Asymmetric catalysis by chiral FLPs: A computational mini-review

IF 2.8 4区化学 Q2 CHEMISTRY, ANALYTICAL Chirality Pub Date : 2024-04-25 DOI:10.1002/chir.23671

Shanti Gopal Patra

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Abstract

Steric hindrance in Lewis acid (LA) and Lewis base (LB) obstruct the Lewis acid–base adduct formation, and the pair was termed as frustrated Lewis pair (FLP). In the past 16 years, the field of enantioselective catalysis by chiral FLPs has been slowly growing. It was shown that chiral LAs are significant as they are involved in the hydrogen transfer (HT) step to the imine, resulting in enantioselectivity. After H₂ activation, the borohydride can exist in a number of plausible conformations and their stability is governed by the presence of noncovalent interaction through C–H····π and π····π interactions. However, LBs are not ideal for asymmetric induction as they compete with the imine substrate as a counter LB. Further, the proton transfer from chiral LB to the imine does not induce any chirality as chirality develops in the HT step. However, intramolecular FLPs with chiral scaffold are very efficient as they possess an optimum distance between LA and LB, which facilitates the H₂ activation but precludes the adduct formation of the small molecules substrate with the LA component. This mini-review summarizes computational investigation involving chiral LA and LB, and discusses intramolecular FLPs in the enantioselective catalysis.

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手性FLPs的不对称催化：计算小综述

路易斯酸（LA）和路易斯碱（LB）中的立体阻碍阻碍了路易斯酸碱加合物的形成，这对加合物被称为受挫路易斯对（FLP）。在过去的 16 年中，手性 FLP 的对映选择性催化领域一直在缓慢发展。研究表明，手性路易斯配对体具有重要意义，因为它们参与了亚胺的氢转移（HT）步骤，从而产生了对映选择性。在 H2 活化后，硼氢化物可以以多种合理的构象存在，其稳定性取决于通过 C-H----π 和 π----π 相互作用产生的非共价相互作用。然而，枸橼酸并不是不对称诱导的理想选择，因为它们会与作为反枸橼酸的亚胺底物发生竞争。此外，质子从手性 LB 转移到亚胺不会诱导任何手性，因为手性是在 HT 步骤中形成的。然而，带有手性支架的分子内 FLP 非常有效，因为它们在 LA 和 LB 之间有一个最佳距离，这有利于 H2 的活化，但同时也排除了小分子底物与 LA 成分形成加合物的可能性。这篇微型综述总结了涉及手性 LA 和 LB 的计算研究，并讨论了分子内 FLP 在对映选择性催化中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chirality 医学-分析化学

CiteScore

4.40

自引率

5.00%

发文量

124

审稿时长

1 months

期刊介绍： The main aim of the journal is to publish original contributions of scientific work on the role of chirality in chemistry and biochemistry in respect to biological, chemical, materials, pharmacological, spectroscopic and physical properties. Papers on the chemistry (physiochemical, preparative synthetic, and analytical), physics, pharmacology, clinical pharmacology, toxicology, and other biological aspects of chiral molecules will be published.