Dm. Baird et al., MECHANISM OF AN OXYGEN-ATOM TRANSFER-REACTION INVOLVING AN OXO-BRIDGED MO(V) COMPLEX, Inorganica Chimica Acta, 237(1-2), 1995, pp. 117-122
The kinetics of the oxygen atom transfer reaction Mo2O3I2(dtc)(2)(THF)
(2) (1) + pyridine-N-oxide = 2MoO(2)I(dtc) + pyridine was investigated
in methylene chloride solution using a variety of substituted pyridin
e-N-oxides. This is the first kinetics study of the reaction of an oxo
-bridged Mo(V) complex participating in an ore-transfer reaction. Reac
tions were studied using pseudo-first-order conditions of excess N-oxi
de. These reactions were characterized by saturation kinetics in which
1 reversibly forms a Mo2O34+-N-oxide precursor complex that generates
products via irreversible breaking of an Mo-O-b bond to give two equi
valents of MoO22+ complex and the appropriate pyridine derivative. A c
onsiderable group effect was observed (two orders of magnitude) when s
ubstituents on the pyridine-N-oxides were varied, with electron releas
ing substituents slowing the rate of reaction. This observation is use
d to support a proposed mechanism by which the rate of Mo-O-b bond bre
aking in the precursor complex is determined by the N-O bond strength
of the substrate N-oxide.