Bray Katharine L, Lloyd-Jones Guy C, Muñoz M Paz, Slatford Paul A, Tan Emily H P, Tyler-Mahon Amanda R, Worthington Paul A
School of Chemistry, University of Bristol, Cantock's Close, Bristol BS8 1TS, UK.
Chemistry. 2006 Nov 24;12(34):8650-63. doi: 10.1002/chem.200600924.
The mechanism of the highly regioselective cycloisomerisation of dimethyl hept-1,6-dienyl-4,4-dicarboxylate (1) by a neutral pre-catalyst, [(tBuCN)(2)PdCl(2)] (8), to generate dimethyl 3,4-dimethylcyclopent-2-ene-1,1-dicarboxylate (3) has been investigated by isotopic labelling (reactions involving single and mixed samples of 1,1,2,6,7,7-[(2)H(6)]-1; 3,3,5,5-[(2)H(4)]-1; 1,7-(Z,Z)-[(2)H(2)]-1; [1,3-(13)C(1),5,7-(13)C(1)]-1 and [1,3-(13)C(1),6-(2)H(1)]-1) and by study of the reactions of dimethyl 1-aryl-hept-1,6-dienyl-4,4-dicarboxylates (9 a-e, where aryl is p-C(6)H(4)-X; X=H, OMe, Me, Cl, CF(3)) and dimethyl hept-1,5-dienyl-4,4-dicarboxylate (14), a 1,5-diene isomer of 1. The mechanism proposed involves the generation of a monochloro-bearing palladium hydride which undergoes a simple hydropalladation, carbopalladation, Pd/H dyotropy, beta-H elimination sequence to generate 3. A key point that emerges is that chelation of the 1,6-diene 1 at various stages in the mechanism plays an important role in determining the regioselectivity of the reaction. The selective generation of 3 with pre-catalysts of the form L(2)PdCl(2), as compared to the generation of dimethyl 3-methylene-4-methyl-cyclopentane-1,1-dicarboxylate (2) with pre-catalysts of the form [(MeCN)(2)Pd(allyl)]OTf (5) is ascribed to the absence of chloride ion in the latter, which makes an additional coordination site available throughout turnover. Liberation of the product 3 when [(tBuCN)(2)PdCl(2)] (8) is employed as pre-catalyst, is proposed to proceed via a mono- to bidentate switch in the pi-coordination of diene 1 (eta(2) to bis-eta(2)) displacing pi-coordinated 3 from Pd. When 1-aryl-1,6-dienes 9 are employed as substrates, the electron-donor property of the aryl group is found to influence the regioselectivity of cyclisation. Electron-withdrawing groups favour dimethyl 3-arylmethyl-4-methylcyclopent-2-ene-1,1-dicarboxylates (10), whilst electron-donating aryl groups favour 3-arylidene-4-methyl-cyclopentane-1,1-dicarboxylates (11). The regioselectivity (10/11) correlates with the Hammett sigma(+) values (rho(+)=1.3, r (2)=0.975) indicative of a strong pi-resonance contribution from the aryl ring rather than a simple sigma-inductive effect. Intermolecular modulation of regioselectivity is observed and the net effect proposed to arise through the (pi-->d) donation ability of the vinyl arene in the diene displacing product (10/11) via a mono- to bidentate switch in coordination. The isomerisation process increasingly sequesters Pd as turnover proceeds leading to a powerful inhibition mechanism and ultimately a limitation in turnover number to about 80.
通过中性预催化剂[(tBuCN)(2)PdCl(2)] (8)使庚-1,6-二烯基-4,4-二羧酸二甲酯(1)进行高度区域选择性环异构化生成3,4-二甲基环戊-2-烯-1,1-二羧酸二甲酯(3)的反应机理,已通过同位素标记法(涉及1,1,2,6,7,7-[(2)H(6)]-1、3,3,5,5-[(2)H(4)]-1、1,7-(Z,Z)-[(2)H(2)]-1、[1,3-(13)C(1),5,7-(13)C(1)]-1和[1,3-(13)C(1),6-(2)H(1)]-1的单一样品和混合样品的反应)以及对1-芳基-庚-1,6-二烯基-4,4-二羧酸二甲酯(9 a - e,其中芳基为对-C(6)H(4)-X;X = H、OMe、Me、Cl、CF(3))和庚-1,5-二烯基-4,4-二羧酸二甲酯(14,1的1,5-二烯异构体)的反应研究进行了探究。所提出的机理涉及生成含单氯的钯氢化物,其经历简单的氢钯化、碳钯化、Pd/H互变异构、β-氢消除序列以生成3。出现的一个关键点是,1,6-二烯1在机理的各个阶段的螯合在决定反应的区域选择性方面起着重要作用。与使用[(MeCN)(2)Pd(烯丙基)]OTf (5)形式的预催化剂生成3-亚甲基-4-甲基环戊烷-1,1-二羧酸二甲酯(2)相比,使用L(2)PdCl(2)形式的预催化剂选择性生成3,这归因于后者中不存在氯离子,这使得在整个周转过程中有一个额外的配位位点可用。当使用[(tBuCN)(2)PdCl(2)] (8)作为预催化剂时,产物3的释放被认为是通过二烯1的π配位从单齿到双齿的转变(η(2)到双-η(2))将π配位的3从钯上置换下来而进行的。当使用1-芳基-1,6-二烯9作为底物时,发现芳基的给电子性质会影响环化的区域选择性。吸电子基团有利于生成3-芳基甲基-4-甲基环戊-2-烯-1,1-二羧酸二甲酯(10),而给电子芳基则有利于生成3-亚芳基-4-甲基环戊烷-1,1-二羧酸二甲酯(11)。区域选择性(10/11)与哈米特σ(+)值相关(rho(+)=1.3,r (2)=0.975),表明芳环有很强的π共振贡献而不是简单的σ诱导效应。观察到区域选择性的分子间调节,并且提出净效应是通过二烯中乙烯基芳烃的(π→d)给电子能力通过配位从单齿到双齿的转变来取代产物(10/11)而产生的。随着周转的进行,异构化过程越来越多地螯合钯,导致一种强大的抑制机制,最终使周转数限制在约80。
