Two-Photon Excitation of Substituted Enediynes

Two-Photon Excitation of Substituted Enediynes

Electronic spectroscopy of nine benzannelated enediynes and a related fulvene was studied under one-photon and two-photon excitation conditions. We utilize measured absorbance and emission spectra and time-resolved fluorescence decays of these molecules to calculate their radiative lifetimes and flu...

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Bibliographic Details
Published in:The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Vol. 110; no. 1; pp. 241 - 251
Main Authors: Kauffman, John F, Turner, Joseph M, Alabugin, Igor V, Breiner, Boris, Kovalenko, Serguei V, Badaeva, Ekaterina A, Masunov, Artëm, Tretiak, Sergei
Format: Journal Article
Language:English
Published: United States American Chemical Society 12-01-2006
Subjects:
Computer Simulation
Cyclization
Enediynes - chemical synthesis
Enediynes - chemistry
Models, Chemical
Molecular Structure
Photons
Quantum Theory
Time Factors
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Summary:Electronic spectroscopy of nine benzannelated enediynes and a related fulvene was studied under one-photon and two-photon excitation conditions. We utilize measured absorbance and emission spectra and time-resolved fluorescence decays of these molecules to calculate their radiative lifetimes and fluorescence quantum yields. The fluorescence quantum yields for the other compounds were referenced to the fluorescence quantum yield of compound 3 and used to determine relative two-photon absorption cross-sections. Further insight into experimental studies has been achieved using time-dependent density functional (TD-DFT) computations. The probability of two-photon absorption (TPA) increases noticeably for excitation to the higher excited states. The photophysical properties of benzannelated enediynes are sensitive to substitutions at both the core and the periphery of the enediyne chromophore. Considerably enhanced two-photon absorption is observed in an enediyne with donor substitution in the middle and acceptor substitution at the termini. Excited states with B symmetry are not active in TPA spectra. From a practical point of view, this study extends the range of wavelengths applicable for activation of the enediyne moiety from 350 to 600 nm and provides a rational basis for future studies in this field. Our theoretical computations confirmed that lowest energy TPA in benzannelated enediynes involves different orbitals than lowest energy one-photon absorbance and provided further support to the notion that introduction of donor and acceptor substituents at different ends of a molecule increases TPA.
Bibliography:istex:6061A7C00CD25FBB22A2A95216FC4DBE99EB4974
ark:/67375/TPS-61VQRZ47-Q
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ISSN:1089-5639
1520-5215
DOI:10.1021/jp056127y