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Issue 5, 2001
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Investigation of porphyrin-forming reactions. Part 2.1 Examination of the reaction course in two-step, one-flask syntheses of meso-substituted porphyrins

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Abstract

The reaction course leading to meso-substituted porphyrins was examined for reversibility (formation of oligomers, formation of α- and β-pyrrole linkages), inactivation of the acid catalyst, homogeneity of the reaction medium, and the pathway of oligomer formation. The methodology employed enabled characterization of the oligomer composition (LD-MS), yield of porphyrin (UV–Vis), yield of N-confused porphyrin (HPLC), and level of unreacted aldehyde (TLC). Experiments were performed with benzaldehyde and pyrrole with catalysis by TFA or BF3–Et2O. Key observations include the following. (1) Reactions with BF3–Et2O exhibited reversible exchange of oligomers throughout the reaction. With TFA, the oligomer exchange processes were reversible at short reaction times, but became largely irreversible over the course of several hours. (2) The BF3–Et2O activity declined during the course of the reaction, whereas that of TFA was little changed. (3) The reaction medium remained homogeneous at 10 mM pyrrole + aldehyde. (4) Dipyrromethanes comprised of α- but not β-linkages underwent cleavage with either TFA or BF3–Et2O. (5) Condensations with carbinol intermediates (pyrrole-carbinol, dipyrromethane-monocarbinol, dipyrromethane-dicarbinol) provided rapid reactions, lower yields of porphyrin, and longer oligomers than typical in reactions of pyrrole + benzaldehyde. Higher porphyrin yields were obtained with BF3–Et2O than TFA, which is attributed to the more facile recovery from longer oligomers with the former versus the latter catalyst. Collectively, these and other observations lead to a model for the aldehyde + pyrrole condensation comprised of a combination of irreversible and reversible reactions in oligomer formation, irreversible side reactions (formation of dipyrrins, β-linkages), and slow inactivation of the catalyst (BF3–Et2O).

Graphical abstract: Investigation of porphyrin-forming reactions. Part 2.1 Examination of the reaction course in two-step, one-flask syntheses of meso-substituted porphyrins [ ]

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Article information


Submitted
13 Nov 2000
Accepted
14 Mar 2001
First published
20 Apr 2001

J. Chem. Soc., Perkin Trans. 2, 2001, 687-700
Article type
Paper

Investigation of porphyrin-forming reactions. Part 2. Examination of the reaction course in two-step, one-flask syntheses of meso-substituted porphyrins

G. R. Geier III and J. S. Lindsey, J. Chem. Soc., Perkin Trans. 2, 2001, 687
DOI: 10.1039/B009092L

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