Issue 8, 2021
From the journal:

Catalysis Science & Technology

Au-Modified Pd catalyst exhibits improved activity and stability for NO direct decomposition

Taha Elgayyar, ORCID logo a   Josefine Schnee, ORCID logo b   Alain Tuel, ORCID logo a   Laurence Burel,a   Francoise Bosselet,a   Yves Schuurman, ORCID logo a   Frederic C. Meunier, ORCID logo *a   Laurent Delannoyb  and  Cyril Thomas ORCID logo b  

* Corresponding authors

a Univ Lyon, CNRS, Université Claude Bernard Lyon, IRCELYON, 2 Av. Albert Einstein, 69626 Villeurbanne, France
E-mail: fcm@ircelyon.univ-lyon1.fr

b CNRS, Laboratoire de Réactivité de Surface (LRS), Sorbonne Université, F-75005 Paris, France

Abstract

The direct decomposition of NOx at moderate temperatures is a challenge because of the poisoning of the surface of noble metals by oxygen, yet the modification of Pd with Au enables obtaining a highly stable catalyst under an O2-free feed at 450 °C. Care was taken to ensure that the reaction was not due to the reduction of NOx with carbonaceous residues by monitoring CO2 evolution. Pd–Au alloyed domains with a wide range of compositions were evidenced by in situ and ex situ XRD, the Pd content of which decreased with the increasing oxidising nature of the feed due to phase segregation giving rise to PdO and an Au-rich alloy. Under air, the limiting alloy composition was Pd0.2Au0.8. The catalyst was yet inactive in the presence of 5% O2.

Graphical abstract: Au-Modified Pd catalyst exhibits improved activity and stability for NO direct decomposition

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Article information

DOI
https://doi.org/10.1039/D1CY00301A
Article type
Paper
Submitted
17 Feb 2021
Accepted
25 Feb 2021
First published
26 Feb 2021
This article is Open Access
Creative Commons BY-NC license

Catal. Sci. Technol., 2021,11, 2908-2914

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Au-Modified Pd catalyst exhibits improved activity and stability for NO direct decomposition

T. Elgayyar, J. Schnee, A. Tuel, L. Burel, F. Bosselet, Y. Schuurman, F. C. Meunier, L. Delannoy and C. Thomas, Catal. Sci. Technol., 2021, 11, 2908 DOI: 10.1039/D1CY00301A

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