Asymmetric Carbon-Carbon Bond Formation under Continuous-Flow Conditions with Chiral Heterogeneous Catalysts

Tetsu Tsubogo; Takanori Ishiwata; Shu Kobayashi

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Asymmetric Carbon-Carbon Bond Formation under Continuous-Flow Conditions with Chiral Heterogeneous Catalysts

机译：手性多相催化剂在连续流动条件下不对称碳-碳键的形成

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Catalytic asymmetric carbon-carbon bond-forming reactions provide one of the most efficient ways to synthesize optically active compounds, and, accordingly, many chiral catalysts for these reactions have been developed in the past two decades. However, the efficiency of the catalysts in terms of turnover number (TON) is often lower than that of some other reactions, such as asymmetric hydrogenation, and this has been one of the obstacles for industrial applications. Although there are some difficulties in increasing the efficiency, the issues might be solved by using continuous flow in the presence of chiral heterogeneous catalysts. Indeed, continuous-flow systems have several advantages over conventional batch systems. Here we summarize the recent progress in asymmetric C—C bond-forming reactions under continuous-flow conditions with chiral heterogeneous catalysts.

机译：催化不对称碳-碳键形成反应提供了合成旋光化合物的最有效方法之一，因此，在过去的二十年中已经开发了许多用于这些反应的手性催化剂。然而，就周转数（TON）而言，催化剂的效率通常低于诸如不对称氢化之类的一些其他反应的效率，这已成为工业应用的障碍之一。尽管在提高效率方面存在一些困难，但是可以通过在手性非均相催化剂存在下使用连续流动来解决这些问题。实际上，连续流系统具有优于常规批处理系统的多个优点。在这里，我们总结了在连续流动条件下使用手性多相催化剂进行不对称CC键形成反应的最新进展。

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《Angewandte Chemie》 |2013年第26期|共15页
作者
Tetsu Tsubogo; Takanori Ishiwata; Shu Kobayashi;
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正文语种 eng
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asymmetric synthesis C—C bond formation; chiral heterogeneous catalysts continuous flow; turnover number;

机译：不对称合成C-C键形成;手性非均相催化剂连续流动;周转数;

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专利

1. Asymmetric Carbon-Carbon Bond Formation under Continuous-Flow Conditions with Chiral Heterogeneous Catalysts [J] . Tetsu Tsubogo, Takanori Ishiwata, Shu Kobayashi Angewandte Chemie . 2013,第26期

机译：手性多相催化剂在连续流动条件下不对称碳-碳键的形成
2. Development of Robust Heterogeneous Chiral Rhodium Catalysts Utilizing Acid-Base and Electrostatic Interactions for Efficient Continuous-Flow Asymmetric Hydrogenations [J] . Yuki Saito, Shu Kobayashi Journal of the American Chemical Society . 2020,第39期

机译：利用酸碱和静电相互作用的耐塑性异质手性铑催化剂的研制为高效连续流动不对称氢化
3. Asymmetric synthesis of beta-hydroxy-beta-trifluoromethylated ketones via in situ generation of trifluoroacetaldehyde and its asymmetric carbon-carbon bond formation reaction with chiral imines in aqueous media [J] . Kazumasa Funabiki, Kazutoshi Hasegawa, Yoshihiro Murase, Journal of Fluorine Chemistry . 2006,第4a5期

机译：通过原位生成三氟乙醛不对称合成β-羟基-β-三氟甲基化酮及其在水介质中与手性亚胺的不对称碳-碳键形成反应
4. Development of Heterogeneous Catalysts for Continuous-flow C-C Bond Formation and Hydrogenation Reactions for Multistep Synthesis of Fine Chemicals [C] . Yuki SAITO, Haruro ISHITANI, Shu KOBAYASHI 日本化学会春季年会講演予稿集 . 2018

机译：开发用于连续流动C-C键形成的异质催化剂和氢化反应，对细化学品的多步合成
5. Syntheses of ferrocene-motif nitrogen-phosphorus/sulfur mixed-donor ligands and their applications in construction of chiral carbon-carbon and carbon-heteroatom bonding via asymmetric allylic substitutions [D] . Lam, Fuk Loi 2008

机译：二茂铁-基序氮-磷/硫混合供体配体的合成及其在通过不对称烯丙基取代的手性碳-碳和碳-杂原子键合中的应用
6. Cellulose-supported chiral rhodium nanoparticles as sustainable heterogeneous catalysts for asymmetric carbon–carbon bond-forming reactions [O] . Tomohiro Yasukawa, Hiroyuki Miyamura, Shū Kobayashi 2015

机译：纤维素负载的手性铑纳米粒子可作为非均相碳-碳键形成反应的可持续多相催化剂
7. Development of Robust Heterogeneous Chiral Rhodium Catalysts Utilizing AcidBase and Electrostatic Interactions for Efficient Continuous-Flow Asymmetric Hydrogenations [O] . -1

机译：利用酸基和静电相互作用的鲁棒非均相手性铑催化剂的研制为高效连续流动不对称氢化

Asymmetric Carbon-Carbon Bond Formation under Continuous-Flow Conditions with Chiral Heterogeneous Catalysts

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