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首页> 外文期刊>Journal of the American Chemical Society >EXPLORING THE MECHANISM OF AQUEOUS C-H ACTIVATION BY PT(II) THROUGH MODEL CHEMISTRY - EVIDENCE FOR THE INTERMEDIACY OF ALKYLHYDRIDOPLATINUM(IV) AND ALKANE SIGMA-ADDUCTS
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EXPLORING THE MECHANISM OF AQUEOUS C-H ACTIVATION BY PT(II) THROUGH MODEL CHEMISTRY - EVIDENCE FOR THE INTERMEDIACY OF ALKYLHYDRIDOPLATINUM(IV) AND ALKANE SIGMA-ADDUCTS

机译:通过模型化学探讨PT(II)活化C-H的机理-证明了烷基氢(Ⅳ)和烷烃SIGMA介导的中间体

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The protonolysis mechanisms of several alkylplatinum(II) complexes [(meda)PtMeCl (2) (tmeda = N,N,N',N'-tetramethylethylenediamine), (tmeda)Pt(CH(2)Ph)Cl (5), (tmeda)PtMe(2) (11), and trans-(PEt(3))(2)Pt(CH3)Cl (15)] in CD2Cl2 and CD3OD have been investigated. These reactions model the microscopic reverse of C-H activation by aqueous Pt(II). Each of the four systems (2 in CD3OD, 5 in CD2Cl2, 11 in CD3OD, and 15 in CD3OD) exhibits different behavior in the protonolysis reaction as observed by low-temperature H-1 NMR spectroscopy. Protonolysis of 2 in methanol-d(4) proceeds with no observable intermediates. Reversible reaction between 5 and HCl in CD2Cl2 at -78 degrees C produces (tmeda)Pt(CH(2)Ph)(H)Cl-2 (6), which undergoes reductive elimination of toluene at higher temperatures. Treatment of 11 with HCl in methanol at -78 degrees C generates (tmeda)PtMe(2)(H)Cl (12), which incorporates deuterium from solvent (CD3OD) into the methyl groups prior to reductive elimination of methane. Finally, 15 reacts with H+ in methanol to liberate methane with no intermediates observed. However, hydrogen/deuterium exchange takes place between the solvent (CD3OD) and Pt-Me prior to methane loss. Each of these reactions was evaluated further to determine the kinetics of the reaction, activation parameters, and isotope effects. Based on the results, a common mechanistic sequence is proposed to operate in all the reactions: (1) chloride- or solvent-mediated protonation of Pt(II) to generate an alkylhydridoplatinum(IV) intermediate, (2) dissociation of solvent or chloride to generate a cationic, five-coordinate platinum(IV) species, (3) reductive C-H bond formation producing a platinum(II) alkane sigma-complex, and (4) loss of alkane either through an associative or dissociative substitution pathway. The characteristics of each system differ due to changes in the relative stabilities of the intermediates and/or transition states upon varying the solvent or alkylplatinum species.
机译:几种烷基铂(II)配合物[(meda)PtMeCl(2)(tmeda = N,N,N',N'-四甲基乙二胺),(tmeda)Pt(CH(2)Ph)Cl(5,已经研究了CD2Cl2和CD3OD中的(tmeda)PtMe(2)(11)和反式(PEt(3))(2)Pt(CH3)Cl(15)]。这些反应模拟了水溶液Pt(II)对C-H活化的微观逆转。如通过低温H-1 NMR光谱观察到的,四个系统中的每个系统(CD3OD中的2个,CD2Cl2中的5个,CD3OD中的11个和CD3OD中的15个)在质子分解反应中表现出不同的行为。在甲醇-d(4)中进行2的质子分解,没有可观察到的中间体。 5和HCl在-78摄氏度下在CD2Cl2中的可逆反应生成(tmeda)Pt(CH(2)Ph)(H)Cl-2(6),该化合物在较高温度下进行甲苯的还原消除。在-78℃下用HCl在甲醇中的HCl处理,生成(tmeda)PtMe(2)(H)Cl(12),在还原消除甲烷之前,将来自溶剂(CD3OD)的氘掺入甲基中。最终,15在甲醇中与H +反应释放出甲烷,而未观察到任何中间体。然而,在甲烷损失之前,氢/氘交换发生在溶剂(CD3OD)和Pt-Me之间。进一步评估了这些反应中的每一个,以确定反应的动力学,活化参数和同位素效应。根据这些结果,提出了一种在所有反应中均能起作用的通用机理序列:(1)氯化物或溶剂介导的Pt(II)的质子化反应,生成烷基氢化铂(IV)中间体,(2)溶剂或氯化物的解离生成阳离子的五配位铂(IV)物种,(3)还原CH键形成,生成铂(II)烷烃σ-络合物,以及(4)通过缔合或解离取代途径损失烷烃。由于改变溶剂或烷基铂物种时,中间体的相对稳定性和/或过渡态的变化,每个系统的特性不同。

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