Methodology for the effective stabilization of tin-oxide-based oxidation/reduction catalysts

Assignee

• The United States of America as represented by the Administrator of the National Aeronautics and Space Administration · US

Inventors

• Jeffrey D. Jordan · Williamsburg, US
• David R. Schryer · Hampton, US
• Patricia P. Davis · Newport News, US
• Bradley D. Leighty · Gloucester Courthouse, US
• Anthony Watkins · Hampton, US
• Jacqueline L. Schryer · Hampton, US
• Donald M. Oglesby · Virginia Beach, US
• Suresh T. Gulati · Elmira, US
• Jerry C. Summers · Charleston, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02T10/12
• WIPO fieldChemical engineering
• WIPO sectorChemistry

Abstract

The invention described herein involves a novel approach to the production of oxidation/reduction catalytic systems. The present invention serves to stabilize the tin oxide reducible metal-oxide coating by co-incorporating at least another metal-oxide species, such as zirconium. In one embodiment, a third metal-oxide species is incorporated, selected from the group consisting of cerium, lanthanum, hafnium, and ruthenium. The incorporation of the additional metal oxide components serves to stabilize the active tin-oxide layer in the catalytic process during high-temperature operation in a reducing environment (e.g., automobile exhaust). Moreover, the additional metal oxides are active components due to their oxygen-retention capabilities. Together, these features provide a mechanism to extend the range of operation of the tin-oxide-based catalyst system for automotive applications, while maintaining the existing advantages.