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Redox-Catalyzed Binding of Dinitrogen by Molybdenum N-tert-Hydrocarbylanilide Complexes:  Implications for Dinitrogen Functionalization and Reductive Cleavage

The splitting of dinitrogen (1 atm, THF, 25 °C) by Mo(N[R]Ar)3 (R = C(CD3)2CH3, Ar = 3,5-C6H3Me2) giving 2 equiv of nitride N⋮Mo(N[R]Ar)3 is found to be accelerated in the presence of sodium amalgam. Careful control of the Mo(N[R]Ar)3 concentration led to the isolation and characterization of the an...

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Published in:Journal of the American Chemical Society 1999-11, Vol.121 (43), p.10053-10067
Main Authors: Peters, Jonas C, Cherry, John-Paul F, Thomas, J. Christopher, Baraldo, Luis, Mindiola, Daniel J, Davis, William M, Cummins, Christopher C
Format: Article
Language:English
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Summary:The splitting of dinitrogen (1 atm, THF, 25 °C) by Mo(N[R]Ar)3 (R = C(CD3)2CH3, Ar = 3,5-C6H3Me2) giving 2 equiv of nitride N⋮Mo(N[R]Ar)3 is found to be accelerated in the presence of sodium amalgam. Careful control of the Mo(N[R]Ar)3 concentration led to the isolation and characterization of the anionic dinitrogen complex, [(THF) x Na][(N2)Mo(N[R]Ar)3], where x is from 0 to 3. Via electrochemical experiments and synthetic studies, [(THF) x Na][(N2)Mo(N[R]Ar)3] is found to be a key intermediate in the acceleration of N2 splitting by Mo(N[R]Ar)3 in the presence of sodium amalgam. Accordingly, in the presence of an electron acceptor, [(THF) x Na][(N2)Mo(N[R]Ar)3] reacts with Mo(N[R]Ar)3 to give the neutral N2-bridged complex (μ-N2){Mo(N[R]Ar)3}2, which in turn splits to 2 equiv of nitride N⋮Mo(N[R]Ar)3. It is seen that the function of sodium amalgam in this system is as a redox catalyst, accelerating the conversion of Mo(N[R]Ar)3 to (μ-N2){Mo(N[R]Ar)3}2, a dinuclear dinitrogen complex that does not lose N2 readily. Electrochemical or chemical outer-sphere oxidation of [(THF) x Na][(N2)Mo(N[R]Ar)3] leads to rapid N2 evolution with regeneration of Mo(N[R]Ar)3, presumably via the neutral mononuclear dinitrogen complex (N2)Mo(N[R]Ar)3. In situ generated [(THF) x Na][(N2)Mo(N[R]Ar)3] was efficiently trapped by ClSiMe3 to give (Me3SiNN)Mo(N[R]Ar)3. This complex underwent reaction with methyl triflate to give the dimethyl hydrazido cationic species, [(Me2NN)Mo(N[R]Ar)3][OTf]. The synthesis of the monomethyl complex (MeNN)Mo(N[R]Ar)3 also was achieved. Experiments designed to trap the neutral mononuclear dinitrogen complex (N2)Mo(N[R]Ar)3 gave rise to efficient syntheses of heterodinuclear dinitrogen complexes including (Ph[tBu]N)3Ti(μ-N2)Mo(N[R]Ar)3, which also was synthesized in its 15N2-labeled form. Synthesis and characterization data for the new N-adamantyl-substituted three-coordinate molybdenum(III) complex Mo(N[Ad]Ar)3 (Ad = 1-adamantyl, Ar = 3,5-C6H3Me2) are presented. The complex is found to react with dinitrogen (1 atm, THF, 25 °C) in the presence of sodium amalgam to give the dinitrogen anion complex [(THF) x Na][(N2)Mo(N[Ad]Ar)3]; the synthesis does not require careful regulation of the Mo(N[Ad]Ar)3 concentration. Indeed, under no conditions has Mo(N[Ad]Ar)3 been observed to split dinitrogen or to give rise to a dinuclear μ-N2 complex; this striking contrast with the reactivity of Mo(N[R]Ar)3 (R = C(CD3)2CH3) is attributed to the enhanced steric protect
ISSN:0002-7863
1520-5126
DOI:10.1021/ja991435t