Igor L. Zheldakov scite author profile

Ultrafast transient absorption spectroscopy monitors the solution-phase dynamics of 2-phenylthiophene (PT), 2-methyl-5-phenylthiophene (MPT), and 2,4-dimethyl-5-phenylthiophene (DMPT) following excitation to the first singlet excited state. Rapid spectral evolution indicates that structural relaxation on the S(1) potential energy surface occurs within ~100 fs, whereas the picosecond-scale kinetics reveal efficient intersystem crossing to the triplet manifold of states. The rate of intersystem crossing is significantly faster for DMPT (21.6 ± 1.0 ps) than for PT (102 ± 5 ps) and MPT (132 ± 3 ps). The measurements provide new limits on the timescale for a competing isomerization reaction in which the phenyl group changes position on the thiophene ring. The role of methyl substitution in driving the intersystem crossing is discussed.

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Two-Photon Excitation of trans-Stilbene: Spectroscopy and Dynamics of Electronically Excited States above S₁

Houk

Zheldakov

Tommey

et al. 2014

J. Phys. Chem. B

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The photoisomerization dynamics of trans-stilbene have been well studied in the lowest excited state, but much less is known about the behavior following excitation to higher-lying electronically excited states. This contribution reports a combined study of the spectroscopy and dynamics of two-photon accessible states above S1. Two-photon absorption (2PA) measurements using a broadband pump-probe technique reveal distinct bands near 5.1 and 6.4 eV. The 2PA bands have absolute cross sections of 40 ± 16 and 270 ± 110 GM, respectively, and a pump-probe polarization dependence that suggests both of the transitions access Ag-symmetry excited states. Separate transient absorption measurements probe the excited-state dynamics following two-photon excitation into each of the bands using intense pulses of 475 and 380 nm light, respectively. The initially excited states rapidly relax via internal conversion, leading to the formation of an S1 excited-state absorption band that is centered near 585 nm and evolves on a time scale of 1-2 ps due to intramolecular vibrational relaxation. The subsequent evolution of the S1 excited-state absorption is identical to the behavior following direct one-photon excitation of the lowest excited state at 4.0 eV. The complementary spectroscopy and dynamics measurements provide new benchmarks for computational studies of the electronic structure and dynamics of this model system on excited states above S1. Probing the dynamics of molecules in their higher-lying excited states is an important frontier in chemical reaction dynamics.

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Chemical design of quasi-one-dimensional organoiron nanostructures fixed on an inorganic matrix and study of their magnetic properties

et al. 2007

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Tin– and Titanium–Oxygen Nanostructures on the Various Hydr(oxides) Surfaces

et al. 2004

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Igor L. Zheldakov

Wavepacket Motion via a Conical Intersection in the Photochemistry of Aqueous Transition-Metal Dianions

Excited-state dynamics and efficient triplet formation in phenylthiophene compounds

Two-Photon Excitation of trans-Stilbene: Spectroscopy and Dynamics of Electronically Excited States above S₁

Chemical design of quasi-one-dimensional organoiron nanostructures fixed on an inorganic matrix and study of their magnetic properties

Tin– and Titanium–Oxygen Nanostructures on the Various Hydr(oxides) Surfaces

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Igor L. Zheldakov

Wavepacket Motion via a Conical Intersection in the Photochemistry of Aqueous Transition-Metal Dianions

Excited-state dynamics and efficient triplet formation in phenylthiophene compounds

Two-Photon Excitation of trans-Stilbene: Spectroscopy and Dynamics of Electronically Excited States above S1

Chemical design of quasi-one-dimensional organoiron nanostructures fixed on an inorganic matrix and study of their magnetic properties

Tin– and Titanium–Oxygen Nanostructures on the Various Hydr(oxides) Surfaces

Contact Info

Product

Resources

About

Two-Photon Excitation of trans-Stilbene: Spectroscopy and Dynamics of Electronically Excited States above S₁