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NH Tautomerism of N‑Confused Porphyrin: Solvent/Substituent Effects and Isomerization Mechanism
journal contribution
posted on 2020-07-02, 15:38 authored by Tomoya Ishizuka, Ryuichi Sakashita, Osamu Iwanaga, Tatsuki Morimoto, Shigeki Mori, Masatoshi Ishida, Motoki Toganoh, Kiyonori Takegoshi, Atsuhiro Osuka, Hiroyuki FurutaThe effects of substituents
and solvents on the NH tautomerism
of N-confused porphyrin (2) were investigated. The structures,
electronic states, and aromaticity of NH tautomers (2-2H and 2-3H) were studied by absorption and nuclear magnetic
resonance (1H, 13C, and 15N) spectroscopies,
single-crystal X-ray diffraction analysis, and theoretical calculations.
The relative stability of the tautomers is highly affected by solvents,
with the 3H-type tautomer being more stable in nonpolar
solvents, while the 2H-type tautomer being highly stabilized
in polar solvents with high donor numbers such as N,N-dimethylformamide (DMF), pyridine, and acetone.
Electron-withdrawing groups on the meso-aryl substituents
as well as the methyl group at the ortho position also stabilize the 2H-type tautomer. Kinetically, the tautomerism rate is significantly
influenced by solvent and concentration, and a particularly large
activation entropy (ΔS⧧)
is obtained in pyridine. The first-order deuterium isotope effect
on the reaction rates of NH tautomerism (kH/kD) is determined to be 2.4 at 298 K.
On the basis of kinetic data, the mechanism of isomerization is identified
as an intramolecular process, including the rotation of the confused
pyrrole in pyridine/chloroform and DMF/chloroform mixed solvent systems,
and as a pyridine-mediated process in pyridine alone.