Quantum Origin of the Oxygen Storage Capability of Ceria

Top Cited Papers

26 September 2002

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 89 (16) , 166601
https://doi.org/10.1103/physrevlett.89.166601

Abstract

The microscopic mechanism behind the extraordinary ability of ceria to store, release, and transport oxygen is explained on the basis of first-principles quantum mechanical simulations. The oxygen-vacancy formation energy in ceria is calculated for different local environments. The reversible

C e O_{2}

C e_{2} O_{3}

reduction transition associated with oxygen-vacancy formation and migration is shown to be directly coupled with the quantum process of electron localization.

Keywords

This publication has 24 references indexed in Scilit:

Alternative energy technologies
Nature, 2001
Materials for fuel-cell technologies
Nature, 2001
A Low-Operating-Temperature Solid Oxide Fuel Cell in Hydrocarbon-Air Mixtures
Science, 2000
Direct oxidation of hydrocarbons in a solid-oxide fuel cell
Nature, 2000
Comparison of the Bulk and Surface Properties of Ceria and Zirconia by ab Initio Investigations
The Journal of Physical Chemistry B, 1999
Computer Simulation Studies of Bulk Reduction and Oxygen Migration in CeO₂−ZrO₂Solid Solutions
The Journal of Physical Chemistry B, 1997
Computer modeling of surfaces and defects on cerium dioxide
Surface Science, 1995
Kondo Volume Collapse and the $γ \to α$ Transition in Cerium
Physical Review Letters, 1982
The α-γ transition in cerium is a Mott transition
Philosophical Magazine, 1974
Concerning the High Pressure Allotropic Modification of Cerium
Physical Review B, 1949