Hiroyuki Furuta scite author profile

In recent years, a number of porphyrin analogs,1 including compounds such as the isoporphyrins,* 12 heteroporphyrins,3 expanded porphyrins,4 vinylogous porphyrins,5 etc., have been synthesized. However, few examples are known that can be called true "isomers" of porphyrin.6 One possible isomer could be a tetrapyrrole macrocycle, in which one pyrrole ring is linked through its -ß' axis instead of via a more normal a-a! linkage.7In this communication, we report the synthesis and the structural characterization of a phenyl-substituted derivative of a porphyrin isomer, 1. To the best our knowledge, this new compound, to which we have assigned the trivial name "N-confused porphyrin; NC-P", is the first example of an isomeric porphyrin-like system in which the "starting" four methine bridges are still present.8The new compound, "N-confused tetraphenylporphyrin" (NC-TPP, 1) was obtained using a modification of the well-known synthesis of TPP that involves the acid-catalyzed condensation

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meso-Aryl-Substituted Expanded Porphyrins

Shin

et al. 2001

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Confusion, inversion, and creation—a new spring from porphyrin chemistry

2002

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This article mainly deals with the recent serendipity of novel porphyrin analogs such as N-confused porphyrin. The unique property of this ligand allows the formation of a variety of metal complexes. The important aspect of dynamic flipping (inversion), induced either by confusion or expansion of the macrocyclic core, that leads to the generation of new porphyrinoids, is emphasized. This review concludes with the recent progress on expanded porphyrins bearing confused, inverted, and fused pyrrole rings.

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Syntheses, Structural Characterizations, and Optical and Electrochemical Properties of Directly Fused Diporphyrins

2001

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Directly fused diporphyrins display the extensive pi conjugation as evinced by highly perturbed electronic absorption spectra as well as lowered and largely split first oxidation potentials. Such diporphyrins prepared include meso-beta doubly linked diporphyrins 7, meso-meso beta-beta beta-beta triply linked diporphyrins 8, and meso-meso beta-beta doubly linked diporphyrins 9. Oxidation of 5,15-diaryl-substituted and 5,10,15-triaryl-substituted Ni(II)-, Cu(II)-, and Pd(II)-porphyrins with tris(4-bromophenyl)aminium hexachloroantimonate (BAHA) in CHCl(3) afforded 7, and triply linked Cu(II)-diporphyrins 8a and 8g were respectively prepared by the oxidation of meso-meso singly linked Cu(II)-diporphyrins 5c and 5f with BAHA. Meso-meso beta-beta doubly linked Ni(II)-diporphyrin 9a was isolated along with triply linked Ni(II)-diporphyrin 8e from the similar oxidation of meso-meso singly linked Ni(II)-diporphyrin 5a. Doubly linked diporphyrins 7 and 9a both exhibit significantly perturbed electronic absorption spectra, in which the Soret-like bands are largely split at around 405-418 and 500-616 nm and the Q-bandlike absorption bands are substantially intensified and red-shifted at 748-820 nm, probably as a consequence of symmetry lowering. Triply linked diporphyrins 8 display more strongly perturbed electronic absorption spectra with split Soret-like bands at 408-419 and 567-582 nm and Q-bandlike absorption bands reaching far-infrared region. Structures of three types of fused diporphyrins 7b and 7c, 8g and 8j, and 9a have been unambiguously determined by X-ray crystallography to be nearly coplanar. Both the triply linked diporphyrins 8g and 8j exhibit very flat structures, whereas the doubly linked diporphyrins 7b and 7c exhibit ruffled structures. The doubly linked diporphyrin 9a shows a helically twisted conformation with larger ruffling toward the opposite directions and has been actually separated into two enantiomers, which display strong Cotton effects in the CD spectra. The first oxidation potentials (E(OX1)) decrease in the order of 5 > 7 > or = 9 > 8, indicating lift-up of HOMO orbital in this order, and split potential differences DeltaE = E(OX1) - E(OX2), in turn, increase in the reverse order of 5 < 7< or = 9 < 8. The (1)H NMR spectra have indicated that the aromatic porphyrin ring current becomes weakened in the order of 5 > 7 > 8. Collectively, the electronic interactions between the diporphyrins have been concluded to increase in the other of 5 << 7 < or = 9 < 8.

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NH Tautomerism of N-Confused Porphyrin

et al. 2001

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Hiroyuki Furuta

"N-Confused Porphyrin": A New Isomer of Tetraphenylporphyrin

meso-Aryl-Substituted Expanded Porphyrins

Confusion, inversion, and creation—a new spring from porphyrin chemistry

Syntheses, Structural Characterizations, and Optical and Electrochemical Properties of Directly Fused Diporphyrins

NH Tautomerism of N-Confused Porphyrin

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