通过选择性能量转移催化利用烯烃异构化中的 n→π* 相互作用。

Leveraging the n→π* Interaction in Alkene Isomerization by Selective Energy Transfer Catalysis.

机构信息

Organisch-Chemisches Institut, Westfälische Wilhelms-Universität Münster, Corrensstrasse 36, 48149, Münster, Germany.

Current address: Max Planck Institute of Colloids and Interfaces, Am Mühlenberg 1, 14476, Potsdam, Germany.

出版信息

Angew Chem Int Ed Engl. 2022 Jan 10;61(2):e202113600. doi: 10.1002/anie.202113600. Epub 2021 Nov 26.

DOI:10.1002/anie.202113600

PMID:34748684

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9299456/

Abstract

Examples of geometric alkene isomerization in nature are often limited to the net exergonic direction (ΔG°<0), with the antipodal net endergonic processes (ΔG°>0) comparatively under-represented. Inspired by the expansiveness of the maleate to fumarate (Z→E) isomerization in biochemistry, we investigated the inverse E→Z variant to validate n →π * interactions as a driving force for contra-thermodynamic isomerization. A general protocol involving selective energy transfer catalysis with inexpensive thioxanthone as a sensitizer (λ =402 nm) is disclosed. Whilst in the enzymatic process n →π * interactions commonly manifest themselves in the substrate, these same interactions are shown to underpin directionality in the antipodal reaction by shortening the product alkene chromophore. The process was validated with diverse fumarate derivatives (>30 examples, up to Z:E>99:1), including the first examples of tetrasubstituted alkenes, and the involvement of n →π * interactions was confirmed by X-ray crystallography.

摘要

自然界中几何烯烃异构化的例子通常仅限于净放能方向（ΔG°<0），而反演的净吸能过程（ΔG°>0）则相对较少。受生物化学中亚马酸向富马酸（Z→E）异构化的广泛性启发，我们研究了相反的 E→Z 变体，以验证 n →π * 相互作用作为反热力学异构化的驱动力。本文公开了一种通用的方案，涉及使用廉价的噻吨酮作为敏化剂（λ =402 nm）的选择性能量转移催化。虽然在酶促过程中，n →π * 相互作用通常在底物中表现出来，但这些相同的相互作用通过缩短产物烯烃发色团来支撑反演反应的方向性。该过程通过多种富马酸衍生物进行了验证（>30 个实例，Z:E 最高可达 99:1），包括四取代烯烃的第一个实例，并通过 X 射线晶体学证实了 n →π * 相互作用的参与。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b47a/9299456/0934399b55fe/ANIE-61-0-g008.jpg

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通过选择性能量转移催化利用烯烃异构化中的 n→π* 相互作用。

Leveraging the n→π* Interaction in Alkene Isomerization by Selective Energy Transfer Catalysis.

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