期刊
JOURNAL OF PHYSICAL CHEMISTRY C
卷 126, 期 33, 页码 14155-14162出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcc.2c0352314155J
关键词
-
资金
- National Natural Science Foundation of China [22172110]
Specific surface planes of metals and/or supports in heterogeneous catalysis have significant effects on catalytic processes. This study synthesized ZnO nanoplates and nanorods with different surface planes and used them as supports for Au/ZnO catalysts. The activity of Au/p-ZnO was found to be superior to that of Au/r-ZnO due to more O(2) activation sites on polar surfaces.
In heterogeneous catalysis, specific surface planes of metals and/or supports have a prominent effect on the catalytic processes, i.e., adsorption, dissociation of reactants, and electron transfer behaviors. In addition, surface planes of oxide supports have a direct impact on the shape and dispersion of metal particles through a metal-support interaction. Herein, we synthesized ZnO nanoplates (p-ZnO) exposing mostly polar surfaces and ZnO nanorods (r-ZnO) exposing non-polar surfaces and used them as supports to prepare Au/ZnO catalysts. Then, the surface plane effect of ZnO was demonstrated by employing the CO oxidation reaction. We found that the activity of Au/p-ZnO is superior to that of Au/r-ZnO, which is due to more O(2 )ctivation sites on polar surfaces than on non-polar surfaces. Furthermore, Au can activate both polar and non-polar surfaces of ZnO by creating more oxygen vacancies for O(2 )activation. This study highlights the effects of different surface planes of oxides in catalytic reactions and provides new insights for the development of highly active metal-oxide catalysts.
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