Fabrication of La1-xCaxFeO3 perovskite-type oxides with macro-mesoporous structure via a dual-template method for highly efficient soot combustion 被引量：2

Fabrication of La1-xCaxFeO3 perovskite-type oxides with macro-mesoporous structure via a dual-template method for highly efficient soot combustion

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摘要 A series of three-dimensionally ordered macro-mesoporous(3DOMM)La1-xCaxFeO3(x=0-0.3)perovskite-type oxides were designed and successfully fabricated for the first time via a dual-template method.In which,PMMA and Brij-56 were employed as the hard template and soft template,respectively.It is found that 3 DOMM La1-xCaxFeO3 exhibits abundant wormlike mesoporous channels about 3 nm in diameter on macroporous skeleton walls.The excellent catalytic activity of soot combustion benefits from not only the well-designed hierarchical porous structure of catalyst,but also the redox electron pair of Fe3+/Fe4+induced by the doping of low-valent alkaline earth metal Ca to A-site of LaFeO3.3DOMM La0.8Ca0.2FeO3 exhibits superior catalytic performance for soot combustion,which shows T50 of396℃.It is 189℃lower than that without catalyst.A combination of structure and composition in the design of catalyst can be widely extended to other catalytic systems. A series of three-dimensionally ordered macro-mesoporous（3DOMM） La1-xCaxFeO3（x=0-0.3）perovskite-type oxides were designed and successfully fabricated for the first time via a dual-template method.In which,PMMA and Brij-56 were employed as the hard template and soft template,respectively.It is found that 3 DOMM La1-xCaxFeO3 exhibits abundant wormlike mesoporous channels about 3 nm in diameter on macroporous skeleton walls.The excellent catalytic activity of soot combustion benefits from not only the well-designed hierarchical porous structure of catalyst,but also the redox electron pair of Fe3+/Fe4+ induced by the doping of low-valent alkaline earth metal Ca to A-site of LaFeO3.3DOMM La0.8Ca0.2FeO3 exhibits superior catalytic performance for soot combustion,which shows T50 of396℃.It is 189℃lower than that without catalyst.A combination of structure and composition in the design of catalyst can be widely extended to other catalytic systems.

作者 Minjie Zhao Jixing Liu Jian Liu Junfeng Xu Zhen Zhao Yuechang Wei Weiyu Song

机构地区 State Key Laboratory of Heavy Oil Processing

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2020年第4期369-375,共7页 稀土学报（英文版）

基金 Project supported by the National Natural Science Foundation of China(U1662103,21673290) Beijing Natural Science Foundation(2182060).

关键词 Three-dimensionally ordered macro-mesoporous structure PEROVSKITE-TYPE oxides LANTHANUM ferrite SOOT combustion Rare earths Three-dimensionally ordered macro-mesoporous structure Perovskite-type oxides Lanthanum ferrite Soot combustion Rare earths

分类号 X701 [环境科学与工程—环境工程] O643.36 [理学—物理化学]

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