Abstract

The kinetics of the SmI(2)/H(2)O/amine-mediated reduction of 1-chlorodecane has been studied in detail. The rate of reaction is first order in amine and 1-chlorodecane, second order in SmI(2), and zero order in H(2)O. Initial rate studies of more than 20 different amines show a correlation between the base strength (pK(BH+) of the amine and the logarithm of the observed initial rate, in agreement with Bronsted catalysis rate law. To obtain the activation parameters, the rate constant for the reduction was determined at different temperatures (0 to +40 degrees C, DeltaH++ = 32.4 +/- 0.8 kJ mol(-1), DeltaS++ = -148 +/- 1 J K(-1) mol(-1), and DeltaG++(298K) = 76.4 +/- 1.2 kJ mol(-1)). Additionally, the (13)C kinetic isotope effects (KIE) were determined for the reduction of 1-iododecane and 1-bromodecane. Primary (13)C KIEs (k(12)/k(13), 20 degrees C) of 1.037 +/- 0.007 and 1.062 +/- 0.015, respectively, were determined for these reductions. This shows that cleavage of the carbon-halide bond occurs in the rate-determining step. A mechanism of the SmI(2)/H(2)O/amine-mediated reduction of alkyl halides is proposed on the basis of these results.

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