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Polar Effects in Nitride Coupling Reactions

2002; American Chemical Society; Volume: 41; Issue: 3 Linguagem: Inglês

10.1021/ic010844z

1520-510X

Sean B. Seymore, Seth N. Brown,

Metalloenzymes and iron-sulfur proteins

The nucleophilic molybdenum nitride (Et(2)NCS(2))(3)MoN (1) reacts with the electrophilic osmium nitride complex TpOsNCl(2) (2, Tp = hydrotris(1-pyrazolyl)borate) to produce molecular nitrogen. Reaction of 1 at the nitride is accompanied by a substantial amount of reaction at a sulfur atom of the dithiocarbamate ligand, forming the osmium thionitrosyl complex TpOs(NS)Cl(2) (4). Labeling experiments establish that the N(2) produced comes specifically (>96%) from mixed-metal (molybdenum-osmium) coupling. The major transition-metal-containing product of the reaction is the mu-nitrido complex TpOsCl(2)(mu-N)Mo(S(2)CNEt(2))(3) (3), where the bridging nitride derives primarily (82%) from the osmium nitride 2. The mu-nitrido complex 3 has been characterized crystallographically, and shows a nitride bridge that is very asymmetric (Mo-N = 1.721(3) A, Os-N = 1.906(3) A), with less multiple bonding toward osmium and more toward molybdenum. Heterometallic coupling is much faster than either homometallic coupling reaction, in particular the osmium-osmium coupling, despite the greater oxidizing power of osmium over molybdenum. The origin and implications of this kinetic effect on nitride coupling and dinitrogen cleavage are discussed.