期刊
RSC ADVANCES
卷 11, 期 14, 页码 8375-8383出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1ra00227a
关键词
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资金
- China Petroleum & Chemical Corporation [J418013-3]
- Jiangsu Scientific and Technological Transformative Project [SBA2018030374]
- Centre for Analysis, Nanjing Normal University
Layered double hydroxides are a promising platform material for combining with various active species, and the Ce-doped LDH composite with a core-shell structure shows excellent catalytic activity, enhanced reaction efficiency, and the introduction of cerium oxide provides additional reaction sites.
Layered double hydroxides are a promising platform material which can be combined with a variety of active species based on their characteristic features. Silicon@P123-templated Ce-doped layered double hydroxide (SiO2@CeMgAl-LDH(P123)) composites were synthesized via a facile in situ co-precipitation method, and characterized by TEM, X-ray diffraction, FTIR, XPS, CO2-, etc. in detail. Meanwhile, the calcined powder (SiO2@CeMgAl-LDO(P123)) possessed an excellent core-shell structure and a high surface area inherited from the LDH structure, which led to an outstanding catalytic activity (99.7% conversion of propylene oxide, 92.4% selectivity of propylene glycol methyl ether) under mild reaction conditions (120 degrees C). Cerium oxide provides a large number of oxygen vacancies and significantly improves the medium basic strength of the material, which facilitates the selective ring-opening of PO. Furthermore, the introduction and removal of P123 make the cerium oxide uniformly dispersed on the LDH layers, providing more reaction sites for the reaction of methanol and propylene oxide. The core-shell structure prepared by the in situ co-precipitation method could solve the shortcomings of agglomeration of layered double hydroxides and prolong the catalytic life evidently.
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