A density functional theory study of self-regenerating catalysts LaFe(1-x)M(x)O(3-y) (M = Pd, Rh, Pt)

Ikutaro Hamada; Akifumi Uozumi; Yoshitada Morikawa; Akira Yanase; Hiroshi Katayama-Yoshida

doi:10.1021/ja110302t

A density functional theory study of self-regenerating catalysts LaFe(1-x)M(x)O(3-y) (M = Pd, Rh, Pt)

J Am Chem Soc. 2011 Nov 23;133(46):18506-9. doi: 10.1021/ja110302t. Epub 2011 Oct 31.

Authors

Ikutaro Hamada¹, Akifumi Uozumi, Yoshitada Morikawa, Akira Yanase, Hiroshi Katayama-Yoshida

Affiliation

¹ WPI-Advanced Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan. ikutaro@wpi-aimr.tohoku.ac.jp

PMID: 22026920
DOI: 10.1021/ja110302t

Abstract

Periodic density functional theory was used to investigate the stability and electronic structures of precious-metal atoms in the vicinity of LaFe(1-x)M(x)O(3) (M = Pd, Rh, Pt) perovskite catalyst surfaces. It was found that the surface segregation of Pd and Pt is significantly stabilized by the introduction of O vacancies, whereas the solid-solution phase is favorable for Rh, suggesting an important role of O vacancies in the self-regeneration of Pd and Pt. On the basis of the results, we propose a possible scenario for the self-regeneration of the precious metal in the perovskite catalyst.