Cyclic Voltammetric Characteristics of Tri- and Diarylcarbenium Salts Having Some Methoxyphenyl Groups

Tatsuo Erabi, Takayuki Ohtsuki, Eiko Osaki, Nobuyuki Tomita, Masahiro Asahara, Masanori Wada

doi:10.1246/bcsj.73.2237

<jats:title>Abstract</jats:title> <jats:p>Triarylcarbenium salts (Φa3C+, ΦaΦb2C+, Φb3C+, ΦfΦb2C+, ΦeΦb2C+, PhΦb2C+, and FcC+ΦbPh [Φa, Φb, Φe, Φf, Ph, Fc = 2,4,6-(MeO)3C6H2, 2,6-(MeO)2C6H3, 2-(MeO)C6H4, 4-(MeO)C6H4, C6H5, Fe(η5-C5H5)(η5-C5H4)]) showed a reversible redox wave with one-electron transfer at a Pt electrode in 1,2-dichloroethane, while the reduction of diarylcarbenium salts (Φa2C+H, FcC+ΦaH, FcC+ΦbH, FcC+ΦcH, FcC+ΦeH, and FcC+PhH [Φc = 2,5-(MeO)2C6H3]) proceeded irreversibly. A wide range of cathodic shifts in the redox potentials (198—-377 mV for triarylcarbenium salts) and in the reduction peak potentials (-23—-311 mV for monoaryl(ferrocenyl)carbenium salts) could be observed as the number of o- and p-methoxy groups increased. Probably, the electron donation from the o- and p-methoxy substituents to the central carbon caused the wide negative shift in the redox potentials. These triarylcarbenium salts again showed reversible redox waves in their relatively low concentration region at an ITO electrode in an aqueous acidic medium. In the higher concentration region, an anodic wave was varied to a sharp peak, indicating the adsorption of triarylmethyl radicals. It is very interesting that the reversible redox behavior of these triarylcarbenium salts was observable even in an aqueous medium.</jats:p>

Cyclic Voltammetric Characteristics of Tri- and Diarylcarbenium Salts Having Some Methoxyphenyl Groups

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Cyclic Voltammetric Characteristics of Tri- and Diarylcarbenium Salts Having Some Methoxyphenyl Groups

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