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Mehdi D. Esrafili

Mehdi D. Esrafili

Academic rank: Professor
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Education: PhD.
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Research

Title
DFT calculations on the catalytic oxidation of CO over Si-doped (6,0) boron nitride nanotubes
Type
JournalPaper
Keywords
CO oxidation : DFT : Single vacancy : BNNT : Energy barrier
Year
2016
Journal Structural Chemistry
DOI
Researchers Mehdi D. Esrafili ،

Abstract

The oxidation of carbon monoxide (CO) is important for a series of technological and environmental applications. In this work, the catalytic oxidation of CO on Si-doped (6,0) boron nitride nanotubes (BNNTs) is inves- tigated by using density functional theory calculations. Reaction barriers and corresponding thermodynamic pa- rameters were calculated using the M06-2X, B3LYP and wB97XD density functionals with 6-31G* basis set. Our results indicate that a vacancy defect in BNNT strongly stabilizes the Si adatom and makes it more positively charged. This charging enhances the adsorption of reaction gases (O 2 and CO) and results in the change of the elec- tronic structure properties of the tube. The calculated bar- rier of the reaction CO ? O 2 ? CO 2 ? O ads on Si-doped BNNTs following the Langmuir–Hinshelwood is lower than that on the traditional noble metal catalysts. The second step of the oxidation would be the Eley–Rideal reaction (CO ? O ads ? CO 2 ) with an energy barrier of about 1.8 and 10.1 kcal/mol at M06-2X/6-31G* level. This suggests that the CO oxidation catalyzed by the Si-doped BNNTs is likely to occur at the room temperature. The results also demonstrate that the activation energies and thermodynamic quantities calculated by M06-2X, B3LYP and wB97XD functionals are consistent with each other.