Isomer formation in dimeric complexes of a chiral
naphthalene derivative (2-naphthyl-1-ethanol) with
nonchiral
or chiral primary and secondary alcohols (n-propanol,
2-methyl-1-butanol, 2-butanol, 2-pentanol) has been
studied by hole-burning spectroscopy. Besides the spectroscopic
discrimination between the homochiral and
heterochiral complexes, previously observed in the fluorescence
excitation spectra, ground-state depletion
experiments have shown that each diastereoisomer is cooled in the jet
in several isomeric forms. To get
information on the structures of the complexes and on the influence of
the solvent conformations of these
structures, semiempirical calculations that rely on the exchange
perturbation method have been performed.
It has been shown that the most stable complexes involve a H-bond
between the chromophore acting as the
donor and the solvent and that they involve anti and gauche
conformations of the solvent. The binding
energy of the complexes results from a subtle balance between
electrostatic and dispersive forces: the complexes
involving the gauche and anti conformers of the solvent differ from
each other by the amount of dispersion
energy relative to the total interaction energy. The increase in
the dispersive forces calculated for the complexes
with the anti conformers has been related to a larger red shift of the
absorption spectrum and is suggested to
play a role in the observed chiral discrimination.
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