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On-Surface Site-Selective Cyclization of Corrole Radicals.

Stefano TebiMateusz PaszkiewiczHazem AldahhakFrancesco AllegrettiSabrina GonglachMichael HaasMario WaserPeter S DeimelPablo Casado AguilarYi-Qi ZhangAnthoula C PapageorgiouDavid A DuncanJohannes V BarthWolf G SchmidtReinhold KochUwe GerstmannEva RaulsFlorian KlappenbergerWolfgang SchöfbergerStefan Müllegger
Published in: ACS nano (2017)
Radical cyclization is among the most powerful and versatile reactions for constructing mono- and polycyclic systems, but has, to date, remained unexplored in the context of on-surface synthesis. We report the controlled on-surface synthesis of stable corrole radicals on Ag(111) via site-specific dehydrogenation of a pyrrole N-H bond in the 5,10,15-tris(pentafluoro-phenyl)-corrole triggered by annealing at 330 K under ultrahigh-vacuum conditions. We reveal a thermally induced regioselective cyclization reaction mediated by a radical cascade and resolve the reaction mechanism of the pertaining cyclodefluorination reaction at the single-molecule level. Via intramolecularly resolved probing of the radical-related Kondo signature, we achieve real space visualization of the distribution of the unpaired electron density over specific sites within the corrole radical. Annealing to 550 K initiates intermolecular coupling reactions, producing an extended π-conjugated corrole system.
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