NITROSYL N-O BOND-CLEAVAGE INDUCED BY REDUCING AGENTS - SYNTHESIS ANDCHARACTERIZATION OF NOVEL NITRIDO-BRIDGED BIMETALLIC COMPLEXES OF MOLYBDENUM AND TUNGSTEN
Jd. Debad et al., NITROSYL N-O BOND-CLEAVAGE INDUCED BY REDUCING AGENTS - SYNTHESIS ANDCHARACTERIZATION OF NOVEL NITRIDO-BRIDGED BIMETALLIC COMPLEXES OF MOLYBDENUM AND TUNGSTEN, Organometallics, 13(11), 1994, pp. 4315-4321
Reduction of CpW(NO)(R)Cl (Cp* = eta(5)-C(5)Me(5); R = CH(2)CMe(3), C
H(2)SiMe(3), Ph) with an excess of zinc powder in THF results in the f
ormation of [CpW(NO)(R)](mu-N)[Cp*W(O)(R)] [R = CH(2)CMe(3) (1), CH(2
)SiMe(3) (2), Ph (8)3], which are isolable in good yields. Similar tre
atment of a 2:1 mixture of CpW(NO)(CH(2)CMe(3))Cl and Cp*W(NO)Cl-2 af
fords the related bimetallic complex, [CpW(NO)(CH(2)CMe(3))](mu-N)[Cp
W(O)Cl] (4), in 24% isolated yield. In an analogous manner, exposure
of C6H6 solutions of Cp'Mo(NO)(CH(2)SiMe(3))(2) [Cp' = CP or Cp(phi)(
eta(5)-C-5-Ph(4)H)] to dihydrogen results in the formation of the dimo
lybdenum complexes, -(NO)(CH(2)SiMe(3))](mu-N)[Cp'Mo(O)(CH(2)SiMe(3))]
[Cp' = Cp (5) or Cp(phi) (6)], which are isolable in 40% and 53% yie
lds, respectively. Complexes 4 and 5 have been subjected to single-cry
stal X-ray crystallographic analyses at 190 K; Crystals of 4 are tricl
inic, space group P1; Z = 2; a = 10.923(2) Angstrom; b = 11.328(4) Ang
strom; c = 12.151(6) Angstrom; alpha = 109.16(4)degrees; beta = 90.88(
3)degrees; gamma 101.92(2)degrees; V = 1384.0 Angstrom(3); R(F) = 0.02
6 for 4268 data [I-o greater than or equal to 2.5 sigma(I-o)] and 278
variables. Crystals of 5 are triclinic, space group P1; Z = 2, a = 10.
284(4) Angstrom; b = 11.043(2) Angstrom; c = 16.979(3) Angstrom; alpha
= 85.97(2)degrees; beta = 75.29(2)degrees; gamma = 65.70(2)degrees; V
= 1698.5 Angstrom(3); R(F) = 0.037 for 4422 data [I-o greater than or
equal to 2.5o(I-o)] and 331 variables. Both structures were solved by
standard heavy-atom methods and were refined by full-matrix least-squa
res procedures. The most chemically interesting feature about the soli
d-state molecular structures of 4 and 5 is the orthogonal orientation
of the metal-containing units about the essentially linear M-N-M (M =
Mo, W) bridging linkages, an aspect consistent with the existence of m
ultiple bonding in these linkages. It is proposed that all the bimetal
lic products result via transient formation of a coordinatively unsatu
rated Cp'M(eta(2)-NO)(X) (X = R or Cl) species that then combines with
another molecule of the original nitrosyl reactant.