1. High-surface-area SmMn2O5 nanosheets with crystal orientation for propane combustion: A facile microwave-assisted hydrothermal method
- Author
-
Baofang Jin, Wenling Li, Jiancai Ding, Xiaodong Wu, Zhichun Si, Heng Mao, Duan Weng, Rui Ran, and Yue Ma
- Subjects
Materials science ,General Chemical Engineering ,Organic Chemistry ,Energy Engineering and Power Technology ,chemistry.chemical_element ,Mullite ,Oxygen ,Hydrothermal circulation ,law.invention ,Catalysis ,chemistry.chemical_compound ,Fuel Technology ,Chemical engineering ,chemistry ,Propane ,law ,Specific surface area ,Calcination ,BET theory - Abstract
SmMn2O5 nanosheets with high specific surface area and (0 0 1) facet orientation were synthesized by a facile and efficient microwave-assisted hydrothermal strategy. The BET surface area of the leaf-like mullite (SMO-MW) reached 122 m2/g, which was about 4 times to that of counterpart (SMO-HT) prepared by conventional hydrothermal method. The relative intensity ratio of (0 0 1) facet to (2 1 1) in SMO-MW was 0.74 ~ 0.87, which was higher than 0.23 ~ 0.28 in SMO-HT. Compared with SMO-HT, the Mnx+ reduction temperature of SMO-MW declined significantly (ΔT = 63 °C for Mn4+→Mn3+, and ΔT = 76 °C for Mn3+→Mn2+) in the temperature-programmed reduction with H2. Moreover, the weakened Mn-O bonds, higher concentration of Mn4+ ions, and more chemisorbed oxygen were obtained via microwave irradiation. The pre-exponential factors of SMO-MW reached about 9 times comparing with those of SMO-HT, revealing the generation of more active sites. Impressively, the MW-500 calcined at 500 °C exhibited high catalytic performance with a 50% C3H8 conversion at 243 °C, which was competitive with 1 wt% Pd/Al2O3 catalyst. Meanwhile, it kept above 90% propane conversion during 80 h durability test at 285 °C. This study was expected to promote a new strategy on developing efficient mixed oxides catalysts for environmental and energy applications.
- Published
- 2021
- Full Text
- View/download PDF