Ensemble and Single-Molecule Spectroscopic Study on Excitation Energy Transfer Processes in 1,3-Phenylene-Linked Perylenebisimide Oligomers

Bahng, Hee Won; Yoon, Min Chul; Lee, Ji Eun; Murase, Yuichi; Yoneda, Tomohiro; Shinokubo, Hiroshi; Osuka, Atsuhiro; Kim, Dongho

doi:10.1021/jp208855u

Cited by 26 publications

(33 citation statements)

References 84 publications

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“…in which τ dep is the depolarization time, which is experimentally obtained from the TAA decay profiles 29. As the two PBI units in F2 are identical, it follows that the EET time is twice that of depolarization (Table 3), thus giving rise to EET times of 1.76±0.06 ps (CHCl 3 ) and 0.95±0.06 ps (THF), respectively (Table 4).…”

Section: Discussionmentioning

confidence: 95%

Folding‐Induced Modulation of Excited‐State Dynamics in an Oligophenylene–Ethynylene‐Tethered Spiral Perylene Bisimide Aggregate

et al. 2015

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The excited-state photophysical behavior of a spiral perylene bisimide (PBI) folda-octamer (F8) tethered to an oligophenylene-ethynylene scaffold is comprehensively investigated. Solvent-dependent UV/Vis and fluorescence studies reveal that the degree of folding in this foldamer is extremely sensitive to the solvent, thus giving rise to an extended conformation in CHCl(3) and a folded helical aggregate in methylcyclohexane (MCH). The exciton-deactivation dynamics are largely governed by the supramolecular structure of F8. Femtosecond transient absorption (TA) in the near-infrared region indicates a photoinduced electron-transfer process from the backbone to the PBI core in the extended conformation, whereas excitation power- and polarization-dependent TA measurements combined with computational modeling showed that excitation energy transfer between the unit PBI chromophores is the major deactivation pathway in the folded counterpart.

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Section: Discussionmentioning

confidence: 95%

Folding‐Induced Modulation of Excited‐State Dynamics in an Oligophenylene–Ethynylene‐Tethered Spiral Perylene Bisimide Aggregate

et al. 2015

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“…In addition to porphyrin, other dyes with strong absorption in the visible have been used to create dimers as, for example, derivatives of perylene (bis)imids (PBI) 21–25. H‐type PBI dimers create long‐lived excimer‐like states upon photoexcitation, the fluorescence of which is red shifted compared to the monomer 21.…”

Section: Introductionmentioning

confidence: 99%

“…22 In contrast, J‐type PBI dimers and trimers, which show a redshift in the absorption spectrum and have been investigated through single‐molecule fluorescence experiments, revealed that the lifetime of the delocalized exciton is shorter when it is shared between more monomers 23–24. If a phenyl ring was used to link the PBI derivatives, J‐type dimers and trimers were obtained with a lifetime only slightly affected by dimerization and by the presence of Förster‐type energy transfer between the constituting units 25…”

Section: Introductionmentioning

confidence: 99%

Modeling Milk Heating Processes for the Production of Milk Shelf‐stable without Refrigeration

Stoeckel

Lidolt

Hinrichs

2016

Chemie Ingenieur Technik

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Modeling milk heating processes leading to milk shelf‐stable without refrigeration was studied. Evaluated criteria were: inactivation of bacterial spores and highly thermosresistant spores (HTRS), reduction of the plasmin activity and Pseudomonas peptidases, lactulose formation, browning, and thiamin loss. Special emphasis was laid on including the inactivation of milk spoilage enzymes in the modeling approach. The reduction of bacterial spores and plasmin activity was shown to be essential for the shelf‐stability. Using modeling, risks posed by the selected criteria can be identified and eliminated by adapting the processes.

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“…Thus, assembly measurements, such as ultrafast time-resolved spectral measurements,a re also important to determine the delocalization of the excitation;h owever,t his methodr equires at ime resolution that is greater than 100 fs. [18][19][20][21][22] In this work, we report the fluorescence excitation and fluorescence excitation anisotropy spectra of three multibranched push-pull molecules in apolymer matrix to probe the intramolecular redistribution of the excitation energy among the multibranched chromophores. Our results directly reflect the interplay between the chromophores, and hence,a llow the excita-tion localization/delocalization in multibranched chromophores to be determined.…”

Section: Introductionmentioning

confidence: 99%

A Study of Excitation Delocalization/Localization in Multibranched Chromophores by Using Fluorescence Excitation Anisotropy Spectroscopy

Wang

et al. 2015

ChemPhysChem

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We describe a simple approach to study the excitation localization/delocalization in multibranched chromophores by using fluorescence excitation anisotropy spectroscopy at room temperature. As examples, the electronic excitations in three different multibranched chromophores (dimers) are investigated. For a weakly coupled dimer, fluorescence anisotropy is independent of excitation wavelength, due to localized excitation as well as the degenerate electronic excited states. In contrast, in the case of a strongly coupled dimer, owing to excitonic splitting, a redistribution of the excitation energy is demonstrated by the dependence of anisotropy spectra on the excitation wavelength, which leads to significant deviation from the anisotropy signal of localized excitation. In particular, based on the law of additivity for anisotropy, the degree of delocalized excitation can be simply estimated for a given dimer.

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Ensemble and Single-Molecule Spectroscopic Study on Excitation Energy Transfer Processes in 1,3-Phenylene-Linked Perylenebisimide Oligomers

Cited by 26 publications

References 84 publications

Folding‐Induced Modulation of Excited‐State Dynamics in an Oligophenylene–Ethynylene‐Tethered Spiral Perylene Bisimide Aggregate

Folding‐Induced Modulation of Excited‐State Dynamics in an Oligophenylene–Ethynylene‐Tethered Spiral Perylene Bisimide Aggregate

Modeling Milk Heating Processes for the Production of Milk Shelf‐stable without Refrigeration

A Study of Excitation Delocalization/Localization in Multibranched Chromophores by Using Fluorescence Excitation Anisotropy Spectroscopy

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