Ea. Castro et al., KINETICS AND MECHANISM OF THE AMINOLYSIS OF PHENYL AND 4-NITROPHENYL ETHYL THIONOCARBONATES, Journal of organic chemistry, 61(10), 1996, pp. 3501-3505
The reactions of the title substrates (PTOC and NPTOC, respectively) w
ith secondary alicyclic amines are subjected to a kinetic study in aqu
eous solution at 25.0 degrees C, ionic strength 0.2 M (KCI). Under ami
ne excess, pseudo-first-order rate coefficients (k(obsd)) are found th
roughout. The order in amine is one for the reactions of piperidine bu
t is of intermediate order between 1 and 2 for the reactions of the ot
her amines. The kinetic results can be accommodated by a reaction sche
me with two hypothetical tetrahedral intermediates: a zwitterionic (T-
+/-) and an anionic (T-) one, whereby amine catalysis (deprotonation o
f T-+/- to give T-) is kinetically important. Both the pK(a) of T-+/-
and the rate coefficient for proton transfer (k(3) ca. 10(10) s(-1) M(
-1)) are estimated. The values of the other rate microcoefficients of
the scheme are found by a nonlinear least-squares fitting, and these v
alues are compared with those exhibited in the aminolysis of phenyl th
ionoacetate (PTOA), and S-phenyl and S-(4-nitrophenyl) O-ethyl dithioc
arbonates (PDTC and NPDTC, respectively). The Bronsted type plots for
amine basicity have slopes beta(N) ca, 0.2 for rate-determining amine
attack (k(1)) and beta(N) ca. 0.8 for amine expulsion from T-+/- (k(-1
)), in accord with the beta(N) values found in similar aminolyses. The
general base catalysis by amine found in the aminolysis of NPTOC, in
contrast with the lack of such catalysis in the aminolysis of 4-nitrop
henyl methyl carbonate, is explained by a smaller rate coefficient for
expulsion of 4-nitrophenoxide (k(2)) from T-+/- (which competes with
amine deprotonation of T-+/-) relative to the same expulsion from the
analogous oxy intermediate.