5 years ago

Synthesis and Properties of Subphthalocyanine–Tetracyanobutadiene–Ferrocene Triads

Synthesis and Properties of Subphthalocyanine–Tetracyanobutadiene–Ferrocene Triads
Ole Hammerich, Anders Kadziola, Martyn Jevric, Mogens Brøndsted Nielsen, Henrik Gotfredsen, Alberto Viñas Muñoz
A series of boron subphthalocyanine–tetracyanobutadiene–ferrocene (SubPc–TCBD–Fc) triads was synthesized by subjecting SubPcs with a ferrocenylethynyl substituent at either the axial or peripheral position to a [2 + 2] cycloaddition reaction with tetracyanoethylene followed by retroelectrocyclization. The ferrocenylethynyl unit was introduced at the axial position (at the boron atom) by a simple aluminum chloride-mediated alkynylation reaction, while functionalization at the SubPc periphery was accomplished by a Sonogashira coupling reaction. The conversion of one alkyne unit into a TCBD unit in combination with the location of the resulting TCBD–Fc moiety was found to have a strong influence on the optical and redox properties, which is ascribed to very different ground-state interactions between the individual donor/acceptor systems. The first electrochemical oxidation could thus be anodically shifted by as much as 0.4 V from the strongest donor molecule (with most unperturbed ferrocene character) to the poorest donor molecule (with strongly perturbed ferrocene character). Six redox states could be reached reversibly for the SubPc–TCBD–Fc triads, −3, −2, −1, 0, + 1, + 2, and for one compound the formation of a tetraanion persistent at the time scale of slow scan voltammetry was observed.

Publisher URL: http://dx.doi.org/10.1021/acs.joc.7b03122

DOI: 10.1021/acs.joc.7b03122

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