The scattering of N2 molecules from a graphite surface was studied by Molecular Dynamics simulations, based on a state-to-state semiclassical collisional method, and in conjunction with a new reactive Potential Energy Surface that includes the long-range part describing properly, for all accessible molecular configurations respect to the surface, the non-covalent interactions promoting the physisorption. Molecules in well-defined initial internal vibrational and rotational states (vi, ji) impinge on the surface with collisional energy (Ecoll) covering the range from thermal (0.01eV) up to hyperthermal values (2.0eV). In addition to the ground-state of ortho and para symmetry, nitrogen molecules excited initially in low-medium vi and ji levels have been also considered. The main features of scattering dynamics, already reported in the literature, are confirmed on a larger range of both initial rotational levels and collision energies. However, new selectivity and stereodynamics effects are highlighted by studying in detail the microscopic mechanisms driven by the interaction that promotes physisorption. This investigation contributes also to a broader understanding of molecular scattering from surfaces by relating observed effects to phenomena controlled by rotational alignment and rotational rainbow, already well characterized, both experimentally and theoretically, in gas-phase collisions and for molecular scattering from metallic surfaces.
Selectivity and Stereodynamics Effects in the Scattering of Nitrogen Molecules from a Graphite Surface
Maria Rutigliano; Fernando Pirani
Related products
-
Acta astronautica 191 pp. 178 - 192 Year: 2021 DOI: 10.1016/j.actaastro.2021.10.040
Unsteady behavior and thermochemical non equilibrium effects in hypersonic double-wedge flows
Ninni D.; Bonelli F.; Colonna G.; Pascazio G.
-
Atomic spectroscopy 42 (1), pp. 18 - 24 Year: 2021 DOI: 10.46770/AS.2020.202
Spark discharge-libs: Evaluation of one-point and multi-voltage calibration for p and al determination
Vieira A.L.; Ferreira E.C.; Junior D.S.; Senesi G.S.; Neto J.A.G.
-
PCCP. Physical chemistry chemical physics (Print) 23 (29), pp. 15475 - 15479 Year: 2021 DOI: 10.1039/d1cp01976g
Reconciling experimental and theoretical vibrational deactivation in low-energy O + N2 collisions
Hong, Q., Bartolomei, M., Esposito, F., Sun, Q., Pirani, F.
-
The astrophysical journal. Letters (Print) 912 (2), pp. L21-1 - L21-8 Year: 2021 DOI: 10.3847/2041-8213/abf7d1
Evolution of Solar Wind Turbulence from 0.1 to 1 au during the First Parker Solar Probe-Solar Orbiter Radial Alignment
Telloni, Daniele; Sorriso-Valvo, Luca; Woodham, Lloyd D.; Panasenco, Olga; Velli, Marco; Carbone, Francesco; Zank, Gary P.; Bruno, Roberto; Perrone, Denise; Nakanotani, Masaru; Shi, Chen; D’Amicis, Raffaella; De Marco, Rossana; Jagarlamudi, Vamsee K.; Steinvall, Konrad; Marino, Raffaele; Adhikari, Laxman; Zhao, Lingling; Liang, Haoming; Tenerani, Anna; Laker, Ronan; Horbury, Timothy S.; Bale, Stuart D.; Pulupa, Marc; Malaspina, David M.; Macdowall, Robert J.; Goetz, Keith; De Wit, Thierry Dudok; Harvey, Peter R.; Kasper, Justin C.; Korreck, Kelly E.; Larson, Davin; Case, Anthony W.; Stevens, Michael L.; Whittlesey, Phyllis; Livi, Roberto; Owen, Christopher J.; Livi, Stefano; Louarn, Philippe; Antonucci, Ester; Romoli, Marco; O’Brien, Helen; Evans, Vincent; Angelini, Virginia
English
Italiano