Catalytic mechanism and bonding analyses of Au-Pd single atom alloy (SAA): CO oxidation reaction
Autor: | Yang-Gang Wang, Cong-Qiao Xu, Ignacio L. Garzón, Sambath Baskaran, Jun Li |
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Rok vydání: | 2020 |
Předmět: |
Reaction mechanism
Materials science Coordination number Binding energy 02 engineering and technology 010402 general chemistry 021001 nanoscience & nanotechnology 01 natural sciences 0104 chemical sciences Catalysis Crystallography Molecular geometry Chemical bond Atom General Materials Science 0210 nano-technology Bimetallic strip |
Zdroj: | Science China Materials. 63:993-1002 |
ISSN: | 2199-4501 2095-8226 |
DOI: | 10.1007/s40843-019-1257-x |
Popis: | Single-atom catalysts (SACs), including metal-metal-bonded bimetallic ones named single-atom alloys (SAAs), have aroused significant interest in catalysis. In this article, the catalytic mechanism and bonding analysis of CO oxidation reaction on bimetallic gold–palladium (Au–Pd) model of single atom alloy Au37Pd1 are investigated by using quantum chemical calculations. The molecular geometries and adsorbate/substrate binding energies of CO@Au–Pd, O2@Au–Pd and CO/O2@Au–Pd configurations are identified. The core-shell structure is confirmed to be the most stable structure for Au–Pd SAA, where the Pd atom prefers to situate at the core site. Charge transfer from the Pd atom to the Au atoms has been confirmed to stabilize the structure. According to the binding energy and chemical bonding analysis, both CO and O2 prefer to bind to the Pd atom at the hex site with low coordination number. The formation of new co-adsorption species is identified, in which vertical and parallel bridging adsorptions of CO and O2 on the Au–Pd bonds are observed. CO oxidation on Au–Pd SAA is found to be feasible with low energy barriers and follows the Langmuir-Hinshewood (L-H) mechanism. Our work offers insights into the significant role of single atom of the SAAs in catalytic reactions and can provide evidence for designing new SAAs with high-performance catalytic activities. |
Databáze: | OpenAIRE |
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