反热力学、光催化的 E→Z 苯乙烯基硼物种异构化：促进二维化学空间探索的向量。

Contra-Thermodynamic, Photocatalytic E→Z Isomerization of Styrenyl Boron Species: Vectors to Facilitate Exploration of Two-Dimensional Chemical Space.

机构信息

WESTCHEM, Department of Pure and Applied Chemistry, University of Strathclyde, 295 Cathedral Street, Glasgow, UK.

Organisch Chemisches Institut, Westfälische Wilhelms-Universität Münster, Corrensstraße 40, 48149, Münster, Germany.

出版信息

Angew Chem Int Ed Engl. 2018 Mar 12;57(12):3168-3172. doi: 10.1002/anie.201800286. Epub 2018 Feb 21.

DOI:10.1002/anie.201800286

PMID:29393569

Abstract

Designing strategies to access stereodefined olefinic organoboron species is an important synthetic challenge. Despite significant advances, there is a striking paucity of routes to Z-α-substituted styrenyl organoborons. Herein, this strategic imbalance is redressed by exploiting the polarity of the C(sp )-B bond to activate the neighboring π system, thus enabling a mild, traceless photocatalytic isomerization of readily accessible E-α-substituted styrenyl BPins to generate the corresponding Z-isomers with high fidelity. Preliminary validation of this contra-thermodynamic E→Z isomerization is demonstrated in a series of stereoretentive transformations to generate Z-configured trisubstituted alkenes, as well as in a concise synthesis of the anti-tumor agent Combretastatin A4.

摘要

设计策略以获得立体定义的烯烃有机硼物种是一个重要的合成挑战。尽管取得了重大进展，但通向 Z-α-取代的苯乙烯基有机硼的途径却明显缺乏。在此，通过利用 C(sp )-B 键的极性来激活相邻的π系统，从而实现温和、无痕迹的光催化异构化，可将易得的 E-α-取代的苯乙烯基 BPin 轻易地转化为相应的 Z-异构体，从而实现高保真度。通过一系列立体保留转化生成 Z 构型的三取代烯烃，以及简洁合成抗癌剂 Combretastatin A4，初步验证了这种反热力学 E→Z 异构化。

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反热力学、光催化的 E→Z 苯乙烯基硼物种异构化：促进二维化学空间探索的向量。

Contra-Thermodynamic, Photocatalytic E→Z Isomerization of Styrenyl Boron Species: Vectors to Facilitate Exploration of Two-Dimensional Chemical Space.

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