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How and why do transition dipole moment orientations depend on conformer structure?

The journal of physical chemistry. A (2011-04-20)
Christian Brand, W Leo Meerts, Michael Schmitt
RESUMEN

A remarkable influence of the orientation of a polar side chain on the direction of the S(1) ← S(0) transition dipole moment of monosubstituted benzenes was previously reported from high-resolution electronic spectroscopy. In search for a more general understanding of this non-Condon behavior, we investigated ethylamino-substituted indole and benzene (tryptamine and 2-phenylethylamine) using ab initio theory and compared the results to rotationally resolved laser-induced fluorescence measurements. The interaction of the ethylamino side chain with the benzene chromophore can evoke a rotation and a change of ordering of the molecular orbitals involved in the excitation, leading to state mixing and large changes in the orientation of the excited-state transition dipole moment. These changes are much less pronounced in tryptamine with the indole chromophore, where a rotation of the transition dipole moment is attributed to Rydberg contributions of the nitrogen atom of the chromophore. For phenylethylamine, a strong dependence of the oscillator strengths of the lowest two singlet states from the conformation of the side chain is found, which makes the use of experimental vibronic intensities for assessment of relative conformer stabilities at least questionable.

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Sigma-Aldrich
Phenethylamine, 99%
Sigma-Aldrich
2-Phenylethylamine hydrochloride, ≥98%
Sigma-Aldrich
Phenethylamine, ≥99%
Sigma-Aldrich
Phenethylamine, purified by redistillation, ≥99.5%
Supelco
2-Phenethylamine, analytical standard