1. A CO2-expanded gelation approach to prepare bimodal porous silica materials and their catalytic applications.
- Author
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Song, Lei, Lin, Ziqian, Zhao, Yafei, Hu, Xiaohui, Hong, Yanzhen, Su, Yuzhong, Wang, Hongtao, and Li, Jun
- Subjects
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SUPERCRITICAL fluids , *ESSENTIAL oils , *AQUEOUS solutions , *CATALYSIS , *POROUS silica - Abstract
Graphical abstract Highlights • CO 2 -expanded gelation approach was proposed for preparing bimodal porous materials. • CO 2 -expansion induced much short time for gelation. • CTAB template contributed to the surface area and CO 2 -expansion to the pore volume. • Bimodal silica-PW showed good selectivity and short time for 1,8-cineole from α-terpineol. • Bimodal Ni/SiO 2 exhibited excellent performance for phenol hydrogenation to cyclohexanol. Abstract In this work, a facile route was designed to fabricate bimodal porous silica with high surface area and pore volume via a CO 2 -expanded gelation with assistance of CTAB. Parameters such as the amount of CTAB, pressure of CO 2 and agitation time were investigated and optimized. Results showed bimodal silica contained small pore size (around 2 nm) from CTAB templating and large pore size (> 4 nm) from CO 2 -expanded gelation could be easily adjusted by the synthesis conditions. A typical sample with surface area of 1133 m2/g and pore volume of 1.24 mL/g was applied as a catalyst support for phosphotungstic acid, revealing much faster catalysis rate and relatively high selectivity for 1, 8-cineole from α-terpineol than the commercial MCM-41. The approach was also successfully extended to the preparation of bimodal NiO/silica composite, and the reduced Ni/silica showed higher catalysis performance than the unimodal sample for phenol hydrogenation to cyclohexanol. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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