Iron−Arylimide Clusters [Fem(NAr)nCl4]2- (m, n = 2, 2; 3, 4; 4, 4) from a Ferric Amide Precursor: Synthesis, Characterization, and Comparison to Fe−S Chemistry
- 23 January 2003
- journal article
- research article
- Published by American Chemical Society (ACS) in Inorganic Chemistry
- Vol. 42 (4), 1211-1224
- https://doi.org/10.1021/ic025825j
Abstract
Tetrahedral FeCl[N(SiMe(3))(2)](2)(THF) (2), prepared from FeCl(3) and 2 equiv of Na[N(SiMe(3))(2)] in THF, is a useful ferric starting material for the synthesis of weak-field iron-imide (Fe-NR) clusters. Protonolysis of 2 with aniline yields azobenzene and [Fe(2)(mu-Cl)(3)(THF)(6)](2)[Fe(3)(mu-NPh)(4)Cl(4)] (3), a salt composed of two diferrous monocations and a trinuclear dianion with a formal 2 Fe(III)/1 Fe(IV) oxidation state. Treatment of 2 with LiCl, which gives the adduct [FeCl(2)(N(SiMe(3))(2))(2)](-) (isolated as the [Li(TMEDA)(2)](+) salt), suppresses arylamine oxidation/iron reduction chemistry during protonolysis. Thus, under appropriate conditions, the reaction of 1:1 2/LiCl with arylamine provides a practical route to the following Fe-NR clusters: [Li(2)(THF)(7)][Fe(3)(mu-NPh)(4)Cl(4)] (5a), which contains the same Fe-NR cluster found in 3; [Li(THF)(4)](2)[Fe(3)(mu-N-p-Tol)(4)Cl(4)] (5b); [Li(DME)(3)](2)[Fe(2)(mu-NPh)(2)Cl(4)] (6a); [Li(2)(THF)(7)][Fe(2)(mu-NMes)(2)Cl(4)] (6c). [Li(DME)(3)](2)[Fe(4)(mu(3)-NPh)(4)Cl(4)] (7), a trace product in the synthesis of 5a and 6a, forms readily as the sole Fe-NR complex upon reduction of these lower nuclearity clusters. Products were characterized by X-ray crystallographic analysis, by electronic absorption, (1)H NMR, and Mössbauer spectroscopies, and by cyclic voltammetry. The structures of the Fe-NR complexes derive from tetrahedral iron centers, edge-fused by imide bridges into linear arrays (5a,b; 6a,c) or the condensed heterocubane geometry (7), and are homologous to fundamental iron-sulfur (Fe-S) cluster motifs. The analogy to Fe-S chemistry also encompasses parallels between Fe-mediated redox transformations of nitrogen and sulfur ligands and reductive core conversions of linear dinuclear and trinuclear clusters to heterocubane species and is reinforced by other recent examples of iron- and cobalt-imide cluster chemistry. The correspondence of nitrogen and sulfur chemistry at iron is intriguing in the context of speculative Fe-mediated mechanisms for biological nitrogen fixation.Keywords
This publication has 44 references indexed in Scilit:
- Iron-imide clusters and nitrogenase: Abiological chemistry of biological relevance?Published by Royal Society of Chemistry (RSC) ,2007
- FeMo Cofactor of Nitrogenase: A Density Functional Study of States MN, MOX, MR, and MIJournal of the American Chemical Society, 2001
- MECHANISTICFEATURES OF THEMO-CONTAININGNITROGENASEAnnual Review of Plant Physiology and Plant Molecular Biology, 2001
- A Stable Terminal Imide on IronJournal of the American Chemical Society, 2000
- Imidoverbrückte Eisencluster mit Heterocubanstruktur. Die Kristallstrukturen von [Li(THF)4][Li(THF)3][Fe4(μ3-NPh)4Cl4], [Li(DME)3][Fe4(μ3-NtBu)4Cl4], [Fe4(μ3-NtBu)4Cl4] · Et3PNtBu, [Li(THF)4][Fe4(NHtBu)4(μ3-NtBu)4],∞1{[Li(THF)2]2[Fe2(μ-NMes)2Cl4]} und [NnBu4]2[Fe2(μ-NPh)2Cl4]Zeitschrift für anorganische und allgemeine Chemie, 2000
- Reductive Cleavage of the N−N Bond: Synthesis of Imidoiron(III) CubanesJournal of the American Chemical Society, 1999
- Phosphaniminato-Cluster von Eisen. Die Kristallstrukturen von [FeCl(NPEt3)]4, [Fe(C=C-SiMe3)(NPEt3)]4 und [Fe3Cl4{NP(NMe2)3}3]Zeitschrift für anorganische und allgemeine Chemie, 1999
- Theoretical investigations of the mechanism of biological nitrogen fixation at the FeMo cluster siteJBIC Journal of Biological Inorganic Chemistry, 1996
- Equilibrium acidities in dimethyl sulfoxide solutionAccounts of Chemical Research, 1988
- Stable and explosive alkali metal-anion radical-ammonia complexesThe Journal of Organic Chemistry, 1984