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Kinetics and mechanism of the aminolysis of O-ethyl S-phenyl dithiocarbonate in aqueous ethanol

✍ Scribed by Enrique A. Castro; Mauricio Cabrera; Jose G. Santos

Publisher: John Wiley and Sons
Year: 1995
Tongue: English
Weight: 466 KB
Volume: 27
Category: Article
ISSN: 0538-8066
DOI: 10.1002/kin.550270107

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✦ Synopsis

Abstract

The reactions of secondary alicyclic amines with the title substrate (PDTC) are subjected to a kinetic study in 44 wt.% aqueous ethanol, 25.0°C, ionic strength 0.2 M (KCl). Pseudo‐first‐order rate coefficients (k~obs~) are found under amine excess. Linear plots of [N]/k~obs~ against 1/[N], where N is the free amine, are obtained for the reactions with piperidine, piperazine, 1‐(2‐hydroxyethyl)piperazine, and morpholine. The reaction with 1‐formylpiperazine exhibits a linear plot of k~obs~ against [N]^2^. These results are interpreted through a mechanism consisting of two tetrahedral intermediates: a zwitterionic (T^±^) and an anionic (T^−^), where the amine catalyzed proton transfer from T^±^ to T^−^ is partially rate determining for the four former reactions and is fully rate determining for the reaction of 1‐formylpiperazine. The rate microcoefficients involved in the reaction scheme are either determined experimentally or estimated. Comparison with the corresponding microcoefficients reported for the same reactions in water reveals that the rate coefficient for formation of T^±^ from reactants (k~1~) is smaller and that for the reversal of this (k~−1~) is larger in aqueous ethanol compared to water, in agreement with the expected structure of the corresponding transition state.

Bronsted‐type plots are obtained for k~1~, k~−1~, and K~1~ (=k~1~/k~−1~) with slopes ca. 0.4, −0.6, and 1.0, respectively. Comparison of the present stepwise reactions with the concerted ones found in the same aminolysis of O‐ethyl 2,4,6,‐(trinitrophenyl) dithiocarbonate indicates that T^±^ is so destabilized by the change of PhS by the 2,4,6‐trinitrobenzenethio group that T^±^ no longer exists and becomes a transition state. © 1995 John Wiley & Sons, Inc.

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