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Understanding the mobility of H at the surface of carbon nanostructures is one of the essential ingredients for a deep comprehension of the catalytic formation of H2 in interstellar clouds. In this paper, we combine neutron vibrational spectroscopy with DFT molecular dynamics simulations to study the local environment of H structures chemisorbed at the surface of disordered graphene sheets. At 5 K, the ground state is composed of large clusters of hydrogen chemisorbed at sp2 carbon sites, on the edges and in voids of the graphene sheets. At temperatures of ∼300 K, a high degree of dispersion of the clusters is observed, involving the breaking and reforming of covalent bonds which, at low temperatures, is mediated by incoherent tunnelling of hydrogen.

Cavallari, C., Pontiroli, D., Jim('e)nez-Ruiz, M., Johnson, M., Aramini, M., Gaboardi, M., et al. (2016). Hydrogen motions in defective graphene: The role of surface defects. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 18(36), 24820-24824 [10.1039/c6cp04727k].

Hydrogen motions in defective graphene: The role of surface defects

Gaboardi, M.;
2016-01-01

Abstract

Understanding the mobility of H at the surface of carbon nanostructures is one of the essential ingredients for a deep comprehension of the catalytic formation of H2 in interstellar clouds. In this paper, we combine neutron vibrational spectroscopy with DFT molecular dynamics simulations to study the local environment of H structures chemisorbed at the surface of disordered graphene sheets. At 5 K, the ground state is composed of large clusters of hydrogen chemisorbed at sp2 carbon sites, on the edges and in voids of the graphene sheets. At temperatures of ∼300 K, a high degree of dispersion of the clusters is observed, involving the breaking and reforming of covalent bonds which, at low temperatures, is mediated by incoherent tunnelling of hydrogen.
2016
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore PHYS-03/A - Fisica sperimentale della materia e applicazioni
Settore CHEM-02/A - Chimica fisica
English
Con Impact Factor ISI
Cavallari, C., Pontiroli, D., Jim('e)nez-Ruiz, M., Johnson, M., Aramini, M., Gaboardi, M., et al. (2016). Hydrogen motions in defective graphene: The role of surface defects. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 18(36), 24820-24824 [10.1039/c6cp04727k].
Cavallari, C; Pontiroli, D; Jim('e)nez-Ruiz, M; Johnson, M; Aramini, M; Gaboardi, M; Parker, Sf; Ricc('o), M; Rols, S
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/460043
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