UNEXPECTED DISPROPORTIONATION MECHANISM FOR PROTON-TRANSFER REACTIONSBETWEEN 17-ELECTRON METAL HYDRIDE CATION RADICALS AND NEUTRAL 18-ELECTRON METAL-HYDRIDES
Kt. Smith et al., UNEXPECTED DISPROPORTIONATION MECHANISM FOR PROTON-TRANSFER REACTIONSBETWEEN 17-ELECTRON METAL HYDRIDE CATION RADICALS AND NEUTRAL 18-ELECTRON METAL-HYDRIDES, Journal of the American Chemical Society, 115(19), 1993, pp. 8681-8689
The hydrides CpRu(PR3)2H ((PR3)2 = (PPh3)2, 1; dppm, 2; dppe, 3; and d
ppp, 4) undergo one-electron oxidations at -0.1 to -0.3 V vs Cp2Fe/Cp2
Fe+. The oxidations of 1 and 4 are nearly chemically reversible in ace
tonitrile; in THF, the oxidation of 3 also exhibits partial chemical r
eversibility. Chemical oxidation of 1-4 in acetonitrile yields 1:1 mix
tures of CpRu(PR3)2(NCMe)+ and the dihydride or dihydrogen complexes C
pRu(PR3)2H2+, indicative of proton transfer from the hydride cation ra
dicals to the neutral hydrides. A detailed kinetic and mechanistic inv
estigation of the reactions of 1.+ and 4.+ was performed by derivative
cyclic voltammetry. Kinetic data are in accord with a disproportionat
ion mechanism. The disproportionation is facilitated by acetonitrile c
oordination at the 17-electron cation radicals and is followed by prot
on transfer from highly acidic dications, rather than from the less ac
idic cation radicals, of the substrates. By the use of a thermochemica
l cycle that combines the electrode potentials for 2 and 3 and the pK(
a) data for the corresponding dihydrogen complexes, it is found that H
-2 is activated by ca. 100 kJ/mol toward homolysis when coordinated at
the Ru centers. The structure of 1 was determined by X-ray crystallog
raphy. Crystal data for 1: triclinic space group, P1BAR, Z = 2, a = 9.
736(1) angstrom, b = 10.117(1) angstrom, c = 17.659(3) angstrom, alpha
= 90.91(1)degrees, beta = 105.93(1)degrees, gamma = 99.19(1)degrees,
R = 0.041, R(w) = 0.047.