A. Vavasori et L. Toniolo, CARBON MONOXIDE-ETHYLENE COPOLYMERIZATION CATALYZED BY A PD(ACO)(2) DPPP/TSOH SYSTEM - THE PROMOTING EFFECT OF WATER AND OF THE ACID/, Journal of molecular catalysis. A, Chemical, 110(1), 1996, pp. 13-23
For the title copolymerization the catalyst productivity (g-polymer/g-
Pd . h) is significantly influenced by the presence of water and of th
e acid as it passes through a maximum upon increasing concentration of
H2O and of TsOH. In the presence of 450 ppm of H2O, the maximum produ
ctivity is ca. 3.7 times higher than when the copolymerization is carr
ied out in the presence of 1% of trimethylorthoformate, used as H2O sc
avenger in MeOH as solvent, at 90 degrees C, under 45 atm of total pre
ssure, employing the catalyst precursor in the molar ratio Pd/dppp/TsO
H 1/1/2 ([Pd] 5.6 x 10(-5) mol . l(-1)). Under similar conditions, but
under 60 atm of the two monomers, in the presence of 900 ppm of H2O a
nd when employing an excess of the acid (TsOH/Pd 6.4) the productivity
reaches a maximum of ca. 11500 g-polymer/g-Pd . h, which is 1.4 times
higher than that obtained when the TsOH/Pd ratio is 2/1. The promotin
g effect of H2O is ascribed to the possibility that a higher concentra
tion of active Pd-H species, which are proposed to initiate the cataly
tic process through the insertion of the olefin into a Pd-H bond, is a
chieved through the interaction_of carbon monoxide with water on the m
etal center, via a reaction closely related to the water gas shift rea
ction. It is also proposed that the promoting effect of the acid is du
e to the reactivation of inactive Pd(O) species, which inevitably form
under the reducing reaction conditions, with formation of active Pd-H
species. When the copolymerization is carried out in the presence of
benzoquinone (BQ), either under the reaction conditions in which the p
roductivity reaches a maximum or under unfavorable conditions, that is
, in the presence of low or relatively high concentrations of water, t
he productivity has an average value of ca. 7000 g-polymer/g-Pd . h. S
ince it was found by other research groups that in the presence of BQ
the polymer takes origin mainly through the insertion of CO into a Pd-
OCH3 species whose formation is favored in the presence of BQ, the fin
dings presented above give further support to the suggestion that the
promoting effect of H2O and of TsOH are due to the possibility that, w
hen present in appropriate amounts, they favour the formation of Pd-II
species which start the catalytic cycle.