» Articles » PMID: 23782230

The Role of Reducible Oxide-metal Cluster Charge Transfer in Catalytic Processes: New Insights on the Catalytic Mechanism of CO Oxidation on Au/TiO2 from Ab Initio Molecular Dynamics

Overview
Journal J Am Chem Soc
Specialty Chemistry
Date 2013 Jun 21
PMID 23782230
Citations 33
Authors
Affiliations
Soon will be listed here.
Abstract

To probe metal particle/reducible oxide interactions density functional theory based ab initio molecular dynamics studies were performed on a prototypical metal cluster (Au20) supported on reducible oxides (rutile TiO2(110)) to implicitly account for finite temperature effects and the role of excess surface charge in the metal oxide. It is found that the charge state of the Au particle is negative in a reducing chemical environment whereas in the presence of oxidizing species coadsorbed to the oxide surface the cluster obtained a net positive charge. In the context of the well-known CO oxidation reaction, charge transfer facilitates the plasticization of Au20, which allows for a strong adsorbate induced surface reconstruction upon addition of CO leading to the formation of mobile Au-CO species on the surface. The charging/discharging of the cluster during the catalytic cycle of CO oxidation enhances and controls the amount of O2 adsorbed at oxide/cluster interface and strongly influences the energetics of all redox steps in catalytic conversions. A detailed comparison of the current findings with previous studies is presented, and generalities about the role of surface-adsorbate charge transfer for metal cluster/reducible oxide interactions are discussed.

Citing Articles

Dynamic phase transitions dictate the size effect and activity of supported gold catalysts.

Zhou L, Fu X, Wang R, Wang C, Luo F, Yan H Sci Adv. 2024; 10(51):eadr4145.

PMID: 39705346 PMC: 11661437. DOI: 10.1126/sciadv.adr4145.


One-Step Hydrothermal/Solvothermal Preparation of Pt/TiO: An Efficient Catalyst for Biobutanol Oxidation at Room Temperature.

Lei L, Cao Q, Ma J, Hou F Molecules. 2024; 29(7).

PMID: 38611730 PMC: 11013154. DOI: 10.3390/molecules29071450.


Advances in heterogeneous single-cluster catalysis.

Li X, Mitchell S, Fang Y, Li J, Perez-Ramirez J, Lu J Nat Rev Chem. 2023; 7(11):754-767.

PMID: 37814032 DOI: 10.1038/s41570-023-00540-8.


Systematic Characterization of Electronic Metal-Support Interactions in Ceria-Supported Pt Particles.

Castro-Latorre P, Neyman K, Bruix A J Phys Chem C Nanomater Interfaces. 2023; 127(36):17700-17710.

PMID: 37736294 PMC: 10510437. DOI: 10.1021/acs.jpcc.3c03383.


Methanol steam reforming for hydrogen production over NiTiO nanocatalyst with hierarchical porous structure.

Jin Q, Meng X, Wu P, Li Y, Xu M, Zhou R RSC Adv. 2023; 13(24):16342-16351.

PMID: 37266498 PMC: 10230518. DOI: 10.1039/d3ra02891g.