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电子和螯合效应对锂有机铜试剂与 N-(对位取代苯基)氮丙啶的异常 C2-甲基化的影响。

Electronic and chelation effects on the unusual C2-methylation of N-(para-substituted)phenylaziridines with lithium organocuprates.

机构信息

Department of Chemistry, Korea Advanced Institute of Science and Technology (KAIST), Daejeon 305-701, Republic of Korea.

出版信息

J Comput Chem. 2011 Jul 15;32(9):1859-68. doi: 10.1002/jcc.21768. Epub 2011 Mar 31.

Abstract

Density functional theory calculations with the B3LYP functional were performed for the title ring-opening reaction to understand the intrinsic activating and directing effects of the N-substituents, as well as the electron donating effect of the para-substituted (Y = Cl, H, Me) phenyl group at the more hindered benzylic C2 atom. The N-tosyl group (i.e., N-Tos) or the N-(2-pyridyl)sulfonyl group (i.e., N-Py) was introduced to activate the ring nitrogen atom (N1) and the para-substituted (Y = Cl, H, Me) phenyl group for the activation of the C2 atom. Conformational searches and geometry optimizations were performed for the N-(para-substituted)phenylaziridines (1∼6). Calculations indicate that the aziridine 6 (i.e., Py/Me) has the most elongated C2-N1 bond intrinsically due to the electronic activating effects, implying the aziridine 6 to be the most potent candidate for the more-hindered C2 opening. Transition states (TSs) were investigated for the prospective ring-opening paths (I∼IV), considering the types of intermolecular push-pull interactions between the N-activated phenylaziridines and the cuprate. The N-Py group provides an unique C2-favored TS along the path IV, which the N-Tos group cannot afford, due to the less charge transfer from the nucleophilic CH 3δ- of the cuprate into the electrophilic C2 atom. Furthermore, the e-donating effect of the para-substituents (Y = Cl, H, Me) enhances the C2 opening for the path IV. This study enables us to understand the unusual ring-opening phenomena in terms of electronic and directing effects and hence may serve as a tool to design substrates for highly regioselective ring openings.

摘要

采用 B3LYP 泛函进行密度泛函理论计算,对标题开环反应进行研究,以了解 N-取代基的固有活化和导向效应,以及对位取代(Y = Cl,H,Me)苯基在更位阻苄基 C2 原子上的供电子效应。引入 N-甲苯磺酰基(即 N-Tos)或 N-(2-吡啶基)磺酰基(即 N-Py),以活化环氮原子(N1)和对位取代(Y = Cl,H,Me)苯基,从而活化 C2 原子。对 N-(对位取代)苯基氮丙啶(1∼6)进行构象搜索和几何优化。计算表明,由于电子活化效应,氮丙啶 6(即 Py/Me)具有固有地最长的 C2-N1 键,这意味着氮丙啶 6 是最有潜力的候选物,用于更位阻的 C2 开环。考虑到 N-活化的氮丙啶与铜盐之间的分子间推拉相互作用的类型,研究了潜在的开环路径(I∼IV)的过渡态(TS)。N-Py 基团提供了一条独特的 C2 有利的 TS 路径 IV,而 N-Tos 基团则无法提供,这是由于铜盐的亲核 CH3δ-向亲电 C2 原子的电荷转移较少。此外,对位取代基(Y = Cl,H,Me)的供电子效应增强了 IV 路径的 C2 开环。这项研究使我们能够从电子和导向效应的角度理解不寻常的开环现象,从而可以作为设计高度区域选择性开环底物的工具。

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