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Literature DB >> 21332160

Oxidative group transfer to a triiron complex to form a nucleophilic μ(3)-nitride, [Fe3(μ(3)-N)]-.

Tamara M Powers¹, Alison R Fout, Shao-Liang Zheng, Theodore A Betley.

Abstract

Utilizing a hexadentate ligand platform, a high-spin trinuclear iron complex of the type ((tbs)L)Fe(3)(thf) was synthesized and characterized ([(tbs)L](6-) = [1,3,5-C(6)H(9)(NPh-o-NSi(t)BuMe(2))(3)](6-)). The silyl-amide groups only permit ligation of one solvent molecule to the tri-iron core, resulting in an asymmetric core wherein each iron ion exhibits a distinct local coordination environment. The triiron complex ((tbs)L)Fe(3)(thf) rapidly consumes inorganic azide ([N(3)]NBu(4)) to afford an anionic, trinuclear nitride complex [((tbs)L)Fe(3)(μ(3)-N)]NBu(4). The nearly C(3)-symmetric complex exhibits a highly pyramidalized nitride ligand that resides 1.205(3) Å above the mean triiron plane with short Fe-N (1.871(3) Å) distances and Fe-Fe separation (2.480(1) Å). The nucleophilic nitride can be readily alkylated via reaction with methyl iodide to afford the neutral, trinuclear methylimide complex ((tbs)L)Fe(3)(μ(3)-NCH(3)). Alkylation of the nitride maintains the approximate C(3)-symmetry in the imide complex, where the imide ligand resides 1.265(9) Å above the mean triiron plane featuring lengthened Fe-N(imide) bond distances (1.892(3) Å) with nearly equal Fe-Fe separation (2.483(1) Å).

Entities: CellLine Chemical Gene

Mesh：

Substances：
Ferric Compounds
Iron

Year: 2011 PMID： 21332160 PMCID： PMC3056537 DOI： 10.1021/ja2003445

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

10 in total

1. Mechanism of Molybdenum Nitrogenase.

Authors: Barbara K. Burgess; David J. Lowe
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2. Substrate interactions with the nitrogenase active site.

Authors: Patricia C Dos Santos; Robert Y Igarashi; Hong-In Lee; Brian M Hoffman; Lance C Seefeldt; Dennis R Dean
Journal: Acc Chem Res Date: 2005-03 Impact factor: 22.384

3. An iron nitride complex.

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4. Delocalized metal-metal and metal-ligand multiple bonding in a linear Ru-Ru[triple bond]N unit: elongation of a traditionally short Ru[triple bond]N bond.

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5. Synthesis and redox properties of triiron complexes featuring strong Fe-Fe interactions.

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6. Metal-metal interactions involving metalloporphyrins. III. Conversion of tetraphenylporphinatoiron(III) azide to an N-bridged hemin dimer.

Authors: D A Summerville; I A Cohen
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7. Initial members of the family of molecular mid-valent high-nuclearity iron nitrides: [Fe4N2X10]4- and [Fe10N8X12]5- (X = Cl-, Br-).

Authors: Miriam V Bennett; Sebastian Stoian; Emile L Bominaar; Eckard Münck; Richard H Holm
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8. A tetrahedrally coordinated L3Fe-Nx platform that accommodates terminal nitride (Fe(IV)N) and dinitrogen (Fe(I)-N2-Fe(I)) ligands.

Authors: Theodore A Betley; Jonas C Peters
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9. Climbing nitrogenase: toward a mechanism of enzymatic nitrogen fixation.

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10. Structural and spectroscopic characterization of an electrophilic iron nitrido complex.

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2. Oxidative atom-transfer to a trimanganese complex to form Mn6(μ6-E) (E = O, N) clusters featuring interstitial oxide and nitride functionalities.

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Review 4. The biology and chemistry of high-valent iron-oxo and iron-nitrido complexes.

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