DYNAMIC FEATURES OF THE ZIRCONOCENE-BORON-BETAINE COMPLEXES OBTAINED BY TREATMENT OF BIS(ALKYNYL) ZIRCONOCENES WITH THE TRIS(PENTAFLUOROPHENYL) BORANE LEWIS-ACID
W. Ahlers et al., DYNAMIC FEATURES OF THE ZIRCONOCENE-BORON-BETAINE COMPLEXES OBTAINED BY TREATMENT OF BIS(ALKYNYL) ZIRCONOCENES WITH THE TRIS(PENTAFLUOROPHENYL) BORANE LEWIS-ACID, Journal of organometallic chemistry, 527(1-2), 1997, pp. 191-201
Bis(propynyl)zirconocene (6a) reacts with tris(pentafluorophenyl)boran
e to yield the carbon-carbon coupled Cp(2)M(mu-RC(4)R)B(C6F5)(3) betai
ne product 4a (M = Zr, R = CH3). A variety of differently substituted
analogs was prepared (M = Zr, R = n-butyl, phenyl, cyclohexyl; M = Ti,
R = CH3; M = Hf; R = CH3, phenyl, SiMe(3)). These complexes 4 are chi
ral due to the presence of a rather stable propeller-like R-B(aryl)3 c
onformation. The activation barrier of the intramolecular enantiomeriz
ation process of many examples of this series of complexes was determi
ned by dynamic H-1 NMR spectroscopy, with Delta G double dagger values
ranging from ca. 13 to 16 kcalmol(-1), depending on the substitution
pattern. Complex 4a reacts with 2,6-dimethylphenylisocyanide to yield
the methylenecyclopropene derivative 1 that was characterized by X-ray
diffraction.