E. Costa et al., SELF-REPLICATION OF TRIS(CYANOETHYL)PHOSPHINE CATALYZED BY PLATINUM-GROUP METAL-COMPLEXES, Journal of the Chemical Society. Dalton transactions, (22), 1997, pp. 4277-4282
The platinum(0) complex [Pt(tcep)(3)], tcep = P(CH2CH2CN)(3), catalyse
s the formation of tcep from PH3 and CH2 = CHCN. The complexes [M(tcep
)(3)] (M = Pt, Pd or Ni) and [MCl(tcep)(3)] (M = Rh or Ir) are compare
d for their catalysis of the reaction of PH(CH2CH2CN)(2) with CH2 = CH
CN to give tcep and it is shown that the platinum(0) complex is the mo
st efficient. The platinum(0) catalysis has been studied in detail, mo
nitoring the kinetics by P-31-{H-1} NMR spectroscopy. It is revealed t
hat the kinetics are a complex function of the concentration of produc
t tcep. Qualitatively, the rates also depend on [CH2 = CHCN] and [cata
lyst]. Both P-31-{H-1} and Pt-195-{H-1} NMR spectroscopy suggests that
addition of CH2 = CHCN to [Pt(tcep)(3)] gives the complex [Pt(tcep)(2
)(eta(2)-CH2 = CHCN)] which undergoes phosphine exchange on the NMR ti
me-scale. The binuclear complex [Pt2H2(tcep)(2){mu-P(CH2CH2CN)(2)}(2)]
, formed upon addition of PH(CH2CH2CN)(2) to trans-[PtHCl(tcep)(2)] in
the presence of base, is shown to be a catalyst precursor for the rea
ction of PH(CH,CH,CN), with CH2 = CHCN. Two parallel mechanisms involv
ing mononuclear and binuclear intermediates are discussed to rationali
se these observations.