通过三角双锥铁-氮宾中间体催化芳基叠氮与芳基偶氮化合物的 N-N 偶联反应。

Catalytic N-N coupling of aryl azides to yield azoarenes via trigonal bipyramid iron-nitrene intermediates.

机构信息

Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.

出版信息

J Am Chem Soc. 2010 Mar 31;132(12):4083-5. doi: 10.1021/ja910224c.

PMID:20199026

Abstract

The reactivity of the trigonal bipyramidal iron(I) complex [SiP(iPr)(3)]Fe(N(2)) ([SiP(iPr)(3)] = (2-iPr(2)PC(6)H(4))(3)Si(-)) toward organoazides has been examined. 1-Adamantylazide was found to coordinate the iron center to form stable [SiP(iPr)(3)]Fe(eta(1)-N(3)Ad). Aryl azides instead afforded unstable [SiP(iPr)(3)]Fe(N(3)Ar) species that decayed gradually to regenerate [SiP(iPr)(3)]Fe(N(2)) with release of azoarenes (ArN horizontal lineNAr). The conversion of aryl azides to azoarenes can thus be achieved catalytically. Competitive trapping experiments strongly suggest the intermediacy of reactive nitrene complexes of the type [SiP(iPr)(3)]Fe(NAr) that couple bimolecularly in the N-N bond forming step. Evidence for one such intermediate was provided by electron paramagnetic resonance spectroscopy via photolysis of [SiP(iPr)(3)]Fe(N(3)Ar) in a frozen glass. The electronic structures of these putative nitrene intermediates have been examined by DFT methods.

摘要

三价铁的三角双锥配合物[SiP(iPr)(3)]Fe(N(2))([SiP(iPr)(3)]=(2-iPr(2)PC(6)H(4))(3)Si(-))与有机叠氮化物的反应性已经过研究。1-金刚烷基叠氮化物与铁中心配位形成稳定的[SiP(iPr)(3)]Fe(eta(1)-N(3)Ad)。而芳基叠氮化物则生成不稳定的[SiP(iPr)(3)]Fe(N(3)Ar)物种，这些物种会逐渐分解，重新生成[SiP(iPr)(3)]Fe(N(2))并释放出偶氮芳烃(ArN horizontal lineNAr)。因此，芳基叠氮化物可以催化转化为偶氮芳烃。竞争捕获实验强烈表明，反应性的氮烯配合物[SiP(iPr)(3)]Fe(NAr)中间体的存在，它们在 N-N 键形成步骤中双分子偶联。通过电子顺磁共振波谱法，通过在冷冻玻璃中光解[SiP(iPr)(3)]Fe(N(3)Ar)，为这种中间体提供了证据。这些假定的氮烯中间体的电子结构已通过 DFT 方法进行了研究。

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通过三角双锥铁-氮宾中间体催化芳基叠氮与芳基偶氮化合物的 N-N 偶联反应。

Catalytic N-N coupling of aryl azides to yield azoarenes via trigonal bipyramid iron-nitrene intermediates.

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