Fullerenes from aromatic precursors by surface-catalysed cyclodehydrogenation |
| |
Authors: | Otero Gonzalo Biddau Giulio Sánchez-Sánchez Carlos Caillard Renaud López María F Rogero Celia Palomares F Javier Cabello Noemí Basanta Miguel A Ortega José Méndez Javier Echavarren Antonio M Pérez Rubén Gómez-Lor Berta Martín-Gago José A |
| |
Institution: | Instituto de Ciencia de Materiales de Madrid (CSIC), Cantoblanco, 28049 Madrid, Spain. |
| |
Abstract: | Graphite vaporization provides an uncontrolled yet efficient means of producing fullerene molecules. However, some fullerene derivatives or unusual fullerene species might only be accessible through rational and controlled synthesis methods. Recently, such an approach has been used to produce isolable amounts of the fullerene C(60) from commercially available starting materials. But the overall process required 11 steps to generate a suitable polycyclic aromatic precursor molecule, which was then dehydrogenated in the gas phase with a yield of only about one per cent. Here we report the formation of C(60) and the triazafullerene C(57)N(3) from aromatic precursors using a highly efficient surface-catalysed cyclodehydrogenation process. We find that after deposition onto a platinum (111) surface and heating to 750 K, the precursors are transformed into the corresponding fullerene and triazafullerene molecules with about 100 per cent yield. We expect that this approach will allow the production of a range of other fullerenes and heterofullerenes, once suitable precursors are available. Also, if the process is carried out in an atmosphere containing guest species, it might even allow the encapsulation of atoms or small molecules to form endohedral fullerenes. |
| |
Keywords: | |
本文献已被 PubMed 等数据库收录! |
|