The E T polarity values of 4-[(1-methyl-4(1H)-pyridinylidene)ethylidene]-2,5-cyclohexadien-1-one, better known as Brooker's merocyanine, were collected in binary mixtures comprising a non-protic [acetonitrile, dimethyl sulfoxide (DMSO) and acetone] and a protic (water, methanol, ethanol, propan-2-ol and butan-1-ol) solvent. Data referring to mixed systems involving water and alcohols (methanol, ethanol, propan-2-ol and 2-methylpropan-2ol) were also collected. These data were used in the investigation of the preferential solvation of the dye. Each solvent system was analyzed in terms of both solute-solvent and solvent-solvent interactions. These latter interactions are responsible for the synergistic effects observed for the E T parameter in many binary mixtures. All data were successfully fitted to a model based on solvent exchange equilibria, which allowed the separation of the different contributions of the solvent species in the solvation shell of the dye. This model was then successfully applied to explain the kinetic behavior of the methylation of sodium 4-nitrophenoxide in acetone-water mixtures. This result suggests that this solvatochromic strategy can be successful in the analysis of many other solvent-dependent kinetic and thermodynamic processes occurring in mixed solvents.
The fluorescence of pyrene, a hydrophobic probe, was investigated in binary mixtures comprising a nonprotic
[acetonitrile, N,N-dimethylformamide (DMF), dimethyl sulfoxide (DMSO), and tetrahydrofurane (THF)] and
a protic (water, methanol, ethanol, propan-2-ol, and butan-1-ol) solvent. The variation in I/III values, the
intensity ratios between the first and third bands in vibronic fine structures of the emission spectra, along
with the variation in the more polar component was studied for each binary mixture. A preferential solvation
(PS) model was adapted from the literature and successfully applied to the experimental data. In the mixtures
containing acetonitrile, pyrene is always preferentially solvated by the nonprotic component. However, the
extent of PS by acetonitrile diminishes with a decrease in the polarity of the protic cosolvent. These results
were explained by the fact that pyrene is a highly hydrophobic probe. Thus, a replacement of the more polar
protic cosolvent for one which is more hydrophobic may lead to a comparatively stronger interaction of the
probe with the cosolvent through hydrophobic interactions. Synergism was observed for binary mixtures
comprising THF and the studied alcohols, for DMSO with water and methanol, and for DMF with water.
Finally, D2O−DMF and D2O−DMSO mixtures were studied and compared with the corresponding H2O
mixtures. It was verified that the extent of PS in both cases is diminished if water is replaced by deuterium
oxide. All data were interpreted in terms of solute−solvent and solvent−solvent interactions.
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