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与[Fe-Fe]-氢化酶活性位点相关的二铁(I)二硫醇盐的螯合控制。

Chelate control of diiron(I) dithiolates relevant to the [Fe-Fe]- hydrogenase active site.

作者信息

Justice Aaron K, Zampella Giuseppe, De Gioia Luca, Rauchfuss Thomas B, van der Vlugt Jarl Ivar, Wilson Scott R

机构信息

Department of Chemistry, University of Illinois, Urbana, Illinois 61801, USA.

出版信息

Inorg Chem. 2007 Mar 5;46(5):1655-64. doi: 10.1021/ic0618706. Epub 2007 Feb 6.

DOI:10.1021/ic0618706
PMID:17279743
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2430879/
Abstract

The reaction of Fe2(S2C2H4)(CO)6 with cis-Ph2PCH=CHPPh2 (dppv) yields Fe2(S2C2H4)(CO)4(dppv), 1(CO)4, wherein the dppv ligand is chelated to a single iron center. NMR analysis indicates that in 1(CO)4, the dppv ligand spans axial and basal coordination sites. In addition to the axial-basal isomer, the 1,3-propanedithiolate and azadithiolate derivatives exist as dibasal isomers. Density functional theory (DFT) calculations indicate that the axial-basal isomer is destabilized by nonbonding interactions between the dppv and the central NH or CH2 of the larger dithiolates. The Fe(CO)3 subunit in 1(CO)4 undergoes substitution with PMe3 and cyanide to afford 1(CO)3(PMe3) and (Et4N)[1(CN)(CO)3], respectively. Kinetic studies show that 1(CO)4 reacts faster with donor ligands than does its parent Fe2(S2C2H4)(CO)6. The rate of reaction of 1(CO)4 with PMe3 was first order in each reactant, k = 3.1 x 10(-4) M(-1) s(-1). The activation parameters for this substitution reaction, DeltaH = 5.8(5) kcal/mol and DeltaS = -48(2) cal/deg.mol, indicate an associative pathway. DFT calculations suggest that, relative to Fe2(S2C2H4)(CO)6, the enhanced electrophilicity of 1(CO)4 arises from the stabilization of a "rotated" transition state, which is favored by the unsymmetrically disposed donor ligands. Oxidation of MeCN solutions of 1(CO)3(PMe3) with Cp2FePF6 yielded Fe2(S2C2H4)(mu-CO)(CO)2(dppv)(PMe3)(NCMe)2. Reaction of this compound with PMe3 yielded Fe2(S2C2H4)(mu-CO)(CO)(dppv)(PMe3)2(NCMe)2.

摘要

Fe2(S2C2H4)(CO)6与顺式-Ph2PCH=CHPPh2(dppv)反应生成Fe2(S2C2H4)(CO)4(dppv),即1(CO)4,其中dppv配体螯合到单个铁中心。核磁共振分析表明,在1(CO)4中,dppv配体跨越轴向和基面配位位点。除了轴向-基面异构体外,1,3-丙二硫醇盐和氮杂二硫醇盐衍生物以双基面异构体形式存在。密度泛函理论(DFT)计算表明,轴向-基面异构体因dppv与较大二硫醇盐的中心NH或CH2之间的非键相互作用而不稳定。1(CO)4中的Fe(CO)3亚基被PMe3和氰化物取代,分别得到1(CO)3(PMe3)和(Et4N)[1(CN)(CO)3]。动力学研究表明,1(CO)4与供体配体的反应比其母体Fe2(S2C2H4)(CO)6更快。1(CO)4与PMe3的反应速率对每种反应物均为一级反应,k = 3.1×10(-4) M(-1) s(-1)。该取代反应的活化参数,ΔH = 5.8(5) kcal/mol和ΔS = -48(2) cal/deg.mol,表明反应途径为缔合型。DFT计算表明,相对于Fe2(S2C2H4)(CO)6,1(CO)4增强的亲电性源于“旋转”过渡态的稳定化,这种过渡态受到不对称排列的供体配体的青睐。用Cp2FePF6氧化1(CO)3(PMe3)的乙腈溶液,得到Fe2(S2C2H4)(μ-CO)(CO)2(dppv)(PMe3)(NCMe)2。该化合物与PMe3反应,得到Fe2(S2C2H4)(μ-CO)(CO)(dppv)(PMe3)2(NCMe)2。

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