卟啉类化合物的亲核芳香取代反应（SAr）及相关反应：机理和区域化学方面

Nucleophilic Aromatic Substitution (SAr) and Related Reactions of Porphyrinoids: Mechanistic and Regiochemical Aspects.

作者信息

Sample Harry C, Senge Mathias O

机构信息

School of Chemistry Trinity Biomedical Sciences Institute The University of Dublin 152-160 Pearse Street Dublin 2 Ireland.

Institute for Advanced Study (TUM-IAS) Technical University of Munich Lichtenbergstrasse 2a 85748 Garching Germany.

出版信息

European J Org Chem. 2021 Jan 8;2021(1):7-42. doi: 10.1002/ejoc.202001183. Epub 2020 Nov 6.

DOI:10.1002/ejoc.202001183

PMID:33519299

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7821298/

Abstract

The nucleophilic substitution of aromatic moieties (SAr) has been known for over 150 years and found wide use for the functionalization of (hetero)aromatic systems. Currently, several "types" of SAr reactions have been established and notably the area of porphyrinoid macrocycles has seen many uses thereof. Herein, we detail the SAr reactions of seven types of porphyrinoids with differing number and type of pyrrole units: subporphyrins, norcorroles, corroles, porphyrins, azuliporphyrins, N-confused porphyrins, and phthalocyanines. For each we analyze the substitution dependent upon: a) the type of nucleophile and b) the site of substitution (α, β, or meso). Along with this we evaluate this route as a synthetic strategy for the generation of unsymmetrical porphyrinoids. Distinct trends can be identified for each type of porphyrinoid discussed, regardless of nucleophile. The use of nucleophilic substitution on porphyrinoids is found to often be a cost-effective procedure with the ability to yield complex substituent patterns, which can be conducted in non-anhydrous solvents with easily accessible simple porphyrinoids.

摘要

芳香部分的亲核取代反应（SAr）已被人们知晓超过150年，并在（杂）芳香体系的官能团化中得到了广泛应用。目前，已经建立了几种“类型”的SAr反应，特别是在卟啉类大环化合物领域有许多应用。在此，我们详细介绍了七种具有不同吡咯单元数量和类型的卟啉类化合物的SAr反应：亚卟啉、降卟啉、卟吩、卟啉、蓝卟啉、N-杂卟啉和酞菁。对于每一种，我们分析了取决于以下因素的取代反应：a）亲核试剂的类型和b）取代位点（α、β或中位）。与此同时，我们评估了这条路线作为生成不对称卟啉类化合物的合成策略。无论亲核试剂如何，对于所讨论的每一种卟啉类化合物都可以识别出明显的趋势。发现对卟啉类化合物使用亲核取代反应通常是一种经济高效的方法，能够产生复杂的取代模式，该反应可以在非无水溶剂中使用易于获得的简单卟啉类化合物进行。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/08be/7821298/4bb69c68c8f3/EJOC-2021-7-g003.jpg

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卟啉类化合物的亲核芳香取代反应（SAr）及相关反应：机理和区域化学方面

Nucleophilic Aromatic Substitution (SAr) and Related Reactions of Porphyrinoids: Mechanistic and Regiochemical Aspects.

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