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First principles investigation of heterogeneous catalysis on metal oxide surfaces

Posted on:2017-03-05Degree:MasterType:Thesis
Country:ChinaCandidate:Ghoussoub, MireilleFull Text:PDF
GTID:2461390014466483Subject:Materials science
Abstract/Summary:PDF Full Text Request
Metal oxides possess unique electronic and structural properties that render them highly favourable for applications in heterogeneous catalysis. In this study, computational atomistic modelling based on Density Functional Theory was used to investigate the reduction of carbon dioxide over hydroxylated indium oxide nanoparticles, as well at the activation of methane over oxygen-covered bimetallic surfaces. The first study employed metadynamics-biased ab initio molecular dynamics to obtain the free energy surface of the various reaction steps at finite temperature. In the second study, the nudged elastic band method was used to probe the C-H activation mechanisms for different surface configurations. In both cases, activation energies, reaction energies, transition state structures, and charge analysis results are used to explain the underlying mechanistic pathways.
Keywords/Search Tags:Heterogeneous catalysis
PDF Full Text Request
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