Abstract
During the attempted total synthesis of chlorophyll, Woodward hypothesized the formation
of tetrapyrrolic 20π isophlorin as a transient antiaromatic intermediate which provides
a plausible template to synthesize stable antiaromatic molecules. Despite its structural
similarity with the 18π aromatic porphyrin, it significantly differs in its electronic
and chemical properties. However, due to its unstable nature under ambient conditions
it immediately gets oxidized to stable 18π aromatic porphyrin. Similar macrocyclic
structures with β-substituted heterocycles, such as furan/thiophene/selenophene, have
been synthesized, which undergo facile oxidation to yield the 18π porphyrin dication.
Attempts to synthesize stable tetrapyrrolic isophlorin and its metal complex have
remained unaccomplished till date. Strategies to synthesize stable core-modified 20π
isophlorin and its confused isophlorin derivative have met with considerable success.
Predominantly, they are synthesized by replacing three or four pyrroles with furan/thiophene.
The 20π systems either with four furan units or with a ‘pair’ of furan and thiophene
units were sufficiently stable enough to resist oxidation towards the corresponding
porphyrin dication. The 20π isophlorins displayed noncovalent interactions with the
curved π surface of fullerene which predominantly rises due to van der Waals attraction
between the dissimilar π systems. This antiaromatic isophlorin-fullerene complexes
were obtained and successfully characterized by single-crystal X-ray diffraction studies.
Replacing only three pyrroles by furan rings yielded the first stable pyrrole derivative
of antiaromatic 20π isophlorin, which can be reversibly oxidized to 18π aromatic porphyrin
without deprotonating the inner pyrrole NH. In addition, replacing all the pyrrole
units of N-confused porphyrin with thiophene yielded the first derivative of confused
isophlorin. Further, its two-electron oxidation led to the formation of 18π aromatic
cation with enhanced aromaticity. The structure and electronic properties of the oxidized
and neutral species were unambiguously determined from a combination of spectroscopic
techniques, X-ray crystallography, and computational methods. These studies reveal
that antiaromatic systems like isophlorin and its confused isophlorin derivative can
be stabilized under ambient conditions and they offer potential to explore the chemistry
of 4nπ systems. This Account focuses of recent advances in 20π antiaromatic isophlorins,
confused isophlorins, and nocorroles along with their redox chemistry.
1 Introduction
2 Stable 20π Isophlorins
2.1 Furan-/Thiophene-Based Isophlorins
2.2 Pyrrole Isophlorins
3 Confused Isophlorins
3.1 Isophlorin-Fullerene
3.2 meso-meso-Bridged Tetraoxaisophlorin Dimer
4. Norcorroles
5. Conclusion and Outlook
Key words
antiaromaticity - isophlorins - macrocycles - organic redox - porphyrinoids
