Journal
APPLIED SURFACE SCIENCE
Volume 396, Issue -, Pages 95-101Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.apsusc.2016.11.033
Keywords
CeO2/LaCoO3; Solid state impregnation; Total benzene oxidation; O-2-TPSR; Surface oxygen species
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Funding
- National key research and development program [2016YFC0203903]
- National Natural Science Foundation of China [21407025]
- National Science Foundation of Fujian Province [2016J01047]
- Outstanding Youth Research Training Program of University of Fujian Province
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Electrospun LaCoO3 and Ce(NO3)(3) 6H(2)O were used as precursors to synthesize CeO2/LaCoO3 (SSI-LaCoCe) with high oxygen mobility by solid state impregnation. Besides, electrospinning and ball milling technologies were also adopted to prepare the other two La-Co-Ce oxides, which are denoted as ES-LaCoCe and BM-LaCoCe, respectively. The catalysts were evaluated for total benzene oxidation in comparison with bare electrospun LaCoO3 and CeO2, and characterized by means of O-2-TPSR, XRD, BET, TEM, H-2-TPR, O-2-TPD, and XPS. Relative to LaCoO3, an enhanced catalytic performance can be obtained for La-Co-Ce oxides. Importantly, the concentration of surface adsorbed oxygen species from the highest to the lowest is SSI-LaCoCe > BM-LaCoCe > ES-LaCoCe, which is in good agreement with the order of catalytic activity in terms of T-50. The high oxygen mobility in SSI-LaCoCe can be connected with sufficient interaction between active LaCoO3 and CeO2. On the other hand, O-2-TPSR analysis match well with the catalytic behaviors of La-Co-Ce oxides. Moreover, the catalyst with the best performance, SSI-LaCoCe, also represents good thermal stability during the long-term continuous test. (C) 2016 Elsevier B.V. All rights reserved.
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