手性两亲性仲胺-卟啉杂化物用于水相有机催化。

Chiral Amphiphilic Secondary Amine-Porphyrin Hybrids for Aqueous Organocatalysis.

机构信息

Section of Organic Chemistry, Department of Inorganic and Organic Chemistry, University of Barcelona, Faculty of Chemistry, C. de Martí i Franquès 1-11, 08028 Barcelona, Spain.

Institute of Cosmos Science, C. de Martí i Franquès 1-11, 08028 Barcelona, Spain.

出版信息

Molecules. 2020 Jul 28;25(15):3420. doi: 10.3390/molecules25153420.

DOI:10.3390/molecules25153420

PMID:32731520

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7435841/

Abstract

Two chiral proline-derived amphiphilic 5-substituted-10,15,20-tris(4-sulfonatophenyl)porphyrins were prepared, and their pH-dependent supramolecular behavior was studied. In neutral aqueous solutions, the free-base form of the hybrids is highly soluble, allowing enamine-based organocatalysis to take place, whereas under acidic conditions, the porphyrinic protonated core of the hybrid leads to the formation of self-assembled structures, so that the hybrids flocculate and their catalytic activity is fully suppressed. The low degree of chirality transfer observed for aqueous Michael and aldol reactions strongly suggests that these reactions take place under true "in water" organocatalytic conditions. The highly insoluble catalyst aggregates can easily be separated from the reaction products by centrifugation of the acidic reaction mixtures, and after neutralization and desalting, the sodium salts of the sulfonated amine-porphyrin hybrids, retaining their full catalytic activity, can be recovered in high yield.

摘要

两种手性脯氨酸衍生的两亲性 5-取代-10,15,20-三(4-磺酸钠基苯基)卟啉被制备，并研究了它们的 pH 值依赖性超分子行为。在中性水相中，该配合物的自由碱基形式具有很高的溶解度，允许烯胺基有机催化反应发生，而在酸性条件下，配合物的卟啉质子化核导致自组装结构的形成，从而使配合物絮凝，其催化活性完全被抑制。在水相中 Michael 和 aldol 反应中观察到的低程度的手性转移强烈表明这些反应是在真正的“在水中”有机催化条件下进行的。高度不溶性的催化剂聚集体可以通过离心酸性反应混合物很容易地从反应产物中分离出来，并且在中和和脱盐之后，可以以高产率回收保留其全部催化活性的磺化胺-卟啉配合物的钠盐。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/abe0/7435841/8eba989a98bc/molecules-25-03420-sch001.jpg

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手性两亲性仲胺-卟啉杂化物用于水相有机催化。

Chiral Amphiphilic Secondary Amine-Porphyrin Hybrids for Aqueous Organocatalysis.

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