Shaowei Hu scite author profile

Both the Haber-Bosch and biological ammonia syntheses are thought to rely on the cooperation of multiple metals in breaking the strong N≡N triple bond and forming an N-H bond. This has spurred investigations of the reactivity of molecular multimetallic hydrides with dinitrogen. We report here the reaction of a trinuclear titanium polyhydride complex with dinitrogen, which induces dinitrogen cleavage and partial hydrogenation at ambient temperature and pressure. By (1)H and (15)N nuclear magnetic resonance, x-ray crystallographic, and computational studies of some key reaction steps and products, we have determined that the dinitrogen (N2) reduction proceeds sequentially through scission of a N2 molecule bonded to three Ti atoms in a μ-η(1):η(2):η(2)-end-on-side-on fashion to give a μ2-N/μ3-N dinitrido species, followed by intramolecular hydrogen migration from Ti to the μ2-N nitrido unit.

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Carbon–carbon bond cleavage and rearrangement of benzene by a trinuclear titanium hydride

Shima

Hou

2014

Nature

152

115

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The cleavage of carbon-carbon (C-C) bonds by transition metals is of great interest, especially as this transformation can be used to produce fuels and other industrially important chemicals from natural resources such as petroleum and biomass. Carbon-carbon bonds are quite stable and are consequently unreactive under many reaction conditions. In the industrial naphtha hydrocracking process, the aromatic carbon skeleton of benzene can be transformed to methylcyclopentane and acyclic saturated hydrocarbons through C-C bond cleavage and rearrangement on the surfaces of solid catalysts. However, these chemical transformations usually require high temperatures and are fairly non-selective. Microorganisms can degrade aromatic compounds under ambient conditions, but the mechanistic details are not known and are difficult to mimic. Several transition metal complexes have been reported to cleave C-C bonds in a selective fashion in special circumstances, such as relief of ring strain, formation of an aromatic system, chelation-assisted cyclometallation and β-carbon elimination. However, the cleavage of benzene by a transition metal complex has not been reported. Here we report the C-C bond cleavage and rearrangement of benzene by a trinuclear titanium polyhydride complex. The benzene ring is transformed sequentially to a methylcyclopentenyl and a 2-methylpentenyl species through the cleavage of the aromatic carbon skeleton at the multi-titanium sites. Our results suggest that multinuclear titanium hydrides could serve as a unique platform for the activation of aromatic molecules, and may facilitate the design of new catalysts for the transformation of inactive aromatics.

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Dinitrogen Activation by Dihydrogen and a PNP-Ligated Titanium Complex

et al. 2017

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The hydrogenolysis of the PNP-ligated titanium dialkyl complex {(PNP)Ti(CHSiMe)} (1, PNP = N(CH-2-PPr-4-CH)) with H (1 atm) in the presence of N (1 atm) afforded a binuclear titanium side-on/end-on dinitrogen complex {[(PNP)Ti](μ,η,η-N)(μ-H)} (2) at room temperature, which upon heating at 60 °C with H gave a μ-imido/μ-nitrido/hydrido complex {[(PNP)Ti](μ-NH)(μ-N)H} (3) through the cleavage and partial hydrogenation of the N unit. The mechanistic aspects of the hydrogenation of the N unit in 2 with H have been elucidated by the density functional theory calculations.

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Shaowei Hu

Dinitrogen Cleavage and Hydrogenation by a Trinuclear Titanium Polyhydride Complex

Carbon–carbon bond cleavage and rearrangement of benzene by a trinuclear titanium hydride

Dinitrogen Activation by Dihydrogen and a PNP-Ligated Titanium Complex

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