Combined experimental and computational study of CO oxidation promoted by Nb in manganese oxide octahedral molecular sieves

Publication date

2015

Authors

Genuino, Homer CISNI 0000000502654718
Seraji, Mohammad S.
Meng, Yongtao
Valencia Mendoza, DiegoISNI 0000000506283950
Suib, Steven L.

Editors

Advisors

Supervisors

Document Type

Article
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License

taverne

Abstract

Framework-substituted Mn oxide octahedral molecular sieves with different Nb concentrations (2-20mol% Nb-K-OMS-2) were synthesized via a single-step reflux method allowing for direct incorporation of the dopant into the mixed-valent Mn structure. Their specific surface areas ranged from 75 to 199m2g-1 with modified composition, size, morphology, porosity, thermal stability, and redox properties depending on the extent of substitution. Catalytic testing showed that the Nb-K-OMS-2 materials were active for CO oxidation and that the presence of Nb significantly enhanced the activity of pure K-OMS-2. For example, the conversions of 1% CO at 100°C using 0%, 2%, 5%, 10%, 15%, and 20% Nb-K-OMS-2 were 4%, 10%, 25%, 62%, 59%, and 41%, respectively. When the O2 concentrations increased from 1% to 10% at 120°C, the activities of 10% and 15% Nb-K-OMS-2 materials were improved by as much as 61% and 69%, respectively. These catalysts were also stable and less prone to deactivation by moisture (~3% H2O) at temperatures >100°C than pure K-OMS-2. Theoretical calculations revealed that the substitution of Mn by Nb was a thermodynamically-favorable process and produced electrophilic centers, which can provide favorable sites for strong CO adsorption on the Nb-K-OMS-2 surface. The interaction of CO at these sites exhibited the beneficial effect of Nb substitution in the K-OMS-2 materials.

Keywords

CO oxidation, DFT calculations, Niobium substitution, Octahedral molecular sieves, Taverne, Catalysis, Process Chemistry and Technology, General Environmental Science

Citation

Genuino, H C, Seraji, M S, Meng, Y, Valencia Mendoza, D & Suib, S L 2015, 'Combined experimental and computational study of CO oxidation promoted by Nb in manganese oxide octahedral molecular sieves', Applied Catalysis B: Environmental, vol. 163, pp. 361-369. https://doi.org/10.1016/j.apcatb.2014.08.021