Characterization of solvent mixtures. Part 8 — preferential solvation of chemical probes in binary solvent systems of a polar aprotic hydrogen‐bond acceptor solvent with acetonitrile or nitromethane. Solvent effects on aromatic nucleophilic substitution reactions

The use of chemical probes for the characterization of chemical properties was explored for completely non‐aqueous aprotic binary solvent mixtures. The Dimroth–Reichardt E T (30) betaine dye, 4‐nitrophenol, 4‐nitroanisole, 4‐nitroaniline and N,N ‐diethyl‐4‐nitroaniline were used to study preferential solvation in binary mixtures of a polar aprotic hydrogen bond‐acceptor solvent (DMSO, DMF, acetone, butanone and ethyl acetate) with acetonitrile or nitromethane at 25 °C over the whole range of solvent composition. The indicators were employed to determine E T (30), π*, α and β solvatochromic parameters of the mixtures. Each solvent system was analysed according to its deviation from ideal behaviour due to the preferential solvation of the indicators and also from the complicated intermolecular interactions of the mixed solvent. The validity of the concept of an intrinsic, absolute property of a solvent mixture and whether such a property can be defined by means of chemical probes is discussed. These results were related to the solvent effects on some aromatic nucleophilic substitution reactions. The kinetics of the reactions between 1‐fluoro‐2,4‐dinitrobenzene and primary or secondary amines were studied in ethyl acetate– acetonitrile and N,N ‐dimethylformamide–acetonitrile mixtures, respectively, taken as representatives of two clearly different solvation models. Copyright © 1999 John Wiley & Sons, Ltd.