REACTIONS OF SUBSTITUTED HYDRAZINES WITH VANADIUM(III) COMPOUNDS - CRYSTAL-STRUCTURES OF [NH(2)ME(2)](2)[(VCL3)(2)(MU-NNME(2))(3)], [V(OC6H3PR2I-2,6)(3)(NH(2)NME(2))(2)] AND [V(OC6H3PR2I-2,6)(3)(NH(2)NMEPH)2]
C. Lefloch et al., REACTIONS OF SUBSTITUTED HYDRAZINES WITH VANADIUM(III) COMPOUNDS - CRYSTAL-STRUCTURES OF [NH(2)ME(2)](2)[(VCL3)(2)(MU-NNME(2))(3)], [V(OC6H3PR2I-2,6)(3)(NH(2)NME(2))(2)] AND [V(OC6H3PR2I-2,6)(3)(NH(2)NMEPH)2], Journal of the Chemical Society. Dalton transactions, (13), 1996, pp. 2755-2762
Reaction of Me(3)SiNHNMe(2) with [VCl3(PMePh(2))(2)] or [VCl3(thf)(3)]
(thf = tetrahydrofuran) gave the triply hydrazide-bridged complex [NH
(2)Me(2)](2)[(VCl3)(2)(mu-NNMe(2))(3)] 1 the crystal structure of whic
h has been determined. Cyclic voltammetry shows 1 to have E(1/2)(ox) =
0.30 V (reversible at -35 degrees C) and E(2)(ox) = 1.35 V (vs. ferro
cene-ferrocenium). Cation exchange gave [PPh(4)](2)[(VCl3)(2)(mu-NNMe(
2))(3)] and reaction with Li(SC6H2Pr3i-2,4,6) gave (2)[{V(SC6H2Pr3i-2,
4,6)(3)}(2)(mu-NN(2)Me(2))(2)]. Treatment of [V(OC6H3Pr2i-2,6)(4)Li(th
f)] with NH(2)NMe(2) gave the low-melting compound [V(OC6H3Pr2i-2,6)(3
)(NH(2)NMe(2))(2)], shown by astructure determination to be essentiall
y trigonal bipyramidal, with axial hydrazine ligands. The analogue [V(
OC6H3Pr2i-2,6)(3)(NH(2)NMePh)(2)] has also been prepared and shown to
have a similar structure.