially independent of solvent. The band is red‐shifted by about 27 run relative to that of MePChlide‐ a. The fluorescence maximum of 1 occurs at 722 nm. This is a red‐shift of 49 nm relative to methyl MePChlide‐ a. The circular dichroism spectrum of 1 shows strong, nonconservative bands in the red region. The fluorescence quantum yield, fluorescence lifetimes, and picosecond transient absorbance kinetics all exhibit a very strong dependence on solvent polarity. The fluorescence quantum yields of 1 in toluene, butyronitrile, and N, N ‐dimethyl formamide (DMF) are 0.18, 0.008, and 0.002, respectively. The bleach of the 689 nm band (following excitation with a 1.5‐ps, 610‐nm laser pulse) recovers with single exponential time constants of 2.51 ns, 100 ps, and 64 ps in toluene, butyronitrile, and DMF, respectively. Possible mechanisms for the polarity‐dependent increase of the nonradiative decay rate of 1 are considered.

Type of Medium: Online Resource

ISSN: 0021-2148 , 1869-5868

URL: Issue

URL: Article

DOI: 10.1002/ijch.v28.2-3

DOI: 10.1002/ijch.198800030

Language: English

Publisher: Wiley

Publication Date: 1988

detail.hit.zdb_id: 2066481-3

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