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5,15-二芳基四苯并卟啉的合成

Synthesis of 5,15-diaryltetrabenzoporphyrins.

作者信息

Filatov Mikhail A, Lebedev Artem Y, Vinogradov Sergei A, Cheprakov Andrei V

机构信息

Department of Chemistry, Moscow State University, Moscow 119899, Russia.

出版信息

J Org Chem. 2008 Jun 6;73(11):4175-85. doi: 10.1021/jo800509k. Epub 2008 May 2.

DOI:10.1021/jo800509k
PMID:18452337
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2491715/
Abstract

A general method of synthesis of 5,15-diaryltetrabenzoporphyrins (Ar 2TBPs) has been developed, based on 2 + 2 condensation of dipyrromethanes followed by oxidative aromatization. Two pathways to Ar 2TBPs were investigated: the tetrahydroisoindole pathway and the dihydroisoindole pathway. In the tetrahydroisoindole pathway, precursor 5,15-diaryltetracyclohexenoporphyrins (5,15-Ar 2TCHPs) were assembled from cyclohexeno-fused meso-unsubstituted dipyrromethanes and aromatic aldehydes or, alternatively, by way of the classical MacDonald synthesis. In the first case, scrambling was observed. Aromatization by tetracyclone was more effective than aromatization by DDQ but failed in the cases of porphyrins with electron-withdrawing substituents in the meso-aryl rings. The dihydroisoindole pathway was found to be much superior to the tetrahydroisoindole pathway, and it was developed into a general preparative method, consisting of (1) the synthesis of 4,7-dihydroisoindole and its transformation into meso-unsubstituted dipyrromethanes, (2) the synthesis of 5,15-diaryloctahydrotetrabenzoporphyrins (5,15-Ar 2OHTBPs), and (3) their subsequent aromatization by DDQ. Ar 2TBP free bases exhibit optical absorption spectra similar to those of meso-unsubstituted tetrabenzoporphyrins and fluoresce with high quantum yields. Pd complex of Ph 2TBP was found to be highly phosphorescent at room temperature.

摘要

基于二吡咯甲烷的2 + 2缩合反应随后进行氧化芳构化,已开发出一种合成5,15 - 二芳基四苯并卟啉(Ar₂TBPs)的通用方法。研究了合成Ar₂TBPs的两条途径:四氢异吲哚途径和二氢异吲哚途径。在四氢异吲哚途径中,前体5,15 - 二芳基四环己烯卟啉(5,15 - Ar₂TCHPs)由环己烯稠合的中位未取代二吡咯甲烷与芳香醛组装而成,或者通过经典的麦克唐纳合成法制备。在第一种情况下,观察到了重排现象。用四并苯醌进行芳构化比用DDQ更有效,但对于中位芳环上带有吸电子取代基的卟啉则失败了。发现二氢异吲哚途径比四氢异吲哚途径优越得多,并将其发展成一种通用的制备方法,该方法包括:(1)4,7 - 二氢异吲哚的合成及其转化为中位未取代的二吡咯甲烷;(2)5,15 - 二芳基八氢四苯并卟啉(5,15 - Ar₂OHTBPs)的合成;(3)随后用DDQ对其进行芳构化。Ar₂TBP游离碱的光学吸收光谱与中位未取代的四苯并卟啉相似,并以高量子产率发出荧光。发现Ph₂TBP的钯配合物在室温下具有高磷光性。

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