Photophysical and Photochemical Processes of Excited Singlet and Triplet [3n]Cyclophanes (n = 2–6) Studied by Emission Measurements and Steady-State and Laser Flash Photolyses

Yamaji, Minoru; Okamoto, Hideki; Hakoshima, Yuhko; Shinmyozu, Teruo

doi:10.1021/jp511105v

Cited by 5 publications

(1 citation statement)

References 89 publications

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“…Since the first observation of excimer fluorescence from pyrene, several studies have been performed to understand the nature of singlet and triplet excimers by various spectroscopic techniques, such as steady-state absorption and emission spectra and time-resolved transient absorption spectra. − Previous studies have shown that excimers dissipate the excitation energy and usually increase nonradiative transition . Recently, the systems have been reported to show new roles, such as enhancing phosphorescence quantum yield and facilitating singlet fission , and electron transfer .…”

Section: Introductionmentioning

confidence: 99%

Direct Observation of a Triplet-State Absorption-Emission Conversion in a Fullerene-Functionalized Pt(II) Metallacycle

Zhang

Yang

et al. 2017

J. Phys. Chem. C

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An interesting triplet excited-state absorption-emission conversion of a fullerene-functionalized Pt(II) metallacycle (C 60 –Pt) caused by a concentration effect was directly observed by nanosecond transient absorption (ns TA) spectroscopy. In dilute solution, the triplet excited-state absorption (TESA) band was observed at about 750 nm with a lifetime of ca. 10.7 μs. However, with increasing the concentration, the absorption band converted to a triplet excited-state emission (TESE) band with a longer lifetime of ca. 15.4 μs. Femtosecond transient absorption experiments and quantum chemistry calculations were performed to reveal the excited-state decay pathways of C 60 –Pt in concentrated solution. This conversion was ascribed to the formation of a triplet excimer, which forms at localized 3C60 * states. This work demonstrates that radiative excimers with longer-lived triplet excited states can exist in concentrated solution, and this finding will provide useful information for applications of fullerene complexes, especially as photosensitizers.

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Section: Introductionmentioning

confidence: 99%

Direct Observation of a Triplet-State Absorption-Emission Conversion in a Fullerene-Functionalized Pt(II) Metallacycle

Zhang

Yang

et al. 2017

J. Phys. Chem. C

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Polyaromatic Cyclophanes Design and their Related Optical Properties

Diallo,

Audibert,

Leray

et al. 2024

ChemistryOpen

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In this article, we present several organic synthetic way to synthesize a family of five polyaromatic molecules based on a cyclophane core. Our strategies revolves around palado‐catalyzed substitution on a [2.2]paracyclophane (pCp) building block. Direct formation of a cyclophane was also employed for two molecules. The polyaromatic nature of the cyclophane library we synthetized made them good fluorophores candidate, we hence performed full photophysical characterization (Absorption, Emission, TCSPC) in different solvent as well as embed in polystyrene films. We evaluate how the cyclophane moiety influence their photo physical properties compared to their corresponding homologues without pCp core, demonstrating greater stoke shift and intramolecular exciplex behavior. The general behavior among cyclophanes was also compared and show solvent dependent properties as well as consistency of the photophysics between toluene and polystyrene matrix.

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Laser photolysis studies of ω-bond dissociation in aromatic carbonyls of five-membered rings induced by triplet sensitization

Fujino

Yamaji

Marciniak

2018

Journal of Photochemistry and Photobiology A: Chemistry

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Photophysical and Photochemical Processes of Excited Singlet and Triplet [3_n]Cyclophanes (n = 2–6) Studied by Emission Measurements and Steady-State and Laser Flash Photolyses

Cited by 5 publications

References 89 publications

Direct Observation of a Triplet-State Absorption-Emission Conversion in a Fullerene-Functionalized Pt(II) Metallacycle

Direct Observation of a Triplet-State Absorption-Emission Conversion in a Fullerene-Functionalized Pt(II) Metallacycle

Polyaromatic Cyclophanes Design and their Related Optical Properties

Laser photolysis studies of ω-bond dissociation in aromatic carbonyls of five-membered rings induced by triplet sensitization

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