2015
DOI: 10.1021/acscatal.5b02093
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Defect-Mediated Gold Substitution Doping in ZnO Mesocrystals and Catalysis in CO Oxidation

Abstract: Highly dispersed supported gold with strong metal–support interaction is a desirable material for heterogeneous catalysis. Unlike current dispersion strategies of depositing gold from solution to support, we report herein a new method of producing highly dispersed gold clusters on ZnO mesocrystal. The gold clusters appeared on defect-rich twin-brush ZnO mesocrystals (TB-ZnO) via an in-and-out process: (i) a mixed Au/Zn oxide was formed first after deposition-precipitation of Au with AuCl4 –, (ii) fine Au clust… Show more

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Cited by 58 publications
(54 citation statements)
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“…In addition, from Table 1 we can see that our Au/ZnO NW-600 has similar activity to that of the standard Au/Fe 2 O 3 catalyst (provided by Gold World Council) [47] . It also has similar activity to the previously synthesized Au/ZnO samples calcined at low temperatures except in two cases where the catalysts were prepared by CVD method [48] and the Au clusters supported on defectrich twin-brush ZnO mesocrystals (TB-ZnO) [50] . These results suggest clearly that our Au/ZnO NW-600, even after being calcined at 600 °C, had high activity for CO oxidation.…”
Section: Catalytic Performancessupporting
confidence: 52%
“…In addition, from Table 1 we can see that our Au/ZnO NW-600 has similar activity to that of the standard Au/Fe 2 O 3 catalyst (provided by Gold World Council) [47] . It also has similar activity to the previously synthesized Au/ZnO samples calcined at low temperatures except in two cases where the catalysts were prepared by CVD method [48] and the Au clusters supported on defectrich twin-brush ZnO mesocrystals (TB-ZnO) [50] . These results suggest clearly that our Au/ZnO NW-600, even after being calcined at 600 °C, had high activity for CO oxidation.…”
Section: Catalytic Performancessupporting
confidence: 52%
“…Figure (b–d) shows the room‐temperature PL spectra of the ZnO and ZnS@ZnO nanosheet. As shown in Figure S6a, the peak at 387 nm can be assigned to the near band edge emission (NBE) of ZnO . The peak centered at about 468 nm can be assigned to the Zn i , which is consistent with that of Zeng et al.…”
Section: Resultssupporting
confidence: 87%
“…Its high-resolution electron microscopy images indicated a lot of Au nanocrystals epitaxially oriented on ZnO rods which means the SMSI lead to such a unique structure, and the unique metal-support interactions were proposed to be associated with the enhanced catalytic activity. Recently, Liu et al [141] designed a new method to produce highly dispersed Au clusters on ZnO meso-crystal through a ZnO defect-mediation method. Au clusters were supported on and/or doped in defect-rich twin-brush ZnO (TB-ZnO) meso-crystals (Figure 4), marked as Au/ZnO:Au.…”
Section: Co Oxidationmentioning
confidence: 99%
“…This is mainly due to the formation of Zn-Mg oxide solid solution in doped ZnO, which leads to a strong metal-support interaction, caused by the electron transfer from the ZnO substrate to Pd NPs, and this SMSI was proved to effectively restrain the sintering of the active Pd NPs, suppressing the growth of Pd NPs, and thus, enhancing the catalytic stability. Reproduced with permission from [141]. Copyright American Chemical Society, 2015.…”
Section: Other Thermo-catalytic Reactionsmentioning
confidence: 99%
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