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Literature DB >> 29488520

A computational study of supported Cu-based bimetallic nanoclusters for CO oxidation.

Yulu Liu¹, Hao Li, Wanglai Cen, Jianjun Li, Zhengming Wang, Graeme Henkelman.

Abstract

In this study, we used DFT calculations to investigate the bi-functional nature of Cu-based alloy nanoclusters (NCs) supported on CeO2(111) for CO oxidation. More specifically, we studied the reaction pathways on Cu3Pt7 and Cu3Rh7via the O2 associative (OCOO) and dissociative mechanisms. We find that CO oxidation on Cu3Pt7 proceeds via the O2 dissociation pathway, while Cu3Rh7 prefers the OCOO mechanism. Combined with our previous results on Cu3Au7, we find that bi-functional CO oxidation on Cu-based alloys follows a Brønsted-Evans-Polanyi relationship, which provides a useful metric for the design of bi-functional alloyed catalysts.

Entities: Chemical

Year: 2018 PMID： 29488520 DOI： 10.1039/c7cp08578h

Source DB: PubMed Journal: Phys Chem Chem Phys ISSN： 1463-9076 Impact factor: 3.676

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Cited

1 in total

1. Mechanism analysis of Au, Ru noble metal clusters modified on TiO₂ (101) to intensify overall photocatalytic water splitting.

Authors: Libin Yang; Peng Gao; Jinghao Lu; Wei Guo; Zhuang Zhuang; Qingqing Wang; Wenjing Li; Zhiying Feng
Journal: RSC Adv Date: 2020-06-01 Impact factor: 4.036

1 in total

A computational study of supported Cu-based bimetallic nanoclusters for CO oxidation.

1. Mechanism analysis of Au, Ru noble metal clusters modified on TiO2 (101) to intensify overall photocatalytic water splitting.

1. Mechanism analysis of Au, Ru noble metal clusters modified on TiO₂ (101) to intensify overall photocatalytic water splitting.