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Thermochemistry of Organic Reactions in Microporous Oxides by Atomistic Simulations: Benchmarking against Periodic B3LYP

Abstract

The methylation of ethene by methyl chloride and methanol in the microporous materials SAPO-34 and SSZ-13 has been studied using different periodic atomistic modeling approaches based on density functional theory. The RPBE functional, which earlier has been used successfully in studies of surface reactions on metals, fails to yield a qualitatively correct description of the transition states under study. Employing B3LYP as functional gives results in line with experimental data: (1) Methanol is adsorbed more strongly than methyl chloride to the acid site. (2) The activation energies for the methylation of ethene are slightly lower for SSZ-13. Furthermore, the B3LYP activation energies are lower for methyl chloride than for methanol.

Category

Academic article

Client

  • Sigma2 / NN2147K

Language

English

Author(s)

Affiliation

  • University of Oslo
  • SINTEF Energy Research

Year

2010

Published in

Journal of Physical Chemistry A

ISSN

1089-5639

Volume

114

Issue

27

Page(s)

7391 - 7397

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