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使用NHC稳定的零价镍配合物对氟化芳烃进行C-F活化:选择性和机理研究

C-F activation of fluorinated arenes using NHC-stabilized nickel(0) complexes: selectivity and mechanistic investigations.

作者信息

Schaub Thomas, Fischer Peter, Steffen Andreas, Braun Thomas, Radius Udo, Mix Andreas

机构信息

Institut für Anorganische Chemie der Universität Karlsruhe, 76131 Karlsruhe, Germany.

出版信息

J Am Chem Soc. 2008 Jul 23;130(29):9304-17. doi: 10.1021/ja074640e. Epub 2008 Jun 28.

DOI:10.1021/ja074640e
PMID:18588290
Abstract

The reaction of [Ni2((i)Pr2Im)4(COD)] 1a or [Ni((i)Pr2Im)2(eta(2)-C2H4)] 1b with different fluorinated arenes is reported. These reactions occur with a high chemo- and regioselectivity. In the case of polyfluorinated aromatics of the type C6F5X such as hexafluorobenzene (X = F) octafluorotoluene (X = CF3), trimethyl(pentafluorophenyl)silane (X = SiMe3), or decafluorobiphenyl (X = C6F5) the C-F activation regioselectively takes place at the C-F bond in the para position to the X group to afford the complexes trans-[Ni((i)Pr2Im)2(F)(C6F5)]2, trans-[Ni((i)Pr2Im)2(F)(4-(CF3)C6F4)] 3, trans-[Ni((i)Pr2Im)2(F)(4-(C6F5)C6F4)] 4, and trans-[Ni((i)Pr2Im)2(F)(4-(SiMe3)C6F4)] 5. Complex 5 was structurally characterized by X-ray diffraction. The reaction of 1a with partially fluorinated aromatic substrates C6H(x)F(y) leads to the products of a C-F activation trans-[Ni((i)Pr2Im)2(F)(2-C6FH4)] 7, trans-[Ni((i)Pr2Im)2(F)(3,5-C6F2H3)] 8, trans-[Ni((i)Pr2Im)2(F)(2,3-C6F2H3)] 9a and trans-[Ni((i)Pr2Im)2(F)(2,6-C6F2H3)] 9b, trans-[Ni((i)Pr2Im)2(F)(2,5-C6F2H3)] 10, and trans-[Ni((i)Pr2Im)2(F)(2,3,5,6-C6F4H)] 11. The reaction of 1a with octafluoronaphthalene yields exclusively trans-[Ni((i)Pr2Im)2(F)(1,3,4,5,6,7,8-C10F7)] 6a, the product of an insertion into the C-F bond in the 2-position, whereas for the reaction of 1b with octafluoronaphthalene the two isomers trans-[Ni((i)Pr2Im)2(F)(1,3,4,5,6,7,8-C10F7)] 6a and trans-[Ni((i)Pr2Im)2(F)(2,3,4,5,6,7,8-C10F7)] 6b are formed in a ratio of 11:1. The reaction of 1a or of 1b with pentafluoropyridine at low temperatures affords trans-[Ni((i)Pr2Im)2(F)(4-C5NF4)] 12a as the sole product, whereas the reaction of 1b performed at room temperature leads to the generation of trans-[Ni((i)Pr2Im)2(F)(4-C5NF4)] 12a and trans-[Ni((i)Pr2Im)2(F)(2-C5NF4)] 12b in a ratio of approximately 1:2. The detection of intermediates as well as kinetic studies gives some insight into the mechanistic details for the activation of an aromatic carbon-fluorine bond at the {Ni((i)Pr2Im)2} complex fragment. The intermediates of the reaction of 1b with hexafluorobenzene and octafluoronaphthalene, [Ni((i)Pr2Im)2(eta(2)-C6F6)] 13 and [Ni((i)Pr2Im)2(eta(2)-C10F8)] 14, have been detected in solution. They convert into the C-F activation products. Complex 14 was structurally characterized by X-ray diffraction. The rates for the loss of 14 at different temperatures for the C-F activation of the coordinated naphthalene are first order and the estimated activation enthalpy Delta H(double dagger) for this process was determined to be Delta H(double dagger) = 116 +/- 8 kJ mol(-1) (Delta S(double dagger) = 37 +/- 25 J K(-1) mol(-1)). Furthermore, density functional theory calculations on the reaction of 1a with hexafluorobenzene, octafluoronaphthalene, octafluorotoluene, 1,2,4-trifluorobenzene, and 1,2,3-trifluorobenzene are presented.

摘要

报道了[Ni2((i)Pr2Im)4(COD)] 1a或[Ni((i)Pr2Im)2(η(2)-C2H4)] 1b与不同氟化芳烃的反应。这些反应具有很高的化学选择性和区域选择性。对于C6F5X类型的多氟芳烃,如六氟苯(X = F)、八氟甲苯(X = CF3)、三甲基(五氟苯基)硅烷(X = SiMe3)或十氟联苯(X = C6F5),C-F活化选择性地发生在与X基团对位的C-F键上,得到配合物反式-[Ni((i)Pr2Im)2(F)(C6F5)]2、反式-[Ni((i)Pr2Im)2(F)(4-(CF3)C6F4)] 3、反式-[Ni((i)Pr2Im)2(F)(4-(C6F5)C6F4)] 4和反式-[Ni((i)Pr2Im)2(F)(4-(SiMe3)C6F4)] 5。配合物5通过X射线衍射进行了结构表征。1a与部分氟化的芳族底物C6H(x)F(y)的反应产生C-F活化产物反式-[Ni((i)Pr2Im)2(F)(2-C6FH4)] 7、反式-[Ni((i)Pr2Im)2(F)(3,5-C6F2H3)] 8、反式-[Ni((i)Pr2Im)2(F)(2,3-C6F2H3)] 9a和反式-[Ni((i)Pr2Im)2(F)(2,6-C6F2H3)] 9b、反式-[Ni((i)Pr2Im)2(F)(2,5-C6F2H3)] 10以及反式-[Ni((i)Pr2Im)2(F)(2,3,5,6-C6F4H)] 11。1a与八氟萘的反应仅生成反式-[Ni((i)Pr2Im)2(F)(1,3,4,5,6,7,8-C10F7)] 6a,即插入2-位C-F键的产物,而1b与八氟萘的反应则生成两种异构体反式-[Ni((i)Pr2Im)2(F)(1,3,4,5,6,7,8-C10F7)] 6a和反式-[Ni((i)Pr2Im)2(F)(2,3,4,5,6,7,8-C10F7)] 6b,比例为11:1。1a或1b与五氟吡啶在低温下的反应仅得到反式-[Ni((i)Pr2Im)2(F)(4-C5NF4)] 12a作为唯一产物,而1b在室温下的反应则生成反式-[Ni((i)Pr2Im)2(F)(4-C5NF4)] 12a和反式-[Ni((i)Pr2Im)2(F)(2-C5NF4)] 12b,比例约为1:2。中间体的检测以及动力学研究为{Ni((i)Pr2Im)2}配合物片段上芳族碳-氟键的活化机理细节提供了一些见解。1b与六氟苯和八氟萘反应的中间体[Ni((i)Pr2Im)2(η(2)-C6F6)] 13和[Ni((i)Pr2Im)2(η(2)-C10F8)] 14已在溶液中检测到。它们转化为C-F活化产物。配合物14通过X射线衍射进行了结构表征。在不同温度下,配位萘的C-F活化过程中14损失的速率为一级反应,该过程的估计活化焓ΔH‡确定为ΔH‡ = 116 ± 8 kJ mol(-1)(ΔS‡ = 37 ± 25 J K(-1) mol(-1))。此外,还给出了关于1a与六氟苯、八氟萘、八氟甲苯、1,2,4-三氟苯和1,2,3-三氟苯反应的密度泛函理论计算结果。

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