John P. Maher scite author profile

We have prepared a series of dinuclear complexes [{MoV(O)(Tp*)Cl}(μ-OO)], where “OO” represents one of the series of diphenolate bridging ligands [1,4-O(C6H4) n O]2- (n = 1−4; complexes 1−4, respectively), [O(C6H3-2-Me)2O]2- (complex 5), or [1,3-OC6H4O]2- (complex 6) [Tp* = tris(3,5-dimethylpyrazolyl)hydroborate]. The complexes therefore contain two paramagnetic (d1), redox-active metal centers. For complexes 1−4 the metal−metal separation increases due to the increasing number of phenyl spacers in the bridge. Complex 5 is similar to 2 with the exception that for steric reasons there is a larger dihedral twist between the halves of the complex. Complex 6 is similar to 1, but with a meta substitution pattern at the bridging ligand instead of para. Complexes 1 and 6 were characterized by X-ray crystallography. For 1·2Et2O: C44H68B2Cl2Mo2N12O6; orthorhombic, Pnnm; a = 24.566(11), b = 8.085(4), c = 14.172(4) Å; Z = 2. For 6·3CH2Cl2: C39H54B2Cl8Mo2N12O4; monoclinic, P21/n; a = 15.984(3), b = 16.934(3), c = 20.931(3) Å, β = 105.33(1)°; Z = 4. Due to the cocrystallization of the two diastereoisomers of the complexes (the Mo centers are chiral), disorder is present in both cases between the oxo and chloride ligands which could be completely resolved for 6 but not for 1. Electrochemical measurements showed that each Mo(V) center undergoes a one-electron oxidation [to Mo(VI)] and a one-electron reduction [to Mo(IV)]. Electrochemical interactions across the bridge result in very large splittings between the two oxidations (e.g. 990 mV for 1) and smaller but still significant splittings between the reductions (e.g. 250 mV for 1). The much stronger interaction between the oxidation processes is due to the fact that they are partly delocalized onto the bridging ligand, whereas the reduction processes are almost completely metal-localized. EPR spectra of the complexes showed the presence of magnetic exchange between the paramagnetic centers, with several features characteristic of magnetic exchange: the hyperfine pattern, line broadening, and the presence of a half-field (Δm s = 2) transition. The magnitudes of the electrochemical interactions and of the magnetic interactions could be related to the structures (length, substitution pattern, dihedral twist) of the bridging ligands.

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Metal–metal interactions across symmetrical bipyridyl bridging ligands in binuclear seventeen-electron molybdenum complexes

Das¹,

Maher²,

McCleverty³

et al. 1993

J. Chem. Soc., Dalton Trans.

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Kinetics of the Reactions of Pentacyanocobaltate(II) with Organic Halides

Halpern¹,

Maher²

1965

J. Am. Chem. Soc.

115

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John P. Maher

17-Electron alkynyl complexes of cyclopentadienyliron(III)

Di-, Tri-, and Tetranucleating Pyridyl Ligands Which Facilitate Multicenter Magnetic Exchange between Paramagnetic Molybdenum Centers

Dinuclear Oxomolybdenum(V) Complexes Showing Strong Interactions across Diphenol Bridging Ligands: Syntheses, Structures, Electrochemical Properties, and EPR Spectroscopic Properties

Metal–metal interactions across symmetrical bipyridyl bridging ligands in binuclear seventeen-electron molybdenum complexes

Kinetics of the Reactions of Pentacyanocobaltate(II) with Organic Halides

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