posted on 2018-06-18, 00:00authored byXiaoyan Yang, Yi Li, Peng Zhang, Rongmei Zhou, Hailong Peng, Dan Liu, Jianzhou Gui
Based
on the photochemical property of semiconductors, a light irradiation-assisted
strategy has been designed using one-dimensional ZnO nanorods as carriers
to synthesize the rod-type PtO2/ZnO catalyst with a well-defined
structure. The high crystallinity and uniform crystal structure of
the ZnO matrix conduct the in situ deposition of PtO2 nanoparticles
with 1.1–2.1 nm, which are evenly and densely anchored on the
surface. Those small-sized and well-dispersed PtO2 nanoparticles
endow the PtO2/ZnO catalyst a superior catalytic performance
for the reduction of 4-nitrophenol to 4-aminophenol, which can convert
all the substrates within 6.25 min. It is demonstrated that the catalytic
activity of the PtO2/ZnO catalyst is 2.3 times as high
as that of the sample obtained by traditional wet-oxidation method
under the same reaction conditions. Moreover, the light-irradiation
time has been found to greatly affect the structure and activity of
PtO2/ZnO catalysts, and the product with 30 min exhibits
the best catalytic performance in this work, as well as the good stability
for ten runs. In terms of the photoexcited process of ZnO and reactive
species-trapped experiments, the formation mechanism of PtO2/ZnO catalysts has been explored in detail, which will probably stimulate
the design and study of other metal-supported catalysts.