Polymer Science Faculty Research
Title
Adsorption of Methane and Propane on a LJ Wall and on Molybdenum Surface: A Simulation Study
Document Type
Article
Publication Date
Spring 2011
Abstract
Atomic-scale MD simulations were used to study multilayer adsorption as a function of temperature for two different alkanes (CH4 and C3H8) on a fixed Lennard-Jones wall and on the (001) surface of molybdenum. In sets of simulations on the molybdenum surface, the substrate atoms were made to interact via a Lennard-Jones potential in one study and via an embedded-atom model (EAM) potential in the next. The results show that CH4 and C3H8 on the flat wall possess a highly ordered packing arrangement exhibiting a higher degree of order than films adsorbed on the molybdenum substrate. Additionally, the number of ordered layers seen in the case of adsorption of CH4 was noted to be greater than the number of ordered layers in the case of adsorption of C3H8. In each case, the first layer appears frozen, implying there is no translational motion for the molecules in this layer, and we can confidently surmise that the first adsorbed layer exists in the solid phase far above the bulk melting temperature.
Volume
56
Recommended Citation
Tsige, Mesfin, "Adsorption of Methane and Propane on a LJ Wall and on Molybdenum Surface: A Simulation Study" (2011). Polymer Science Faculty Research. 386.
https://ideaexchange.uakron.edu/polymerscience_ideas/386