Abstract
The rates of the base-catalyzed isomerization of α-cyano-cis-stilbenes were measured in methanolic and ethanolic dimethyl sulphoxide (DMSO) containing the appropriate 0·01 M-alkoxide as base; the logarithms of the first-order rate constants were found to correlate with the HR- acidity function. The slopes range from 0·426 to 0·665 depending on the substituent present in the α-phenyl ring and the solvent system and were shown to be related to the structure of the transition state.The effect of substituents on the rate of isomerization has been examined. Substituents in the α-phenyl ring produce effects on the rates which correlate with σ-values and yield ρ-values of +3·07 in DMSO–ethanol and +2·82 in DMSO–methanol.The activation parameters for the isomerization reaction of three substituted α-cyano-cis-stilbenes were determined in DMSO–methanol solutions. The enthalpies of activation were in the range 14·3–16·7 kcal. mole–1 and the entropies of activation ranged from –9·3 to –13·7 e.u.The mechanism of isomerization is believed to involve rate-controlling attack of alkoxide ion on the β-carbon atom of the cis-stilbene to form a carbanion in which free rotation can occur. Elimination of alkoxide ion gives the trans isomer.
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