Adsorption of benzene on graphitized thermal carbon black: Reduction of the quadrupole moment in the adsorbed phase
Contribuinte(s) |
David G Whitten (Editor-in-Chief) Josef F. Holzwarth (Senior Editor) Ralph G. Nuzzo (Senior Editor) Richard Crooks (Senior Editor) |
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Data(s) |
01/01/2006
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Resumo |
The performance of intermolecular potential models on the adsorption of benzene on graphitized thermal carbon black at various temperatures is investigated. Two models contain only dispersive sites, whereas the other two models account explicitly for the dispersive and electrostatic sites. Using numerous data in the literature on benzene adsorption on graphitized thermal carbon black at various temperatures, we have found that the effect of surface mediation on interaction between adsorbed benzene molecules must be accounted for to describe correctly the adsorption isotherm as well as the isosteric heat. Among the two models with partial charges tested, the WSKS model of Wick et at. I that has only six dispersive sites and three discrete partial charges is better than the very expensive all-atom model of Jorgensen and Severance.(2) Adsorbed benzene molecules on graphitized thermal carbon black have a complex orientation with respect to distance from the surface and also with respect to loading. At low loadings, they adopt the parallel configuration relative to the graphene surface, whereas at higher loadings (still less than monolayer coverage) some molecules adopt a slant orientation to maximize the fluid-fluid interaction. For loadings in the multilayer region, the orientation of molecules in the first layer is influenced by the presence of molecules in the second layer. The data that are used in this article come from the work of Isirikyan and Kiselev,(3) Pierotti and Smallwood,(4) Pierce and Ewing,(5) Belyakova, Kiselev, and Kovaleva,(6) and Carrott et al.(7) |
Identificador | |
Idioma(s) |
eng |
Publicador |
American Chemical Society |
Palavras-Chave | #Computer-simulations #Physical Adsorption #Simple Gases #Nitrogen #Surface #Argon #Heterogeneity #Equilibria #Potentials #Isotherms #Chemistry, Physical #C1 #290699 Chemical Engineering not elsewhere classified #670601 Chemical fertilisers |
Tipo |
Journal Article |