Equilibrium Oxygen Storage Capacity of Ultrathin CeO Depends Non-monotonically on Large Biaxial Strain

Overview

Journal Nat Commun

Specialty Biology

Date 2017 May 19

PMID 28516915

Citations 10

Authors

Chirranjeevi Balaji Gopal

Max Garcia-Melchor

Sang Chul Lee

Yezhou Shi

Andrey Shavorskiy

Matteo Monti

Zixuan Guan

Robert Sinclair

Hendrik Bluhm

Aleksandra Vojvodic

William C Chueh

Affiliations

Soon will be listed here.

Abstract

Elastic strain is being increasingly employed to enhance the catalytic properties of mixed ion-electron conducting oxides. However, its effect on oxygen storage capacity is not well established. Here, we fabricate ultrathin, coherently strained films of CeO between 5.6% biaxial compression and 2.1% tension. In situ ambient pressure X-ray photoelectron spectroscopy reveals up to a fourfold enhancement in equilibrium oxygen storage capacity under both compression and tension. This non-monotonic variation with strain departs from the conventional wisdom based on a chemical expansion dominated behaviour. Through depth profiling, film thickness variations and a coupled photoemission-thermodynamic analysis of space-charge effects, we show that the enhanced reducibility is not dominated by interfacial effects. On the basis of ab initio calculations of oxygen vacancy formation incorporating defect interactions and vibrational contributions, we suggest that the non-monotonicity arises from the tetragonal distortion under large biaxial strain. These results may guide the rational engineering of multilayer and core-shell oxide nanomaterials.

Citing Articles

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