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Graph Theory Model of Dry Reforming of Methane Using Rh(111)

Eric A. Walker, Mohammad Moein Mohammadi, Mark T. Swihart

2020The Journal of Physical Chemistry Letters23 citationsDOI

Abstract

) using Rh(111) are approximated. Graph theory creates descriptors of the intermediates. The information recorded in these descriptors includes the elemental identities of each atom, its neighbors, and its next-nearest neighbors. Graph theory is employed because it is a rapid approximation of more expensive density functional theory (DFT) calculations and because the descriptors created by graph theory are both human and machine interpretable. DRM contains a significant number of adsorbates, and side reactions, including reverse water-gas shift, may occur simultaneously. Therefore, DRM is well-poised for analysis by a graph theory model to predict large numbers of adsorption energies. A portion of adsorbates were calculated with DFT. Then, predictions were reported for the remaining adsorption energies not calculated with DFT.

Topics & Concepts

MethaneCarbon dioxide reformingGraphChemistryEnvironmental scienceMathematicsCombinatoricsSyngasCatalysisOrganic chemistryDistributed and Parallel Computing SystemsCatalysis and Oxidation ReactionsCatalysts for Methane Reforming
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