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Literature DB >> 27553251

The Significance of Lewis Acid Sites for the Selective Catalytic Reduction of Nitric Oxide on Vanadium-Based Catalysts.

Adrian Marberger^1,2, Davide Ferri³, Martin Elsener¹, Oliver Kröcher^1,2.

Abstract

The long debated reaction mechanisms of the selective catalytic reduction (SCR) of nitric oxide with ammonia (NH3 ) on vanadium-based catalysts rely on the involvement of Brønsted or Lewis acid sites. This issue has been clearly elucidated using a combination of transient perturbations of the catalyst environment with operando time-resolved spectroscopy to obtain unique molecular level insights. Nitric oxide reacts predominantly with NH3 coordinated to Lewis sites on vanadia on tungsta-titania (V2 O5 -WO3 -TiO2 ), while Brønsted sites are not involved in the catalytic cycle. The Lewis site is a mono-oxo vanadyl group that reduces only in the presence of both nitric oxide and NH3 . We were also able to verify the formation of the nitrosamide (NH2 NO) intermediate, which forms in tandem with vanadium reduction, and thus the entire mechanism of SCR. Our experimental approach, demonstrated in the specific case of SCR, promises to progress the understanding of chemical reactions of technological relevance.

Entities: Chemical

Keywords: Lewis acid sites; NH3-SCR; mechanisms; modulated excitation; operando spectroscopy

Year: 2016 PMID： 27553251 DOI： 10.1002/anie.201605397

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

9 in total

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Journal: Sci Adv Date: 2018-11-30 Impact factor: 14.136

4. In Situ DRIFTS Studies of NH₃-SCR Mechanism over V₂O₅-CeO₂/TiO₂-ZrO₂ Catalysts for Selective Catalytic Reduction of NO_x.

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6. Simple physical mixing of zeolite prevents sulfur deactivation of vanadia catalysts for NO_x removal.

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7. Interconversion between Lewis and Brønsted-Lowry acid sites on vanadia-based catalysts.

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8. Tailored Alkali Resistance of DeNO_x Catalysts by Improving Redox Properties and Activating Adsorbed Reactive Species.

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9. Detection of key transient Cu intermediates in SSZ-13 during NH₃-SCR deNO _x by modulation excitation IR spectroscopy.

Authors: Alex G Greenaway; Adrian Marberger; Adam Thetford; Inés Lezcano-González; Miren Agote-Arán; Maarten Nachtegaal; Davide Ferri; Oliver Kröcher; C Richard A Catlow; Andrew M Beale
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