Skip to main content
Journal ArticleOPEN ACCESS

CO Oxidation on Stepped Rh Surfaces: μm-Scale Versus Nanoscale

Catalysis Letters (2020) 150(3) 605-612
DOI: 10.1007/s10562-019-02950-0
14Citations
Citations of this article
12Readers
Mendeley users who have this article in their library.

This article is free to access.

Abstract

Abstract: The catalytic CO oxidation reaction on stepped Rh surfaces in the 10−6 mbar pressure range was studied in situ on individual μm-sized high-Miller-index domains of a polycrystalline Rh foil and on nm-sized facets of a Rh tip, employing photoemission electron microscopy (PEEM) and field-ion/field-emission microscopy (FIM/FEM), respectively. Such approach permits a direct comparison of the reaction kinetics for crystallographically different regions under identical reaction conditions. The catalytic activity of the different Rh surfaces, particularly their tolerance towards poisoning by CO, was found to be strongly dependent on the density of steps and defects, as well as on the size (µm vs. nm) of the respective catalytically active surface.

Author supplied keywords

References Powered by Scopus

Reactions at surfaces: From atoms to complexity (nobel lecture)

Angewandte Chemie - International Edition
1142Citations
N/AReaders
Get full text

Chemical reaction models for non-equilibrium phase transitions

Zeitschrift für Physik
826Citations
N/AReaders
Get full text

Fuel cells: Principles, types, fuels, and applications

ChemPhysChem
787Citations
N/AReaders
Get full text
View more at Scopus

Cited by Powered by Scopus

Sum frequency generation spectroscopy in heterogeneous model catalysis: A minireview of CO-related processes

Catalysis Science and Technology
21Citations
N/AReaders
Get full text

Nanoscale Perspectives of Metal Degradation via In Situ Atom Probe Tomography

Topics in Catalysis
17Citations
N/AReaders
Get full text

A phosphorus modified mesoporous AuRh film as an efficient bifunctional electrocatalyst for urea-assisted energy-saving hydrogen production

Journal of Materials Chemistry A
16Citations
N/AReaders
Get full text
View more at Scopus

Register to see more suggestions

Mendeley helps you to discover research relevant for your work.

Already have an account?

Cite

CITATION STYLE

APA

Suchorski, Y., Bespalov, I., Zeininger, J., Raab, M., Datler, M., Winkler, P., & Rupprechter, G. (2020). CO Oxidation on Stepped Rh Surfaces: μm-Scale Versus Nanoscale. Catalysis Letters, 150(3), 605–612. https://doi.org/10.1007/s10562-019-02950-0

Readers' Seniority

Tooltip

PhD / Post grad / Masters / Doc 5

50%

Researcher 3

30%

Professor / Associate Prof. 2

20%

Readers' Discipline

Tooltip

Chemistry 5

56%

Materials Science 2

22%

Social Sciences 1

11%

Physics and Astronomy 1

11%

Save time finding and organizing research with Mendeley

Sign up for free