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Rotational dynamics of electronically excited aniline in solution from picosecond fluorescence anisotropies (1987)

Myers, Anne B. ; Pereira, Marco A. ; Holt, Patrick L. ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 86 (1987), S. 5146-5155

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Ultraviolet fluorescence upconversion gating has been used to measure the fluorescence anisotropy of aniline in four hydrocarbon and alcoholic solvents. The deconvoluted anisotropy decay time of 1.2 ps in isopentane is only about a factor of 2 longer than calculated for free rotation of collision-free molecules, and increasing the solvent viscosity by a factor of 15 by going from isopentane to hexadecane increases the rotational relaxation time by only another factor of 2. These results imply that the orientational motion of electronically excited aniline in hydrocarbons may be significantly nondiffusive and that unhindered inertial rotation through large angles may be possible. The experimental anisotropy decays do, however, differ significantly from those calculated for completely unhindered free rotation. The anisotropy decays much more slowly in methanol and sec-butanol than in the hydrocarbons, presumably due to dipole–dipole and/or hydrogen bonding interactions in the hydroxylic solvents. The rotational relaxation of N,N-dimethylaniline is slower than that of aniline in hydrocarbon solvents but faster in methanol, perhaps reflecting reduced hydrogen bonding. Fluorescence anisotropy decays of 4-cyclohexylaniline and 2,4,6-tri-tert-butylaniline have also been examined in order to estimate the true initial rotationless anisotropy [r(0)] for aniline.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.452635

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Transient spectroscopy of pyridazine vapor: Photophysics of the S1 origin (1986)

Holt, Patrick L. ; Selco, Jodye I. ; Weisman, R. Bruce

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 84 (1986), S. 1996-2001

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Nonradiative relaxation processes of pyridazine's S1 origin level have been investigated using several varieties of gas phase time-resolved spectroscopy. Measurements of ground state repopulation kinetics under vibrationally relaxing conditions showed rapid and nearly complete return of thermalized S0, implying a quantum yield for S1 → S0 internal conversion of at least 0.95. The room temperature photochemical quantum yield was found to be higher in the low pressure gas than in solution by a factor of at least 600. From these results the photochemically active state was deduced to be vibrationally energized S0, rather than S1. The collision-free lifetime of the S1 origin level was measured as 3–4 ns on the basis of near ultraviolet Sn ← S1 transient absorption and S1 → S0 stimulated emission kinetics. Hot S0 molecules formed as the product of S1 internal conversion showed a broad, structureless transient absorption spectrum. Apart from its collision-free radiationless decay, the S1 origin level was also found to undergo an unusual collisional quenching process induced by electronically inert collision partners at rates between 5% and 10% of gas kinetic. This collisional channel is suggested to involve promotion to the anomalous level 373 cm−1 above the S1 origin, which had been tentatively assigned as the origin of pyridazine's S2 state.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.450407

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