Bowl Inversion of Surface-Adsorbed Sumanene

Bowl-shaped π-conjugated compounds offer the possibility to study curvature-dependent host–guest interactions and chemical reactivity in ideal model systems. For surface-adsorbed π bowls, however, only conformations with the bowl opening pointing away from the surface have been observed so far. Here...

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Veröffentlicht in:	Journal of the American Chemical Society 2014-10, Vol.136 (39), p.13666-13671
Hauptverfasser:	Jaafar, Rached, Pignedoli, Carlo A, Bussi, Giovanni, Aït-Mansour, Kamel, Groening, Oliver, Amaya, Toru, Hirao, Toshikazu, Fasel, Roman, Ruffieux, Pascal
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container_title	Journal of the American Chemical Society
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creator	Jaafar, Rached Pignedoli, Carlo A Bussi, Giovanni Aït-Mansour, Kamel Groening, Oliver Amaya, Toru Hirao, Toshikazu Fasel, Roman Ruffieux, Pascal
description	Bowl-shaped π-conjugated compounds offer the possibility to study curvature-dependent host–guest interactions and chemical reactivity in ideal model systems. For surface-adsorbed π bowls, however, only conformations with the bowl opening pointing away from the surface have been observed so far. Here we show for sumanene on Ag(111) that both bowl-up and bowl-down conformations can be stabilized. Analysis of the molecular layer as a function of coverage reveals an unprecedented structural phase transition involving a bowl inversion of one-third of the molecules. On the basis of scanning tunneling microscopy (STM) and complementary atomistic simulations, we develop a model that describes the observed phase transition in terms of a subtle interplay between inversion-dependent adsorption energies and intermolecular interactions. In addition, we explore the coexisting bowl-up and -down conformations with respect to host–guest binding of methane. STM reveals a clear energetic preference for methane binding to the concave face of sumanene.
doi_str_mv	10.1021/ja504126z
format	Article
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title	Bowl Inversion of Surface-Adsorbed Sumanene
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