P. J. Schmitz scite author profile

The use of NO x traps is one strategy being pursed to enable the implementation of more fuel-efficient leanburn gasoline engines. Materials development to enhance NO x storage capacity and sulfur tolerance will be necessary for performance improvement. Progress in these areas will benefit from a more detailed understanding of the base metal oxide-precious metal surface chemistry involved in the trapping, release, and reduction of NO x . In this work, we have focused on the adsorption of NO and NO 2 on in-situ evaporated thin films of barium oxide, the primary storage material in lean NO x traps, to accentuate the details of the trapping stage of NO x conversion using these systems. X-ray photoelectron spectroscopy has been used to identify the species formed and their relative abundance following room-temperature adsorption. Annealing experiments were performed to follow changes in adsorbed species with temperature. For NO, our results are consistent with nitrites forming as a result of molecular adsorption. In the case of NO 2 , nitrates are favored at high exposure and appear to form via a nitrite intermediate. We propose that as coverage increases nitrates form via trimer formation involving two surface nitrites and an additional molecularly adsorbed NO 2 resulting in a complex in which all nitrogen centers are nitratelike. In light of results presented, an alternative and more detailed interpretation of the mechanism of NO x trapping is offered, that accounts for the NO x storage capacity benefits resulting from NO oxidation over noble-metal sites.

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Absolute intensity measurement of small angle x-ray scattering by means of a standard sample

Kratky

Pilz

Schmitz

1966

Journal of Colloid and Interface Science

352

102

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Mechanism of formation of antiwear films from zinc dialkyldithiophosphates

Willermet

Dailey

Carter

et al. 1995

Tribology International

175

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NO oxidation over supported Pt: Impact of precursor, support, loading, and processing conditions evaluated via high throughput experimentation

Schmitz

Kudla

Drews

et al. 2006

Applied Catalysis B: Environmental

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Isotope effect in water desorption from Ru(001)

et al. 1987

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P. J. Schmitz

NO and NO₂ Adsorption on Barium Oxide: Model Study of the Trapping Stage of NO_x Conversion via Lean NO_x Traps

Absolute intensity measurement of small angle x-ray scattering by means of a standard sample

Mechanism of formation of antiwear films from zinc dialkyldithiophosphates

NO oxidation over supported Pt: Impact of precursor, support, loading, and processing conditions evaluated via high throughput experimentation

Isotope effect in water desorption from Ru(001)

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P. J. Schmitz

NO and NO2 Adsorption on Barium Oxide: Model Study of the Trapping Stage of NOx Conversion via Lean NOx Traps

Absolute intensity measurement of small angle x-ray scattering by means of a standard sample

Mechanism of formation of antiwear films from zinc dialkyldithiophosphates

NO oxidation over supported Pt: Impact of precursor, support, loading, and processing conditions evaluated via high throughput experimentation

Isotope effect in water desorption from Ru(001)

Contact Info

Product

Resources

About

NO and NO₂ Adsorption on Barium Oxide: Model Study of the Trapping Stage of NO_x Conversion via Lean NO_x Traps