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Understanding and Controlling Metal-Support Interactions in Nanocrystalline Bimetallic Catalysts

Technical Report ·
DOI:https://doi.org/10.2172/885190· OSTI ID:885190
 [1];
  1. Department of Materials Science, University of Virginia
+ Show Author Affiliations

The objectives of this research are to: 1) determine the catalytic behavior of model Pd and Rh catalysts on unpromoted and ceria-promoted supports, for the reduction of NO and N2O with CO, 2) determine the microstructures of the catalysts both before and after reaction in order to understand the catalytic behavior, and 3) understand the role of the metal/support interface in the catalytic process. The research examined the influence of Pd particle size and ceria loading on catalytic reaction for the NO+CO reaction. Dihydrogen chemisorption, temperature-programmed desorption (TPD) of NO, and high-resolution transmission electron microscopy (HRTEM) were used to characterize the catalyst samples. It was found that when ceria is used to promote Pd particles, the activity for NO+CO was a maximum for 2-nm-sized Pd particles. The maximum in activity results from a balance between the Pd/ceria interface, which enhances NO dissociation, and the close-packed planes of the Pd particles that facilitate product formation and/or desorption. The variations in apparent reaction orders and results from TPD were consistent with the idea that NO dissociation is promoted on very small particles (1 nm) and by the addition of ceria. Characterization of the catalysts by HRTEM showed that the ceria was typically present in the form of small crystallites from 3-7 nm in diameter, deposited near Pd particles, rather than as a thin film on the alumina support. This occurred whether the ceria was deposited before or after the Pd particles.

Research Organization:
University of Virginia, Charlottesville, VA
Sponsoring Organization:
USDOE - Office of Science (SC), Basic Energy Sciences, Division of Chemical Sciences
DOE Contract Number:
FG02-96ER14663
OSTI ID:
885190
Report Number(s):
DOE/ER/14663
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
CATALYSTS
CHEMISORPTION
Catalysis
Heterogeneous
Ceria Promotion
Metal-Support Interface
DESORPTION
DISSOCIATION
PARTICLE SIZE
THIN FILMS
TRANSMISSION ELECTRON MICROSCOPY