Au/3DOM LaCoO3: High-performance catalysts for the oxidation of carbon monoxide and toluene

xAu/3DOM LaCoO3 (x=1.54–7.63wt%) are prepared using the PMMA-templating and PVA-protected reduction methods. The high Oads concentration, good low-temperature reducibility, and strong interaction between Au and 3DOM LaCoO3 are responsible for the excellent catalytic performance of 7.63Au/3DOM LaCoO3...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2013-07, Vol.228, p.965-975
Main Authors: Li, Xinwei, Dai, Hongxing, Deng, Jiguang, Liu, Yuxi, Xie, Shaohua, Zhao, Zhenxuan, Wang, Yuan, Guo, Guangsheng, Arandiyan, Hamidreza
Format: Article
Language:English
Subjects:
analytical methods
Carbon monoxide
Carbon monoxide oxidation
Catalysis
Catalysts
catalytic activity
Chemical engineering
Conversion
Gold
Lanthanum cobaltite-supported Au catalyst
Metal–support interaction
Oxidation
oxygen
physicochemical properties
surface area
temperature
Three-dimensionally ordered macroporous perovskite-type oxide
Toluene
Toluene oxidation
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Summary:xAu/3DOM LaCoO3 (x=1.54–7.63wt%) are prepared using the PMMA-templating and PVA-protected reduction methods. The high Oads concentration, good low-temperature reducibility, and strong interaction between Au and 3DOM LaCoO3 are responsible for the excellent catalytic performance of 7.63Au/3DOM LaCoO3. •3DOM LaCoO3 is prepared by the polymethyl methacrylate-templating method.•xAu/3DOM LaCoO3 are prepared by the polyvinyl alcohol-protected reduction method.•xAu/3DOM LaCoO3 show high surface area and Oads concentration and good reducibility.•xAu/3DOM LaCoO3 perform excellently in the oxidation of CO and toluene.•Activity is governed by Oads content, reducibility, and strong Au–LaCoO3 interaction. Rhombohedrally crystallized three-dimensionally ordered macroporous (3DOM) LaCoO3 and its supported Au (xAu/3DOM LaCoO3, x=0–7.63wt%) catalysts were prepared using the polymethyl methacrylate-templating and polyvinyl alcohol-protected reduction methods, respectively. Physicochemical properties of the materials were characterized by means of numerous analytical techniques, and their catalytic activities were evaluated for the oxidation of toluene and CO. It is shown that the xAu/3DOM LaCoO3 samples displayed a 3DOM architecture and a high surface area of 24–29m2/g. The 7.63Au/3DOM LaCoO3 sample exhibited the highest adsorbed oxygen species concentration and the best low-temperature reducibility, and hence the best catalytic performance. Over 7.63Au/3DOM LaCoO3, the T10%, T50%, and T90% (corresponding to the temperatures required for achieving a reactant conversion of 10%, 50%, and 90%) were 136, 188, and 202°C for toluene oxidation at space velocity (SV)=20,000mL/(gh), and −61, −6, and 42°C for CO oxidation at SV=10,000mL/(gh), respectively. Over xAu/3DOM LaCoO3, the apparent activation energies were 31.4–37.4kJ/mol for toluene oxidation and 16.6–19.4kJ/mol for CO oxidation. We believe that the high oxygen adspecies concentration, good low-temperature reducibility, and strong interaction between Au and 3DOM LaCoO3 might account for the excellent catalytic performance of 7.63Au/3DOM LaCoO3.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2013.05.070