STERICALLY HINDERED ENOLS OF CARBOXYLIC-ACIDS AND ESTERS - THE KETONIZATION REACTIONS OF 2,2-BIS(2,4,6-TRIMETHYLPHENYL)ETHENE-1,1-DIOL AND 2,2-BIS(PENTAMETHYLPHENYL)ETHENE-1,1-DIOL
Bm. Allen et al., STERICALLY HINDERED ENOLS OF CARBOXYLIC-ACIDS AND ESTERS - THE KETONIZATION REACTIONS OF 2,2-BIS(2,4,6-TRIMETHYLPHENYL)ETHENE-1,1-DIOL AND 2,2-BIS(PENTAMETHYLPHENYL)ETHENE-1,1-DIOL, Perkin transactions. 2, (12), 1997, pp. 2733-2736
The ketonisation of two enols of carboxylic acids, 2,2-bis(2,4,6-trime
thylphenyl)ethene-l,l-diol 2a and 2,2-bis(pentamethylphenyl)ethene-l,l
-diol 2b have been studied at 25 degrees C in 1:1 acetonitrile-water.
The stability of these compounds arises from the inhibition of the bet
a-carbon site to protonation, and this effect is now quantified. A pK(
a) of 8.18 is reported for ionisation of the first hydroxyl group of (
Mes)(2)C=C(OH)(2) 2a and 8.63 for (PMP)(2)C=C(OH)(2) 2b. A pH-rate pro
file has been determined over the full pH range for both species. Gene
ral acid catalysis was detected, yielding Bronsted a values of 0.35 an
d 0.34 for 2a and 2b, respectively. Similarly, Bronsted alpha' values
of 0.48 and 0.45 were calculated for general acid catalysis of both en
olate mono-anions. Studies of the ketonisation of the enols of the cor
responding methyl esters have permitted comparative studies on the rea
ctivity of enols of carboxylic acids, esters and ketene acetals. The r
eactivity of Mes(2)C=C(OH)(OCH3) lies closer to the enediol, Mes(2)C=C
(OH)(2) 2a than to the ketene acetal, suggesting that in this case, on
e hydroxy group is almost as efficient as two such groups in the stabi
lisation of the positive charge developing at C-beta as protonation oc
curs.