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Literature DB >> 21124377

Dinitrogen cleavage and functionalization by carbon monoxide promoted by a hafnium complex.

Donald J Knobloch¹, Emil Lobkovsky, Paul J Chirik.

Abstract

Molecular nitrogen (N(2)) and carbon monoxide (CO) have the two strongest bonds in chemistry and present significant challenges in developing new transformations that exploit these two abundant feedstocks. At the core of this objective is the discovery of transition-metal compounds that promote the six-electron reductive cleavage of N(2) at ambient temperature and pressure and also promote new nitrogen-element bond formation. Here we show that an organometallic hafnium compound induces N(2) cleavage on the addition of CO, with a simultaneous assembly of new nitrogen-carbon and carbon-carbon bonds. Subsequent addition of a weak acid liberates oxamide, which demonstrates that an important agrochemical can be synthesized directly from N(2) and CO. These studies introduce an alternative paradigm for N(2) cleavage and functionalization in which the six-electron reductive cleavage is promoted by both the transition metal and the incoming ligand, CO, used for the new bond formations.

Entities: Chemical

Mesh：

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Year: 2009 PMID： 21124377 DOI： 10.1038/nchem.477

Source DB: PubMed Journal: Nat Chem ISSN： 1755-4330 Impact factor: 24.427

25 in total

10. Isolation of Au-, Co-η¹PCO and Cu-η²PCO complexes, conversion of an Ir-η¹PCO complex into a dimetalladiphosphene, and an interaction-free PCO anion.

Authors: Liu Liu; David A Ruiz; Fatme Dahcheh; Guy Bertrand; Riccardo Suter; Aaron M Tondreau; Hansjörg Grützmacher
Journal: Chem Sci Date: 2016-01-04 Impact factor: 9.825

Dinitrogen cleavage and functionalization by carbon monoxide promoted by a hafnium complex.

1. Titanium-promoted dinitrogen cleavage, partial hydrogenation, and silylation.

2. Side-on end-on bound dinitrogen: an activated bonding mode that facilitates functionalizing molecular nitrogen.

3. N-C bond formation promoted by a hafnocene dinitrogen complex: comparison of zirconium and hafnium congeners.

4. A cycle for organic nitrile synthesis via dinitrogen cleavage.

5. Catalytic reduction of dinitrogen to ammonia at a single molybdenum center.

6. Diazene dehydrogenation follows H2 addition to coordinated dinitrogen in an ansa-zirconocene complex.

7. Hydrogenation and cleavage of dinitrogen to ammonia with a zirconium complex.

8. Reductive coupling of six carbon monoxides by a ditantalum hydride complex.

9. Carboxylation of an ansa-zirconocene dinitrogen complex: regiospecific hydrazine synthesis from N2 and CO2.

10. Carbon-nitrogen bond formation via the reaction of terminal alkynes with a dinuclear side-on dinitrogen complex.

Review 1. Activation of Dinitrogen by Polynuclear Metal Complexes.

2. Metal-dioxygen and metal-dinitrogen complexes: where are the electrons?

3. Synthesis of diamidopyrrolyl molybdenum complexes relevant to reduction of dinitrogen to ammonia.

4. Nitrogen reduction and functionalization by a multimetallic uranium nitride complex.

5. Alkali-Controlled C-H Cleavage or N-C Bond Formation by N2-Derived Iron Nitrides and Imides.

6. Ta₂ ⁺-mediated ammonia synthesis from N₂ and H₂ at ambient temperature.

7. H-H and Si-H bond addition to Fe≡NNR2 intermediates derived from N2.

8. Recent developments in the homogeneous reduction of dinitrogen by molybdenum and iron.

9. Metallacyclic actinide catalysts for dinitrogen conversion to ammonia and secondary amines.

10. Isolation of Au-, Co-η¹PCO and Cu-η²PCO complexes, conversion of an Ir-η¹PCO complex into a dimetalladiphosphene, and an interaction-free PCO anion.