Zwitterionic Bergman-Triggered Cascade Polymerization: A Plateau Reaction Leading to Metal-Graphene Nanoribbon Semiconductors Using Boron-Metal Couple

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Abstract

With a rapid growth in artificial intelligence, designing high-speed and low power semiconducting material is of utmost importance. This investigation provides a theoretical basis to access covalently-bonded transition metal-graphene nanoribbon (TM-GNR) hybrid semiconductors whose DFT-computed bandgaps were much narrower than the commonly used pentacene. A systematic optimization of substrates containing remotely-placed boronyl groups and the transition metals produced the zwitterions via ionic Bergman cyclization ( i-BC ) and unlocked the polymerization of metal-substituted polyenynes. Aside from i-BC , the subsequent steps showed plateau-TS involving structureless transition regions. A multivariate analysis revealed a strong dependence of activation energy and the cyclization mode on the electronic nature of boron and Au(I). Consequently, three regions corresponding to radical Bergman ( r-BC ), ionic Bergman ( i-BC ), and ionic Schreiner-Pascal ( i-SP ) cyclizations were identified. The boundaries between these regions corresponded to the mechanistic shift induced by three-center-three-electron (3c-3e) hydrogen bond, three-center-four-electron (3c-4e) hydrogen bond, and vacant p-orbital on boron. The ideal combination for cascade polymerization was observed near the boundary between i-BC and i-SP .

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last seen: 2026-05-19T01:45:01.086888+00:00